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#!/bin/bash
# SPDX-License-Identifier: GPL-2.0
#
# This test sets up 3 netns (src <-> fwd <-> dst). There is no direct veth link
# between src and dst. The netns fwd has veth links to each src and dst. The
# client is in src and server in dst. The test installs a TC BPF program to each
# host facing veth in fwd which calls into bpf_redirect_peer() to perform the
# neigh addr population and redirect; it also installs a dropper prog on the
# egress side to drop skbs if neigh addrs were not populated.
if [[ $EUID -ne 0 ]]; then
echo "This script must be run as root"
echo "FAIL"
exit 1
fi
# check that nc, dd, ping, ping6 and timeout are present
command -v nc >/dev/null 2>&1 || \
{ echo >&2 "nc is not available"; exit 1; }
command -v dd >/dev/null 2>&1 || \
{ echo >&2 "dd is not available"; exit 1; }
command -v timeout >/dev/null 2>&1 || \
{ echo >&2 "timeout is not available"; exit 1; }
command -v ping >/dev/null 2>&1 || \
{ echo >&2 "ping is not available"; exit 1; }
command -v ping6 >/dev/null 2>&1 || \
{ echo >&2 "ping6 is not available"; exit 1; }
readonly GREEN='\033[0;92m'
readonly RED='\033[0;31m'
readonly NC='\033[0m' # No Color
readonly PING_ARG="-c 3 -w 10 -q"
readonly TIMEOUT=10
readonly NS_SRC="ns-src-$(mktemp -u XXXXXX)"
readonly NS_FWD="ns-fwd-$(mktemp -u XXXXXX)"
readonly NS_DST="ns-dst-$(mktemp -u XXXXXX)"
readonly IP4_SRC="172.16.1.100"
readonly IP4_DST="172.16.2.100"
readonly IP6_SRC="::1:dead:beef:cafe"
readonly IP6_DST="::2:dead:beef:cafe"
readonly IP4_SLL="169.254.0.1"
readonly IP4_DLL="169.254.0.2"
readonly IP4_NET="169.254.0.0"
cleanup()
{
ip netns del ${NS_SRC}
ip netns del ${NS_FWD}
ip netns del ${NS_DST}
}
trap cleanup EXIT
set -e
ip netns add "${NS_SRC}"
ip netns add "${NS_FWD}"
ip netns add "${NS_DST}"
ip link add veth_src type veth peer name veth_src_fwd
ip link add veth_dst type veth peer name veth_dst_fwd
ip link set veth_src netns ${NS_SRC}
ip link set veth_src_fwd netns ${NS_FWD}
ip link set veth_dst netns ${NS_DST}
ip link set veth_dst_fwd netns ${NS_FWD}
ip -netns ${NS_SRC} addr add ${IP4_SRC}/32 dev veth_src
ip -netns ${NS_DST} addr add ${IP4_DST}/32 dev veth_dst
# The fwd netns automatically get a v6 LL address / routes, but also needs v4
# one in order to start ARP probing. IP4_NET route is added to the endpoints
# so that the ARP processing will reply.
ip -netns ${NS_FWD} addr add ${IP4_SLL}/32 dev veth_src_fwd
ip -netns ${NS_FWD} addr add ${IP4_DLL}/32 dev veth_dst_fwd
ip -netns ${NS_SRC} addr add ${IP6_SRC}/128 dev veth_src nodad
ip -netns ${NS_DST} addr add ${IP6_DST}/128 dev veth_dst nodad
ip -netns ${NS_SRC} link set dev veth_src up
ip -netns ${NS_FWD} link set dev veth_src_fwd up
ip -netns ${NS_DST} link set dev veth_dst up
ip -netns ${NS_FWD} link set dev veth_dst_fwd up
ip -netns ${NS_SRC} route add ${IP4_DST}/32 dev veth_src scope global
ip -netns ${NS_SRC} route add ${IP4_NET}/16 dev veth_src scope global
ip -netns ${NS_FWD} route add ${IP4_SRC}/32 dev veth_src_fwd scope global
ip -netns ${NS_SRC} route add ${IP6_DST}/128 dev veth_src scope global
ip -netns ${NS_FWD} route add ${IP6_SRC}/128 dev veth_src_fwd scope global
ip -netns ${NS_DST} route add ${IP4_SRC}/32 dev veth_dst scope global
ip -netns ${NS_DST} route add ${IP4_NET}/16 dev veth_dst scope global
ip -netns ${NS_FWD} route add ${IP4_DST}/32 dev veth_dst_fwd scope global
ip -netns ${NS_DST} route add ${IP6_SRC}/128 dev veth_dst scope global
ip -netns ${NS_FWD} route add ${IP6_DST}/128 dev veth_dst_fwd scope global
fmac_src=$(ip netns exec ${NS_FWD} cat /sys/class/net/veth_src_fwd/address)
fmac_dst=$(ip netns exec ${NS_FWD} cat /sys/class/net/veth_dst_fwd/address)
ip -netns ${NS_SRC} neigh add ${IP4_DST} dev veth_src lladdr $fmac_src
ip -netns ${NS_DST} neigh add ${IP4_SRC} dev veth_dst lladdr $fmac_dst
ip -netns ${NS_SRC} neigh add ${IP6_DST} dev veth_src lladdr $fmac_src
ip -netns ${NS_DST} neigh add ${IP6_SRC} dev veth_dst lladdr $fmac_dst
veth_dst=$(ip netns exec ${NS_FWD} cat /sys/class/net/veth_dst_fwd/ifindex | awk '{printf "%08x\n", $1}')
veth_src=$(ip netns exec ${NS_FWD} cat /sys/class/net/veth_src_fwd/ifindex | awk '{printf "%08x\n", $1}')
xxd -p < test_tc_neigh.o | sed "s/eeddddee/$veth_src/g" | xxd -r -p > test_tc_neigh.x.o
xxd -p < test_tc_neigh.x.o | sed "s/eeffffee/$veth_dst/g" | xxd -r -p > test_tc_neigh.y.o
ip netns exec ${NS_FWD} tc qdisc add dev veth_src_fwd clsact
ip netns exec ${NS_FWD} tc filter add dev veth_src_fwd ingress bpf da obj test_tc_neigh.y.o sec src_ingress
ip netns exec ${NS_FWD} tc filter add dev veth_src_fwd egress bpf da obj test_tc_neigh.y.o sec chk_neigh
ip netns exec ${NS_FWD} tc qdisc add dev veth_dst_fwd clsact
ip netns exec ${NS_FWD} tc filter add dev veth_dst_fwd ingress bpf da obj test_tc_neigh.y.o sec dst_ingress
ip netns exec ${NS_FWD} tc filter add dev veth_dst_fwd egress bpf da obj test_tc_neigh.y.o sec chk_neigh
rm -f test_tc_neigh.x.o test_tc_neigh.y.o
ip netns exec ${NS_DST} bash -c "nc -4 -l -p 9004 &"
ip netns exec ${NS_DST} bash -c "nc -6 -l -p 9006 &"
set +e
TEST="TCPv4 connectivity test"
ip netns exec ${NS_SRC} bash -c "timeout ${TIMEOUT} dd if=/dev/zero bs=1000 count=100 > /dev/tcp/${IP4_DST}/9004"
if [ $? -ne 0 ]; then
echo -e "${TEST}: ${RED}FAIL${NC}"
exit 1
fi
echo -e "${TEST}: ${GREEN}PASS${NC}"
TEST="TCPv6 connectivity test"
ip netns exec ${NS_SRC} bash -c "timeout ${TIMEOUT} dd if=/dev/zero bs=1000 count=100 > /dev/tcp/${IP6_DST}/9006"
if [ $? -ne 0 ]; then
echo -e "${TEST}: ${RED}FAIL${NC}"
exit 1
fi
echo -e "${TEST}: ${GREEN}PASS${NC}"
TEST="ICMPv4 connectivity test"
ip netns exec ${NS_SRC} ping $PING_ARG ${IP4_DST}
if [ $? -ne 0 ]; then
echo -e "${TEST}: ${RED}FAIL${NC}"
exit 1
fi
echo -e "${TEST}: ${GREEN}PASS${NC}"
TEST="ICMPv6 connectivity test"
ip netns exec ${NS_SRC} ping6 $PING_ARG ${IP6_DST}
if [ $? -ne 0 ]; then
echo -e "${TEST}: ${RED}FAIL${NC}"
exit 1
fi
echo -e "${TEST}: ${GREEN}PASS${NC}"
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