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#!/bin/bash
# SPDX-License-Identifier: GPL-2.0
# IPv4 and IPv6 onlink tests
source lib.sh
PAUSE_ON_FAIL=${PAUSE_ON_FAIL:=no}
VERBOSE=0
# Network interfaces
# - odd in current namespace; even in peer ns
declare -A NETIFS
# default VRF
NETIFS[p1]=veth1
NETIFS[p2]=veth2
NETIFS[p3]=veth3
NETIFS[p4]=veth4
# VRF
NETIFS[p5]=veth5
NETIFS[p6]=veth6
NETIFS[p7]=veth7
NETIFS[p8]=veth8
# /24 network
declare -A V4ADDRS
V4ADDRS[p1]=169.254.1.1
V4ADDRS[p2]=169.254.1.2
V4ADDRS[p3]=169.254.3.1
V4ADDRS[p4]=169.254.3.2
V4ADDRS[p5]=169.254.5.1
V4ADDRS[p6]=169.254.5.2
V4ADDRS[p7]=169.254.7.1
V4ADDRS[p8]=169.254.7.2
# /64 network
declare -A V6ADDRS
V6ADDRS[p1]=2001:db8:101::1
V6ADDRS[p2]=2001:db8:101::2
V6ADDRS[p3]=2001:db8:301::1
V6ADDRS[p4]=2001:db8:301::2
V6ADDRS[p5]=2001:db8:501::1
V6ADDRS[p6]=2001:db8:501::2
V6ADDRS[p7]=2001:db8:701::1
V6ADDRS[p8]=2001:db8:701::2
# Test networks:
# [1] = default table
# [2] = VRF
#
# /32 host routes
declare -A TEST_NET4
TEST_NET4[1]=169.254.101
TEST_NET4[2]=169.254.102
# /128 host routes
declare -A TEST_NET6
TEST_NET6[1]=2001:db8:101
TEST_NET6[2]=2001:db8:102
# connected gateway
CONGW[1]=169.254.1.254
CONGW[2]=169.254.3.254
CONGW[3]=169.254.5.254
# recursive gateway
RECGW4[1]=169.254.11.254
RECGW4[2]=169.254.12.254
RECGW6[1]=2001:db8:11::64
RECGW6[2]=2001:db8:12::64
# for v4 mapped to v6
declare -A TEST_NET4IN6IN6
TEST_NET4IN6[1]=10.1.1.254
TEST_NET4IN6[2]=10.2.1.254
# mcast address
MCAST6=ff02::1
VRF=lisa
VRF_TABLE=1101
PBR_TABLE=101
################################################################################
# utilities
log_test()
{
local rc=$1
local expected=$2
local msg="$3"
if [ ${rc} -eq ${expected} ]; then
nsuccess=$((nsuccess+1))
printf " TEST: %-50s [ OK ]\n" "${msg}"
else
nfail=$((nfail+1))
printf " TEST: %-50s [FAIL]\n" "${msg}"
if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
echo
echo "hit enter to continue, 'q' to quit"
read a
[ "$a" = "q" ] && exit 1
fi
fi
}
log_section()
{
echo
echo "######################################################################"
echo "TEST SECTION: $*"
echo "######################################################################"
}
log_subsection()
{
echo
echo "#########################################"
echo "TEST SUBSECTION: $*"
}
run_cmd()
{
local cmd="$*"
local out
local rc
if [ "$VERBOSE" = "1" ]; then
printf " COMMAND: $cmd\n"
fi
out=$(eval $cmd 2>&1)
rc=$?
if [ "$VERBOSE" = "1" -a -n "$out" ]; then
echo " $out"
fi
[ "$VERBOSE" = "1" ] && echo
return $rc
}
get_linklocal()
{
local dev=$1
local pfx
local addr
addr=$(${pfx} ip -6 -br addr show dev ${dev} | \
awk '{
for (i = 3; i <= NF; ++i) {
if ($i ~ /^fe80/)
print $i
}
}'
)
addr=${addr/\/*}
[ -z "$addr" ] && return 1
echo $addr
return 0
}
################################################################################
#
setup()
{
echo
echo "########################################"
echo "Configuring interfaces"
set -e
# create namespace
setup_ns PEER_NS
# add vrf table
ip li add ${VRF} type vrf table ${VRF_TABLE}
ip li set ${VRF} up
ip ro add table ${VRF_TABLE} unreachable default metric 8192
ip -6 ro add table ${VRF_TABLE} unreachable default metric 8192
# create test interfaces
ip li add ${NETIFS[p1]} type veth peer name ${NETIFS[p2]}
ip li add ${NETIFS[p3]} type veth peer name ${NETIFS[p4]}
ip li add ${NETIFS[p5]} type veth peer name ${NETIFS[p6]}
ip li add ${NETIFS[p7]} type veth peer name ${NETIFS[p8]}
# enslave vrf interfaces
for n in 5 7; do
ip li set ${NETIFS[p${n}]} vrf ${VRF}
done
# add addresses
for n in 1 3 5 7; do
ip li set ${NETIFS[p${n}]} up
ip addr add ${V4ADDRS[p${n}]}/24 dev ${NETIFS[p${n}]}
ip addr add ${V6ADDRS[p${n}]}/64 dev ${NETIFS[p${n}]} nodad
done
# move peer interfaces to namespace and add addresses
for n in 2 4 6 8; do
ip li set ${NETIFS[p${n}]} netns ${PEER_NS} up
ip -netns ${PEER_NS} addr add ${V4ADDRS[p${n}]}/24 dev ${NETIFS[p${n}]}
ip -netns ${PEER_NS} addr add ${V6ADDRS[p${n}]}/64 dev ${NETIFS[p${n}]} nodad
done
ip -6 ro add default via ${V6ADDRS[p3]/::[0-9]/::64}
ip -6 ro add table ${VRF_TABLE} default via ${V6ADDRS[p7]/::[0-9]/::64}
set +e
}
cleanup()
{
# make sure we start from a clean slate
cleanup_ns ${PEER_NS} 2>/dev/null
for n in 1 3 5 7; do
ip link del ${NETIFS[p${n}]} 2>/dev/null
done
ip link del ${VRF} 2>/dev/null
ip ro flush table ${VRF_TABLE}
ip -6 ro flush table ${VRF_TABLE}
}
################################################################################
# IPv4 tests
#
run_ip()
{
local table="$1"
local prefix="$2"
local gw="$3"
local dev="$4"
local exp_rc="$5"
local desc="$6"
# dev arg may be empty
[ -n "${dev}" ] && dev="dev ${dev}"
run_cmd ip ro add table "${table}" "${prefix}"/32 via "${gw}" "${dev}" onlink
log_test $? ${exp_rc} "${desc}"
}
run_ip_mpath()
{
local table="$1"
local prefix="$2"
local nh1="$3"
local nh2="$4"
local exp_rc="$5"
local desc="$6"
# dev arg may be empty
[ -n "${dev}" ] && dev="dev ${dev}"
run_cmd ip ro add table "${table}" "${prefix}"/32 \
nexthop via ${nh1} nexthop via ${nh2}
log_test $? ${exp_rc} "${desc}"
}
valid_onlink_ipv4()
{
# - unicast connected, unicast recursive
#
log_subsection "default VRF - main table"
run_ip 254 ${TEST_NET4[1]}.1 ${CONGW[1]} ${NETIFS[p1]} 0 "unicast connected"
run_ip 254 ${TEST_NET4[1]}.2 ${RECGW4[1]} ${NETIFS[p1]} 0 "unicast recursive"
log_subsection "VRF ${VRF}"
run_ip ${VRF_TABLE} ${TEST_NET4[2]}.1 ${CONGW[3]} ${NETIFS[p5]} 0 "unicast connected"
run_ip ${VRF_TABLE} ${TEST_NET4[2]}.2 ${RECGW4[2]} ${NETIFS[p5]} 0 "unicast recursive"
log_subsection "VRF device, PBR table"
run_ip ${PBR_TABLE} ${TEST_NET4[2]}.3 ${CONGW[3]} ${NETIFS[p5]} 0 "unicast connected"
run_ip ${PBR_TABLE} ${TEST_NET4[2]}.4 ${RECGW4[2]} ${NETIFS[p5]} 0 "unicast recursive"
# multipath version
#
log_subsection "default VRF - main table - multipath"
run_ip_mpath 254 ${TEST_NET4[1]}.5 \
"${CONGW[1]} dev ${NETIFS[p1]} onlink" \
"${CONGW[2]} dev ${NETIFS[p3]} onlink" \
0 "unicast connected - multipath"
run_ip_mpath 254 ${TEST_NET4[1]}.6 \
"${RECGW4[1]} dev ${NETIFS[p1]} onlink" \
"${RECGW4[2]} dev ${NETIFS[p3]} onlink" \
0 "unicast recursive - multipath"
run_ip_mpath 254 ${TEST_NET4[1]}.7 \
"${CONGW[1]} dev ${NETIFS[p1]}" \
"${CONGW[2]} dev ${NETIFS[p3]} onlink" \
0 "unicast connected - multipath onlink first only"
run_ip_mpath 254 ${TEST_NET4[1]}.8 \
"${CONGW[1]} dev ${NETIFS[p1]} onlink" \
"${CONGW[2]} dev ${NETIFS[p3]}" \
0 "unicast connected - multipath onlink second only"
}
invalid_onlink_ipv4()
{
run_ip 254 ${TEST_NET4[1]}.11 ${V4ADDRS[p1]} ${NETIFS[p1]} 2 \
"Invalid gw - local unicast address"
run_ip ${VRF_TABLE} ${TEST_NET4[2]}.11 ${V4ADDRS[p5]} ${NETIFS[p5]} 2 \
"Invalid gw - local unicast address, VRF"
run_ip 254 ${TEST_NET4[1]}.101 ${V4ADDRS[p1]} "" 2 "No nexthop device given"
run_ip 254 ${TEST_NET4[1]}.102 ${V4ADDRS[p3]} ${NETIFS[p1]} 2 \
"Gateway resolves to wrong nexthop device"
run_ip ${VRF_TABLE} ${TEST_NET4[2]}.103 ${V4ADDRS[p7]} ${NETIFS[p5]} 2 \
"Gateway resolves to wrong nexthop device - VRF"
}
################################################################################
# IPv6 tests
#
run_ip6()
{
local table="$1"
local prefix="$2"
local gw="$3"
local dev="$4"
local exp_rc="$5"
local desc="$6"
# dev arg may be empty
[ -n "${dev}" ] && dev="dev ${dev}"
run_cmd ip -6 ro add table "${table}" "${prefix}"/128 via "${gw}" "${dev}" onlink
log_test $? ${exp_rc} "${desc}"
}
run_ip6_mpath()
{
local table="$1"
local prefix="$2"
local opts="$3"
local nh1="$4"
local nh2="$5"
local exp_rc="$6"
local desc="$7"
run_cmd ip -6 ro add table "${table}" "${prefix}"/128 "${opts}" \
nexthop via ${nh1} nexthop via ${nh2}
log_test $? ${exp_rc} "${desc}"
}
valid_onlink_ipv6()
{
# - unicast connected, unicast recursive, v4-mapped
#
log_subsection "default VRF - main table"
run_ip6 254 ${TEST_NET6[1]}::1 ${V6ADDRS[p1]/::*}::64 ${NETIFS[p1]} 0 "unicast connected"
run_ip6 254 ${TEST_NET6[1]}::2 ${RECGW6[1]} ${NETIFS[p1]} 0 "unicast recursive"
run_ip6 254 ${TEST_NET6[1]}::3 ::ffff:${TEST_NET4IN6[1]} ${NETIFS[p1]} 0 "v4-mapped"
log_subsection "VRF ${VRF}"
run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::1 ${V6ADDRS[p5]/::*}::64 ${NETIFS[p5]} 0 "unicast connected"
run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::2 ${RECGW6[2]} ${NETIFS[p5]} 0 "unicast recursive"
run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::3 ::ffff:${TEST_NET4IN6[2]} ${NETIFS[p5]} 0 "v4-mapped"
log_subsection "VRF device, PBR table"
run_ip6 ${PBR_TABLE} ${TEST_NET6[2]}::4 ${V6ADDRS[p5]/::*}::64 ${NETIFS[p5]} 0 "unicast connected"
run_ip6 ${PBR_TABLE} ${TEST_NET6[2]}::5 ${RECGW6[2]} ${NETIFS[p5]} 0 "unicast recursive"
run_ip6 ${PBR_TABLE} ${TEST_NET6[2]}::6 ::ffff:${TEST_NET4IN6[2]} ${NETIFS[p5]} 0 "v4-mapped"
# multipath version
#
log_subsection "default VRF - main table - multipath"
run_ip6_mpath 254 ${TEST_NET6[1]}::4 "onlink" \
"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]}" \
"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]}" \
0 "unicast connected - multipath onlink"
run_ip6_mpath 254 ${TEST_NET6[1]}::5 "onlink" \
"${RECGW6[1]} dev ${NETIFS[p1]}" \
"${RECGW6[2]} dev ${NETIFS[p3]}" \
0 "unicast recursive - multipath onlink"
run_ip6_mpath 254 ${TEST_NET6[1]}::6 "onlink" \
"::ffff:${TEST_NET4IN6[1]} dev ${NETIFS[p1]}" \
"::ffff:${TEST_NET4IN6[2]} dev ${NETIFS[p3]}" \
0 "v4-mapped - multipath onlink"
run_ip6_mpath 254 ${TEST_NET6[1]}::7 "" \
"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]} onlink" \
"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]} onlink" \
0 "unicast connected - multipath onlink both nexthops"
run_ip6_mpath 254 ${TEST_NET6[1]}::8 "" \
"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]} onlink" \
"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]}" \
0 "unicast connected - multipath onlink first only"
run_ip6_mpath 254 ${TEST_NET6[1]}::9 "" \
"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]}" \
"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]} onlink" \
0 "unicast connected - multipath onlink second only"
}
invalid_onlink_ipv6()
{
local lladdr
lladdr=$(get_linklocal ${NETIFS[p1]}) || return 1
run_ip6 254 ${TEST_NET6[1]}::11 ${V6ADDRS[p1]} ${NETIFS[p1]} 2 \
"Invalid gw - local unicast address"
run_ip6 254 ${TEST_NET6[1]}::12 ${lladdr} ${NETIFS[p1]} 2 \
"Invalid gw - local linklocal address"
run_ip6 254 ${TEST_NET6[1]}::12 ${MCAST6} ${NETIFS[p1]} 2 \
"Invalid gw - multicast address"
lladdr=$(get_linklocal ${NETIFS[p5]}) || return 1
run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::11 ${V6ADDRS[p5]} ${NETIFS[p5]} 2 \
"Invalid gw - local unicast address, VRF"
run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::12 ${lladdr} ${NETIFS[p5]} 2 \
"Invalid gw - local linklocal address, VRF"
run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::12 ${MCAST6} ${NETIFS[p5]} 2 \
"Invalid gw - multicast address, VRF"
run_ip6 254 ${TEST_NET6[1]}::101 ${V6ADDRS[p1]} "" 2 \
"No nexthop device given"
# default VRF validation is done against LOCAL table
# run_ip6 254 ${TEST_NET6[1]}::102 ${V6ADDRS[p3]/::[0-9]/::64} ${NETIFS[p1]} 2 \
# "Gateway resolves to wrong nexthop device"
run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::103 ${V6ADDRS[p7]/::[0-9]/::64} ${NETIFS[p5]} 2 \
"Gateway resolves to wrong nexthop device - VRF"
}
run_onlink_tests()
{
log_section "IPv4 onlink"
log_subsection "Valid onlink commands"
valid_onlink_ipv4
log_subsection "Invalid onlink commands"
invalid_onlink_ipv4
log_section "IPv6 onlink"
log_subsection "Valid onlink commands"
valid_onlink_ipv6
log_subsection "Invalid onlink commands"
invalid_onlink_ipv6
}
################################################################################
# usage
usage()
{
cat <<EOF
usage: ${0##*/} OPTS
-p Pause on fail
-v verbose mode (show commands and output)
EOF
}
################################################################################
# main
nsuccess=0
nfail=0
while getopts :t:pPhv o
do
case $o in
p) PAUSE_ON_FAIL=yes;;
v) VERBOSE=$(($VERBOSE + 1));;
h) usage; exit 0;;
*) usage; exit 1;;
esac
done
cleanup
setup
run_onlink_tests
cleanup
if [ "$TESTS" != "none" ]; then
printf "\nTests passed: %3d\n" ${nsuccess}
printf "Tests failed: %3d\n" ${nfail}
fi
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