On Fri, 2022-07-01 at 17:01 +0200, Andrea Mayer wrote: > This selftest is designed for testing the H.Encaps.Red behavior. It > instantiates a virtual network composed of several nodes: hosts and SRv6 > routers. Each node is realized using a network namespace that is > properly interconnected to others through veth pairs. > The test considers SRv6 routers implementing L3 VPNs leveraged by hosts > for communicating with each other. Such routers make use of the SRv6 > H.Encaps.Red behavior for applying SRv6 policies to L3 traffic coming > from hosts. > > The correct execution of the behavior is verified through reachability > tests carried out between hosts belonging to the same VPN. > > Signed-off-by: Andrea Mayer <andrea.mayer@xxxxxxxxxxx> > --- > tools/testing/selftests/net/Makefile | 1 + > .../net/srv6_hencap_red_l3vpn_test.sh | 742 ++++++++++++++++++ > 2 files changed, 743 insertions(+) > create mode 100755 tools/testing/selftests/net/srv6_hencap_red_l3vpn_test.sh > > diff --git a/tools/testing/selftests/net/Makefile b/tools/testing/selftests/net/Makefile > index ddad703ace34..3b0e9bef196b 100644 > --- a/tools/testing/selftests/net/Makefile > +++ b/tools/testing/selftests/net/Makefile > @@ -35,6 +35,7 @@ TEST_PROGS += cmsg_time.sh cmsg_ipv6.sh > TEST_PROGS += srv6_end_dt46_l3vpn_test.sh > TEST_PROGS += srv6_end_dt4_l3vpn_test.sh > TEST_PROGS += srv6_end_dt6_l3vpn_test.sh > +TEST_PROGS += srv6_hencap_red_l3vpn_test.sh > TEST_PROGS += vrf_strict_mode_test.sh > TEST_PROGS += arp_ndisc_evict_nocarrier.sh > TEST_PROGS += ndisc_unsolicited_na_test.sh > diff --git a/tools/testing/selftests/net/srv6_hencap_red_l3vpn_test.sh b/tools/testing/selftests/net/srv6_hencap_red_l3vpn_test.sh > new file mode 100755 > index 000000000000..3b97f187b189 > --- /dev/null > +++ b/tools/testing/selftests/net/srv6_hencap_red_l3vpn_test.sh > @@ -0,0 +1,742 @@ > +#!/bin/bash > +# SPDX-License-Identifier: GPL-2.0 > +# > +# author: Andrea Mayer <andrea.mayer@xxxxxxxxxxx> > +# > +# This script is designed for testing the SRv6 H.Encaps.Red behavior. > +# > +# Below is depicted the IPv6 network of an operator which offers advanced > +# IPv4/IPv6 VPN services to hosts, enabling them to communicate with each > +# other. > +# In this example, hosts hs-1 and hs-2 are connected through an IPv4/IPv6 VPN > +# service, while hs-3 and hs-4 are connected using an IPv6 only VPN. > +# > +# Routers rt-1,rt-2,rt-3 and rt-4 implement IPv4/IPv6 L3 VPN services > +# leveraging the SRv6 architecture. The key components for such VPNs are: > +# > +# i) The SRv6 H.Encaps.Red behavior applies SRv6 Policies on traffic received > +# by connected hosts, initiating the VPN tunnel. Such a behavior is an > +# optimization of the SRv6 H.Encap aiming to reduce the length of the SID > +# List carried in the pushed SRH. Specifically, the H.Encaps.Red removes > +# the first SID contained in the SID List (i.e. SRv6 Policy) by storing it > +# into the IPv6 Destination Address. When a SRv6 Policy is made of only one > +# SID, the SRv6 H.Encaps.Red behavior omits the SRH at all and pushes that > +# SID directly into the IPv6 DA; > +# > +# ii) The SRv6 End behavior advances the active SID in the SID List carried by > +# the SRH; > +# > +# iii) The SRv6 End.DT46 behavior is used for removing the SRv6 Policy and, > +# thus, it terminates the VPN tunnel. Such a behavior is capable of > +# handling, at the same time, both tunneled IPv4 and IPv6 traffic. > +# > +# > +# cafe::1 cafe::2 > +# 10.0.0.1 10.0.0.2 > +# +--------+ +--------+ > +# | | | | > +# | hs-1 | | hs-2 | > +# | | | | > +# +---+----+ +--- +---+ > +# cafe::/64 | | cafe::/64 > +# 10.0.0.0/24 | | 10.0.0.0/24 > +# +---+----+ +----+---+ > +# | | fcf0:0:1:2::/64 | | > +# | rt-1 +-------------------+ rt-2 | > +# | | | | > +# +---+----+ +----+---+ > +# | . . | > +# | fcf0:0:1:3::/64 . | > +# | . . | > +# | . . | > +# fcf0:0:1:4::/64 | . | fcf0:0:2:3::/64 > +# | . . | > +# | . . | > +# | fcf0:0:2:4::/64 . | > +# | . . | > +# +---+----+ +----+---+ > +# | | | | > +# | rt-4 +-------------------+ rt-3 | > +# | | fcf0:0:3:4::/64 | | > +# +---+----+ +----+---+ > +# cafe::/64 | | cafe::/64 > +# 10.0.0.0/24 | | 10.0.0.0/24 > +# +---+----+ +--- +---+ > +# | | | | > +# | hs-4 | | hs-3 | > +# | | | | > +# +--------+ +--------+ > +# cafe::4 cafe::3 > +# 10.0.0.4 10.0.0.3 > +# > +# > +# Every fcf0:0:x:y::/64 network interconnects the SRv6 routers rt-x with rt-y > +# in the IPv6 operator network. > +# > +# Local SID table > +# =============== > +# > +# Each SRv6 router is configured with a Local SID table in which SIDs are > +# stored. Considering the given SRv6 router rt-x, at least two SIDs are > +# configured in the Local SID table: > +# > +# Local SID table for SRv6 router rt-x > +# +----------------------------------------------------------+ > +# |fcff:x:e is associated with the SRv6 End behavior | > +# |fcff:x:d46 is associated with the SRv6 End.DT46 behavior | > +# +----------------------------------------------------------+ > +# > +# The fcff:/16 prefix is reserved by the operator for implementing SRv6 VPN > +# services. Reachability of SIDs is ensured by proper configuration of the IPv6 > +# operator's network and SRv6 routers. > +# > +# # SRv6 Policies > +# =============== > +# > +# An SRv6 ingress router applies SRv6 policies to the traffic received from a > +# connected host. SRv6 policy enforcement consists of encapsulating the > +# received traffic into a new IPv6 packet with a given SID List contained in > +# the SRH. > +# > +# IPv4/IPv6 VPN between hs-1 and hs-2 > +# ----------------------------------- > +# > +# Hosts hs-1 and hs-2 are connected using dedicated IPv4/IPv6 VPNs. > +# Specifically, packets generated from hs-1 and directed towards hs-2 are > +# handled by rt-1 which applies the following SRv6 Policies: > +# > +# i.a) IPv6 traffic, SID List=fcff:3::e,fcff:4::e,fcff:2::d46 > +# ii.a) IPv4 traffic, SID List=fcff:2::d46 > +# > +# Policy (i.a) steers tunneled IPv6 traffic through SRv6 routers > +# rt-3,rt-4,rt-2. Instead, Policy (ii.b) steers tunneled IPv4 traffic through > +# rt-2. > +# The H.Encaps.Red reduces the SID List (i.a) carried in SRH by removing the > +# first SID (fcff:3::e) and pushing it into the IPv6 DA. In case of IPv4 > +# traffic, the H.Encaps.Red omits the presence of SRH at all, since the SID > +# List (ii.a) consists of only one SID that can be stored directly in the IPv6 > +# DA. > +# > +# On the reverse path (i.e. from hs-2 to hs-1), rt-2 applies the following > +# policies: > +# > +# i.b) IPv6 traffic, SID List=fcff:1:d46 > +# ii.b) IPv4 traffic, SID List=fcff:4::e,fcff:3::e,fcff:1::d46 > +# > +# Policy (i.b) steers tunneled IPv6 traffic through the SRv6 router rt-1. > +# Conversely, Policy (ii.b) steers tunneled IPv4 traffic through SRv6 routers > +# rt-4,rt-3,rt-1. > +# The H.Encaps.Red omits the SRH at all in case of (i.b) by pushing the single > +# SID (fcff::1:d46) inside the IPv6 DA. > +# The H.Encaps.Red reduces the SID List (ii.b) in the SRH by removing the first > +# SID (fcff:4::e) and pushing it into the IPv6 DA. > +# > +# In summary: > +# * hs-1 -> hs-2 |IPv6 DA=fcff:3::e|SRH SIDs=fcff:4::e,fcff:2::d46|IPv6|...| (i.a) > +# * hs-1 -> hs-2 |IPv6 DA=fcff:2::d46|IPv4|...| (ii.a) > +# > +# * hs-2 -> hs-1 |IPv6 DA=fcff:1::d46|IPv6|...| (i.b) > +# * hs-2 -> hs-1 |IPv6 DA=fcff:4::e|SRH SIDs=fcff:3::e,fcff:1::d46|IPv4|...| (ii.b) > +# > +# > +# IPv6 VPN between hs-3 and hs-4 > +# ------------------------------ > +# > +# Hosts hs-3 and hs-4 are connected using a dedicated IPv6 only VPN. > +# Specifically, packets generated from hs-3 and directed towards hs-4 are > +# handled by rt-3 which applies the following SRv6 Policy: > +# > +# i.c) IPv6 traffic, SID List=fcff:2::e,fcff:4::d46 > +# > +# Policy (i.c) steers tunneled IPv6 traffic through SRv6 routers rt-2,rt-4. > +# The H.Encaps.Red reduces the SID List (i.c) carried in SRH by pushing the > +# first SID (fcff:2::e) in the IPv6 DA. > +# > +# On the reverse path (i.e. from hs-4 to hs-3) the router rt-4 applies the > +# following SRv6 Policy: > +# > +# i.d) IPv6 traffic, SID List=fcff:1::e,fcff:3::d46. > +# > +# Policy (i.d) steers tunneled IPv6 traffic through SRv6 routers rt-1,rt-3. > +# The H.Encaps.Red reduces the SID List (i.d) carried in SRH by pushing the > +# first SID (fcff:1::e) in the IPv6 DA. > +# > +# In summary: > +# * hs-3 -> hs-4 |IPv6 DA=fcff:2::e|SRH SIDs=fcff:4::d46|IPv6|...| (i.c) > +# * hs-4 -> hs-3 |IPv6 DA=fcff:1::e|SRH SIDs=fcff:3::d46|IPv6|...| (i.d) > +# > + > +# Kselftest framework requirement - SKIP code is 4. > +ksft_skip=4 > + > +readonly VRF_TID=100 > +readonly LOCALSID_TABLE_ID=90 > +readonly IPv6_RT_NETWORK=fcf0:0 > +readonly IPv6_HS_NETWORK=cafe > +readonly IPv4_HS_NETWORK=10.0.0 > +readonly VPN_LOCATOR_SERVICE=fcff > +readonly END_FUNC=000e > +readonly DT46_FUNC=0d46 > +PING_TIMEOUT_SEC=4 > + > +# global vars initialized during the setup of the selftest network > +ROUTERS='' > +HOSTS='' > + > +ret=0 > + > +PAUSE_ON_FAIL=${PAUSE_ON_FAIL:=no} > + > +log_test() > +{ > + local rc=$1 > + local expected=$2 > + local msg="$3" > + > + if [ ${rc} -eq ${expected} ]; then > + nsuccess=$((nsuccess+1)) > + printf "\n TEST: %-60s [ OK ]\n" "${msg}" > + else > + ret=1 > + nfail=$((nfail+1)) > + printf "\n TEST: %-60s [FAIL]\n" "${msg}" > + if [ "${PAUSE_ON_FAIL}" = "yes" ]; then > + echo > + echo "hit enter to continue, 'q' to quit" > + read a > + [ "$a" = "q" ] && exit 1 > + fi > + fi > +} > + > +print_log_test_results() > +{ > + if [ "$TESTS" != "none" ]; then > + printf "\nTests passed: %3d\n" ${nsuccess} > + printf "Tests failed: %3d\n" ${nfail} > + fi > +} > + > +log_section() > +{ > + echo > + echo "################################################################################" > + echo "TEST SECTION: $*" > + echo "################################################################################" > +} > + > +test_command_or_ksft_skip() > +{ > + local cmd="$1" > + > + if [ ! -x "$(command -v "${cmd}")" ]; then > + echo "SKIP: Could not run test without \"${cmd}\" tool"; > + exit ${ksft_skip} > + fi > +} > + > +cleanup() > +{ > + local ifnames > + local dev > + > + ifnames="$(ip -o link show | grep -oE "veth-rt-[0-9]+-[0-9]" | sort -n | uniq)" > + > + # destroy any pending device > + for dev in ${ifnames}; do > + ip link del ${dev} || true > + done It's better if you create/place all the virtual devices you need in some netns: the cleanup will be easier, and the self-test will not be impacted by some unexpected configuration in the main netns. > + > + # destroy routers rt-* and hosts hs-* > + for ns in $(ip netns show | grep -E 'rt-*|hs-*'); do It's better if you add to your netns name some random suffix to avoid possible conflicts with unexpected system configuration. > + ip netns del ${ns} || true > + done > +} > + > +add_link_rt_pairs() > +{ > + local rt=$1 > + local rt_neighs="$2" > + local neigh > + > + for neigh in ${rt_neighs}; do > + ip link add veth-rt-${rt}-${neigh} type veth \ > + peer name veth-rt-${neigh}-${rt} > + done > +} > + > +get_network_prefix() > +{ > + local rt=$1 > + local neigh=$2 > + local p=${rt} > + local q=${neigh} > + > + if [ "${p}" -gt "${q}" ]; then > + p=${q}; q=${rt}; > + fi > + > + echo "${IPv6_RT_NETWORK}:${p}:${q}" > +} > + > +# Setup the basic networking for the routers > +setup_rt_networking() > +{ > + local rt=$1 > + local rt_neighs="$2" > + local nsname=rt-${rt} > + local net_prefix > + local devname > + local neigh > + > + ip netns add ${nsname} > + > + for neigh in ${rt_neighs}; do > + devname=veth-rt-${rt}-${neigh} > + ip link set ${devname} netns ${nsname} > + > + net_prefix="$(get_network_prefix ${rt} ${neigh})" > + > + ip -netns ${nsname} addr add ${net_prefix}::${rt}/64 \ > + dev ${devname} nodad > + > + ip -netns ${nsname} link set ${devname} up > + done > + > + ip -netns ${nsname} link set lo up > + > + ip netns exec ${nsname} sysctl -wq net.ipv6.conf.all.accept_dad=0 > + ip netns exec ${nsname} sysctl -wq net.ipv6.conf.default.accept_dad=0 > + ip netns exec ${nsname} sysctl -wq net.ipv6.conf.all.forwarding=1 > + > + ip netns exec ${nsname} sysctl -wq net.ipv4.conf.all.rp_filter=0 > + ip netns exec ${nsname} sysctl -wq net.ipv4.conf.default.rp_filter=0 > + ip netns exec ${nsname} sysctl -wq net.ipv4.ip_forward=1 > +} > + > +# Setup local SIDs for an SRv6 router > +setup_rt_local_sids() > +{ > + local rt=$1 > + local rt_neighs="$2" > + local nsname=rt-${rt} > + local rtveth=veth-t${VRF_TID} > + local net_prefix > + local devname > + local neigh > + > + for neigh in ${rt_neighs}; do > + devname=veth-rt-${rt}-${neigh} > + > + net_prefix="$(get_network_prefix ${rt} ${neigh})" > + > + # set underlay network routes for SIDs reachability > + ip -netns ${nsname} -6 route add ${VPN_LOCATOR_SERVICE}:${neigh}::/32 \ > + table ${LOCALSID_TABLE_ID} \ > + via ${net_prefix}::${neigh} dev ${devname} > + done > + > + # Local End behavior (note that "dev" is dummy and the VRF is chosen > + # for the sake of simplicity). > + ip -netns ${nsname} -6 route add ${VPN_LOCATOR_SERVICE}:${rt}::${END_FUNC} \ > + table ${LOCALSID_TABLE_ID} \ > + encap seg6local action End count dev vrf-${VRF_TID} > + > + # Local End.DT46 behavior > + ip -netns ${nsname} -6 route add ${VPN_LOCATOR_SERVICE}:${rt}::${DT46_FUNC} \ > + table ${LOCALSID_TABLE_ID} \ > + encap seg6local action End.DT46 vrftable ${VRF_TID} count dev vrf-${VRF_TID} > + > + # all SIDs for VPNs start with a common locator. Routes and SRv6 > + # Endpoint behaviors instaces are grouped together in the 'localsid' > + # table. > + ip -netns ${nsname} -6 rule add \ > + to ${VPN_LOCATOR_SERVICE}::/16 \ > + lookup ${LOCALSID_TABLE_ID} prio 999 > + > + # set default routes to unreachable for both ipv4 and ipv6 > + ip -netns ${nsname} -6 route add unreachable default metric 4278198272 \ > + vrf vrf-${VRF_TID} > + > + ip -netns ${nsname} -4 route add unreachable default metric 4278198272 \ > + vrf vrf-${VRF_TID} > +} > + > +# build and install the SRv6 policy into the ingress SRv6 router. > +# args: > +# $1 - destination host (i.e. cafe::x host) > +# $2 - SRv6 router configured for enforcing the SRv6 Policy > +# $3 - SRv6 routers configured for steering traffic (End behaviors) > +# $4 - SRv6 router configured for removing the SRv6 Policy (router connected > +# to the destination host) > +# $5 - encap mode (full or red) > +# $6 - traffic type (IPv6 or IPv4) > +__setup_rt_policy() > +{ > + local dst=$1 > + local encap=$2 > + local end_rts="$3" > + local dec_rt=$4 > + local mode="$5" > + local traffic=$6 > + local nsname=rt-${encap} > + local rtveth=veth-t${VRF_TID} > + local policy='' > + local n > + > + for n in ${end_rts}; do > + policy=${policy}"${VPN_LOCATOR_SERVICE}:${n}::${END_FUNC}," > + done > + > + policy=${policy}"${VPN_LOCATOR_SERVICE}:${dec_rt}::${DT46_FUNC}" > + > + # add SRv6 policy to incoming traffic sent by attached hosts > + if [ "${traffic}" -eq 6 ]; then > + ip -netns ${nsname} -6 route add ${IPv6_HS_NETWORK}::${dst} vrf vrf-${VRF_TID} \ > + encap seg6 mode ${mode} segs ${policy} dev vrf-${VRF_TID} > + > + ip -netns ${nsname} -6 neigh add proxy ${IPv6_HS_NETWORK}::${dst} dev ${rtveth} > + else > + # "dev" must be different from the one where the packet is > + # received, otherwise the proxy arp does not work. > + ip -netns ${nsname} -4 route add ${IPv4_HS_NETWORK}.${dst} vrf vrf-${VRF_TID} \ > + encap seg6 mode ${mode} segs ${policy} dev vrf-${VRF_TID} > + fi > +} > + > +# see __setup_rt_policy > +setup_rt_policy_ipv6() > +{ > + __setup_rt_policy "$1" "$2" "$3" "$4" "$5" 6 > +} > + > +#see __setup_rt_policy > +setup_rt_policy_ipv4() > +{ > + __setup_rt_policy "$1" "$2" "$3" "$4" "$5" 4 > +} > + > +setup_hs() > +{ > + local hs=$1 > + local rt=$2 > + local hsname=hs-${hs} > + local rtname=rt-${rt} > + local rtveth=veth-t${VRF_TID} > + > + # set the networking for the host > + ip netns add ${hsname} > + > + ip netns exec ${hsname} sysctl -wq net.ipv6.conf.all.accept_dad=0 > + ip netns exec ${hsname} sysctl -wq net.ipv6.conf.default.accept_dad=0 > + > + ip -netns ${hsname} link add veth0 type veth peer name ${rtveth} > + ip -netns ${hsname} link set ${rtveth} netns ${rtname} > + ip -netns ${hsname} addr add ${IPv6_HS_NETWORK}::${hs}/64 dev veth0 nodad > + ip -netns ${hsname} addr add ${IPv4_HS_NETWORK}.${hs}/24 dev veth0 > + ip -netns ${hsname} link set veth0 up > + ip -netns ${hsname} link set lo up > + > + # configure the VRF on the router which is directly connected to the > + # source host. > + ip -netns ${rtname} link add vrf-${VRF_TID} type vrf table ${VRF_TID} > + ip -netns ${rtname} link set vrf-${VRF_TID} up > + > + # enslave the veth-tX interface to the vrf-X in the access router > + ip -netns ${rtname} link set ${rtveth} master vrf-${VRF_TID} > + ip -netns ${rtname} addr add ${IPv6_HS_NETWORK}::254/64 dev ${rtveth} nodad > + ip -netns ${rtname} addr add ${IPv4_HS_NETWORK}.254/24 dev ${rtveth} > + ip -netns ${rtname} link set ${rtveth} up > + > + ip netns exec ${rtname} sysctl -wq net.ipv6.conf.${rtveth}.proxy_ndp=1 > + ip netns exec ${rtname} sysctl -wq net.ipv4.conf.${rtveth}.proxy_arp=1 > + > + # disable the rp_filter otherwise the kernel gets confused about how > + # to route decap ipv4 packets. > + ip netns exec ${rtname} sysctl -wq net.ipv4.conf.${rtveth}.rp_filter=0 > + > + ip netns exec ${rtname} sh -c "echo 1 > /proc/sys/net/vrf/strict_mode" > +} > + > +setup() > +{ > + # set up the links for connecting routers > + add_link_rt_pairs 1 "2 3 4" > + add_link_rt_pairs 2 "3 4" > + add_link_rt_pairs 3 "4" > + > + # set up the basic connectivity of routers and routes required for > + # reachability of SIDs. > + ROUTERS="1 2 3 4" > + setup_rt_networking 1 "2 3 4" > + setup_rt_networking 2 "1 3 4" > + setup_rt_networking 3 "1 2 4" > + setup_rt_networking 4 "1 2 3" > + > + # set up the hosts connected to routers > + HOSTS="1 2 3 4" > + setup_hs 1 1 > + setup_hs 2 2 > + setup_hs 3 3 > + setup_hs 4 4 > + > + # set up default SRv6 Endpoints (i.e. SRv6 End and SRv6 End.DT46) > + setup_rt_local_sids 1 "2 3 4" > + setup_rt_local_sids 2 "1 3 4" > + setup_rt_local_sids 3 "1 2 4" > + setup_rt_local_sids 4 "1 2 3" > + > + # set up SRv6 policies > + > + # create an IPv6 VPN between hosts hs-1 and hs-2. > + # the network path between hs-1 and hs-2 traverses several routers > + # depending on the direction of traffic. > + # > + # Direction hs-1 -> hs-2 (H.Encaps.Red) > + # - rt-3,rt-4 (SRv6 End behaviors) > + # - rt-2 (SRv6 End.DT46 behavior) > + # > + # Direction hs-2 -> hs-1 (H.Encaps.Red) > + # - rt-1 (SRv6 End.DT46 behavior) > + setup_rt_policy_ipv6 2 1 "3 4" 2 encap.red > + setup_rt_policy_ipv6 1 2 "" 1 encap.red > + > + # create an IPv4 VPN between hosts hs-1 and hs-2 > + # the network path between hs-1 and hs-2 traverses several routers > + # depending on the direction of traffic. > + # > + # Direction hs-1 -> hs-2 (H.Encaps.Red) > + # - rt-2 (SRv6 End.DT46 behavior) > + # > + # Direction hs-2 -> hs-1 (H.Encaps.Red) > + # - rt-4,rt-3 (SRv6 End behaviors) > + # - rt-1 (SRv6 End.DT46 behavior) > + setup_rt_policy_ipv4 2 1 "" 2 encap.red > + setup_rt_policy_ipv4 1 2 "4 3" 1 encap.red > + > + # create an IPv6 VPN between hosts hs-3 and hs-4 > + # the network path between hs-3 and hs-4 traverses several routers > + # depending on the direction of traffic. > + # > + # Direction hs-3 -> hs-4 (H.Encaps.Red) > + # - rt-2 (SRv6 End Behavior) > + # - rt-4 (SRv6 End.DT46 behavior) > + # > + # Direction hs-4 -> hs-3 (H.Encaps.Red) > + # - rt-1 (SRv6 End behavior) > + # - rt-3 (SRv6 End.DT46 behavior) > + setup_rt_policy_ipv6 4 3 "2" 4 encap.red > + setup_rt_policy_ipv6 3 4 "1" 3 encap.red > +} > + > +check_rt_connectivity() > +{ > + local rtsrc=$1 > + local rtdst=$2 > + local prefix > + > + prefix="$(get_network_prefix ${rtsrc} ${rtdst})" > + > + ip netns exec rt-${rtsrc} ping -c 1 -W 1 ${prefix}::${rtdst} \ > + >/dev/null 2>&1 > +} > + > +check_and_log_rt_connectivity() > +{ > + local rtsrc=$1 > + local rtdst=$2 > + > + check_rt_connectivity ${rtsrc} ${rtdst} > + log_test $? 0 "Routers connectivity: rt-${rtsrc} -> rt-${rtdst}" > +} > + > +check_hs_ipv6_connectivity() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + ip netns exec hs-${hssrc} ping -c 1 -W ${PING_TIMEOUT_SEC} \ > + ${IPv6_HS_NETWORK}::${hsdst} >/dev/null 2>&1 > +} > + > +check_hs_ipv4_connectivity() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + ip netns exec hs-${hssrc} ping -c 1 -W ${PING_TIMEOUT_SEC} \ > + ${IPv4_HS_NETWORK}.${hsdst} >/dev/null 2>&1 > +} > + > +check_and_log_hs2gw_connectivity() > +{ > + local hssrc=$1 > + > + check_hs_ipv6_connectivity ${hssrc} 254 > + log_test $? 0 "IPv6 Hosts connectivity: hs-${hssrc} -> gw" > + > + check_hs_ipv4_connectivity ${hssrc} 254 > + log_test $? 0 "IPv4 Hosts connectivity: hs-${hssrc} -> gw" > +} > + > +check_and_log_hs_ipv6_connectivity() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + check_hs_ipv6_connectivity ${hssrc} ${hsdst} > + log_test $? 0 "IPv6 Hosts connectivity: hs-${hssrc} -> hs-${hsdst}" > +} > + > +check_and_log_hs_ipv4_connectivity() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + check_hs_ipv4_connectivity ${hssrc} ${hsdst} > + log_test $? 0 "IPv4 Hosts connectivity: hs-${hssrc} -> hs-${hsdst}" > +} > + > +check_and_log_hs_connectivity() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + check_and_log_hs_ipv4_connectivity ${hssrc} ${hsdst} > + check_and_log_hs_ipv6_connectivity ${hssrc} ${hsdst} > +} > + > +check_and_log_hs_ipv6_isolation() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + check_hs_ipv6_connectivity ${hssrc} ${hsdst} > + log_test $? 1 "IPv6 Hosts isolation: hs-${hssrc} -X-> hs-${hsdst}" > +} > + > +check_and_log_hs_ipv4_isolation() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + check_hs_ipv4_connectivity ${hssrc} ${hsdst} > + log_test $? 1 "IPv4 Hosts isolation: hs-${hssrc} -X-> hs-${hsdst}" > +} > + > +check_and_log_hs_isolation() > +{ > + local hssrc=$1 > + local hsdst=$2 > + > + check_and_log_hs_ipv6_isolation ${hssrc} ${hsdst} > + check_and_log_hs_ipv4_isolation ${hssrc} ${hsdst} > +} > + > +router_tests() > +{ > + local i > + local j > + > + log_section "IPv6 routers connectivity test" > + > + for i in ${ROUTERS}; do > + for j in ${ROUTERS}; do > + if [ ${i} -eq ${j} ]; then > + continue > + fi > + > + check_and_log_rt_connectivity ${i} ${j} > + done > + done > +} > + > +host2gateway_tests() > +{ > + local hs > + > + log_section "IPv4/IPv6 connectivity test among hosts and gateways" > + > + for hs in ${HOSTS}; do > + check_and_log_hs2gw_connectivity ${hs} > + done > +} > + > +host_vpn_tests() > +{ > + log_section "SRv6 VPN connectivity test hosts (h1 <-> h2, IPv4/IPv6)" > + > + check_and_log_hs_connectivity 1 2 > + check_and_log_hs_connectivity 2 1 > + > + log_section "SRv6 VPN connectivity test hosts (h3 <-> h4, IPv6 only)" > + > + check_and_log_hs_ipv6_connectivity 3 4 > + check_and_log_hs_ipv6_connectivity 4 3 > +} > + > +host_vpn_isolation_tests() > +{ > + local l1="1 2" > + local l2="3 4" > + local tmp > + local i > + local j > + local k > + > + log_section "SRv6 VPN isolation test among hosts" > + > + for k in 0 1; do > + for i in ${l1}; do > + for j in ${l2}; do > + check_and_log_hs_isolation ${i} ${j} > + done > + done > + > + # let us test the reverse path > + tmp="${l1}"; l1="${l2}"; l2="${tmp}" > + tmp=${t1}; t1=${t2}; t2=${tmp} > + done > + > + log_section "SRv6 VPN isolation test among hosts (h2 <-> h4, IPv4 only)" > + > + check_and_log_hs_ipv4_isolation 2 4 > + check_and_log_hs_ipv4_isolation 4 2 > +} > + > +test_vrf_or_ksft_skip() > +{ > + modprobe vrf &>/dev/null > + if [ ! -e /proc/sys/net/vrf/strict_mode ]; then > + echo "SKIP: vrf sysctl does not exist" > + exit ${ksft_skip} > + fi > +} > + > +if [ "$(id -u)" -ne 0 ];then > + echo "SKIP: Need root privileges" > + exit ${ksft_skip} > +fi > + > +# required programs to carry out this selftest > +test_command_or_ksft_skip ip > +test_command_or_ksft_skip grep > +test_command_or_ksft_skip sort > +test_command_or_ksft_skip uniq > + > +test_vrf_or_ksft_skip > + > +cleanup &>/dev/null If you use: trap cleanup EXIT you don't need this "strange" inital cleanup and the self-test will be more resilient WRT unexected interruptions. Cheers, Paolo