freebsd-dev/contrib/netbsd-tests/net/if_gif/t_gif.sh
Enji Cooper cdebaff820 Upgrade NetBSD tests to 01.11.2017_23.20 snapshot
This contains some new testcases in /usr/tests/...:

- .../lib/libc
- .../lib/libthr
- .../lib/msun
- .../sys/kern

Tested on:	amd64, i386
MFC after:	1 month
2017-01-13 03:33:57 +00:00

764 lines
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Executable File

# $NetBSD: t_gif.sh,v 1.9 2016/12/21 09:46:39 ozaki-r Exp $
#
# Copyright (c) 2015 Internet Initiative Japan Inc.
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
# ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
# TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
#
SOCK1=unix://commsock1 # for ROUTER1
SOCK2=unix://commsock2 # for ROUTER2
ROUTER1_LANIP=192.168.1.1
ROUTER1_LANNET=192.168.1.0/24
ROUTER1_WANIP=10.0.0.1
ROUTER1_GIFIP=172.16.1.1
ROUTER1_WANIP_DUMMY=10.0.0.11
ROUTER1_GIFIP_DUMMY=172.16.11.1
ROUTER1_GIFIP_RECURSIVE1=172.16.101.1
ROUTER1_GIFIP_RECURSIVE2=172.16.201.1
ROUTER2_LANIP=192.168.2.1
ROUTER2_LANNET=192.168.2.0/24
ROUTER2_WANIP=10.0.0.2
ROUTER2_GIFIP=172.16.2.1
ROUTER2_WANIP_DUMMY=10.0.0.12
ROUTER2_GIFIP_DUMMY=172.16.12.1
ROUTER2_GIFIP_RECURSIVE1=172.16.102.1
ROUTER2_GIFIP_RECURSIVE2=172.16.202.1
ROUTER1_LANIP6=fc00:1::1
ROUTER1_LANNET6=fc00:1::/64
ROUTER1_WANIP6=fc00::1
ROUTER1_GIFIP6=fc00:3::1
ROUTER1_WANIP6_DUMMY=fc00::11
ROUTER1_GIFIP6_DUMMY=fc00:13::1
ROUTER1_GIFIP6_RECURSIVE1=fc00:103::1
ROUTER1_GIFIP6_RECURSIVE2=fc00:203::1
ROUTER2_LANIP6=fc00:2::1
ROUTER2_LANNET6=fc00:2::/64
ROUTER2_WANIP6=fc00::2
ROUTER2_GIFIP6=fc00:4::1
ROUTER2_WANIP6_DUMMY=fc00::12
ROUTER2_GIFIP6_DUMMY=fc00:14::1
ROUTER2_GIFIP6_RECURSIVE1=fc00:104::1
ROUTER2_GIFIP6_RECURSIVE2=fc00:204::1
DEBUG=${DEBUG:-true}
TIMEOUT=5
setup_router()
{
sock=${1}
lan=${2}
lan_mode=${3}
wan=${4}
wan_mode=${5}
rump_server_add_iface $sock shmif0 bus0
rump_server_add_iface $sock shmif1 bus1
export RUMP_SERVER=${sock}
if [ ${lan_mode} = "ipv6" ]; then
atf_check -s exit:0 rump.ifconfig shmif0 inet6 ${lan}
else
atf_check -s exit:0 rump.ifconfig shmif0 inet ${lan} netmask 0xffffff00
fi
atf_check -s exit:0 rump.ifconfig shmif0 up
rump.ifconfig shmif0
if [ ${wan_mode} = "ipv6" ]; then
atf_check -s exit:0 rump.ifconfig shmif1 inet6 ${wan}
else
atf_check -s exit:0 rump.ifconfig shmif1 inet ${wan} netmask 0xff000000
fi
atf_check -s exit:0 rump.ifconfig shmif1 up
rump.ifconfig shmif1
}
test_router()
{
sock=${1}
lan=${2}
lan_mode=${3}
wan=${4}
wan_mode=${5}
export RUMP_SERVER=${sock}
atf_check -s exit:0 -o match:shmif0 rump.ifconfig
if [ ${lan_mode} = "ipv6" ]; then
atf_check -s exit:0 -o ignore rump.ping6 -n -c 1 -X $TIMEOUT ${lan}
else
atf_check -s exit:0 -o ignore rump.ping -n -c 1 -w $TIMEOUT ${lan}
fi
atf_check -s exit:0 -o match:shmif1 rump.ifconfig
if [ ${wan_mode} = "ipv6" ]; then
atf_check -s exit:0 -o ignore rump.ping6 -n -c 1 -X $TIMEOUT ${wan}
else
atf_check -s exit:0 -o ignore rump.ping -n -c 1 -w $TIMEOUT ${wan}
fi
}
setup()
{
inner=${1}
outer=${2}
rump_server_start $SOCK1 netinet6 gif
rump_server_start $SOCK2 netinet6 gif
router1_lan=""
router1_lan_mode=""
router2_lan=""
router2_lan_mode=""
if [ ${inner} = "ipv6" ]; then
router1_lan=$ROUTER1_LANIP6
router1_lan_mode="ipv6"
router2_lan=$ROUTER2_LANIP6
router2_lan_mode="ipv6"
else
router1_lan=$ROUTER1_LANIP
router1_lan_mode="ipv4"
router2_lan=$ROUTER2_LANIP
router2_lan_mode="ipv4"
fi
if [ ${outer} = "ipv6" ]; then
setup_router $SOCK1 ${router1_lan} ${router1_lan_mode} \
$ROUTER1_WANIP6 ipv6
setup_router $SOCK2 ${router2_lan} ${router2_lan_mode} \
$ROUTER2_WANIP6 ipv6
else
setup_router $SOCK1 ${router1_lan} ${router1_lan_mode} \
$ROUTER1_WANIP ipv4
setup_router $SOCK2 ${router2_lan} ${router2_lan_mode} \
$ROUTER2_WANIP ipv4
fi
}
test_setup()
{
inner=${1}
outer=${2}
router1_lan=""
router1_lan_mode=""
router2_lan=""
router2_lan_mode=""
if [ ${inner} = "ipv6" ]; then
router1_lan=$ROUTER1_LANIP6
router1_lan_mode="ipv6"
router2_lan=$ROUTER2_LANIP6
router2_lan_mode="ipv6"
else
router1_lan=$ROUTER1_LANIP
router1_lan_mode="ipv4"
router2_lan=$ROUTER2_LANIP
router2_lan_mode="ipv4"
fi
if [ ${outer} = "ipv6" ]; then
test_router $SOCK1 ${router1_lan} ${router1_lan_mode} \
$ROUTER1_WANIP6 ipv6
test_router $SOCK2 ${router2_lan} ${router2_lan_mode} \
$ROUTER2_WANIP6 ipv6
else
test_router $SOCK1 ${router1_lan} ${router1_lan_mode} \
$ROUTER1_WANIP ipv4
test_router $SOCK2 ${router2_lan} ${router2_lan_mode} \
$ROUTER2_WANIP ipv4
fi
}
setup_if_gif()
{
sock=${1}
addr=${2}
remote=${3}
inner=${4}
src=${5}
dst=${6}
peernet=${7}
export RUMP_SERVER=${sock}
atf_check -s exit:0 rump.ifconfig gif0 create
atf_check -s exit:0 rump.ifconfig gif0 tunnel ${src} ${dst}
if [ ${inner} = "ipv6" ]; then
atf_check -s exit:0 rump.ifconfig gif0 inet6 ${addr}/128 ${remote}
atf_check -s exit:0 -o ignore rump.route add -inet6 ${peernet} ${addr}
else
atf_check -s exit:0 rump.ifconfig gif0 inet ${addr}/32 ${remote}
atf_check -s exit:0 -o ignore rump.route add -inet ${peernet} ${addr}
fi
rump.ifconfig gif0
rump.route -nL show
}
setup_tunnel()
{
inner=${1}
outer=${2}
addr=""
remote=""
src=""
dst=""
peernet=""
if [ ${inner} = "ipv6" ]; then
addr=$ROUTER1_GIFIP6
remote=$ROUTER2_GIFIP6
peernet=$ROUTER2_LANNET6
else
addr=$ROUTER1_GIFIP
remote=$ROUTER2_GIFIP
peernet=$ROUTER2_LANNET
fi
if [ ${outer} = "ipv6" ]; then
src=$ROUTER1_WANIP6
dst=$ROUTER2_WANIP6
else
src=$ROUTER1_WANIP
dst=$ROUTER2_WANIP
fi
setup_if_gif $SOCK1 ${addr} ${remote} ${inner} \
${src} ${dst} ${peernet}
if [ $inner = "ipv6" ]; then
addr=$ROUTER2_GIFIP6
remote=$ROUTER1_GIFIP6
peernet=$ROUTER1_LANNET6
else
addr=$ROUTER2_GIFIP
remote=$ROUTER1_GIFIP
peernet=$ROUTER1_LANNET
fi
if [ $outer = "ipv6" ]; then
src=$ROUTER2_WANIP6
dst=$ROUTER1_WANIP6
else
src=$ROUTER2_WANIP
dst=$ROUTER1_WANIP
fi
setup_if_gif $SOCK2 ${addr} ${remote} ${inner} \
${src} ${dst} ${peernet}
}
test_setup_tunnel()
{
mode=${1}
peernet=""
opt=""
if [ ${mode} = "ipv6" ]; then
peernet=$ROUTER2_LANNET6
opt="-inet6"
else
peernet=$ROUTER2_LANNET
opt="-inet"
fi
export RUMP_SERVER=$SOCK1
atf_check -s exit:0 -o match:gif0 rump.ifconfig
atf_check -s exit:0 -o match:gif0 rump.route -nL get ${opt} ${peernet}
if [ ${mode} = "ipv6" ]; then
peernet=$ROUTER1_LANNET6
opt="-inet6"
else
peernet=$ROUTER1_LANNET
opt="-inet"
fi
export RUMP_SERVER=$SOCK2
atf_check -s exit:0 -o match:gif0 rump.ifconfig
atf_check -s exit:0 -o match:gif0 rump.route -nL get ${opt} ${peernet}
}
teardown_tunnel()
{
export RUMP_SERVER=$SOCK1
atf_check -s exit:0 rump.ifconfig gif0 deletetunnel
atf_check -s exit:0 rump.ifconfig gif0 destroy
export RUMP_SERVER=$SOCK2
atf_check -s exit:0 rump.ifconfig gif0 deletetunnel
atf_check -s exit:0 rump.ifconfig gif0 destroy
}
setup_dummy_if_gif()
{
sock=${1}
addr=${2}
remote=${3}
inner=${4}
src=${5}
dst=${6}
export RUMP_SERVER=${sock}
atf_check -s exit:0 rump.ifconfig gif1 create
atf_check -s exit:0 rump.ifconfig gif1 tunnel ${src} ${dst}
if [ ${inner} = "ipv6" ]; then
atf_check -s exit:0 rump.ifconfig gif1 inet6 ${addr}/128 ${remote}
else
atf_check -s exit:0 rump.ifconfig gif1 inet ${addr}/32 ${remote}
fi
rump.ifconfig gif1
}
setup_dummy_tunnel()
{
inner=${1}
outer=${2}
addr=""
remote=""
src=""
dst=""
if [ ${inner} = "ipv6" ]; then
addr=$ROUTER1_GIFIP6_DUMMY
remote=$ROUTER2_GIFIP6_DUMMY
else
addr=$ROUTER1_GIFIP_DUMMY
remote=$ROUTER2_GIFIP_DUMMY
fi
if [ ${outer} = "ipv6" ]; then
src=$ROUTER1_WANIP6_DUMMY
dst=$ROUTER2_WANIP6_DUMMY
else
src=$ROUTER1_WANIP_DUMMY
dst=$ROUTER2_WANIP_DUMMY
fi
setup_dummy_if_gif $SOCK1 ${addr} ${remote} ${inner} \
${src} ${dst}
if [ $inner = "ipv6" ]; then
addr=$ROUTER2_GIFIP6_DUMMY
remote=$ROUTER1_GIFIP6_DUMMY
else
addr=$ROUTER2_GIFIP_DUMMY
remote=$ROUTER1_GIFIP_DUMMY
fi
if [ $outer = "ipv6" ]; then
src=$ROUTER2_WANIP6_DUMMY
dst=$ROUTER1_WANIP6_DUMMY
else
src=$ROUTER2_WANIP_DUMMY
dst=$ROUTER1_WANIP_DUMMY
fi
setup_dummy_if_gif $SOCK2 ${addr} ${remote} ${inner} \
${src} ${dst}
}
test_setup_dummy_tunnel()
{
export RUMP_SERVER=$SOCK1
atf_check -s exit:0 -o match:gif1 rump.ifconfig
export RUMP_SERVER=$SOCK2
atf_check -s exit:0 -o match:gif1 rump.ifconfig
}
teardown_dummy_tunnel()
{
export RUMP_SERVER=$SOCK1
atf_check -s exit:0 rump.ifconfig gif1 deletetunnel
atf_check -s exit:0 rump.ifconfig gif1 destroy
export RUMP_SERVER=$SOCK2
atf_check -s exit:0 rump.ifconfig gif1 deletetunnel
atf_check -s exit:0 rump.ifconfig gif1 destroy
}
setup_recursive_if_gif()
{
sock=${1}
gif=${2}
addr=${3}
remote=${4}
inner=${5}
src=${6}
dst=${7}
export RUMP_SERVER=${sock}
atf_check -s exit:0 rump.ifconfig ${gif} create
atf_check -s exit:0 rump.ifconfig ${gif} tunnel ${src} ${dst}
if [ ${inner} = "ipv6" ]; then
atf_check -s exit:0 rump.ifconfig ${gif} inet6 ${addr}/128 ${remote}
else
atf_check -s exit:0 rump.ifconfig ${gif} inet ${addr}/32 ${remote}
fi
rump.ifconfig ${gif}
}
# test in ROUTER1 only
setup_recursive_tunnels()
{
mode=${1}
addr=""
remote=""
src=""
dst=""
if [ ${mode} = "ipv6" ]; then
addr=$ROUTER1_GIFIP6_RECURSIVE1
remote=$ROUTER2_GIFIP6_RECURSIVE1
src=$ROUTER1_GIFIP6
dst=$ROUTER2_GIFIP6
else
addr=$ROUTER1_GIFIP_RECURSIVE1
remote=$ROUTER2_GIFIP_RECURSIVE1
src=$ROUTER1_GIFIP
dst=$ROUTER2_GIFIP
fi
setup_recursive_if_gif $SOCK1 gif1 ${addr} ${remote} ${mode} \
${src} ${dst}
if [ ${mode} = "ipv6" ]; then
addr=$ROUTER1_GIFIP6_RECURSIVE2
remote=$ROUTER2_GIFIP6_RECURSIVE2
src=$ROUTER1_GIFIP6_RECURSIVE1
dst=$ROUTER2_GIFIP6_RECURSIVE1
else
addr=$ROUTER1_GIFIP_RECURSIVE2
remote=$ROUTER2_GIFIP_RECURSIVE2
src=$ROUTER1_GIFIP_RECURSIVE1
dst=$ROUTER2_GIFIP_RECURSIVE1
fi
setup_recursive_if_gif $SOCK1 gif2 ${addr} ${remote} ${mode} \
${src} ${dst}
}
# test in router1 only
test_recursive_check()
{
mode=$1
export RUMP_SERVER=$SOCK1
if [ ${mode} = "ipv6" ]; then
atf_check -s not-exit:0 -o ignore -e ignore \
rump.ping6 -n -X $TIMEOUT -c 1 $ROUTER2_GIFIP6_RECURSIVE2
else
atf_check -s not-exit:0 -o ignore -e ignore \
rump.ping -n -w $TIMEOUT -c 1 $ROUTER2_GIFIP_RECURSIVE2
fi
atf_check -o match:'gif0: recursively called too many times' \
-x "$HIJACKING dmesg"
$HIJACKING dmesg
}
teardown_recursive_tunnels()
{
export RUMP_SERVER=$SOCK1
atf_check -s exit:0 rump.ifconfig gif1 deletetunnel
atf_check -s exit:0 rump.ifconfig gif1 destroy
atf_check -s exit:0 rump.ifconfig gif2 deletetunnel
atf_check -s exit:0 rump.ifconfig gif2 destroy
}
test_ping_failure()
{
mode=$1
export RUMP_SERVER=$SOCK1
if [ ${mode} = "ipv6" ]; then
atf_check -s not-exit:0 -o ignore -e ignore \
rump.ping6 -n -X $TIMEOUT -c 1 -S $ROUTER1_LANIP6 \
$ROUTER2_LANIP6
else
atf_check -s not-exit:0 -o ignore -e ignore \
rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER1_LANIP \
$ROUTER2_LANIP
fi
export RUMP_SERVER=$SOCK2
if [ ${mode} = "ipv6" ]; then
atf_check -s not-exit:0 -o ignore -e ignore \
rump.ping6 -n -X $TIMEOUT -c 1 -S $ROUTER2_LANIP6 \
$ROUTER1_LANIP6
else
atf_check -s not-exit:0 -o ignore -e ignore \
rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER1_LANIP \
$ROUTER2_LANIP
fi
}
test_ping_success()
{
mode=$1
export RUMP_SERVER=$SOCK1
rump.ifconfig -v gif0
if [ ${mode} = "ipv6" ]; then
# XXX
# rump.ping6 rarely fails with the message that
# "failed to get receiving hop limit".
# This is a known issue being analyzed.
atf_check -s exit:0 -o ignore \
rump.ping6 -n -X $TIMEOUT -c 1 -S $ROUTER1_LANIP6 \
$ROUTER2_LANIP6
else
atf_check -s exit:0 -o ignore \
rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER1_LANIP \
$ROUTER2_LANIP
fi
rump.ifconfig -v gif0
export RUMP_SERVER=$SOCK2
rump.ifconfig -v gif0
if [ ${mode} = "ipv6" ]; then
atf_check -s exit:0 -o ignore \
rump.ping6 -n -X $TIMEOUT -c 1 -S $ROUTER2_LANIP6 \
$ROUTER1_LANIP6
else
atf_check -s exit:0 -o ignore \
rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER2_LANIP \
$ROUTER1_LANIP
fi
rump.ifconfig -v gif0
}
test_change_tunnel_duplicate()
{
mode=$1
newsrc=""
newdst=""
if [ ${mode} = "ipv6" ]; then
newsrc=$ROUTER1_WANIP6_DUMMY
newdst=$ROUTER2_WANIP6_DUMMY
else
newsrc=$ROUTER1_WANIP_DUMMY
newdst=$ROUTER2_WANIP_DUMMY
fi
export RUMP_SERVER=$SOCK1
rump.ifconfig -v gif0
rump.ifconfig -v gif1
atf_check -s exit:0 -e match:SIOCSLIFPHYADDR \
rump.ifconfig gif0 tunnel ${newsrc} ${newdst}
rump.ifconfig -v gif0
rump.ifconfig -v gif1
if [ ${mode} = "ipv6" ]; then
newsrc=$ROUTER2_WANIP6_DUMMY
newdst=$ROUTER1_WANIP6_DUMMY
else
newsrc=$ROUTER2_WANIP_DUMMY
newdst=$ROUTER1_WANIP_DUMMY
fi
export RUMP_SERVER=$SOCK2
rump.ifconfig -v gif0
rump.ifconfig -v gif1
atf_check -s exit:0 -e match:SIOCSLIFPHYADDR \
rump.ifconfig gif0 tunnel ${newsrc} ${newdst}
rump.ifconfig -v gif0
rump.ifconfig -v gif1
}
test_change_tunnel_success()
{
mode=$1
newsrc=""
newdst=""
if [ ${mode} = "ipv6" ]; then
newsrc=$ROUTER1_WANIP6_DUMMY
newdst=$ROUTER2_WANIP6_DUMMY
else
newsrc=$ROUTER1_WANIP_DUMMY
newdst=$ROUTER2_WANIP_DUMMY
fi
export RUMP_SERVER=$SOCK1
rump.ifconfig -v gif0
atf_check -s exit:0 \
rump.ifconfig gif0 tunnel ${newsrc} ${newdst}
rump.ifconfig -v gif0
if [ ${mode} = "ipv6" ]; then
newsrc=$ROUTER2_WANIP6_DUMMY
newdst=$ROUTER1_WANIP6_DUMMY
else
newsrc=$ROUTER2_WANIP_DUMMY
newdst=$ROUTER1_WANIP_DUMMY
fi
export RUMP_SERVER=$SOCK2
rump.ifconfig -v gif0
atf_check -s exit:0 \
rump.ifconfig gif0 tunnel ${newsrc} ${newdst}
rump.ifconfig -v gif0
}
basic_setup()
{
inner=$1
outer=$2
setup ${inner} ${outer}
test_setup ${inner} ${outer}
# Enable once PR kern/49219 is fixed
#test_ping_failure
setup_tunnel ${inner} ${outer}
sleep 1
test_setup_tunnel ${inner}
}
basic_test()
{
inner=$1
outer=$2 # not use
test_ping_success ${inner}
}
basic_teardown()
{
inner=$1
outer=$2 # not use
teardown_tunnel
test_ping_failure ${inner}
}
ioctl_setup()
{
inner=$1
outer=$2
setup ${inner} ${outer}
test_setup ${inner} ${outer}
# Enable once PR kern/49219 is fixed
#test_ping_failure
setup_tunnel ${inner} ${outer}
setup_dummy_tunnel ${inner} ${outer}
sleep 1
test_setup_tunnel ${inner}
}
ioctl_test()
{
inner=$1
outer=$2
test_ping_success ${inner}
test_change_tunnel_duplicate ${outer}
teardown_dummy_tunnel
test_change_tunnel_success ${outer}
}
ioctl_teardown()
{
inner=$1
outer=$2 # not use
teardown_tunnel
test_ping_failure ${inner}
}
recursive_setup()
{
inner=$1
outer=$2
setup ${inner} ${outer}
test_setup ${inner} ${outer}
# Enable once PR kern/49219 is fixed
#test_ping_failure
setup_tunnel ${inner} ${outer}
setup_recursive_tunnels ${inner}
sleep 1
test_setup_tunnel ${inner}
}
recursive_test()
{
inner=$1
outer=$2 # not use
test_recursive_check ${inner}
}
recursive_teardown()
{
inner=$1 # not use
outer=$2 # not use
teardown_recursive_tunnels
teardown_tunnel
}
add_test()
{
category=$1
desc=$2
inner=$3
outer=$4
name="gif_${category}_${inner}over${outer}"
fulldesc="Does ${inner} over ${outer} if_gif ${desc}"
atf_test_case ${name} cleanup
eval "${name}_head() { \
atf_set \"descr\" \"${fulldesc}\"; \
atf_set \"require.progs\" \"rump_server\"; \
}; \
${name}_body() { \
${category}_setup ${inner} ${outer}; \
${category}_test ${inner} ${outer}; \
${category}_teardown ${inner} ${outer}; \
rump_server_destroy_ifaces; \
}; \
${name}_cleanup() { \
$DEBUG && dump; \
cleanup; \
}"
atf_add_test_case ${name}
}
add_test_allproto()
{
category=$1
desc=$2
add_test ${category} "${desc}" ipv4 ipv4
add_test ${category} "${desc}" ipv4 ipv6
add_test ${category} "${desc}" ipv6 ipv4
add_test ${category} "${desc}" ipv6 ipv6
}
atf_init_test_cases()
{
add_test_allproto basic "basic tests"
add_test_allproto ioctl "ioctl tests"
add_test_allproto recursive "recursive check tests"
}