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kernel/tools/testing/selftests/net/fcnal-test.sh

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init repo.
2024-07-22 17:22:30 +08:00
#!/bin/bash
# SPDX-License-Identifier: GPL-2.0
#
# Copyright (c) 2019 David Ahern <dsahern@gmail.com>. All rights reserved.
#
# IPv4 and IPv6 functional tests focusing on VRF and routing lookups
# for various permutations:
# 1. icmp, tcp, udp and netfilter
# 2. client, server, no-server
# 3. global address on interface
# 4. global address on 'lo'
# 5. remote and local traffic
# 6. VRF and non-VRF permutations
#
# Setup:
# ns-A | ns-B
# No VRF case:
# [ lo ] [ eth1 ]---|---[ eth1 ] [ lo ]
# remote address
# VRF case:
# [ red ]---[ eth1 ]---|---[ eth1 ] [ lo ]
#
# ns-A:
# eth1: 172.16.1.1/24, 2001:db8:1::1/64
# lo: 127.0.0.1/8, ::1/128
# 172.16.2.1/32, 2001:db8:2::1/128
# red: 127.0.0.1/8, ::1/128
# 172.16.3.1/32, 2001:db8:3::1/128
#
# ns-B:
# eth1: 172.16.1.2/24, 2001:db8:1::2/64
# lo2: 127.0.0.1/8, ::1/128
# 172.16.2.2/32, 2001:db8:2::2/128
#
# ns-A to ns-C connection - only for VRF and same config
# as ns-A to ns-B
#
# server / client nomenclature relative to ns-A
# Kselftest framework requirement - SKIP code is 4.
ksft_skip=4
VERBOSE=0
NSA_DEV=eth1
NSA_DEV2=eth2
NSB_DEV=eth1
NSC_DEV=eth2
VRF=red
VRF_TABLE=1101
# IPv4 config
NSA_IP=172.16.1.1
NSB_IP=172.16.1.2
VRF_IP=172.16.3.1
NS_NET=172.16.1.0/24
# IPv6 config
NSA_IP6=2001:db8:1::1
NSB_IP6=2001:db8:1::2
VRF_IP6=2001:db8:3::1
NS_NET6=2001:db8:1::/120
NSA_LO_IP=172.16.2.1
NSB_LO_IP=172.16.2.2
NSA_LO_IP6=2001:db8:2::1
NSB_LO_IP6=2001:db8:2::2
MD5_PW=abc123
MD5_WRONG_PW=abc1234
MCAST=ff02::1
# set after namespace create
NSA_LINKIP6=
NSB_LINKIP6=
NSA=ns-A
NSB=ns-B
NSC=ns-C
NSA_CMD="ip netns exec ${NSA}"
NSB_CMD="ip netns exec ${NSB}"
NSC_CMD="ip netns exec ${NSC}"
which ping6 > /dev/null 2>&1 && ping6=$(which ping6) || ping6=$(which ping)
# Check if FIPS mode is enabled
if [ -f /proc/sys/crypto/fips_enabled ]; then
fips_enabled=`cat /proc/sys/crypto/fips_enabled`
else
fips_enabled=0
fi
################################################################################
# utilities
log_test()
{
local rc=$1
local expected=$2
local msg="$3"
[ "${VERBOSE}" = "1" ] && echo
if [ ${rc} -eq ${expected} ]; then
nsuccess=$((nsuccess+1))
printf "TEST: %-70s [ OK ]\n" "${msg}"
else
nfail=$((nfail+1))
printf "TEST: %-70s [FAIL]\n" "${msg}"
if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
echo
echo "hit enter to continue, 'q' to quit"
read a
[ "$a" = "q" ] && exit 1
fi
fi
if [ "${PAUSE}" = "yes" ]; then
echo
echo "hit enter to continue, 'q' to quit"
read a
[ "$a" = "q" ] && exit 1
fi
kill_procs
}
log_test_addr()
{
local addr=$1
local rc=$2
local expected=$3
local msg="$4"
local astr
astr=$(addr2str ${addr})
log_test $rc $expected "$msg - ${astr}"
}
log_section()
{
echo
echo "###########################################################################"
echo "$*"
echo "###########################################################################"
echo
}
log_subsection()
{
echo
echo "#################################################################"
echo "$*"
echo
}
log_start()
{
# make sure we have no test instances running
kill_procs
if [ "${VERBOSE}" = "1" ]; then
echo
echo "#######################################################"
fi
}
log_debug()
{
if [ "${VERBOSE}" = "1" ]; then
echo
echo "$*"
echo
fi
}
show_hint()
{
if [ "${VERBOSE}" = "1" ]; then
echo "HINT: $*"
echo
fi
}
kill_procs()
{
killall nettest ping ping6 >/dev/null 2>&1
sleep 1
}
do_run_cmd()
{
local cmd="$*"
local out
if [ "$VERBOSE" = "1" ]; then
echo "COMMAND: ${cmd}"
fi
out=$($cmd 2>&1)
rc=$?
if [ "$VERBOSE" = "1" -a -n "$out" ]; then
echo "$out"
fi
return $rc
}
run_cmd()
{
do_run_cmd ${NSA_CMD} $*
}
run_cmd_nsb()
{
do_run_cmd ${NSB_CMD} $*
}
run_cmd_nsc()
{
do_run_cmd ${NSC_CMD} $*
}
setup_cmd()
{
local cmd="$*"
local rc
run_cmd ${cmd}
rc=$?
if [ $rc -ne 0 ]; then
# show user the command if not done so already
if [ "$VERBOSE" = "0" ]; then
echo "setup command: $cmd"
fi
echo "failed. stopping tests"
if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
echo
echo "hit enter to continue"
read a
fi
exit $rc
fi
}
setup_cmd_nsb()
{
local cmd="$*"
local rc
run_cmd_nsb ${cmd}
rc=$?
if [ $rc -ne 0 ]; then
# show user the command if not done so already
if [ "$VERBOSE" = "0" ]; then
echo "setup command: $cmd"
fi
echo "failed. stopping tests"
if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
echo
echo "hit enter to continue"
read a
fi
exit $rc
fi
}
setup_cmd_nsc()
{
local cmd="$*"
local rc
run_cmd_nsc ${cmd}
rc=$?
if [ $rc -ne 0 ]; then
# show user the command if not done so already
if [ "$VERBOSE" = "0" ]; then
echo "setup command: $cmd"
fi
echo "failed. stopping tests"
if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
echo
echo "hit enter to continue"
read a
fi
exit $rc
fi
}
# set sysctl values in NS-A
set_sysctl()
{
echo "SYSCTL: $*"
echo
run_cmd sysctl -q -w $*
}
# get sysctl values in NS-A
get_sysctl()
{
${NSA_CMD} sysctl -n $*
}
################################################################################
# Setup for tests
addr2str()
{
case "$1" in
127.0.0.1) echo "loopback";;
::1) echo "IPv6 loopback";;
${NSA_IP}) echo "ns-A IP";;
${NSA_IP6}) echo "ns-A IPv6";;
${NSA_LO_IP}) echo "ns-A loopback IP";;
${NSA_LO_IP6}) echo "ns-A loopback IPv6";;
${NSA_LINKIP6}|${NSA_LINKIP6}%*) echo "ns-A IPv6 LLA";;
${NSB_IP}) echo "ns-B IP";;
${NSB_IP6}) echo "ns-B IPv6";;
${NSB_LO_IP}) echo "ns-B loopback IP";;
${NSB_LO_IP6}) echo "ns-B loopback IPv6";;
${NSB_LINKIP6}|${NSB_LINKIP6}%*) echo "ns-B IPv6 LLA";;
${VRF_IP}) echo "VRF IP";;
${VRF_IP6}) echo "VRF IPv6";;
${MCAST}%*) echo "multicast IP";;
*) echo "unknown";;
esac
}
get_linklocal()
{
local ns=$1
local dev=$2
local addr
addr=$(ip -netns ${ns} -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
}
################################################################################
# create namespaces and vrf
create_vrf()
{
local ns=$1
local vrf=$2
local table=$3
local addr=$4
local addr6=$5
ip -netns ${ns} link add ${vrf} type vrf table ${table}
ip -netns ${ns} link set ${vrf} up
ip -netns ${ns} route add vrf ${vrf} unreachable default metric 8192
ip -netns ${ns} -6 route add vrf ${vrf} unreachable default metric 8192
ip -netns ${ns} addr add 127.0.0.1/8 dev ${vrf}
ip -netns ${ns} -6 addr add ::1 dev ${vrf} nodad
if [ "${addr}" != "-" ]; then
ip -netns ${ns} addr add dev ${vrf} ${addr}
fi
if [ "${addr6}" != "-" ]; then
ip -netns ${ns} -6 addr add dev ${vrf} ${addr6}
fi
ip -netns ${ns} ru del pref 0
ip -netns ${ns} ru add pref 32765 from all lookup local
ip -netns ${ns} -6 ru del pref 0
ip -netns ${ns} -6 ru add pref 32765 from all lookup local
}
create_ns()
{
local ns=$1
local addr=$2
local addr6=$3
ip netns add ${ns}
ip -netns ${ns} link set lo up
if [ "${addr}" != "-" ]; then
ip -netns ${ns} addr add dev lo ${addr}
fi
if [ "${addr6}" != "-" ]; then
ip -netns ${ns} -6 addr add dev lo ${addr6}
fi
ip -netns ${ns} ro add unreachable default metric 8192
ip -netns ${ns} -6 ro add unreachable default metric 8192
ip netns exec ${ns} sysctl -qw net.ipv4.ip_forward=1
ip netns exec ${ns} sysctl -qw net.ipv6.conf.all.keep_addr_on_down=1
ip netns exec ${ns} sysctl -qw net.ipv6.conf.all.forwarding=1
ip netns exec ${ns} sysctl -qw net.ipv6.conf.default.forwarding=1
}
# create veth pair to connect namespaces and apply addresses.
connect_ns()
{
local ns1=$1
local ns1_dev=$2
local ns1_addr=$3
local ns1_addr6=$4
local ns2=$5
local ns2_dev=$6
local ns2_addr=$7
local ns2_addr6=$8
ip -netns ${ns1} li add ${ns1_dev} type veth peer name tmp
ip -netns ${ns1} li set ${ns1_dev} up
ip -netns ${ns1} li set tmp netns ${ns2} name ${ns2_dev}
ip -netns ${ns2} li set ${ns2_dev} up
if [ "${ns1_addr}" != "-" ]; then
ip -netns ${ns1} addr add dev ${ns1_dev} ${ns1_addr}
ip -netns ${ns2} addr add dev ${ns2_dev} ${ns2_addr}
fi
if [ "${ns1_addr6}" != "-" ]; then
ip -netns ${ns1} addr add dev ${ns1_dev} ${ns1_addr6}
ip -netns ${ns2} addr add dev ${ns2_dev} ${ns2_addr6}
fi
}
cleanup()
{
# explicit cleanups to check those code paths
ip netns | grep -q ${NSA}
if [ $? -eq 0 ]; then
ip -netns ${NSA} link delete ${VRF}
ip -netns ${NSA} ro flush table ${VRF_TABLE}
ip -netns ${NSA} addr flush dev ${NSA_DEV}
ip -netns ${NSA} -6 addr flush dev ${NSA_DEV}
ip -netns ${NSA} link set dev ${NSA_DEV} down
ip -netns ${NSA} link del dev ${NSA_DEV}
ip netns pids ${NSA} | xargs kill 2>/dev/null
ip netns del ${NSA}
fi
ip netns pids ${NSB} | xargs kill 2>/dev/null
ip netns del ${NSB}
ip netns pids ${NSC} | xargs kill 2>/dev/null
ip netns del ${NSC} >/dev/null 2>&1
}
cleanup_vrf_dup()
{
ip link del ${NSA_DEV2} >/dev/null 2>&1
ip netns pids ${NSC} | xargs kill 2>/dev/null
ip netns del ${NSC} >/dev/null 2>&1
}
setup_vrf_dup()
{
# some VRF tests use ns-C which has the same config as
# ns-B but for a device NOT in the VRF
create_ns ${NSC} "-" "-"
connect_ns ${NSA} ${NSA_DEV2} ${NSA_IP}/24 ${NSA_IP6}/64 \
${NSC} ${NSC_DEV} ${NSB_IP}/24 ${NSB_IP6}/64
}
setup()
{
local with_vrf=${1}
# make sure we are starting with a clean slate
kill_procs
cleanup 2>/dev/null
log_debug "Configuring network namespaces"
set -e
create_ns ${NSA} ${NSA_LO_IP}/32 ${NSA_LO_IP6}/128
create_ns ${NSB} ${NSB_LO_IP}/32 ${NSB_LO_IP6}/128
connect_ns ${NSA} ${NSA_DEV} ${NSA_IP}/24 ${NSA_IP6}/64 \
${NSB} ${NSB_DEV} ${NSB_IP}/24 ${NSB_IP6}/64
NSA_LINKIP6=$(get_linklocal ${NSA} ${NSA_DEV})
NSB_LINKIP6=$(get_linklocal ${NSB} ${NSB_DEV})
# tell ns-A how to get to remote addresses of ns-B
if [ "${with_vrf}" = "yes" ]; then
create_vrf ${NSA} ${VRF} ${VRF_TABLE} ${VRF_IP} ${VRF_IP6}
ip -netns ${NSA} link set dev ${NSA_DEV} vrf ${VRF}
ip -netns ${NSA} ro add vrf ${VRF} ${NSB_LO_IP}/32 via ${NSB_IP} dev ${NSA_DEV}
ip -netns ${NSA} -6 ro add vrf ${VRF} ${NSB_LO_IP6}/128 via ${NSB_IP6} dev ${NSA_DEV}
ip -netns ${NSB} ro add ${VRF_IP}/32 via ${NSA_IP} dev ${NSB_DEV}
ip -netns ${NSB} -6 ro add ${VRF_IP6}/128 via ${NSA_IP6} dev ${NSB_DEV}
else
ip -netns ${NSA} ro add ${NSB_LO_IP}/32 via ${NSB_IP} dev ${NSA_DEV}
ip -netns ${NSA} ro add ${NSB_LO_IP6}/128 via ${NSB_IP6} dev ${NSA_DEV}
fi
# tell ns-B how to get to remote addresses of ns-A
ip -netns ${NSB} ro add ${NSA_LO_IP}/32 via ${NSA_IP} dev ${NSB_DEV}
ip -netns ${NSB} ro add ${NSA_LO_IP6}/128 via ${NSA_IP6} dev ${NSB_DEV}
set +e
sleep 1
}
setup_lla_only()
{
# make sure we are starting with a clean slate
kill_procs
cleanup 2>/dev/null
log_debug "Configuring network namespaces"
set -e
create_ns ${NSA} "-" "-"
create_ns ${NSB} "-" "-"
create_ns ${NSC} "-" "-"
connect_ns ${NSA} ${NSA_DEV} "-" "-" \
${NSB} ${NSB_DEV} "-" "-"
connect_ns ${NSA} ${NSA_DEV2} "-" "-" \
${NSC} ${NSC_DEV} "-" "-"
NSA_LINKIP6=$(get_linklocal ${NSA} ${NSA_DEV})
NSB_LINKIP6=$(get_linklocal ${NSB} ${NSB_DEV})
NSC_LINKIP6=$(get_linklocal ${NSC} ${NSC_DEV})
create_vrf ${NSA} ${VRF} ${VRF_TABLE} "-" "-"
ip -netns ${NSA} link set dev ${NSA_DEV} vrf ${VRF}
ip -netns ${NSA} link set dev ${NSA_DEV2} vrf ${VRF}
set +e
sleep 1
}
################################################################################
# IPv4
ipv4_ping_novrf()
{
local a
#
# out
#
for a in ${NSB_IP} ${NSB_LO_IP}
do
log_start
run_cmd ping -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping out"
log_start
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping out, device bind"
log_start
run_cmd ping -c1 -w1 -I ${NSA_LO_IP} ${a}
log_test_addr ${a} $? 0 "ping out, address bind"
done
#
# in
#
for a in ${NSA_IP} ${NSA_LO_IP}
do
log_start
run_cmd_nsb ping -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping in"
done
#
# local traffic
#
for a in ${NSA_IP} ${NSA_LO_IP} 127.0.0.1
do
log_start
run_cmd ping -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping local"
done
#
# local traffic, socket bound to device
#
# address on device
a=${NSA_IP}
log_start
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping local, device bind"
# loopback addresses not reachable from device bind
# fails in a really weird way though because ipv4 special cases
# route lookups with oif set.
for a in ${NSA_LO_IP} 127.0.0.1
do
log_start
show_hint "Fails since address on loopback device is out of device scope"
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 1 "ping local, device bind"
done
#
# ip rule blocks reachability to remote address
#
log_start
setup_cmd ip rule add pref 32765 from all lookup local
setup_cmd ip rule del pref 0 from all lookup local
setup_cmd ip rule add pref 50 to ${NSB_LO_IP} prohibit
setup_cmd ip rule add pref 51 from ${NSB_IP} prohibit
a=${NSB_LO_IP}
run_cmd ping -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, blocked by rule"
# NOTE: ipv4 actually allows the lookup to fail and yet still create
# a viable rtable if the oif (e.g., bind to device) is set, so this
# case succeeds despite the rule
# run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
a=${NSA_LO_IP}
log_start
show_hint "Response generates ICMP (or arp request is ignored) due to ip rule"
run_cmd_nsb ping -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in, blocked by rule"
[ "$VERBOSE" = "1" ] && echo
setup_cmd ip rule del pref 32765 from all lookup local
setup_cmd ip rule add pref 0 from all lookup local
setup_cmd ip rule del pref 50 to ${NSB_LO_IP} prohibit
setup_cmd ip rule del pref 51 from ${NSB_IP} prohibit
#
# route blocks reachability to remote address
#
log_start
setup_cmd ip route replace unreachable ${NSB_LO_IP}
setup_cmd ip route replace unreachable ${NSB_IP}
a=${NSB_LO_IP}
run_cmd ping -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, blocked by route"
# NOTE: ipv4 actually allows the lookup to fail and yet still create
# a viable rtable if the oif (e.g., bind to device) is set, so this
# case succeeds despite not having a route for the address
# run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
a=${NSA_LO_IP}
log_start
show_hint "Response is dropped (or arp request is ignored) due to ip route"
run_cmd_nsb ping -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in, blocked by route"
#
# remove 'remote' routes; fallback to default
#
log_start
setup_cmd ip ro del ${NSB_LO_IP}
a=${NSB_LO_IP}
run_cmd ping -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, unreachable default route"
# NOTE: ipv4 actually allows the lookup to fail and yet still create
# a viable rtable if the oif (e.g., bind to device) is set, so this
# case succeeds despite not having a route for the address
# run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
}
ipv4_ping_vrf()
{
local a
# should default on; does not exist on older kernels
set_sysctl net.ipv4.raw_l3mdev_accept=1 2>/dev/null
#
# out
#
for a in ${NSB_IP} ${NSB_LO_IP}
do
log_start
run_cmd ping -c1 -w1 -I ${VRF} ${a}
log_test_addr ${a} $? 0 "ping out, VRF bind"
log_start
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping out, device bind"
log_start
run_cmd ip vrf exec ${VRF} ping -c1 -w1 -I ${NSA_IP} ${a}
log_test_addr ${a} $? 0 "ping out, vrf device + dev address bind"
log_start
run_cmd ip vrf exec ${VRF} ping -c1 -w1 -I ${VRF_IP} ${a}
log_test_addr ${a} $? 0 "ping out, vrf device + vrf address bind"
done
#
# in
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd_nsb ping -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping in"
done
#
# local traffic, local address
#
for a in ${NSA_IP} ${VRF_IP} 127.0.0.1
do
log_start
show_hint "Source address should be ${a}"
run_cmd ping -c1 -w1 -I ${VRF} ${a}
log_test_addr ${a} $? 0 "ping local, VRF bind"
done
#
# local traffic, socket bound to device
#
# address on device
a=${NSA_IP}
log_start
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping local, device bind"
# vrf device is out of scope
for a in ${VRF_IP} 127.0.0.1
do
log_start
show_hint "Fails since address on vrf device is out of device scope"
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 1 "ping local, device bind"
done
#
# ip rule blocks address
#
log_start
setup_cmd ip rule add pref 50 to ${NSB_LO_IP} prohibit
setup_cmd ip rule add pref 51 from ${NSB_IP} prohibit
a=${NSB_LO_IP}
run_cmd ping -c1 -w1 -I ${VRF} ${a}
log_test_addr ${a} $? 2 "ping out, vrf bind, blocked by rule"
log_start
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping out, device bind, blocked by rule"
a=${NSA_LO_IP}
log_start
show_hint "Response lost due to ip rule"
run_cmd_nsb ping -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in, blocked by rule"
[ "$VERBOSE" = "1" ] && echo
setup_cmd ip rule del pref 50 to ${NSB_LO_IP} prohibit
setup_cmd ip rule del pref 51 from ${NSB_IP} prohibit
#
# remove 'remote' routes; fallback to default
#
log_start
setup_cmd ip ro del vrf ${VRF} ${NSB_LO_IP}
a=${NSB_LO_IP}
run_cmd ping -c1 -w1 -I ${VRF} ${a}
log_test_addr ${a} $? 2 "ping out, vrf bind, unreachable route"
log_start
run_cmd ping -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping out, device bind, unreachable route"
a=${NSA_LO_IP}
log_start
show_hint "Response lost by unreachable route"
run_cmd_nsb ping -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in, unreachable route"
}
ipv4_ping()
{
log_section "IPv4 ping"
log_subsection "No VRF"
setup
set_sysctl net.ipv4.raw_l3mdev_accept=0 2>/dev/null
ipv4_ping_novrf
setup
set_sysctl net.ipv4.raw_l3mdev_accept=1 2>/dev/null
ipv4_ping_novrf
setup
set_sysctl net.ipv4.ping_group_range='0 2147483647' 2>/dev/null
ipv4_ping_novrf
log_subsection "With VRF"
setup "yes"
ipv4_ping_vrf
setup "yes"
set_sysctl net.ipv4.ping_group_range='0 2147483647' 2>/dev/null
ipv4_ping_vrf
}
################################################################################
# IPv4 TCP
#
# MD5 tests without VRF
#
ipv4_tcp_md5_novrf()
{
#
# single address
#
# basic use case
log_start
run_cmd nettest -s -M ${MD5_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: Single address config"
# client sends MD5, server not configured
log_start
show_hint "Should timeout due to MD5 mismatch"
run_cmd nettest -s &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: Server no config, client uses password"
# wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -s -M ${MD5_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: Client uses wrong password"
# client from different address
log_start
show_hint "Should timeout due to MD5 mismatch"
run_cmd nettest -s -M ${MD5_PW} -m ${NSB_LO_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: Client address does not match address configured with password"
#
# MD5 extension - prefix length
#
# client in prefix
log_start
run_cmd nettest -s -M ${MD5_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: Prefix config"
# client in prefix, wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -s -M ${MD5_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: Prefix config, client uses wrong password"
# client outside of prefix
log_start
show_hint "Should timeout due to MD5 mismatch"
run_cmd nettest -s -M ${MD5_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -c ${NSB_LO_IP} -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: Prefix config, client address not in configured prefix"
}
#
# MD5 tests with VRF
#
ipv4_tcp_md5()
{
#
# single address
#
# basic use case
log_start
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Single address config"
# client sends MD5, server not configured
log_start
show_hint "Should timeout since server does not have MD5 auth"
run_cmd nettest -s -I ${VRF} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Server no config, client uses password"
# wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Client uses wrong password"
# client from different address
log_start
show_hint "Should timeout since server config differs from client"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NSB_LO_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Client address does not match address configured with password"
#
# MD5 extension - prefix length
#
# client in prefix
log_start
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Prefix config"
# client in prefix, wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Prefix config, client uses wrong password"
# client outside of prefix
log_start
show_hint "Should timeout since client address is outside of prefix"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -c ${NSB_LO_IP} -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Prefix config, client address not in configured prefix"
#
# duplicate config between default VRF and a VRF
#
log_start
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Single address config in default VRF and VRF, conn in VRF"
log_start
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsc nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 0 "MD5: VRF: Single address config in default VRF and VRF, conn in default VRF"
log_start
show_hint "Should timeout since client in default VRF uses VRF password"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsc nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Single address config in default VRF and VRF, conn in default VRF with VRF pw"
log_start
show_hint "Should timeout since client in VRF uses default VRF password"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NSB_IP} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Single address config in default VRF and VRF, conn in VRF with default VRF pw"
log_start
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Prefix config in default VRF and VRF, conn in VRF"
log_start
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsc nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 0 "MD5: VRF: Prefix config in default VRF and VRF, conn in default VRF"
log_start
show_hint "Should timeout since client in default VRF uses VRF password"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsc nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Prefix config in default VRF and VRF, conn in default VRF with VRF pw"
log_start
show_hint "Should timeout since client in VRF uses default VRF password"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} &
run_cmd nettest -s -M ${MD5_WRONG_PW} -m ${NS_NET} &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Prefix config in default VRF and VRF, conn in VRF with default VRF pw"
#
# negative tests
#
log_start
run_cmd nettest -s -I ${NSA_DEV} -M ${MD5_PW} -m ${NSB_IP}
log_test $? 1 "MD5: VRF: Device must be a VRF - single address"
log_start
run_cmd nettest -s -I ${NSA_DEV} -M ${MD5_PW} -m ${NS_NET}
log_test $? 1 "MD5: VRF: Device must be a VRF - prefix"
test_ipv4_md5_vrf__vrf_server__no_bind_ifindex
test_ipv4_md5_vrf__global_server__bind_ifindex0
}
test_ipv4_md5_vrf__vrf_server__no_bind_ifindex()
{
log_start
show_hint "Simulates applications using VRF without TCP_MD5SIG_FLAG_IFINDEX"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} --no-bind-key-ifindex &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: VRF-bound server, unbound key accepts connection"
log_start
show_hint "Binding both the socket and the key is not required but it works"
run_cmd nettest -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET} --force-bind-key-ifindex &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: VRF-bound server, bound key accepts connection"
}
test_ipv4_md5_vrf__global_server__bind_ifindex0()
{
# This particular test needs tcp_l3mdev_accept=1 for Global server to accept VRF connections
local old_tcp_l3mdev_accept
old_tcp_l3mdev_accept=$(get_sysctl net.ipv4.tcp_l3mdev_accept)
set_sysctl net.ipv4.tcp_l3mdev_accept=1
log_start
run_cmd nettest -s -M ${MD5_PW} -m ${NS_NET} --force-bind-key-ifindex &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Global server, Key bound to ifindex=0 rejects VRF connection"
log_start
run_cmd nettest -s -M ${MD5_PW} -m ${NS_NET} --force-bind-key-ifindex &
sleep 1
run_cmd_nsc nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Global server, key bound to ifindex=0 accepts non-VRF connection"
log_start
run_cmd nettest -s -M ${MD5_PW} -m ${NS_NET} --no-bind-key-ifindex &
sleep 1
run_cmd_nsb nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Global server, key not bound to ifindex accepts VRF connection"
log_start
run_cmd nettest -s -M ${MD5_PW} -m ${NS_NET} --no-bind-key-ifindex &
sleep 1
run_cmd_nsc nettest -r ${NSA_IP} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Global server, key not bound to ifindex accepts non-VRF connection"
# restore value
set_sysctl net.ipv4.tcp_l3mdev_accept="$old_tcp_l3mdev_accept"
}
ipv4_tcp_novrf()
{
local a
#
# server tests
#
for a in ${NSA_IP} ${NSA_LO_IP}
do
log_start
run_cmd nettest -s &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 0 "Global server"
done
a=${NSA_IP}
log_start
run_cmd nettest -s -I ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 0 "Device server"
# verify TCP reset sent and received
for a in ${NSA_IP} ${NSA_LO_IP}
do
log_start
show_hint "Should fail 'Connection refused' since there is no server"
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 1 "No server"
done
#
# client
#
for a in ${NSB_IP} ${NSB_LO_IP}
do
log_start
run_cmd_nsb nettest -s &
sleep 1
run_cmd nettest -r ${a} -0 ${NSA_IP}
log_test_addr ${a} $? 0 "Client"
log_start
run_cmd_nsb nettest -s &
sleep 1
run_cmd nettest -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 0 "Client, device bind"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -r ${a}
log_test_addr ${a} $? 1 "No server, unbound client"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "No server, device client"
done
#
# local address tests
#
for a in ${NSA_IP} ${NSA_LO_IP} 127.0.0.1
do
log_start
run_cmd nettest -s &
sleep 1
run_cmd nettest -r ${a} -0 ${a} -1 ${a}
log_test_addr ${a} $? 0 "Global server, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -s -I ${NSA_DEV} &
sleep 1
run_cmd nettest -r ${a} -0 ${a}
log_test_addr ${a} $? 0 "Device server, unbound client, local connection"
for a in ${NSA_LO_IP} 127.0.0.1
do
log_start
show_hint "Should fail 'Connection refused' since addresses on loopback are out of device scope"
run_cmd nettest -s -I ${NSA_DEV} &
sleep 1
run_cmd nettest -r ${a}
log_test_addr ${a} $? 1 "Device server, unbound client, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -s &
sleep 1
run_cmd nettest -r ${a} -0 ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 0 "Global server, device client, local connection"
for a in ${NSA_LO_IP} 127.0.0.1
do
log_start
show_hint "Should fail 'No route to host' since addresses on loopback are out of device scope"
run_cmd nettest -s &
sleep 1
run_cmd nettest -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "Global server, device client, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -d ${NSA_DEV} -r ${a} -0 ${a}
log_test_addr ${a} $? 0 "Device server, device client, local connection"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 1 "No server, device client, local conn"
[ "$fips_enabled" = "1" ] || ipv4_tcp_md5_novrf
}
ipv4_tcp_vrf()
{
local a
# disable global server
log_subsection "Global server disabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=0
#
# server tests
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
show_hint "Should fail 'Connection refused' since global server with VRF is disabled"
run_cmd nettest -s &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 1 "Global server"
log_start
run_cmd nettest -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 0 "VRF server"
log_start
run_cmd nettest -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 0 "Device server"
# verify TCP reset received
log_start
show_hint "Should fail 'Connection refused' since there is no server"
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 1 "No server"
done
# local address tests
# (${VRF_IP} and 127.0.0.1 both timeout)
a=${NSA_IP}
log_start
show_hint "Should fail 'Connection refused' since global server with VRF is disabled"
run_cmd nettest -s &
sleep 1
run_cmd nettest -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "Global server, local connection"
# run MD5 tests
if [ "$fips_enabled" = "0" ]; then
setup_vrf_dup
ipv4_tcp_md5
cleanup_vrf_dup
fi
#
# enable VRF global server
#
log_subsection "VRF Global server enabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=1
for a in ${NSA_IP} ${VRF_IP}
do
log_start
show_hint "client socket should be bound to VRF"
run_cmd nettest -s -3 ${VRF} &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 0 "Global server"
log_start
show_hint "client socket should be bound to VRF"
run_cmd nettest -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 0 "VRF server"
# verify TCP reset received
log_start
show_hint "Should fail 'Connection refused'"
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 1 "No server"
done
a=${NSA_IP}
log_start
show_hint "client socket should be bound to device"
run_cmd nettest -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 0 "Device server"
# local address tests
for a in ${NSA_IP} ${VRF_IP}
do
log_start
show_hint "Should fail 'Connection refused' since client is not bound to VRF"
run_cmd nettest -s -I ${VRF} &
sleep 1
run_cmd nettest -r ${a}
log_test_addr ${a} $? 1 "Global server, local connection"
done
#
# client
#
for a in ${NSB_IP} ${NSB_LO_IP}
do
log_start
run_cmd_nsb nettest -s &
sleep 1
run_cmd nettest -r ${a} -d ${VRF}
log_test_addr ${a} $? 0 "Client, VRF bind"
log_start
run_cmd_nsb nettest -s &
sleep 1
run_cmd nettest -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 0 "Client, device bind"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -r ${a} -d ${VRF}
log_test_addr ${a} $? 1 "No server, VRF client"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "No server, device client"
done
for a in ${NSA_IP} ${VRF_IP} 127.0.0.1
do
log_start
run_cmd nettest -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd nettest -r ${a} -d ${VRF} -0 ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd nettest -r ${a} -d ${NSA_DEV} -0 ${a}
log_test_addr ${a} $? 0 "VRF server, device client, local connection"
log_start
show_hint "Should fail 'No route to host' since client is out of VRF scope"
run_cmd nettest -s -I ${VRF} &
sleep 1
run_cmd nettest -r ${a}
log_test_addr ${a} $? 1 "VRF server, unbound client, local connection"
log_start
run_cmd nettest -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -r ${a} -d ${VRF} -0 ${a}
log_test_addr ${a} $? 0 "Device server, VRF client, local connection"
log_start
run_cmd nettest -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -r ${a} -d ${NSA_DEV} -0 ${a}
log_test_addr ${a} $? 0 "Device server, device client, local connection"
}
ipv4_tcp()
{
log_section "IPv4/TCP"
log_subsection "No VRF"
setup
# tcp_l3mdev_accept should have no affect without VRF;
# run tests with it enabled and disabled to verify
log_subsection "tcp_l3mdev_accept disabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=0
ipv4_tcp_novrf
log_subsection "tcp_l3mdev_accept enabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=1
ipv4_tcp_novrf
log_subsection "With VRF"
setup "yes"
ipv4_tcp_vrf
}
################################################################################
# IPv4 UDP
ipv4_udp_novrf()
{
local a
#
# server tests
#
for a in ${NSA_IP} ${NSA_LO_IP}
do
log_start
run_cmd nettest -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 0 "Global server"
log_start
show_hint "Should fail 'Connection refused' since there is no server"
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 1 "No server"
done
a=${NSA_IP}
log_start
run_cmd nettest -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 0 "Device server"
#
# client
#
for a in ${NSB_IP} ${NSB_LO_IP}
do
log_start
run_cmd_nsb nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -0 ${NSA_IP}
log_test_addr ${a} $? 0 "Client"
log_start
run_cmd_nsb nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -d ${NSA_DEV} -0 ${NSA_IP}
log_test_addr ${a} $? 0 "Client, device bind"
log_start
run_cmd_nsb nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -d ${NSA_DEV} -C -0 ${NSA_IP}
log_test_addr ${a} $? 0 "Client, device send via cmsg"
log_start
run_cmd_nsb nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -d ${NSA_DEV} -S -0 ${NSA_IP}
log_test_addr ${a} $? 0 "Client, device bind via IP_UNICAST_IF"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -D -r ${a}
log_test_addr ${a} $? 1 "No server, unbound client"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -D -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "No server, device client"
done
#
# local address tests
#
for a in ${NSA_IP} ${NSA_LO_IP} 127.0.0.1
do
log_start
run_cmd nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -0 ${a} -1 ${a}
log_test_addr ${a} $? 0 "Global server, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -s -D -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -r ${a}
log_test_addr ${a} $? 0 "Device server, unbound client, local connection"
for a in ${NSA_LO_IP} 127.0.0.1
do
log_start
show_hint "Should fail 'Connection refused' since address is out of device scope"
run_cmd nettest -s -D -I ${NSA_DEV} &
sleep 1
run_cmd nettest -D -r ${a}
log_test_addr ${a} $? 1 "Device server, unbound client, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -s -D &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Global server, device client, local connection"
log_start
run_cmd nettest -s -D &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -C -r ${a}
log_test_addr ${a} $? 0 "Global server, device send via cmsg, local connection"
log_start
run_cmd nettest -s -D &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -S -r ${a}
log_test_addr ${a} $? 0 "Global server, device client via IP_UNICAST_IF, local connection"
# IPv4 with device bind has really weird behavior - it overrides the
# fib lookup, generates an rtable and tries to send the packet. This
# causes failures for local traffic at different places
for a in ${NSA_LO_IP} 127.0.0.1
do
log_start
show_hint "Should fail since addresses on loopback are out of device scope"
run_cmd nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 2 "Global server, device client, local connection"
log_start
show_hint "Should fail since addresses on loopback are out of device scope"
run_cmd nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -d ${NSA_DEV} -C
log_test_addr ${a} $? 1 "Global server, device send via cmsg, local connection"
log_start
show_hint "Should fail since addresses on loopback are out of device scope"
run_cmd nettest -D -s &
sleep 1
run_cmd nettest -D -r ${a} -d ${NSA_DEV} -S
log_test_addr ${a} $? 1 "Global server, device client via IP_UNICAST_IF, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -D -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -r ${a} -0 ${a}
log_test_addr ${a} $? 0 "Device server, device client, local conn"
log_start
run_cmd nettest -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 2 "No server, device client, local conn"
}
ipv4_udp_vrf()
{
local a
# disable global server
log_subsection "Global server disabled"
set_sysctl net.ipv4.udp_l3mdev_accept=0
#
# server tests
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
show_hint "Fails because ingress is in a VRF and global server is disabled"
run_cmd nettest -D -s &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 1 "Global server"
log_start
run_cmd nettest -D -I ${VRF} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 0 "VRF server"
log_start
run_cmd nettest -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server"
log_start
show_hint "Should fail 'Connection refused' since there is no server"
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 1 "No server"
log_start
show_hint "Should fail 'Connection refused' since global server is out of scope"
run_cmd nettest -D -s &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 1 "Global server, VRF client, local connection"
done
a=${NSA_IP}
log_start
run_cmd nettest -s -D -I ${VRF} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local conn"
log_start
run_cmd nettest -s -D -I ${VRF} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "VRF server, enslaved device client, local connection"
a=${NSA_IP}
log_start
run_cmd nettest -s -D -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server, VRF client, local conn"
log_start
run_cmd nettest -s -D -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server, device client, local conn"
# enable global server
log_subsection "Global server enabled"
set_sysctl net.ipv4.udp_l3mdev_accept=1
#
# server tests
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 0 "Global server"
log_start
run_cmd nettest -D -I ${VRF} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 0 "VRF server"
log_start
run_cmd nettest -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd_nsb nettest -D -r ${a}
log_test_addr ${a} $? 1 "No server"
done
#
# client tests
#
log_start
run_cmd_nsb nettest -D -s &
sleep 1
run_cmd nettest -d ${VRF} -D -r ${NSB_IP} -1 ${NSA_IP}
log_test $? 0 "VRF client"
log_start
run_cmd_nsb nettest -D -s &
sleep 1
run_cmd nettest -d ${NSA_DEV} -D -r ${NSB_IP} -1 ${NSA_IP}
log_test $? 0 "Enslaved device client"
# negative test - should fail
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -D -d ${VRF} -r ${NSB_IP}
log_test $? 1 "No server, VRF client"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -D -d ${NSA_DEV} -r ${NSB_IP}
log_test $? 1 "No server, enslaved device client"
#
# local address tests
#
a=${NSA_IP}
log_start
run_cmd nettest -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Global server, VRF client, local conn"
log_start
run_cmd nettest -s -D -I ${VRF} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local conn"
log_start
run_cmd nettest -s -D -I ${VRF} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "VRF server, device client, local conn"
log_start
run_cmd nettest -s -D -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server, VRF client, local conn"
log_start
run_cmd nettest -s -D -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server, device client, local conn"
for a in ${VRF_IP} 127.0.0.1
do
log_start
run_cmd nettest -D -s -3 ${VRF} &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Global server, VRF client, local conn"
done
for a in ${VRF_IP} 127.0.0.1
do
log_start
run_cmd nettest -s -D -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local conn"
done
# negative test - should fail
# verifies ECONNREFUSED
for a in ${NSA_IP} ${VRF_IP} 127.0.0.1
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 1 "No server, VRF client, local conn"
done
}
ipv4_udp()
{
log_section "IPv4/UDP"
log_subsection "No VRF"
setup
# udp_l3mdev_accept should have no affect without VRF;
# run tests with it enabled and disabled to verify
log_subsection "udp_l3mdev_accept disabled"
set_sysctl net.ipv4.udp_l3mdev_accept=0
ipv4_udp_novrf
log_subsection "udp_l3mdev_accept enabled"
set_sysctl net.ipv4.udp_l3mdev_accept=1
ipv4_udp_novrf
log_subsection "With VRF"
setup "yes"
ipv4_udp_vrf
}
################################################################################
# IPv4 address bind
#
# verifies ability or inability to bind to an address / device
ipv4_addr_bind_novrf()
{
#
# raw socket
#
for a in ${NSA_IP} ${NSA_LO_IP}
do
log_start
run_cmd nettest -s -R -P icmp -l ${a} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address"
log_start
run_cmd nettest -s -R -P icmp -l ${a} -I ${NSA_DEV} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address after device bind"
done
#
# tcp sockets
#
a=${NSA_IP}
log_start
run_cmd nettest -c ${a} -r ${NSB_IP} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address"
log_start
run_cmd nettest -c ${a} -r ${NSB_IP} -d ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address after device bind"
# Sadly, the kernel allows binding a socket to a device and then
# binding to an address not on the device. The only restriction
# is that the address is valid in the L3 domain. So this test
# passes when it really should not
#a=${NSA_LO_IP}
#log_start
#show_hint "Should fail with 'Cannot assign requested address'"
#run_cmd nettest -s -l ${a} -I ${NSA_DEV} -t1 -b
#log_test_addr ${a} $? 1 "TCP socket bind to out of scope local address"
}
ipv4_addr_bind_vrf()
{
#
# raw socket
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
show_hint "Socket not bound to VRF, but address is in VRF"
run_cmd nettest -s -R -P icmp -l ${a} -b
log_test_addr ${a} $? 1 "Raw socket bind to local address"
log_start
run_cmd nettest -s -R -P icmp -l ${a} -I ${NSA_DEV} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address after device bind"
log_start
run_cmd nettest -s -R -P icmp -l ${a} -I ${VRF} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address after VRF bind"
done
a=${NSA_LO_IP}
log_start
show_hint "Address on loopback is out of VRF scope"
run_cmd nettest -s -R -P icmp -l ${a} -I ${VRF} -b
log_test_addr ${a} $? 1 "Raw socket bind to out of scope address after VRF bind"
#
# tcp sockets
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest -s -l ${a} -I ${VRF} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address"
log_start
run_cmd nettest -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address after device bind"
done
a=${NSA_LO_IP}
log_start
show_hint "Address on loopback out of scope for VRF"
run_cmd nettest -s -l ${a} -I ${VRF} -t1 -b
log_test_addr ${a} $? 1 "TCP socket bind to invalid local address for VRF"
log_start
show_hint "Address on loopback out of scope for device in VRF"
run_cmd nettest -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 1 "TCP socket bind to invalid local address for device bind"
}
ipv4_addr_bind()
{
log_section "IPv4 address binds"
log_subsection "No VRF"
setup
ipv4_addr_bind_novrf
log_subsection "With VRF"
setup "yes"
ipv4_addr_bind_vrf
}
################################################################################
# IPv4 runtime tests
ipv4_rt()
{
local desc="$1"
local varg="$2"
local with_vrf="yes"
local a
#
# server tests
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest ${varg} -s &
sleep 1
run_cmd_nsb nettest ${varg} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, global server"
setup ${with_vrf}
done
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest ${varg} -s -I ${VRF} &
sleep 1
run_cmd_nsb nettest ${varg} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, VRF server"
setup ${with_vrf}
done
a=${NSA_IP}
log_start
run_cmd nettest ${varg} -s -I ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest ${varg} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, enslaved device server"
setup ${with_vrf}
#
# client test
#
log_start
run_cmd_nsb nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${VRF} -r ${NSB_IP} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, VRF client"
setup ${with_vrf}
log_start
run_cmd_nsb nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${NSB_IP} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, enslaved device client"
setup ${with_vrf}
#
# local address tests
#
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${VRF} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, global server, VRF client, local"
setup ${with_vrf}
done
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest ${varg} -I ${VRF} -s &
sleep 1
run_cmd nettest ${varg} -d ${VRF} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, VRF server and client, local"
setup ${with_vrf}
done
a=${NSA_IP}
log_start
run_cmd nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, global server, enslaved device client, local"
setup ${with_vrf}
log_start
run_cmd nettest ${varg} -I ${VRF} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, VRF server, enslaved device client, local"
setup ${with_vrf}
log_start
run_cmd nettest ${varg} -I ${NSA_DEV} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, enslaved device server and client, local"
}
ipv4_ping_rt()
{
local with_vrf="yes"
local a
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd_nsb ping -f ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "Device delete with active traffic - ping in"
setup ${with_vrf}
done
a=${NSB_IP}
log_start
run_cmd ping -f -I ${VRF} ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "Device delete with active traffic - ping out"
}
ipv4_runtime()
{
log_section "Run time tests - ipv4"
setup "yes"
ipv4_ping_rt
setup "yes"
ipv4_rt "TCP active socket" "-n -1"
setup "yes"
ipv4_rt "TCP passive socket" "-i"
}
################################################################################
# IPv6
ipv6_ping_novrf()
{
local a
# should not have an impact, but make a known state
set_sysctl net.ipv4.raw_l3mdev_accept=0 2>/dev/null
#
# out
#
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}%${NSA_DEV} ${MCAST}%${NSA_DEV}
do
log_start
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping out"
done
for a in ${NSB_IP6} ${NSB_LO_IP6}
do
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping out, device bind"
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_LO_IP6} ${a}
log_test_addr ${a} $? 0 "ping out, loopback address bind"
done
#
# in
#
for a in ${NSA_IP6} ${NSA_LO_IP6} ${NSA_LINKIP6}%${NSB_DEV} ${MCAST}%${NSB_DEV}
do
log_start
run_cmd_nsb ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping in"
done
#
# local traffic, local address
#
for a in ${NSA_IP6} ${NSA_LO_IP6} ::1 ${NSA_LINKIP6}%${NSA_DEV} ${MCAST}%${NSA_DEV}
do
log_start
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping local, no bind"
done
for a in ${NSA_IP6} ${NSA_LINKIP6}%${NSA_DEV} ${MCAST}%${NSA_DEV}
do
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping local, device bind"
done
for a in ${NSA_LO_IP6} ::1
do
log_start
show_hint "Fails since address on loopback is out of device scope"
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping local, device bind"
done
#
# ip rule blocks address
#
log_start
setup_cmd ip -6 rule add pref 32765 from all lookup local
setup_cmd ip -6 rule del pref 0 from all lookup local
setup_cmd ip -6 rule add pref 50 to ${NSB_LO_IP6} prohibit
setup_cmd ip -6 rule add pref 51 from ${NSB_IP6} prohibit
a=${NSB_LO_IP6}
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, blocked by rule"
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping out, device bind, blocked by rule"
a=${NSA_LO_IP6}
log_start
show_hint "Response lost due to ip rule"
run_cmd_nsb ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in, blocked by rule"
setup_cmd ip -6 rule add pref 0 from all lookup local
setup_cmd ip -6 rule del pref 32765 from all lookup local
setup_cmd ip -6 rule del pref 50 to ${NSB_LO_IP6} prohibit
setup_cmd ip -6 rule del pref 51 from ${NSB_IP6} prohibit
#
# route blocks reachability to remote address
#
log_start
setup_cmd ip -6 route del ${NSB_LO_IP6}
setup_cmd ip -6 route add unreachable ${NSB_LO_IP6} metric 10
setup_cmd ip -6 route add unreachable ${NSB_IP6} metric 10
a=${NSB_LO_IP6}
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, blocked by route"
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping out, device bind, blocked by route"
a=${NSA_LO_IP6}
log_start
show_hint "Response lost due to ip route"
run_cmd_nsb ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in, blocked by route"
#
# remove 'remote' routes; fallback to default
#
log_start
setup_cmd ip -6 ro del unreachable ${NSB_LO_IP6}
setup_cmd ip -6 ro del unreachable ${NSB_IP6}
a=${NSB_LO_IP6}
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, unreachable route"
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping out, device bind, unreachable route"
}
ipv6_ping_vrf()
{
local a
# should default on; does not exist on older kernels
set_sysctl net.ipv4.raw_l3mdev_accept=1 2>/dev/null
#
# out
#
for a in ${NSB_IP6} ${NSB_LO_IP6}
do
log_start
run_cmd ${ping6} -c1 -w1 -I ${VRF} ${a}
log_test_addr ${a} $? 0 "ping out, VRF bind"
done
for a in ${NSB_LINKIP6}%${VRF} ${MCAST}%${VRF}
do
log_start
show_hint "Fails since VRF device does not support linklocal or multicast"
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping out, VRF bind"
done
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}%${NSA_DEV} ${MCAST}%${NSA_DEV}
do
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping out, device bind"
done
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}%${NSA_DEV}
do
log_start
run_cmd ip vrf exec ${VRF} ${ping6} -c1 -w1 -I ${VRF_IP6} ${a}
log_test_addr ${a} $? 0 "ping out, vrf device+address bind"
done
#
# in
#
for a in ${NSA_IP6} ${VRF_IP6} ${NSA_LINKIP6}%${NSB_DEV} ${MCAST}%${NSB_DEV}
do
log_start
run_cmd_nsb ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 0 "ping in"
done
a=${NSA_LO_IP6}
log_start
show_hint "Fails since loopback address is out of VRF scope"
run_cmd_nsb ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in"
#
# local traffic, local address
#
for a in ${NSA_IP6} ${VRF_IP6} ::1
do
log_start
show_hint "Source address should be ${a}"
run_cmd ${ping6} -c1 -w1 -I ${VRF} ${a}
log_test_addr ${a} $? 0 "ping local, VRF bind"
done
for a in ${NSA_IP6} ${NSA_LINKIP6}%${NSA_DEV} ${MCAST}%${NSA_DEV}
do
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 0 "ping local, device bind"
done
# LLA to GUA - remove ipv6 global addresses from ns-B
setup_cmd_nsb ip -6 addr del ${NSB_IP6}/64 dev ${NSB_DEV}
setup_cmd_nsb ip -6 addr del ${NSB_LO_IP6}/128 dev lo
setup_cmd_nsb ip -6 ro add ${NSA_IP6}/128 via ${NSA_LINKIP6} dev ${NSB_DEV}
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd_nsb ${ping6} -c1 -w1 ${NSA_IP6}
log_test_addr ${a} $? 0 "ping in, LLA to GUA"
done
setup_cmd_nsb ip -6 ro del ${NSA_IP6}/128 via ${NSA_LINKIP6} dev ${NSB_DEV}
setup_cmd_nsb ip -6 addr add ${NSB_IP6}/64 dev ${NSB_DEV}
setup_cmd_nsb ip -6 addr add ${NSB_LO_IP6}/128 dev lo
#
# ip rule blocks address
#
log_start
setup_cmd ip -6 rule add pref 50 to ${NSB_LO_IP6} prohibit
setup_cmd ip -6 rule add pref 51 from ${NSB_IP6} prohibit
a=${NSB_LO_IP6}
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, blocked by rule"
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping out, device bind, blocked by rule"
a=${NSA_LO_IP6}
log_start
show_hint "Response lost due to ip rule"
run_cmd_nsb ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 1 "ping in, blocked by rule"
log_start
setup_cmd ip -6 rule del pref 50 to ${NSB_LO_IP6} prohibit
setup_cmd ip -6 rule del pref 51 from ${NSB_IP6} prohibit
#
# remove 'remote' routes; fallback to default
#
log_start
setup_cmd ip -6 ro del ${NSB_LO_IP6} vrf ${VRF}
a=${NSB_LO_IP6}
run_cmd ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping out, unreachable route"
log_start
run_cmd ${ping6} -c1 -w1 -I ${NSA_DEV} ${a}
log_test_addr ${a} $? 2 "ping out, device bind, unreachable route"
ip -netns ${NSB} -6 ro del ${NSA_LO_IP6}
a=${NSA_LO_IP6}
log_start
run_cmd_nsb ${ping6} -c1 -w1 ${a}
log_test_addr ${a} $? 2 "ping in, unreachable route"
}
ipv6_ping()
{
log_section "IPv6 ping"
log_subsection "No VRF"
setup
ipv6_ping_novrf
setup
set_sysctl net.ipv4.ping_group_range='0 2147483647' 2>/dev/null
ipv6_ping_novrf
log_subsection "With VRF"
setup "yes"
ipv6_ping_vrf
setup "yes"
set_sysctl net.ipv4.ping_group_range='0 2147483647' 2>/dev/null
ipv6_ping_vrf
}
################################################################################
# IPv6 TCP
#
# MD5 tests without VRF
#
ipv6_tcp_md5_novrf()
{
#
# single address
#
# basic use case
log_start
run_cmd nettest -6 -s -M ${MD5_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 0 "MD5: Single address config"
# client sends MD5, server not configured
log_start
show_hint "Should timeout due to MD5 mismatch"
run_cmd nettest -6 -s &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: Server no config, client uses password"
# wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -6 -s -M ${MD5_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: Client uses wrong password"
# client from different address
log_start
show_hint "Should timeout due to MD5 mismatch"
run_cmd nettest -6 -s -M ${MD5_PW} -m ${NSB_LO_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: Client address does not match address configured with password"
#
# MD5 extension - prefix length
#
# client in prefix
log_start
run_cmd nettest -6 -s -M ${MD5_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 0 "MD5: Prefix config"
# client in prefix, wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -6 -s -M ${MD5_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: Prefix config, client uses wrong password"
# client outside of prefix
log_start
show_hint "Should timeout due to MD5 mismatch"
run_cmd nettest -6 -s -M ${MD5_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -c ${NSB_LO_IP6} -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: Prefix config, client address not in configured prefix"
}
#
# MD5 tests with VRF
#
ipv6_tcp_md5()
{
#
# single address
#
# basic use case
log_start
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Single address config"
# client sends MD5, server not configured
log_start
show_hint "Should timeout since server does not have MD5 auth"
run_cmd nettest -6 -s -I ${VRF} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Server no config, client uses password"
# wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Client uses wrong password"
# client from different address
log_start
show_hint "Should timeout since server config differs from client"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NSB_LO_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Client address does not match address configured with password"
#
# MD5 extension - prefix length
#
# client in prefix
log_start
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Prefix config"
# client in prefix, wrong password
log_start
show_hint "Should timeout since client uses wrong password"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Prefix config, client uses wrong password"
# client outside of prefix
log_start
show_hint "Should timeout since client address is outside of prefix"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -c ${NSB_LO_IP6} -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Prefix config, client address not in configured prefix"
#
# duplicate config between default VRF and a VRF
#
log_start
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Single address config in default VRF and VRF, conn in VRF"
log_start
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsc nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 0 "MD5: VRF: Single address config in default VRF and VRF, conn in default VRF"
log_start
show_hint "Should timeout since client in default VRF uses VRF password"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsc nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Single address config in default VRF and VRF, conn in default VRF with VRF pw"
log_start
show_hint "Should timeout since client in VRF uses default VRF password"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NSB_IP6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NSB_IP6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Single address config in default VRF and VRF, conn in VRF with default VRF pw"
log_start
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 0 "MD5: VRF: Prefix config in default VRF and VRF, conn in VRF"
log_start
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsc nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 0 "MD5: VRF: Prefix config in default VRF and VRF, conn in default VRF"
log_start
show_hint "Should timeout since client in default VRF uses VRF password"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsc nettest -6 -r ${NSA_IP6} -X ${MD5_PW}
log_test $? 2 "MD5: VRF: Prefix config in default VRF and VRF, conn in default VRF with VRF pw"
log_start
show_hint "Should timeout since client in VRF uses default VRF password"
run_cmd nettest -6 -s -I ${VRF} -M ${MD5_PW} -m ${NS_NET6} &
run_cmd nettest -6 -s -M ${MD5_WRONG_PW} -m ${NS_NET6} &
sleep 1
run_cmd_nsb nettest -6 -r ${NSA_IP6} -X ${MD5_WRONG_PW}
log_test $? 2 "MD5: VRF: Prefix config in default VRF and VRF, conn in VRF with default VRF pw"
#
# negative tests
#
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -M ${MD5_PW} -m ${NSB_IP6}
log_test $? 1 "MD5: VRF: Device must be a VRF - single address"
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -M ${MD5_PW} -m ${NS_NET6}
log_test $? 1 "MD5: VRF: Device must be a VRF - prefix"
}
ipv6_tcp_novrf()
{
local a
#
# server tests
#
for a in ${NSA_IP6} ${NSA_LO_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
run_cmd nettest -6 -s &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "Global server"
done
# verify TCP reset received
for a in ${NSA_IP6} ${NSA_LO_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 1 "No server"
done
#
# client
#
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}%${NSA_DEV}
do
log_start
run_cmd_nsb nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a}
log_test_addr ${a} $? 0 "Client"
done
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}%${NSA_DEV}
do
log_start
run_cmd_nsb nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 0 "Client, device bind"
done
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}%${NSA_DEV}
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -6 -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "No server, device client"
done
#
# local address tests
#
for a in ${NSA_IP6} ${NSA_LO_IP6} ::1
do
log_start
run_cmd nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a}
log_test_addr ${a} $? 0 "Global server, local connection"
done
a=${NSA_IP6}
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -r ${a} -0 ${a}
log_test_addr ${a} $? 0 "Device server, unbound client, local connection"
for a in ${NSA_LO_IP6} ::1
do
log_start
show_hint "Should fail 'Connection refused' since addresses on loopback are out of device scope"
run_cmd nettest -6 -s -I ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -r ${a}
log_test_addr ${a} $? 1 "Device server, unbound client, local connection"
done
a=${NSA_IP6}
log_start
run_cmd nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a} -d ${NSA_DEV} -0 ${a}
log_test_addr ${a} $? 0 "Global server, device client, local connection"
for a in ${NSA_LO_IP6} ::1
do
log_start
show_hint "Should fail 'Connection refused' since addresses on loopback are out of device scope"
run_cmd nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "Global server, device client, local connection"
done
for a in ${NSA_IP6} ${NSA_LINKIP6}
do
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Device server, device client, local conn"
done
for a in ${NSA_IP6} ${NSA_LINKIP6}
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -6 -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 1 "No server, device client, local conn"
done
[ "$fips_enabled" = "1" ] || ipv6_tcp_md5_novrf
}
ipv6_tcp_vrf()
{
local a
# disable global server
log_subsection "Global server disabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=0
#
# server tests
#
for a in ${NSA_IP6} ${VRF_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
show_hint "Should fail 'Connection refused' since global server with VRF is disabled"
run_cmd nettest -6 -s &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 1 "Global server"
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "VRF server"
done
# link local is always bound to ingress device
a=${NSA_LINKIP6}%${NSB_DEV}
log_start
run_cmd nettest -6 -s -I ${VRF} -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "VRF server"
for a in ${NSA_IP6} ${VRF_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "Device server"
done
# verify TCP reset received
for a in ${NSA_IP6} ${VRF_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 1 "No server"
done
# local address tests
a=${NSA_IP6}
log_start
show_hint "Should fail 'Connection refused' since global server with VRF is disabled"
run_cmd nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "Global server, local connection"
# run MD5 tests
if [ "$fips_enabled" = "0" ]; then
setup_vrf_dup
ipv6_tcp_md5
cleanup_vrf_dup
fi
#
# enable VRF global server
#
log_subsection "VRF Global server enabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=1
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -s -3 ${VRF} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "Global server"
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "VRF server"
done
# For LLA, child socket is bound to device
a=${NSA_LINKIP6}%${NSB_DEV}
log_start
run_cmd nettest -6 -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "Global server"
log_start
run_cmd nettest -6 -s -I ${VRF} -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "VRF server"
for a in ${NSA_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 0 "Device server"
done
# verify TCP reset received
for a in ${NSA_IP6} ${VRF_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 1 "No server"
done
# local address tests
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
show_hint "Fails 'Connection refused' since client is not in VRF"
run_cmd nettest -6 -s -I ${VRF} &
sleep 1
run_cmd nettest -6 -r ${a}
log_test_addr ${a} $? 1 "Global server, local connection"
done
#
# client
#
for a in ${NSB_IP6} ${NSB_LO_IP6}
do
log_start
run_cmd_nsb nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a} -d ${VRF}
log_test_addr ${a} $? 0 "Client, VRF bind"
done
a=${NSB_LINKIP6}
log_start
show_hint "Fails since VRF device does not allow linklocal addresses"
run_cmd_nsb nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a} -d ${VRF}
log_test_addr ${a} $? 1 "Client, VRF bind"
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}
do
log_start
run_cmd_nsb nettest -6 -s &
sleep 1
run_cmd nettest -6 -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 0 "Client, device bind"
done
for a in ${NSB_IP6} ${NSB_LO_IP6}
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -6 -r ${a} -d ${VRF}
log_test_addr ${a} $? 1 "No server, VRF client"
done
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}
do
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -6 -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "No server, device client"
done
for a in ${NSA_IP6} ${VRF_IP6} ::1
do
log_start
run_cmd nettest -6 -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd nettest -6 -r ${a} -d ${VRF} -0 ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local connection"
done
a=${NSA_IP6}
log_start
run_cmd nettest -6 -s -I ${VRF} -3 ${VRF} &
sleep 1
run_cmd nettest -6 -r ${a} -d ${NSA_DEV} -0 ${a}
log_test_addr ${a} $? 0 "VRF server, device client, local connection"
a=${NSA_IP6}
log_start
show_hint "Should fail since unbound client is out of VRF scope"
run_cmd nettest -6 -s -I ${VRF} &
sleep 1
run_cmd nettest -6 -r ${a}
log_test_addr ${a} $? 1 "VRF server, unbound client, local connection"
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -r ${a} -d ${VRF} -0 ${a}
log_test_addr ${a} $? 0 "Device server, VRF client, local connection"
for a in ${NSA_IP6} ${NSA_LINKIP6}
do
log_start
run_cmd nettest -6 -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -r ${a} -d ${NSA_DEV} -0 ${a}
log_test_addr ${a} $? 0 "Device server, device client, local connection"
done
}
ipv6_tcp()
{
log_section "IPv6/TCP"
log_subsection "No VRF"
setup
# tcp_l3mdev_accept should have no affect without VRF;
# run tests with it enabled and disabled to verify
log_subsection "tcp_l3mdev_accept disabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=0
ipv6_tcp_novrf
log_subsection "tcp_l3mdev_accept enabled"
set_sysctl net.ipv4.tcp_l3mdev_accept=1
ipv6_tcp_novrf
log_subsection "With VRF"
setup "yes"
ipv6_tcp_vrf
}
################################################################################
# IPv6 UDP
ipv6_udp_novrf()
{
local a
#
# server tests
#
for a in ${NSA_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
run_cmd nettest -6 -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "Global server"
log_start
run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "Device server"
done
a=${NSA_LO_IP6}
log_start
run_cmd nettest -6 -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "Global server"
# should fail since loopback address is out of scope for a device
# bound server, but it does not - hence this is more documenting
# behavior.
#log_start
#show_hint "Should fail since loopback address is out of scope"
#run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
#sleep 1
#run_cmd_nsb nettest -6 -D -r ${a}
#log_test_addr ${a} $? 1 "Device server"
# negative test - should fail
for a in ${NSA_IP6} ${NSA_LO_IP6} ${NSA_LINKIP6}%${NSB_DEV}
do
log_start
show_hint "Should fail 'Connection refused' since there is no server"
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 1 "No server"
done
#
# client
#
for a in ${NSB_IP6} ${NSB_LO_IP6} ${NSB_LINKIP6}%${NSA_DEV}
do
log_start
run_cmd_nsb nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -0 ${NSA_IP6}
log_test_addr ${a} $? 0 "Client"
log_start
run_cmd_nsb nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -d ${NSA_DEV} -0 ${NSA_IP6}
log_test_addr ${a} $? 0 "Client, device bind"
log_start
run_cmd_nsb nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -d ${NSA_DEV} -C -0 ${NSA_IP6}
log_test_addr ${a} $? 0 "Client, device send via cmsg"
log_start
run_cmd_nsb nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -d ${NSA_DEV} -S -0 ${NSA_IP6}
log_test_addr ${a} $? 0 "Client, device bind via IPV6_UNICAST_IF"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -6 -D -r ${a}
log_test_addr ${a} $? 1 "No server, unbound client"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -6 -D -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "No server, device client"
done
#
# local address tests
#
for a in ${NSA_IP6} ${NSA_LO_IP6} ::1
do
log_start
run_cmd nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -0 ${a} -1 ${a}
log_test_addr ${a} $? 0 "Global server, local connection"
done
a=${NSA_IP6}
log_start
run_cmd nettest -6 -s -D -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "Device server, unbound client, local connection"
for a in ${NSA_LO_IP6} ::1
do
log_start
show_hint "Should fail 'Connection refused' since address is out of device scope"
run_cmd nettest -6 -s -D -I ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -r ${a}
log_test_addr ${a} $? 1 "Device server, local connection"
done
a=${NSA_IP6}
log_start
run_cmd nettest -6 -s -D &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Global server, device client, local connection"
log_start
run_cmd nettest -6 -s -D &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -C -r ${a}
log_test_addr ${a} $? 0 "Global server, device send via cmsg, local connection"
log_start
run_cmd nettest -6 -s -D &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -S -r ${a}
log_test_addr ${a} $? 0 "Global server, device client via IPV6_UNICAST_IF, local connection"
for a in ${NSA_LO_IP6} ::1
do
log_start
show_hint "Should fail 'No route to host' since addresses on loopback are out of device scope"
run_cmd nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -d ${NSA_DEV}
log_test_addr ${a} $? 1 "Global server, device client, local connection"
log_start
show_hint "Should fail 'No route to host' since addresses on loopback are out of device scope"
run_cmd nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -d ${NSA_DEV} -C
log_test_addr ${a} $? 1 "Global server, device send via cmsg, local connection"
log_start
show_hint "Should fail 'No route to host' since addresses on loopback are out of device scope"
run_cmd nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -r ${a} -d ${NSA_DEV} -S
log_test_addr ${a} $? 1 "Global server, device client via IP_UNICAST_IF, local connection"
done
a=${NSA_IP6}
log_start
run_cmd nettest -6 -D -s -I ${NSA_DEV} -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a} -0 ${a}
log_test_addr ${a} $? 0 "Device server, device client, local conn"
log_start
show_hint "Should fail 'Connection refused'"
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 1 "No server, device client, local conn"
# LLA to GUA
run_cmd_nsb ip -6 addr del ${NSB_IP6}/64 dev ${NSB_DEV}
run_cmd_nsb ip -6 ro add ${NSA_IP6}/128 dev ${NSB_DEV}
log_start
run_cmd nettest -6 -s -D &
sleep 1
run_cmd_nsb nettest -6 -D -r ${NSA_IP6}
log_test $? 0 "UDP in - LLA to GUA"
run_cmd_nsb ip -6 ro del ${NSA_IP6}/128 dev ${NSB_DEV}
run_cmd_nsb ip -6 addr add ${NSB_IP6}/64 dev ${NSB_DEV} nodad
}
ipv6_udp_vrf()
{
local a
# disable global server
log_subsection "Global server disabled"
set_sysctl net.ipv4.udp_l3mdev_accept=0
#
# server tests
#
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
show_hint "Should fail 'Connection refused' since global server is disabled"
run_cmd nettest -6 -D -s &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 1 "Global server"
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -D -I ${VRF} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "VRF server"
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server"
done
# negative test - should fail
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
show_hint "Should fail 'Connection refused' since there is no server"
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 1 "No server"
done
#
# local address tests
#
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
show_hint "Should fail 'Connection refused' since global server is disabled"
run_cmd nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 1 "Global server, VRF client, local conn"
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -D -I ${VRF} -s &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local conn"
done
a=${NSA_IP6}
log_start
show_hint "Should fail 'Connection refused' since global server is disabled"
run_cmd nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 1 "Global server, device client, local conn"
log_start
run_cmd nettest -6 -D -I ${VRF} -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "VRF server, device client, local conn"
log_start
run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server, VRF client, local conn"
log_start
run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server, device client, local conn"
# disable global server
log_subsection "Global server enabled"
set_sysctl net.ipv4.udp_l3mdev_accept=1
#
# server tests
#
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "Global server"
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -D -I ${VRF} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "VRF server"
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 0 "Enslaved device server"
done
# negative test - should fail
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd_nsb nettest -6 -D -r ${a}
log_test_addr ${a} $? 1 "No server"
done
#
# client tests
#
log_start
run_cmd_nsb nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${NSB_IP6}
log_test $? 0 "VRF client"
# negative test - should fail
log_start
run_cmd nettest -6 -D -d ${VRF} -r ${NSB_IP6}
log_test $? 1 "No server, VRF client"
log_start
run_cmd_nsb nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${NSB_IP6}
log_test $? 0 "Enslaved device client"
# negative test - should fail
log_start
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${NSB_IP6}
log_test $? 1 "No server, enslaved device client"
#
# local address tests
#
a=${NSA_IP6}
log_start
run_cmd nettest -6 -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Global server, VRF client, local conn"
#log_start
run_cmd nettest -6 -D -I ${VRF} -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local conn"
a=${VRF_IP6}
log_start
run_cmd nettest -6 -D -s -3 ${VRF} &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Global server, VRF client, local conn"
log_start
run_cmd nettest -6 -D -I ${VRF} -s -3 ${VRF} &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "VRF server, VRF client, local conn"
# negative test - should fail
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 1 "No server, VRF client, local conn"
done
# device to global IP
a=${NSA_IP6}
log_start
run_cmd nettest -6 -D -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Global server, device client, local conn"
log_start
run_cmd nettest -6 -D -I ${VRF} -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "VRF server, device client, local conn"
log_start
run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${VRF} -r ${a}
log_test_addr ${a} $? 0 "Device server, VRF client, local conn"
log_start
run_cmd nettest -6 -D -I ${NSA_DEV} -s -3 ${NSA_DEV} &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 0 "Device server, device client, local conn"
log_start
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${a}
log_test_addr ${a} $? 1 "No server, device client, local conn"
# link local addresses
log_start
run_cmd nettest -6 -D -s &
sleep 1
run_cmd_nsb nettest -6 -D -d ${NSB_DEV} -r ${NSA_LINKIP6}
log_test $? 0 "Global server, linklocal IP"
log_start
run_cmd_nsb nettest -6 -D -d ${NSB_DEV} -r ${NSA_LINKIP6}
log_test $? 1 "No server, linklocal IP"
log_start
run_cmd_nsb nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${NSB_LINKIP6}
log_test $? 0 "Enslaved device client, linklocal IP"
log_start
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${NSB_LINKIP6}
log_test $? 1 "No server, device client, peer linklocal IP"
log_start
run_cmd nettest -6 -D -s &
sleep 1
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${NSA_LINKIP6}
log_test $? 0 "Enslaved device client, local conn - linklocal IP"
log_start
run_cmd nettest -6 -D -d ${NSA_DEV} -r ${NSA_LINKIP6}
log_test $? 1 "No server, device client, local conn - linklocal IP"
# LLA to GUA
run_cmd_nsb ip -6 addr del ${NSB_IP6}/64 dev ${NSB_DEV}
run_cmd_nsb ip -6 ro add ${NSA_IP6}/128 dev ${NSB_DEV}
log_start
run_cmd nettest -6 -s -D &
sleep 1
run_cmd_nsb nettest -6 -D -r ${NSA_IP6}
log_test $? 0 "UDP in - LLA to GUA"
run_cmd_nsb ip -6 ro del ${NSA_IP6}/128 dev ${NSB_DEV}
run_cmd_nsb ip -6 addr add ${NSB_IP6}/64 dev ${NSB_DEV} nodad
}
ipv6_udp()
{
# should not matter, but set to known state
set_sysctl net.ipv4.udp_early_demux=1
log_section "IPv6/UDP"
log_subsection "No VRF"
setup
# udp_l3mdev_accept should have no affect without VRF;
# run tests with it enabled and disabled to verify
log_subsection "udp_l3mdev_accept disabled"
set_sysctl net.ipv4.udp_l3mdev_accept=0
ipv6_udp_novrf
log_subsection "udp_l3mdev_accept enabled"
set_sysctl net.ipv4.udp_l3mdev_accept=1
ipv6_udp_novrf
log_subsection "With VRF"
setup "yes"
ipv6_udp_vrf
}
################################################################################
# IPv6 address bind
ipv6_addr_bind_novrf()
{
#
# raw socket
#
for a in ${NSA_IP6} ${NSA_LO_IP6}
do
log_start
run_cmd nettest -6 -s -R -P ipv6-icmp -l ${a} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address"
log_start
run_cmd nettest -6 -s -R -P ipv6-icmp -l ${a} -I ${NSA_DEV} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address after device bind"
done
#
# tcp sockets
#
a=${NSA_IP6}
log_start
run_cmd nettest -6 -s -l ${a} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address"
log_start
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address after device bind"
# Sadly, the kernel allows binding a socket to a device and then
# binding to an address not on the device. So this test passes
# when it really should not
a=${NSA_LO_IP6}
log_start
show_hint "Tecnically should fail since address is not on device but kernel allows"
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to out of scope local address"
}
ipv6_addr_bind_vrf()
{
#
# raw socket
#
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -s -R -P ipv6-icmp -l ${a} -I ${VRF} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address after vrf bind"
log_start
run_cmd nettest -6 -s -R -P ipv6-icmp -l ${a} -I ${NSA_DEV} -b
log_test_addr ${a} $? 0 "Raw socket bind to local address after device bind"
done
a=${NSA_LO_IP6}
log_start
show_hint "Address on loopback is out of VRF scope"
run_cmd nettest -6 -s -R -P ipv6-icmp -l ${a} -I ${VRF} -b
log_test_addr ${a} $? 1 "Raw socket bind to invalid local address after vrf bind"
#
# tcp sockets
#
# address on enslaved device is valid for the VRF or device in a VRF
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -s -l ${a} -I ${VRF} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address with VRF bind"
done
a=${NSA_IP6}
log_start
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address with device bind"
# Sadly, the kernel allows binding a socket to a device and then
# binding to an address not on the device. The only restriction
# is that the address is valid in the L3 domain. So this test
# passes when it really should not
a=${VRF_IP6}
log_start
show_hint "Tecnically should fail since address is not on device but kernel allows"
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to VRF address with device bind"
a=${NSA_LO_IP6}
log_start
show_hint "Address on loopback out of scope for VRF"
run_cmd nettest -6 -s -l ${a} -I ${VRF} -t1 -b
log_test_addr ${a} $? 1 "TCP socket bind to invalid local address for VRF"
log_start
show_hint "Address on loopback out of scope for device in VRF"
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 1 "TCP socket bind to invalid local address for device bind"
}
ipv6_addr_bind()
{
log_section "IPv6 address binds"
log_subsection "No VRF"
setup
ipv6_addr_bind_novrf
log_subsection "With VRF"
setup "yes"
ipv6_addr_bind_vrf
}
################################################################################
# IPv6 runtime tests
ipv6_rt()
{
local desc="$1"
local varg="-6 $2"
local with_vrf="yes"
local a
#
# server tests
#
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest ${varg} -s &
sleep 1
run_cmd_nsb nettest ${varg} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, global server"
setup ${with_vrf}
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest ${varg} -I ${VRF} -s &
sleep 1
run_cmd_nsb nettest ${varg} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, VRF server"
setup ${with_vrf}
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest ${varg} -I ${NSA_DEV} -s &
sleep 1
run_cmd_nsb nettest ${varg} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, enslaved device server"
setup ${with_vrf}
done
#
# client test
#
log_start
run_cmd_nsb nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${VRF} -r ${NSB_IP6} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test 0 0 "${desc}, VRF client"
setup ${with_vrf}
log_start
run_cmd_nsb nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${NSB_IP6} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test 0 0 "${desc}, enslaved device client"
setup ${with_vrf}
#
# local address tests
#
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${VRF} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, global server, VRF client"
setup ${with_vrf}
done
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest ${varg} -I ${VRF} -s &
sleep 1
run_cmd nettest ${varg} -d ${VRF} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, VRF server and client"
setup ${with_vrf}
done
a=${NSA_IP6}
log_start
run_cmd nettest ${varg} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, global server, device client"
setup ${with_vrf}
log_start
run_cmd nettest ${varg} -I ${VRF} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, VRF server, device client"
setup ${with_vrf}
log_start
run_cmd nettest ${varg} -I ${NSA_DEV} -s &
sleep 1
run_cmd nettest ${varg} -d ${NSA_DEV} -r ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "${desc}, device server, device client"
}
ipv6_ping_rt()
{
local with_vrf="yes"
local a
a=${NSA_IP6}
log_start
run_cmd_nsb ${ping6} -f ${a} &
sleep 3
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "Device delete with active traffic - ping in"
setup ${with_vrf}
log_start
run_cmd ${ping6} -f ${NSB_IP6} -I ${VRF} &
sleep 1
run_cmd ip link del ${VRF}
sleep 1
log_test_addr ${a} 0 0 "Device delete with active traffic - ping out"
}
ipv6_runtime()
{
log_section "Run time tests - ipv6"
setup "yes"
ipv6_ping_rt
setup "yes"
ipv6_rt "TCP active socket" "-n -1"
setup "yes"
ipv6_rt "TCP passive socket" "-i"
setup "yes"
ipv6_rt "UDP active socket" "-D -n -1"
}
################################################################################
# netfilter blocking connections
netfilter_tcp_reset()
{
local a
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest -s &
sleep 1
run_cmd_nsb nettest -r ${a}
log_test_addr ${a} $? 1 "Global server, reject with TCP-reset on Rx"
done
}
netfilter_icmp()
{
local stype="$1"
local arg
local a
[ "${stype}" = "UDP" ] && arg="-D"
for a in ${NSA_IP} ${VRF_IP}
do
log_start
run_cmd nettest ${arg} -s &
sleep 1
run_cmd_nsb nettest ${arg} -r ${a}
log_test_addr ${a} $? 1 "Global ${stype} server, Rx reject icmp-port-unreach"
done
}
ipv4_netfilter()
{
log_section "IPv4 Netfilter"
log_subsection "TCP reset"
setup "yes"
run_cmd iptables -A INPUT -p tcp --dport 12345 -j REJECT --reject-with tcp-reset
netfilter_tcp_reset
log_start
log_subsection "ICMP unreachable"
log_start
run_cmd iptables -F
run_cmd iptables -A INPUT -p tcp --dport 12345 -j REJECT --reject-with icmp-port-unreachable
run_cmd iptables -A INPUT -p udp --dport 12345 -j REJECT --reject-with icmp-port-unreachable
netfilter_icmp "TCP"
netfilter_icmp "UDP"
log_start
iptables -F
}
netfilter_tcp6_reset()
{
local a
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -s &
sleep 1
run_cmd_nsb nettest -6 -r ${a}
log_test_addr ${a} $? 1 "Global server, reject with TCP-reset on Rx"
done
}
netfilter_icmp6()
{
local stype="$1"
local arg
local a
[ "${stype}" = "UDP" ] && arg="$arg -D"
for a in ${NSA_IP6} ${VRF_IP6}
do
log_start
run_cmd nettest -6 -s ${arg} &
sleep 1
run_cmd_nsb nettest -6 ${arg} -r ${a}
log_test_addr ${a} $? 1 "Global ${stype} server, Rx reject icmp-port-unreach"
done
}
ipv6_netfilter()
{
log_section "IPv6 Netfilter"
log_subsection "TCP reset"
setup "yes"
run_cmd ip6tables -A INPUT -p tcp --dport 12345 -j REJECT --reject-with tcp-reset
netfilter_tcp6_reset
log_subsection "ICMP unreachable"
log_start
run_cmd ip6tables -F
run_cmd ip6tables -A INPUT -p tcp --dport 12345 -j REJECT --reject-with icmp6-port-unreachable
run_cmd ip6tables -A INPUT -p udp --dport 12345 -j REJECT --reject-with icmp6-port-unreachable
netfilter_icmp6 "TCP"
netfilter_icmp6 "UDP"
log_start
ip6tables -F
}
################################################################################
# specific use cases
# VRF only.
# ns-A device enslaved to bridge. Verify traffic with and without
# br_netfilter module loaded. Repeat with SVI on bridge.
use_case_br()
{
setup "yes"
setup_cmd ip link set ${NSA_DEV} down
setup_cmd ip addr del dev ${NSA_DEV} ${NSA_IP}/24
setup_cmd ip -6 addr del dev ${NSA_DEV} ${NSA_IP6}/64
setup_cmd ip link add br0 type bridge
setup_cmd ip addr add dev br0 ${NSA_IP}/24
setup_cmd ip -6 addr add dev br0 ${NSA_IP6}/64 nodad
setup_cmd ip li set ${NSA_DEV} master br0
setup_cmd ip li set ${NSA_DEV} up
setup_cmd ip li set br0 up
setup_cmd ip li set br0 vrf ${VRF}
rmmod br_netfilter 2>/dev/null
sleep 5 # DAD
run_cmd ip neigh flush all
run_cmd ping -c1 -w1 -I br0 ${NSB_IP}
log_test $? 0 "Bridge into VRF - IPv4 ping out"
run_cmd ip neigh flush all
run_cmd ${ping6} -c1 -w1 -I br0 ${NSB_IP6}
log_test $? 0 "Bridge into VRF - IPv6 ping out"
run_cmd ip neigh flush all
run_cmd_nsb ping -c1 -w1 ${NSA_IP}
log_test $? 0 "Bridge into VRF - IPv4 ping in"
run_cmd ip neigh flush all
run_cmd_nsb ${ping6} -c1 -w1 ${NSA_IP6}
log_test $? 0 "Bridge into VRF - IPv6 ping in"
modprobe br_netfilter
if [ $? -eq 0 ]; then
run_cmd ip neigh flush all
run_cmd ping -c1 -w1 -I br0 ${NSB_IP}
log_test $? 0 "Bridge into VRF with br_netfilter - IPv4 ping out"
run_cmd ip neigh flush all
run_cmd ${ping6} -c1 -w1 -I br0 ${NSB_IP6}
log_test $? 0 "Bridge into VRF with br_netfilter - IPv6 ping out"
run_cmd ip neigh flush all
run_cmd_nsb ping -c1 -w1 ${NSA_IP}
log_test $? 0 "Bridge into VRF with br_netfilter - IPv4 ping in"
run_cmd ip neigh flush all
run_cmd_nsb ${ping6} -c1 -w1 ${NSA_IP6}
log_test $? 0 "Bridge into VRF with br_netfilter - IPv6 ping in"
fi
setup_cmd ip li set br0 nomaster
setup_cmd ip li add br0.100 link br0 type vlan id 100
setup_cmd ip li set br0.100 vrf ${VRF} up
setup_cmd ip addr add dev br0.100 172.16.101.1/24
setup_cmd ip -6 addr add dev br0.100 2001:db8:101::1/64 nodad
setup_cmd_nsb ip li add vlan100 link ${NSB_DEV} type vlan id 100
setup_cmd_nsb ip addr add dev vlan100 172.16.101.2/24
setup_cmd_nsb ip -6 addr add dev vlan100 2001:db8:101::2/64 nodad
setup_cmd_nsb ip li set vlan100 up
sleep 1
rmmod br_netfilter 2>/dev/null
run_cmd ip neigh flush all
run_cmd ping -c1 -w1 -I br0.100 172.16.101.2
log_test $? 0 "Bridge vlan into VRF - IPv4 ping out"
run_cmd ip neigh flush all
run_cmd ${ping6} -c1 -w1 -I br0.100 2001:db8:101::2
log_test $? 0 "Bridge vlan into VRF - IPv6 ping out"
run_cmd ip neigh flush all
run_cmd_nsb ping -c1 -w1 172.16.101.1
log_test $? 0 "Bridge vlan into VRF - IPv4 ping in"
run_cmd ip neigh flush all
run_cmd_nsb ${ping6} -c1 -w1 2001:db8:101::1
log_test $? 0 "Bridge vlan into VRF - IPv6 ping in"
modprobe br_netfilter
if [ $? -eq 0 ]; then
run_cmd ip neigh flush all
run_cmd ping -c1 -w1 -I br0.100 172.16.101.2
log_test $? 0 "Bridge vlan into VRF with br_netfilter - IPv4 ping out"
run_cmd ip neigh flush all
run_cmd ${ping6} -c1 -w1 -I br0.100 2001:db8:101::2
log_test $? 0 "Bridge vlan into VRF with br_netfilter - IPv6 ping out"
run_cmd ip neigh flush all
run_cmd_nsb ping -c1 -w1 172.16.101.1
log_test $? 0 "Bridge vlan into VRF - IPv4 ping in"
run_cmd ip neigh flush all
run_cmd_nsb ${ping6} -c1 -w1 2001:db8:101::1
log_test $? 0 "Bridge vlan into VRF - IPv6 ping in"
fi
setup_cmd ip li del br0 2>/dev/null
setup_cmd_nsb ip li del vlan100 2>/dev/null
}
# VRF only.
# ns-A device is connected to both ns-B and ns-C on a single VRF but only has
# LLA on the interfaces
use_case_ping_lla_multi()
{
setup_lla_only
# only want reply from ns-A
setup_cmd_nsb sysctl -qw net.ipv6.icmp.echo_ignore_multicast=1
setup_cmd_nsc sysctl -qw net.ipv6.icmp.echo_ignore_multicast=1
log_start
run_cmd_nsb ping -c1 -w1 ${MCAST}%${NSB_DEV}
log_test_addr ${MCAST}%${NSB_DEV} $? 0 "Pre cycle, ping out ns-B"
run_cmd_nsc ping -c1 -w1 ${MCAST}%${NSC_DEV}
log_test_addr ${MCAST}%${NSC_DEV} $? 0 "Pre cycle, ping out ns-C"
# cycle/flap the first ns-A interface
setup_cmd ip link set ${NSA_DEV} down
setup_cmd ip link set ${NSA_DEV} up
sleep 1
log_start
run_cmd_nsb ping -c1 -w1 ${MCAST}%${NSB_DEV}
log_test_addr ${MCAST}%${NSB_DEV} $? 0 "Post cycle ${NSA} ${NSA_DEV}, ping out ns-B"
run_cmd_nsc ping -c1 -w1 ${MCAST}%${NSC_DEV}
log_test_addr ${MCAST}%${NSC_DEV} $? 0 "Post cycle ${NSA} ${NSA_DEV}, ping out ns-C"
# cycle/flap the second ns-A interface
setup_cmd ip link set ${NSA_DEV2} down
setup_cmd ip link set ${NSA_DEV2} up
sleep 1
log_start
run_cmd_nsb ping -c1 -w1 ${MCAST}%${NSB_DEV}
log_test_addr ${MCAST}%${NSB_DEV} $? 0 "Post cycle ${NSA} ${NSA_DEV2}, ping out ns-B"
run_cmd_nsc ping -c1 -w1 ${MCAST}%${NSC_DEV}
log_test_addr ${MCAST}%${NSC_DEV} $? 0 "Post cycle ${NSA} ${NSA_DEV2}, ping out ns-C"
}
# Perform IPv{4,6} SNAT on ns-A, and verify TCP connection is successfully
# established with ns-B.
use_case_snat_on_vrf()
{
setup "yes"
local port="12345"
run_cmd iptables -t nat -A POSTROUTING -p tcp -m tcp --dport ${port} -j SNAT --to-source ${NSA_LO_IP} -o ${VRF}
run_cmd ip6tables -t nat -A POSTROUTING -p tcp -m tcp --dport ${port} -j SNAT --to-source ${NSA_LO_IP6} -o ${VRF}
run_cmd_nsb nettest -s -l ${NSB_IP} -p ${port} &
sleep 1
run_cmd nettest -d ${VRF} -r ${NSB_IP} -p ${port}
log_test $? 0 "IPv4 TCP connection over VRF with SNAT"
run_cmd_nsb nettest -6 -s -l ${NSB_IP6} -p ${port} &
sleep 1
run_cmd nettest -6 -d ${VRF} -r ${NSB_IP6} -p ${port}
log_test $? 0 "IPv6 TCP connection over VRF with SNAT"
# Cleanup
run_cmd iptables -t nat -D POSTROUTING -p tcp -m tcp --dport ${port} -j SNAT --to-source ${NSA_LO_IP} -o ${VRF}
run_cmd ip6tables -t nat -D POSTROUTING -p tcp -m tcp --dport ${port} -j SNAT --to-source ${NSA_LO_IP6} -o ${VRF}
}
use_cases()
{
log_section "Use cases"
log_subsection "Device enslaved to bridge"
use_case_br
log_subsection "Ping LLA with multiple interfaces"
use_case_ping_lla_multi
log_subsection "SNAT on VRF"
use_case_snat_on_vrf
}
################################################################################
# usage
usage()
{
cat <<EOF
usage: ${0##*/} OPTS
-4 IPv4 tests only
-6 IPv6 tests only
-t <test> Test name/set to run
-p Pause on fail
-P Pause after each test
-v Be verbose
EOF
}
################################################################################
# main
TESTS_IPV4="ipv4_ping ipv4_tcp ipv4_udp ipv4_bind ipv4_runtime ipv4_netfilter"
TESTS_IPV6="ipv6_ping ipv6_tcp ipv6_udp ipv6_bind ipv6_runtime ipv6_netfilter"
TESTS_OTHER="use_cases"
PAUSE_ON_FAIL=no
PAUSE=no
while getopts :46t:pPvh o
do
case $o in
4) TESTS=ipv4;;
6) TESTS=ipv6;;
t) TESTS=$OPTARG;;
p) PAUSE_ON_FAIL=yes;;
P) PAUSE=yes;;
v) VERBOSE=1;;
h) usage; exit 0;;
*) usage; exit 1;;
esac
done
# make sure we don't pause twice
[ "${PAUSE}" = "yes" ] && PAUSE_ON_FAIL=no
#
# show user test config
#
if [ -z "$TESTS" ]; then
TESTS="$TESTS_IPV4 $TESTS_IPV6 $TESTS_OTHER"
elif [ "$TESTS" = "ipv4" ]; then
TESTS="$TESTS_IPV4"
elif [ "$TESTS" = "ipv6" ]; then
TESTS="$TESTS_IPV6"
fi
# nettest can be run from PATH or from same directory as this selftest
if ! which nettest >/dev/null; then
PATH=$PWD:$PATH
if ! which nettest >/dev/null; then
echo "'nettest' command not found; skipping tests"
exit $ksft_skip
fi
fi
declare -i nfail=0
declare -i nsuccess=0
for t in $TESTS
do
case $t in
ipv4_ping|ping) ipv4_ping;;
ipv4_tcp|tcp) ipv4_tcp;;
ipv4_udp|udp) ipv4_udp;;
ipv4_bind|bind) ipv4_addr_bind;;
ipv4_runtime) ipv4_runtime;;
ipv4_netfilter) ipv4_netfilter;;
ipv6_ping|ping6) ipv6_ping;;
ipv6_tcp|tcp6) ipv6_tcp;;
ipv6_udp|udp6) ipv6_udp;;
ipv6_bind|bind6) ipv6_addr_bind;;
ipv6_runtime) ipv6_runtime;;
ipv6_netfilter) ipv6_netfilter;;
use_cases) use_cases;;
# setup namespaces and config, but do not run any tests
setup) setup; exit 0;;
vrf_setup) setup "yes"; exit 0;;
help) echo "Test names: $TESTS"; exit 0;;
esac
done
cleanup 2>/dev/null
printf "\nTests passed: %3d\n" ${nsuccess}
printf "Tests failed: %3d\n" ${nfail}
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