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Hangbin Liu 5aa3c334a4 selftests: forwarding: vxlan_bridge_1d: Fix vxlan ecn decapsulate value 
The ECN bit defines ECT(1) = 1, ECT(0) = 2. So inner 0x02 + outer 0x01
should be inner ECT(0) + outer ECT(1). Based on the description of
__INET_ECN_decapsulate, the final decapsulate value should be
ECT(1). So fix the test expect value to 0x01.

Before the fix:
TEST: VXLAN: ECN decap: 01/02->0x02                                 [FAIL]
        Expected to capture 10 packets, got 0.

After the fix:
TEST: VXLAN: ECN decap: 01/02->0x01                                 [ OK ]

Fixes: a0b61f3d8e ("selftests: forwarding: vxlan_bridge_1d: Add an ECN decap test")
Signed-off-by: Hangbin Liu <liuhangbin@gmail.com>
Signed-off-by: David S. Miller <davem@davemloft.net>
 		2021-03-19 13:54:28 -07:00
..
.gitignore
Makefile
README
bridge_igmp.sh
bridge_mld.sh
bridge_port_isolation.sh
bridge_sticky_fdb.sh
bridge_vlan_aware.sh
bridge_vlan_unaware.sh
config
devlink_lib.sh
ethtool.sh
ethtool_extended_state.sh
ethtool_lib.sh
fib_offload_lib.sh
forwarding.config.sample
gre_inner_v4_multipath.sh
gre_inner_v6_multipath.sh
gre_multipath.sh
gre_multipath_nh.sh
ip6gre_inner_v4_multipath.sh
ip6gre_inner_v6_multipath.sh
ipip_flat_gre.sh
ipip_flat_gre_key.sh
ipip_flat_gre_keys.sh
ipip_hier_gre.sh
ipip_hier_gre_key.sh
ipip_hier_gre_keys.sh
ipip_lib.sh
lib.sh
loopback.sh
mirror_gre.sh
mirror_gre_bound.sh
mirror_gre_bridge_1d.sh
mirror_gre_bridge_1d_vlan.sh
mirror_gre_bridge_1q.sh
mirror_gre_bridge_1q_lag.sh
mirror_gre_changes.sh
mirror_gre_flower.sh
mirror_gre_lag_lacp.sh
mirror_gre_lib.sh
mirror_gre_neigh.sh
mirror_gre_nh.sh
mirror_gre_topo_lib.sh
mirror_gre_vlan.sh
mirror_gre_vlan_bridge_1q.sh
mirror_lib.sh
mirror_topo_lib.sh
mirror_vlan.sh
pedit_dsfield.sh
pedit_l4port.sh
q_in_vni.sh
router.sh
router_bridge.sh
router_bridge_vlan.sh
router_broadcast.sh
router_mpath_nh.sh
router_multicast.sh
router_multipath.sh
router_nh.sh
router_vid_1.sh
sch_ets.sh
sch_ets_core.sh
sch_ets_tests.sh
sch_red.sh
sch_tbf_core.sh
sch_tbf_ets.sh
sch_tbf_etsprio.sh
sch_tbf_prio.sh
sch_tbf_root.sh
skbedit_priority.sh
tc_actions.sh
tc_chains.sh
tc_common.sh
tc_flower.sh
tc_flower_router.sh
tc_mpls_l2vpn.sh
tc_police.sh
tc_shblocks.sh
tc_vlan_modify.sh
vxlan_asymmetric.sh
vxlan_bridge_1d.sh
vxlan_bridge_1d_port_8472.sh
vxlan_bridge_1q.sh
vxlan_bridge_1q_port_8472.sh
vxlan_symmetric.sh

README 

Motivation
==========

One of the nice things about network namespaces is that they allow one
to easily create and test complex environments.

Unfortunately, these namespaces can not be used with actual switching
ASICs, as their ports can not be migrated to other network namespaces
(NETIF_F_NETNS_LOCAL) and most of them probably do not support the
L1-separation provided by namespaces.

However, a similar kind of flexibility can be achieved by using VRFs and
by looping the switch ports together. For example:

                             br0
                              +
               vrf-h1         |           vrf-h2
                 +        +---+----+        +
                 |        |        |        |
    192.0.2.1/24 +        +        +        + 192.0.2.2/24
               swp1     swp2     swp3     swp4
                 +        +        +        +
                 |        |        |        |
                 +--------+        +--------+

The VRFs act as lightweight namespaces representing hosts connected to
the switch.

This approach for testing switch ASICs has several advantages over the
traditional method that requires multiple physical machines, to name a
few:

1. Only the device under test (DUT) is being tested without noise from
other system.

2. Ability to easily provision complex topologies. Testing bridging
between 4-ports LAGs or 8-way ECMP requires many physical links that are
not always available. With the VRF-based approach one merely needs to
loopback more ports.

These tests are written with switch ASICs in mind, but they can be run
on any Linux box using veth pairs to emulate physical loopbacks.

Guidelines for Writing Tests
============================

o Where possible, reuse an existing topology for different tests instead
  of recreating the same topology.
o Tests that use anything but the most trivial topologies should include
  an ASCII art showing the topology.
o Where possible, IPv6 and IPv4 addresses shall conform to RFC 3849 and
  RFC 5737, respectively.
o Where possible, tests shall be written so that they can be reused by
  multiple topologies and added to lib.sh.
o Checks shall be added to lib.sh for any external dependencies.
o Code shall be checked using ShellCheck [1] prior to submission.

1. https://www.shellcheck.net/