#! /usr/bin/atf-sh
#	$NetBSD: net_common.sh,v 1.32 2019/07/18 04:22:22 ozaki-r Exp $
#
# Copyright (c) 2016 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.
#

#
# Common utility functions for tests/net
#

HIJACKING="env LD_PRELOAD=/usr/lib/librumphijack.so \
    RUMPHIJACK=path=/rump,socket=all:nolocal,sysctl=yes"
ONEDAYISH="(23h5[0-9]m|1d0h0m)[0-9]+s ?"

extract_new_packets()
{
	local bus=$1
	local old=./.__old

	if [ ! -f $old ]; then
		old=/dev/null
	fi

	shmif_dumpbus -p - $bus 2>/dev/null |
	    tcpdump -n -e -r - 2>/dev/null > ./.__new
	diff -u $old ./.__new | grep '^+' | cut -d '+' -f 2   > ./.__diff
	mv -f ./.__new ./.__old
	cat ./.__diff
}

check_route()
{
	local target=$1
	local gw=$2
	local flags=${3:-\.\+}
	local ifname=${4:-\.\+}

	target=$(echo $target | sed 's/\./\\./g')
	if [ "$gw" = "" ]; then
		gw=".+"
	else
		gw=$(echo $gw | sed 's/\./\\./g')
	fi

	atf_check -s exit:0 -e ignore \
	    -o match:"^$target +$gw +$flags +- +- +.+ +$ifname" \
	    rump.netstat -rn
}

check_route_flags()
{

	check_route "$1" "" "$2" ""
}

check_route_gw()
{

	check_route "$1" "$2" "" ""
}

check_route_no_entry()
{
	local target=$(echo "$1" | sed 's/\./\\./g')

	atf_check -s exit:0 -e ignore -o not-match:"^$target" rump.netstat -rn
}

get_linklocal_addr()
{

	RUMP_SERVER=${1} rump.ifconfig ${2} inet6 |
	    awk "/fe80/ {sub(/%$2/, \"\"); sub(/\\/[0-9]*/, \"\"); print \$2;}"

	return 0
}

get_macaddr()
{

	RUMP_SERVER=${1} rump.ifconfig ${2} | awk '/address/ {print $2;}'
}

HTTPD_PID=./.__httpd.pid
start_httpd()
{
	local sock=$1
	local ip=$2
	local backup=$RUMP_SERVER

	export RUMP_SERVER=$sock

	# start httpd in daemon mode
	atf_check -s exit:0 env LD_PRELOAD=/usr/lib/librumphijack.so \
	    /usr/libexec/httpd -P $HTTPD_PID -i $ip -b -s $(pwd)

	export RUMP_SERVER=$backup

	sleep 3
}

stop_httpd()
{

	if [ -f $HTTPD_PID ]; then
		kill -9 $(cat $HTTPD_PID)
		rm -f $HTTPD_PID
		sleep 1
	fi
}

NC_PID=./.__nc.pid
start_nc_server()
{
	local sock=$1
	local port=$2
	local outfile=$3
	local proto=${4:-ipv4}
	local backup=$RUMP_SERVER
	local opts=

	export RUMP_SERVER=$sock

	if [ $proto = ipv4 ]; then
		opts="-l -4"
	else
		opts="-l -6"
	fi

	env LD_PRELOAD=/usr/lib/librumphijack.so nc $opts $port > $outfile &
	echo $! > $NC_PID

	if [ $proto = ipv4 ]; then
		$DEBUG && rump.netstat -a -f inet
	else
		$DEBUG && rump.netstat -a -f inet6
	fi

	export RUMP_SERVER=$backup

	sleep 1
}

stop_nc_server()
{

	if [ -f $NC_PID ]; then
		kill -9 $(cat $NC_PID)
		rm -f $NC_PID
		sleep 1
	fi
}

BASIC_LIBS="-lrumpnet -lrumpnet_net -lrumpnet_netinet -lrumpnet_shmif"
FS_LIBS="$BASIC_LIBS -lrumpdev -lrumpvfs -lrumpfs_ffs"
CRYPTO_LIBS="$BASIC_LIBS -lrumpdev -lrumpdev_opencrypto \
    -lrumpkern_z -lrumpkern_crypto"
NPF_LIBS="$BASIC_LIBS -lrumpdev -lrumpvfs -lrumpdev_bpf -lrumpnet_npf"
CRYPTO_NPF_LIBS="$CRYPTO_LIBS -lrumpvfs -lrumpdev_bpf -lrumpnet_npf"

# We cannot keep variables between test phases, so need to store in files
_rump_server_socks=./.__socks
_rump_server_ifaces=./.__ifaces
_rump_server_buses=./.__buses

DEBUG_SYSCTL_ENTRIES="net.inet.arp.debug net.inet6.icmp6.nd6_debug \
    net.inet.ipsec.debug"

IPSEC_KEY_DEBUG=${IPSEC_KEY_DEBUG:-false}

_rump_server_start_common()
{
	local sock=$1
	local backup=$RUMP_SERVER

	shift 1

	atf_check -s exit:0 rump_server "$@" "$sock"

	if $DEBUG; then
		# Enable debugging features in the kernel
		export RUMP_SERVER=$sock
		for ent in $DEBUG_SYSCTL_ENTRIES; do
			if rump.sysctl -q $ent; then
				atf_check -s exit:0 rump.sysctl -q -w $ent=1
			fi
		done
		export RUMP_SERVER=$backup
	fi
	if $IPSEC_KEY_DEBUG; then
		# Enable debugging features in the kernel
		export RUMP_SERVER=$sock
		if rump.sysctl -q net.key.debug; then
			atf_check -s exit:0 \
			    rump.sysctl -q -w net.key.debug=0xffff
		fi
		export RUMP_SERVER=$backup
	fi

	echo $sock >> $_rump_server_socks
	$DEBUG && cat $_rump_server_socks
}

rump_server_start()
{
	local sock=$1
	local lib=
	local libs="$BASIC_LIBS"

	shift 1

	for lib
	do
		libs="$libs -lrumpnet_$lib"
	done

	_rump_server_start_common $sock $libs

	return 0
}

rump_server_fs_start()
{
	local sock=$1
	local lib=
	local libs="$FS_LIBS"

	shift 1

	for lib
	do
		libs="$libs -lrumpnet_$lib"
	done

	_rump_server_start_common $sock $libs

	return 0
}

rump_server_crypto_start()
{
	local sock=$1
	local lib=
	local libs="$CRYPTO_LIBS"

	shift 1

	for lib
	do
		libs="$libs -lrumpnet_$lib"
	done

	_rump_server_start_common $sock $libs

	return 0
}

rump_server_npf_start()
{
	local sock=$1
	local lib=
	local libs="$NPF_LIBS"

	shift 1

	for lib
	do
		libs="$libs -lrumpnet_$lib"
	done

	_rump_server_start_common $sock $libs

	return 0
}

rump_server_crypto_npf_start()
{
	local sock=$1
	local lib=
	local libs="$CRYPTO_NPF_LIBS"

	shift 1

	for lib
	do
		libs="$libs -lrumpnet_$lib"
	done

	_rump_server_start_common $sock $libs

	return 0
}

rump_server_add_iface()
{
	local sock=$1
	local ifname=$2
	local bus=$3
	local backup=$RUMP_SERVER

	export RUMP_SERVER=$sock
	atf_check -s exit:0 rump.ifconfig $ifname create
	atf_check -s exit:0 rump.ifconfig $ifname linkstr $bus
	export RUMP_SERVER=$backup

	echo $sock $ifname >> $_rump_server_ifaces
	$DEBUG && cat $_rump_server_ifaces

	echo $bus >> $_rump_server_buses
	cat $_rump_server_buses |sort -u >./.__tmp
	mv -f ./.__tmp $_rump_server_buses
	$DEBUG && cat $_rump_server_buses

	return 0
}

rump_server_destroy_ifaces()
{
	local backup=$RUMP_SERVER
	local output=ignore

	$DEBUG && cat $_rump_server_ifaces

	# Try to dump states before destroying interfaces
	for sock in $(cat $_rump_server_socks); do
		export RUMP_SERVER=$sock
		if $DEBUG; then
			output=save:/dev/stdout
		fi
		atf_check -s exit:0 -o $output rump.ifconfig
		atf_check -s exit:0 -o $output rump.netstat -nr
		# XXX still need hijacking
		atf_check -s exit:0 -o $output $HIJACKING rump.netstat -nai
		atf_check -s exit:0 -o $output rump.arp -na
		atf_check -s exit:0 -o $output rump.ndp -na
		atf_check -s exit:0 -o $output $HIJACKING ifmcstat
	done

	# XXX using pipe doesn't work. See PR bin/51667
	#cat $_rump_server_ifaces | while read sock ifname; do
	while read sock ifname; do
		export RUMP_SERVER=$sock
		if rump.ifconfig -l |grep -q $ifname; then
			atf_check -s exit:0 rump.ifconfig $ifname destroy
		fi
		atf_check -s exit:0 -o ignore rump.ifconfig
	done < $_rump_server_ifaces
	export RUMP_SERVER=$backup

	return 0
}

rump_server_halt_servers()
{
	local backup=$RUMP_SERVER

	$DEBUG && cat $_rump_server_socks
	for sock in $(cat $_rump_server_socks); do
		env RUMP_SERVER=$sock rump.halt
	done
	export RUMP_SERVER=$backup

	return 0
}

extract_rump_server_core()
{

	if [ -f rump_server.core ]; then
		gdb -ex bt /usr/bin/rump_server rump_server.core
		# Extract kernel logs including a panic message
		strings rump_server.core |grep -E '^\[.+\] '
	fi
}

dump_kernel_stats()
{
	local sock=$1

	echo "### Dumping $sock"
	export RUMP_SERVER=$sock
	rump.ifconfig -av
	rump.netstat -nr
	# XXX still need hijacking
	$HIJACKING rump.netstat -nai
	rump.arp -na
	rump.ndp -na
	$HIJACKING ifmcstat
	$HIJACKING dmesg
}

rump_server_dump_servers()
{
	local backup=$RUMP_SERVER

	$DEBUG && cat $_rump_server_socks
	for sock in $(cat $_rump_server_socks); do
		dump_kernel_stats $sock
	done
	export RUMP_SERVER=$backup

	extract_rump_server_core
	return 0
}

rump_server_dump_buses()
{

	if [ ! -f $_rump_server_buses ]; then
		return 0
	fi

	$DEBUG && cat $_rump_server_buses
	for bus in $(cat $_rump_server_buses); do
		echo "### Dumping $bus"
		shmif_dumpbus -p - $bus 2>/dev/null| tcpdump -n -e -r -
	done
	return 0
}

cleanup()
{

	rump_server_halt_servers
}

dump()
{

	rump_server_dump_servers
	rump_server_dump_buses
}

skip_if_qemu()
{
	if sysctl machdep.cpu_brand 2>/dev/null | grep QEMU >/dev/null 2>&1
	then
	    atf_skip "unreliable under qemu, skip until PR kern/43997 fixed"
	fi
}

test_create_destroy_common()
{
	local sock=$1
	local ifname=$2
	local test_address=${3:-false}
	local ipv4="10.0.0.1/24"
	local ipv6="fc00::1"

	export RUMP_SERVER=$sock

	atf_check -s exit:0 rump.ifconfig $ifname create
	atf_check -s exit:0 rump.ifconfig $ifname destroy

	atf_check -s exit:0 rump.ifconfig $ifname create
	atf_check -s exit:0 rump.ifconfig $ifname up
	atf_check -s exit:0 rump.ifconfig $ifname down
	atf_check -s exit:0 rump.ifconfig $ifname destroy

	# Destroy while UP
	atf_check -s exit:0 rump.ifconfig $ifname create
	atf_check -s exit:0 rump.ifconfig $ifname up
	atf_check -s exit:0 rump.ifconfig $ifname destroy

	if ! $test_address; then
		return
	fi

	# With an IPv4 address
	atf_check -s exit:0 rump.ifconfig $ifname create
	atf_check -s exit:0 rump.ifconfig $ifname inet $ipv4
	atf_check -s exit:0 rump.ifconfig $ifname up
	atf_check -s exit:0 rump.ifconfig $ifname destroy

	# With an IPv6 address
	atf_check -s exit:0 rump.ifconfig $ifname create
	atf_check -s exit:0 rump.ifconfig $ifname inet6 $ipv6
	atf_check -s exit:0 rump.ifconfig $ifname up
	atf_check -s exit:0 rump.ifconfig $ifname destroy

	unset RUMP_SERVER
}
#	$NetBSD: t_ipsec_pfil.sh,v 1.1.6.1 2020/11/10 11:44:22 martin Exp $
#
# Copyright (c) 2019 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.
#

SOCK_ROUTER1=unix://router1
SOCK_ROUTER2=unix://router2
ROUTER1_LANIP=192.168.1.1
ROUTER1_LANNET=192.168.1.0/24
ROUTER1_WANIP=10.0.0.1
ROUTER1_IPSECIP=172.16.1.1
ROUTER2_LANIP=192.168.2.1
ROUTER2_LANNET=192.168.2.0/24
ROUTER2_WANIP=10.0.0.2
ROUTER2_IPSECIP=172.16.2.1

DEBUG=${DEBUG:-false}
TIMEOUT=7
HIJACKING_NPF="${HIJACKING},blanket=/dev/npf"

setup_router()
{
	local sock=$1
	local lan=$2
	local wan=$3

	rump_server_add_iface $sock shmif0 bus0
	rump_server_add_iface $sock shmif1 bus1

	export RUMP_SERVER=${sock}
	atf_check -s exit:0 rump.sysctl -q -w net.inet.ip.dad_count=0

	atf_check -s exit:0 rump.ifconfig shmif0 inet ${lan} netmask 0xffffff00
	atf_check -s exit:0 rump.ifconfig shmif0 up
	# Ensure shmif0 is running
	atf_check -s exit:0 -o ignore rump.ping -n -c 1 -w $TIMEOUT ${lan}
	$DEBUG && rump.ifconfig shmif0

	atf_check -s exit:0 rump.ifconfig shmif1 inet ${wan} netmask 0xff000000
	atf_check -s exit:0 rump.ifconfig shmif1 up
	# Ensure shmif1 is running
	atf_check -s exit:0 -o ignore rump.ping -n -c 1 -w $TIMEOUT ${wan}
	$DEBUG && rump.ifconfig shmif1

	unset RUMP_SERVER
}

setup_if_ipsec()
{
	local addr=$1
	local remote=$2
	local src=$3
	local dst=$4
	local peernet=$5

	atf_check -s exit:0 rump.ifconfig ipsec0 create
	atf_check -s exit:0 rump.ifconfig ipsec0 tunnel $src $dst
	atf_check -s exit:0 rump.ifconfig ipsec0 inet ${addr}/32 $remote
	atf_check -s exit:0 -o ignore rump.route add -inet $peernet $addr

	$DEBUG && rump.ifconfig ipsec0
	$DEBUG && rump.route -nL show -inet
}

get_if_ipsec_unique()
{
	local src=$1
	local proto=$2
	local unique=""

	unique=`$HIJACKING setkey -DP | grep -A2 "^${src}.*(${proto})$" | grep unique | sed 's/.*unique#//'`

	echo $unique
}

setup_if_ipsec_sa()
{
	local src=$1
	local dst=$2
	local inid=$3
	local outid=$4
	local proto=$5
	local algo=$6

	local tmpfile=./tmp
	local inunique=""
	local outunique=""
	local algo_args="$(generate_algo_args $proto $algo)"

	inunique=`get_if_ipsec_unique $dst "ipv4"`
	atf_check -s exit:0 test "X$inunique" != "X"
	outunique=`get_if_ipsec_unique $src "ipv4"`
	atf_check -s exit:0 test "X$outunique" != "X"

	cat > $tmpfile <<-EOF
	add $dst $src $proto $inid -u $inunique -m transport $algo_args;
	add $src $dst $proto $outid -u $outunique -m transport $algo_args;
	EOF
	$DEBUG && cat $tmpfile
	atf_check -s exit:0 -o empty $HIJACKING setkey -c < $tmpfile
	$DEBUG && $HIJACKING setkey -D
	$DEBUG && $HIJACKING setkey -DP
}

setup_tunnel()
{
	local proto=$1
	local algo=$2

	local addr= remote= src= dst= peernet=

	export RUMP_SERVER=$SOCK_ROUTER1
	addr=$ROUTER1_IPSECIP
	remote=$ROUTER2_IPSECIP
	src=$ROUTER1_WANIP
	dst=$ROUTER2_WANIP
	peernet=$ROUTER2_LANNET
	setup_if_ipsec $addr $remote $src $dst $peernet
	setup_if_ipsec_sa $src $dst "10000" "10001" $proto $algo

	export RUMP_SERVER=$SOCK_ROUTER2
	addr=$ROUTER2_IPSECIP
	remote=$ROUTER1_IPSECIP
	src=$ROUTER2_WANIP
	dst=$ROUTER1_WANIP
	peernet=$ROUTER1_LANNET
	setup_if_ipsec $addr $remote $src $dst $peernet
	setup_if_ipsec_sa $src $dst "10001" "10000" $proto $algo

	# Ensure ipsecif(4) settings have completed.
	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:0 -o ignore \
			rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER1_LANIP \
			$ROUTER2_LANIP

	export RUMP_SERVER=$SOCK_ROUTER2
	atf_check -s exit:0 -o ignore \
			rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER2_LANIP \
			$ROUTER1_LANIP

	unset RUMP_SERVER
}

ipsecif_pfil_setup()
{
	local proto=$1
	local algo=$2

	rump_server_crypto_npf_start $SOCK_ROUTER1 netipsec ipsec
	rump_server_crypto_npf_start $SOCK_ROUTER2 netipsec ipsec

	setup_router $SOCK_ROUTER1 $ROUTER1_LANIP $ROUTER1_WANIP
	setup_router $SOCK_ROUTER2 $ROUTER2_LANIP $ROUTER2_WANIP

	setup_tunnel $proto $algo
}

prepare_file()
{
	local file=$1
	local data="0123456789"

	touch $file
	for i in `seq 1 512`
	do
		echo $data >> $file
	done
}

build_npf_conf()
{
	local outfile=$1
	local subnet=$2
	local direction=$3

	local reverse=
	if [ "X${direction}" = "Xin" ] ; then
		reverse="out"
	else
		reverse="in"
	fi

	cat > $outfile <<-EOF
	set bpf.jit off
	\$if = inet4(ipsec0)
	\$subnet = { $subnet }

	procedure "log0" {
		log: npflog0
	}

	group default {
		block $direction on \$if proto tcp from \$subnet apply "log0"
		pass $reverse on \$if proto tcp from \$subnet
		pass in on \$if proto icmp from 0.0.0.0/0
		pass out on \$if proto icmp from 0.0.0.0/0
		pass final on shmif0 all
		pass final on shmif1 all
	}
	EOF
}

ipsecif_pfil_test()
{
	local outfile=./out
	local npffile=./npf.conf
	local file_send=./file.send
	local file_recv=./file.recv

	local subnet="172.16.0.0/16"

	# Try TCP communications just in case.
	start_nc_server $SOCK_ROUTER2 8888 $file_recv ipv4
	prepare_file $file_send
	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:0 $HIJACKING nc -w 3 $ROUTER2_IPSECIP 8888 < $file_send
	atf_check -s exit:0 diff -q $file_send $file_recv
	stop_nc_server

	# Setup npf to block *out* direction for ipsecif(4).
	build_npf_conf $npffile $subnet "out"
	$DEBUG && cat $npffile

	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:0 $HIJACKING_NPF npfctl reload $npffile
	atf_check -s exit:0 $HIJACKING_NPF npfctl start
	$DEBUG && ${HIJACKING},"blanket=/dev/npf" npfctl show

	# ping should still work
	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:0 -o ignore \
			rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER1_LANIP \
			$ROUTER2_LANIP

	export RUMP_SERVER=$SOCK_ROUTER2
	atf_check -s exit:0 -o ignore \
			rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER2_LANIP \
			$ROUTER1_LANIP

	# TCP communications should be blocked.
	start_nc_server $SOCK_ROUTER2 8888 $file_recv ipv4
	prepare_file $file_send
	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:1 -o ignore $HIJACKING nc -w 3 $ROUTER2_IPSECIP 8888 < $file_send
	stop_nc_server

	atf_check -s exit:0 $HIJACKING_NPF npfctl stop
	$DEBUG && ${HIJACKING},"blanket=/dev/npf" npfctl show

	# Setup npf to block *in* direction for ipsecif(4).
	build_npf_conf $npffile $subnet "in"
	$DEBUG && cat $npffile

	export RUMP_SERVER=$SOCK_ROUTER2
	atf_check -s exit:0 $HIJACKING_NPF npfctl reload $npffile
	atf_check -s exit:0 $HIJACKING_NPF npfctl start
	$DEBUG && ${HIJACKING},"blanket=/dev/npf" npfctl show

	# ping should still work.
	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:0 -o ignore \
			rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER1_LANIP \
			$ROUTER2_LANIP

	export RUMP_SERVER=$SOCK_ROUTER2
	atf_check -s exit:0 -o ignore \
			rump.ping -n -w $TIMEOUT -c 1 -I $ROUTER2_LANIP \
			$ROUTER1_LANIP

	# TCP communications should be blocked.
	start_nc_server $SOCK_ROUTER2 8888 $file_recv ipv4
	prepare_file $file_send
	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:1 -o ignore $HIJACKING nc -w 3 $ROUTER2_IPSECIP 8888 < $file_send
	stop_nc_server

	atf_check -s exit:0 $HIJACKING_NPF npfctl stop
	$DEBUG && ${HIJACKING},"blanket=/dev/npf" npfctl show


	unset RUMP_SERVER
}

ipsecif_pfil_teardown()
{

	export RUMP_SERVER=$SOCK_ROUTER1
	atf_check -s exit:0 rump.ifconfig ipsec0 deletetunnel
	atf_check -s exit:0 rump.ifconfig ipsec0 destroy
	$HIJACKING setkey -F

	export RUMP_SERVER=$SOCK_ROUTER2
	atf_check -s exit:0 rump.ifconfig ipsec0 deletetunnel
	atf_check -s exit:0 rump.ifconfig ipsec0 destroy
	$HIJACKING setkey -F

	unset RUMP_SERVER
}

add_test()
{
	local proto=$1
	local algo=$2
	local _algo=$(echo $algo | sed 's/-//g')

	name="ipsecif_pfil_${proto}_${_algo}"
	desc="Does ipsecif filter tests"

	atf_test_case ${name} cleanup
	eval "${name}_head() {
			atf_set descr \"${desc}\"
			atf_set require.progs rump_server setkey
		}
	    ${name}_body() {
			ipsecif_pfil_setup ${proto} ${algo}
			ipsecif_pfil_test
			ipsecif_pfil_teardown
			rump_server_destroy_ifaces
	    }
	    ${name}_cleanup() {
			\$DEBUG && dump
			cleanup
		}"
	atf_add_test_case ${name}
}

add_test_allalgo()
{
	local desc=$1

	for algo in $ESP_ENCRYPTION_ALGORITHMS_MINIMUM; do
		add_test esp $algo
	done

	# ah does not support yet
}

atf_init_test_cases()
{

	add_test_allalgo ipsecif_pfil
}
#	$NetBSD: common.sh,v 1.7.6.1 2020/11/10 11:44:22 martin Exp $
#
# Copyright (c) 2017 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.
#

HIJACKING_NPF="${HIJACKING},blanket=/dev/npf"

test_flush_entries()
{
	local sock=$1

	export RUMP_SERVER=$sock

	atf_check -s exit:0 -o empty $HIJACKING setkey -F
	atf_check -s exit:0 -o empty $HIJACKING setkey -F -P
	atf_check -s exit:0 -o match:"No SAD entries." $HIJACKING setkey -D -a
	atf_check -s exit:0 -o match:"No SPD entries." $HIJACKING setkey -D -P
}

check_sa_entries()
{
	local sock=$1
	local local_addr=$2
	local remote_addr=$3

	export RUMP_SERVER=$sock

	$DEBUG && $HIJACKING setkey -D

	atf_check -s exit:0 -o match:"$local_addr $remote_addr" \
	    $HIJACKING setkey -D
	atf_check -s exit:0 -o match:"$remote_addr $local_addr" \
	    $HIJACKING setkey -D
	# TODO: more detail checks
}

check_sp_entries()
{
	local sock=$1
	local local_addr=$2
	local remote_addr=$3

	export RUMP_SERVER=$sock

	$DEBUG && $HIJACKING setkey -D -P

	atf_check -s exit:0 \
	    -o match:"$local_addr\[any\] $remote_addr\[any\] 255\(reserved\)" \
	    $HIJACKING setkey -D -P
	atf_check -s exit:0 \
	    -o match:"$remote_addr\[any\] $local_addr\[any\] 255\(reserved\)" \
	    $HIJACKING setkey -D -P
	# TODO: more detail checks
}

generate_pktproto()
{
	local proto=$1

	if [ $proto = ipcomp ]; then
		echo IPComp
	else
		echo $proto | tr 'a-z' 'A-Z'
	fi
}

get_natt_port()
{
	local local_addr=$1
	local remote_addr=$2
	local port=""

	# 10.0.1.2:4500         20.0.0.2:4500         shmif1     20.0.0.1:35574
	port=$($HIJACKING_NPF npfctl list | grep $local_addr | awk -F "${remote_addr}:" '/4500/ {print $2;}')
	echo $port
}
#	$NetBSD: algorithms.sh,v 1.6 2017/10/27 04:31:50 ozaki-r Exp $
#
# Copyright (c) 2017 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.
#

ESP_ENCRYPTION_ALGORITHMS="des-cbc 3des-cbc null blowfish-cbc cast128-cbc \
    des-deriv rijndael-cbc aes-ctr camellia-cbc aes-gcm-16 aes-gmac"
ESP_ENCRYPTION_ALGORITHMS_MINIMUM="null rijndael-cbc"

# Valid key lengths of ESP encription algorithms
#    des-cbc         64
#    3des-cbc        192
#    null            0 to 2048     XXX only accept 0 length
#    blowfish-cbc    40 to 448
#    cast128-cbc     40 to 128
#    des-deriv       64
#    3des-deriv      192           XXX not implemented
#    rijndael-cbc    128/192/256
#    twofish-cbc     0 to 256      XXX not supported
#    aes-ctr         160/224/288
#    camellia-cbc    128/192/256
#    aes-gcm-16      160/224/288
#    aes-gmac        160/224/288
valid_keys_descbc="64"
invalid_keys_descbc="56 72"
valid_keys_3descbc="192"
invalid_keys_3descbc="184 200"
#valid_keys_null="0 2048"
valid_keys_null="0"
invalid_keys_null="8"
valid_keys_blowfishcbc="40 448"
invalid_keys_blowfishcbc="32 456"
valid_keys_cast128cbc="40 128"
invalid_keys_cast128cbc="32 136"
valid_keys_desderiv="64"
invalid_keys_desderiv="56 72"
#valid_keys_3desderiv="192"
#invalid_keys_3desderiv="184 200"
valid_keys_rijndaelcbc="128 192 256"
invalid_keys_rijndaelcbc="120 136 184 200 248 264"
#valid_keys_twofishcbc="0 256"
#invalid_keys_twofishcbc="264"
valid_keys_aesctr="160 224 288"
invalid_keys_aesctr="152 168 216 232 280 296"
valid_keys_camelliacbc="128 192 256"
invalid_keys_camelliacbc="120 136 184 200 248 264"
valid_keys_aesgcm16="160 224 288"
invalid_keys_aesgcm16="152 168 216 232 280 296"
valid_keys_aesgmac="160 224 288"
invalid_keys_aesgmac="152 168 216 232 280 296"

AH_AUTHENTICATION_ALGORITHMS="hmac-md5 hmac-sha1 keyed-md5 keyed-sha1 null \
    hmac-sha256 hmac-sha384 hmac-sha512 hmac-ripemd160 aes-xcbc-mac"
AH_AUTHENTICATION_ALGORITHMS_MINIMUM="null hmac-sha512"

# Valid key lengths of AH authentication algorithms
#    hmac-md5        128
#    hmac-sha1       160
#    keyed-md5       128
#    keyed-sha1      160
#    null            0 to 2048
#    hmac-sha256     256
#    hmac-sha384     384
#    hmac-sha512     512
#    hmac-ripemd160  160
#    aes-xcbc-mac    128
#    tcp-md5         8 to 640  XXX not enabled in rump kernels
valid_keys_hmacmd5="128"
invalid_keys_hmacmd5="120 136"
valid_keys_hmacsha1="160"
invalid_keys_hmacsha1="152 168"
valid_keys_keyedmd5="128"
invalid_keys_keyedmd5="120 136"
valid_keys_keyedsha1="160"
invalid_keys_keyedsha1="152 168"
#valid_keys_null="0 2048"
valid_keys_null="0"
invalid_keys_null="8"
valid_keys_hmacsha256="256"
invalid_keys_hmacsha256="248 264"
valid_keys_hmacsha384="384"
invalid_keys_hmacsha384="376 392"
valid_keys_hmacsha512="512"
invalid_keys_hmacsha512="504 520"
valid_keys_hmacripemd160="160"
invalid_keys_hmacripemd160="152 168"
valid_keys_aesxcbcmac="128"
invalid_keys_aesxcbcmac="120 136"
#valid_keys_tcpmd5="8 640"
#invalid_keys_tcpmd5="648"

IPCOMP_COMPRESSION_ALGORITHMS="deflate"
IPCOMP_COMPRESSION_ALGORITHMS_MINIMUM="deflate"
valid_keys_deflate="0"
invalid_keys_deflate="8"
minlen_deflate="90"

get_one_valid_keylen()
{
	local algo=$1
	local _algo=$(echo $algo | sed 's/-//g')
	local len=
	local keylengths=

	eval keylengths="\$valid_keys_${_algo}"

	for len in $(echo $keylengths); do
		break;
	done

	echo $len
}

get_valid_keylengths()
{
	local algo=$1
	local _algo=$(echo $algo | sed 's/-//g')

	eval keylengths="\$valid_keys_${_algo}"
	echo $keylengths
}

get_invalid_keylengths()
{
	local algo=$1
	local _algo=$(echo $algo | sed 's/-//g')

	eval keylengths="\$invalid_keys_${_algo}"
	echo $keylengths
}

generate_key()
{
	local keylen=$(($1 / 8))
	local key=

	while [ $keylen -gt 0 ]; do
		key="${key}a"
		keylen=$((keylen - 1))
	done
	if [ ! -z "$key" ]; then
		key="\"$key\""
	fi

	echo $key
}

generate_algo_args()
{
	local proto=$1
	local algo=$2
	local keylen=$(get_one_valid_keylen $algo)
	local key=$(generate_key $keylen)

	if [ $proto = esp -o $proto = "esp-udp" ]; then
		echo "-E $algo $key"
	elif [ $proto = ah ]; then
		echo "-A $algo $key"
	else
		echo "-C $algo $key"
	fi
}

get_minlen()
{
	local algo=$1
	local minlen=

	eval minlen="\$minlen_${algo}"
	echo $minlen
}
