mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-27 09:26:23 +07:00
4ed591c8ab
The intent of ip6_route_check_nh_onlink is to make sure the gateway
given for an onlink route is not actually on a connected route for
a different interface (e.g., 2001:db8:1::/64 is on dev eth1 and then
an onlink route has a via 2001:db8:1::1 dev eth2). If the gateway
lookup hits the default route then it most likely will be a different
interface than the onlink route which is ok.
Update ip6_route_check_nh_onlink to disregard the device mismatch
if the gateway lookup hits the default route. Turns out the existing
onlink tests are passing because there is no default route or it is
an unreachable default, so update the onlink tests to have a default
route other than unreachable.
Fixes: fc1e64e109
("net/ipv6: Add support for onlink flag")
Signed-off-by: David Ahern <dsahern@gmail.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
468 lines
12 KiB
Bash
Executable File
468 lines
12 KiB
Bash
Executable File
#!/bin/bash
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# SPDX-License-Identifier: GPL-2.0
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# IPv4 and IPv6 onlink tests
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PAUSE_ON_FAIL=${PAUSE_ON_FAIL:=no}
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# Network interfaces
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# - odd in current namespace; even in peer ns
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declare -A NETIFS
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# default VRF
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NETIFS[p1]=veth1
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NETIFS[p2]=veth2
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NETIFS[p3]=veth3
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NETIFS[p4]=veth4
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# VRF
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NETIFS[p5]=veth5
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NETIFS[p6]=veth6
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NETIFS[p7]=veth7
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NETIFS[p8]=veth8
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# /24 network
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declare -A V4ADDRS
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V4ADDRS[p1]=169.254.1.1
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V4ADDRS[p2]=169.254.1.2
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V4ADDRS[p3]=169.254.3.1
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V4ADDRS[p4]=169.254.3.2
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V4ADDRS[p5]=169.254.5.1
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V4ADDRS[p6]=169.254.5.2
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V4ADDRS[p7]=169.254.7.1
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V4ADDRS[p8]=169.254.7.2
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# /64 network
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declare -A V6ADDRS
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V6ADDRS[p1]=2001:db8:101::1
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V6ADDRS[p2]=2001:db8:101::2
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V6ADDRS[p3]=2001:db8:301::1
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V6ADDRS[p4]=2001:db8:301::2
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V6ADDRS[p5]=2001:db8:501::1
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V6ADDRS[p6]=2001:db8:501::2
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V6ADDRS[p7]=2001:db8:701::1
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V6ADDRS[p8]=2001:db8:701::2
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# Test networks:
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# [1] = default table
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# [2] = VRF
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#
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# /32 host routes
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declare -A TEST_NET4
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TEST_NET4[1]=169.254.101
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TEST_NET4[2]=169.254.102
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# /128 host routes
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declare -A TEST_NET6
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TEST_NET6[1]=2001:db8:101
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TEST_NET6[2]=2001:db8:102
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# connected gateway
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CONGW[1]=169.254.1.254
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CONGW[2]=169.254.3.254
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CONGW[3]=169.254.5.254
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# recursive gateway
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RECGW4[1]=169.254.11.254
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RECGW4[2]=169.254.12.254
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RECGW6[1]=2001:db8:11::64
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RECGW6[2]=2001:db8:12::64
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# for v4 mapped to v6
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declare -A TEST_NET4IN6IN6
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TEST_NET4IN6[1]=10.1.1.254
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TEST_NET4IN6[2]=10.2.1.254
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# mcast address
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MCAST6=ff02::1
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PEER_NS=bart
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PEER_CMD="ip netns exec ${PEER_NS}"
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VRF=lisa
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VRF_TABLE=1101
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PBR_TABLE=101
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################################################################################
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# utilities
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log_test()
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{
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local rc=$1
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local expected=$2
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local msg="$3"
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if [ ${rc} -eq ${expected} ]; then
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nsuccess=$((nsuccess+1))
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printf "\n TEST: %-50s [ OK ]\n" "${msg}"
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else
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nfail=$((nfail+1))
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printf "\n TEST: %-50s [FAIL]\n" "${msg}"
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if [ "${PAUSE_ON_FAIL}" = "yes" ]; then
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echo
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echo "hit enter to continue, 'q' to quit"
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read a
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[ "$a" = "q" ] && exit 1
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fi
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fi
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}
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log_section()
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{
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echo
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echo "######################################################################"
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echo "TEST SECTION: $*"
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echo "######################################################################"
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}
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log_subsection()
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{
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echo
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echo "#########################################"
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echo "TEST SUBSECTION: $*"
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}
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run_cmd()
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{
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echo
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echo "COMMAND: $*"
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eval $*
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}
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get_linklocal()
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{
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local dev=$1
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local pfx
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local addr
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addr=$(${pfx} ip -6 -br addr show dev ${dev} | \
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awk '{
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for (i = 3; i <= NF; ++i) {
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if ($i ~ /^fe80/)
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print $i
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}
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}'
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)
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addr=${addr/\/*}
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[ -z "$addr" ] && return 1
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echo $addr
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return 0
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}
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################################################################################
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#
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setup()
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{
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echo
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echo "########################################"
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echo "Configuring interfaces"
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set -e
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# create namespace
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ip netns add ${PEER_NS}
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ip -netns ${PEER_NS} li set lo up
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# add vrf table
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ip li add ${VRF} type vrf table ${VRF_TABLE}
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ip li set ${VRF} up
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ip ro add table ${VRF_TABLE} unreachable default metric 8192
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ip -6 ro add table ${VRF_TABLE} unreachable default metric 8192
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# create test interfaces
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ip li add ${NETIFS[p1]} type veth peer name ${NETIFS[p2]}
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ip li add ${NETIFS[p3]} type veth peer name ${NETIFS[p4]}
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ip li add ${NETIFS[p5]} type veth peer name ${NETIFS[p6]}
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ip li add ${NETIFS[p7]} type veth peer name ${NETIFS[p8]}
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# enslave vrf interfaces
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for n in 5 7; do
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ip li set ${NETIFS[p${n}]} vrf ${VRF}
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done
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# add addresses
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for n in 1 3 5 7; do
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ip li set ${NETIFS[p${n}]} up
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ip addr add ${V4ADDRS[p${n}]}/24 dev ${NETIFS[p${n}]}
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ip addr add ${V6ADDRS[p${n}]}/64 dev ${NETIFS[p${n}]} nodad
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done
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# move peer interfaces to namespace and add addresses
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for n in 2 4 6 8; do
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ip li set ${NETIFS[p${n}]} netns ${PEER_NS} up
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ip -netns ${PEER_NS} addr add ${V4ADDRS[p${n}]}/24 dev ${NETIFS[p${n}]}
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ip -netns ${PEER_NS} addr add ${V6ADDRS[p${n}]}/64 dev ${NETIFS[p${n}]} nodad
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done
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ip -6 ro add default via ${V6ADDRS[p3]/::[0-9]/::64}
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ip -6 ro add table ${VRF_TABLE} default via ${V6ADDRS[p7]/::[0-9]/::64}
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set +e
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}
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cleanup()
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{
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# make sure we start from a clean slate
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ip netns del ${PEER_NS} 2>/dev/null
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for n in 1 3 5 7; do
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ip link del ${NETIFS[p${n}]} 2>/dev/null
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done
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ip link del ${VRF} 2>/dev/null
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ip ro flush table ${VRF_TABLE}
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ip -6 ro flush table ${VRF_TABLE}
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}
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################################################################################
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# IPv4 tests
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#
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run_ip()
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{
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local table="$1"
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local prefix="$2"
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local gw="$3"
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local dev="$4"
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local exp_rc="$5"
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local desc="$6"
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# dev arg may be empty
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[ -n "${dev}" ] && dev="dev ${dev}"
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run_cmd ip ro add table "${table}" "${prefix}"/32 via "${gw}" "${dev}" onlink
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log_test $? ${exp_rc} "${desc}"
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}
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run_ip_mpath()
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{
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local table="$1"
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local prefix="$2"
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local nh1="$3"
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local nh2="$4"
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local exp_rc="$5"
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local desc="$6"
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# dev arg may be empty
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[ -n "${dev}" ] && dev="dev ${dev}"
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run_cmd ip ro add table "${table}" "${prefix}"/32 \
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nexthop via ${nh1} nexthop via ${nh2}
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log_test $? ${exp_rc} "${desc}"
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}
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valid_onlink_ipv4()
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{
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# - unicast connected, unicast recursive
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#
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log_subsection "default VRF - main table"
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run_ip 254 ${TEST_NET4[1]}.1 ${CONGW[1]} ${NETIFS[p1]} 0 "unicast connected"
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run_ip 254 ${TEST_NET4[1]}.2 ${RECGW4[1]} ${NETIFS[p1]} 0 "unicast recursive"
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log_subsection "VRF ${VRF}"
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run_ip ${VRF_TABLE} ${TEST_NET4[2]}.1 ${CONGW[3]} ${NETIFS[p5]} 0 "unicast connected"
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run_ip ${VRF_TABLE} ${TEST_NET4[2]}.2 ${RECGW4[2]} ${NETIFS[p5]} 0 "unicast recursive"
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log_subsection "VRF device, PBR table"
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run_ip ${PBR_TABLE} ${TEST_NET4[2]}.3 ${CONGW[3]} ${NETIFS[p5]} 0 "unicast connected"
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run_ip ${PBR_TABLE} ${TEST_NET4[2]}.4 ${RECGW4[2]} ${NETIFS[p5]} 0 "unicast recursive"
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# multipath version
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#
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log_subsection "default VRF - main table - multipath"
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run_ip_mpath 254 ${TEST_NET4[1]}.5 \
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"${CONGW[1]} dev ${NETIFS[p1]} onlink" \
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"${CONGW[2]} dev ${NETIFS[p3]} onlink" \
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0 "unicast connected - multipath"
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run_ip_mpath 254 ${TEST_NET4[1]}.6 \
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"${RECGW4[1]} dev ${NETIFS[p1]} onlink" \
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"${RECGW4[2]} dev ${NETIFS[p3]} onlink" \
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0 "unicast recursive - multipath"
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run_ip_mpath 254 ${TEST_NET4[1]}.7 \
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"${CONGW[1]} dev ${NETIFS[p1]}" \
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"${CONGW[2]} dev ${NETIFS[p3]} onlink" \
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0 "unicast connected - multipath onlink first only"
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run_ip_mpath 254 ${TEST_NET4[1]}.8 \
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"${CONGW[1]} dev ${NETIFS[p1]} onlink" \
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"${CONGW[2]} dev ${NETIFS[p3]}" \
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0 "unicast connected - multipath onlink second only"
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}
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invalid_onlink_ipv4()
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{
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run_ip 254 ${TEST_NET4[1]}.11 ${V4ADDRS[p1]} ${NETIFS[p1]} 2 \
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"Invalid gw - local unicast address"
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run_ip ${VRF_TABLE} ${TEST_NET4[2]}.11 ${V4ADDRS[p5]} ${NETIFS[p5]} 2 \
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"Invalid gw - local unicast address, VRF"
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run_ip 254 ${TEST_NET4[1]}.101 ${V4ADDRS[p1]} "" 2 "No nexthop device given"
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run_ip 254 ${TEST_NET4[1]}.102 ${V4ADDRS[p3]} ${NETIFS[p1]} 2 \
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"Gateway resolves to wrong nexthop device"
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run_ip ${VRF_TABLE} ${TEST_NET4[2]}.103 ${V4ADDRS[p7]} ${NETIFS[p5]} 2 \
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"Gateway resolves to wrong nexthop device - VRF"
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}
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################################################################################
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# IPv6 tests
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#
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run_ip6()
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{
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local table="$1"
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local prefix="$2"
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local gw="$3"
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local dev="$4"
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local exp_rc="$5"
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local desc="$6"
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# dev arg may be empty
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[ -n "${dev}" ] && dev="dev ${dev}"
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run_cmd ip -6 ro add table "${table}" "${prefix}"/128 via "${gw}" "${dev}" onlink
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log_test $? ${exp_rc} "${desc}"
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}
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run_ip6_mpath()
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{
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local table="$1"
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local prefix="$2"
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local opts="$3"
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local nh1="$4"
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local nh2="$5"
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local exp_rc="$6"
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local desc="$7"
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run_cmd ip -6 ro add table "${table}" "${prefix}"/128 "${opts}" \
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nexthop via ${nh1} nexthop via ${nh2}
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log_test $? ${exp_rc} "${desc}"
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}
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valid_onlink_ipv6()
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{
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# - unicast connected, unicast recursive, v4-mapped
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#
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log_subsection "default VRF - main table"
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run_ip6 254 ${TEST_NET6[1]}::1 ${V6ADDRS[p1]/::*}::64 ${NETIFS[p1]} 0 "unicast connected"
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run_ip6 254 ${TEST_NET6[1]}::2 ${RECGW6[1]} ${NETIFS[p1]} 0 "unicast recursive"
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run_ip6 254 ${TEST_NET6[1]}::3 ::ffff:${TEST_NET4IN6[1]} ${NETIFS[p1]} 0 "v4-mapped"
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log_subsection "VRF ${VRF}"
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run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::1 ${V6ADDRS[p5]/::*}::64 ${NETIFS[p5]} 0 "unicast connected"
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run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::2 ${RECGW6[2]} ${NETIFS[p5]} 0 "unicast recursive"
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run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::3 ::ffff:${TEST_NET4IN6[2]} ${NETIFS[p5]} 0 "v4-mapped"
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log_subsection "VRF device, PBR table"
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run_ip6 ${PBR_TABLE} ${TEST_NET6[2]}::4 ${V6ADDRS[p5]/::*}::64 ${NETIFS[p5]} 0 "unicast connected"
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run_ip6 ${PBR_TABLE} ${TEST_NET6[2]}::5 ${RECGW6[2]} ${NETIFS[p5]} 0 "unicast recursive"
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run_ip6 ${PBR_TABLE} ${TEST_NET6[2]}::6 ::ffff:${TEST_NET4IN6[2]} ${NETIFS[p5]} 0 "v4-mapped"
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# multipath version
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#
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log_subsection "default VRF - main table - multipath"
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run_ip6_mpath 254 ${TEST_NET6[1]}::4 "onlink" \
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"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]}" \
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"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]}" \
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0 "unicast connected - multipath onlink"
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run_ip6_mpath 254 ${TEST_NET6[1]}::5 "onlink" \
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"${RECGW6[1]} dev ${NETIFS[p1]}" \
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"${RECGW6[2]} dev ${NETIFS[p3]}" \
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0 "unicast recursive - multipath onlink"
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run_ip6_mpath 254 ${TEST_NET6[1]}::6 "onlink" \
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"::ffff:${TEST_NET4IN6[1]} dev ${NETIFS[p1]}" \
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"::ffff:${TEST_NET4IN6[2]} dev ${NETIFS[p3]}" \
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0 "v4-mapped - multipath onlink"
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run_ip6_mpath 254 ${TEST_NET6[1]}::7 "" \
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"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]} onlink" \
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"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]} onlink" \
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0 "unicast connected - multipath onlink both nexthops"
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run_ip6_mpath 254 ${TEST_NET6[1]}::8 "" \
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"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]} onlink" \
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"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]}" \
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0 "unicast connected - multipath onlink first only"
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run_ip6_mpath 254 ${TEST_NET6[1]}::9 "" \
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"${V6ADDRS[p1]/::*}::64 dev ${NETIFS[p1]}" \
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"${V6ADDRS[p3]/::*}::64 dev ${NETIFS[p3]} onlink" \
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0 "unicast connected - multipath onlink second only"
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}
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invalid_onlink_ipv6()
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{
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local lladdr
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lladdr=$(get_linklocal ${NETIFS[p1]}) || return 1
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run_ip6 254 ${TEST_NET6[1]}::11 ${V6ADDRS[p1]} ${NETIFS[p1]} 2 \
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"Invalid gw - local unicast address"
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run_ip6 254 ${TEST_NET6[1]}::12 ${lladdr} ${NETIFS[p1]} 2 \
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"Invalid gw - local linklocal address"
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run_ip6 254 ${TEST_NET6[1]}::12 ${MCAST6} ${NETIFS[p1]} 2 \
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"Invalid gw - multicast address"
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lladdr=$(get_linklocal ${NETIFS[p5]}) || return 1
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run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::11 ${V6ADDRS[p5]} ${NETIFS[p5]} 2 \
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"Invalid gw - local unicast address, VRF"
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run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::12 ${lladdr} ${NETIFS[p5]} 2 \
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"Invalid gw - local linklocal address, VRF"
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run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::12 ${MCAST6} ${NETIFS[p5]} 2 \
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"Invalid gw - multicast address, VRF"
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run_ip6 254 ${TEST_NET6[1]}::101 ${V6ADDRS[p1]} "" 2 \
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"No nexthop device given"
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# default VRF validation is done against LOCAL table
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# run_ip6 254 ${TEST_NET6[1]}::102 ${V6ADDRS[p3]/::[0-9]/::64} ${NETIFS[p1]} 2 \
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# "Gateway resolves to wrong nexthop device"
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run_ip6 ${VRF_TABLE} ${TEST_NET6[2]}::103 ${V6ADDRS[p7]/::[0-9]/::64} ${NETIFS[p5]} 2 \
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"Gateway resolves to wrong nexthop device - VRF"
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}
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run_onlink_tests()
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{
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log_section "IPv4 onlink"
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log_subsection "Valid onlink commands"
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valid_onlink_ipv4
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log_subsection "Invalid onlink commands"
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invalid_onlink_ipv4
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log_section "IPv6 onlink"
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log_subsection "Valid onlink commands"
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valid_onlink_ipv6
|
|
log_subsection "Invalid onlink commands"
|
|
invalid_onlink_ipv6
|
|
}
|
|
|
|
################################################################################
|
|
# main
|
|
|
|
nsuccess=0
|
|
nfail=0
|
|
|
|
cleanup
|
|
setup
|
|
run_onlink_tests
|
|
cleanup
|
|
|
|
if [ "$TESTS" != "none" ]; then
|
|
printf "\nTests passed: %3d\n" ${nsuccess}
|
|
printf "Tests failed: %3d\n" ${nfail}
|
|
fi
|