[ovs-dev] [PATCHv3 RFC 2/3] tests: add AF_XDP netdev test cases.

William Tu u9012063 at gmail.com
Wed Nov 28 21:22:21 UTC 2018 

The patch adds the test framework for OVS using afxdp.
Most of the test cases are slightly modified from the
existing test cases at system-traffic.at.  All the veth
creations, ADD_VETH, are replaced by using AF_XDP veth,
with new macro ADD_VETH_AFXDP.  So packet I/O is based
on AF_XDP socket interface.

Signed-off-by: William Tu <u9012063 at gmail.com>
---
 tests/automake.mk               |   17 +
 tests/system-afxdp-macros.at    |  153 ++++
 tests/system-afxdp-testsuite.at |   26 +
 tests/system-afxdp-traffic.at   | 1541 +++++++++++++++++++++++++++++++++++++++
 4 files changed, 1737 insertions(+)
 create mode 100644 tests/system-afxdp-macros.at
 create mode 100644 tests/system-afxdp-testsuite.at
 create mode 100644 tests/system-afxdp-traffic.at

diff --git a/tests/automake.mk b/tests/automake.mk
index 97312cf2ce6e..38cfb7158167 100644
--- a/tests/automake.mk
+++ b/tests/automake.mk
@@ -4,11 +4,13 @@ EXTRA_DIST += \
 	$(SYSTEM_TESTSUITE_AT) \
 	$(SYSTEM_KMOD_TESTSUITE_AT) \
 	$(SYSTEM_USERSPACE_TESTSUITE_AT) \
+	$(SYSTEM_AFXDP_TESTSUITE_AT) \
 	$(SYSTEM_OFFLOADS_TESTSUITE_AT) \
 	$(SYSTEM_DPDK_TESTSUITE_AT) \
 	$(TESTSUITE) \
 	$(SYSTEM_KMOD_TESTSUITE) \
 	$(SYSTEM_USERSPACE_TESTSUITE) \
+	$(SYSTEM_AFXDP_TESTSUITE) \
 	$(SYSTEM_OFFLOADS_TESTSUITE) \
 	$(SYSTEM_DPDK_TESTSUITE) \
 	tests/atlocal.in \
@@ -152,6 +154,11 @@ SYSTEM_USERSPACE_TESTSUITE_AT = \
 	tests/system-userspace-macros.at \
 	tests/system-userspace-packet-type-aware.at
 
+SYSTEM_AFXDP_TESTSUITE_AT = \
+	tests/system-afxdp-testsuite.at \
+	tests/system-afxdp-traffic.at \
+	tests/system-afxdp-macros.at
+
 SYSTEM_TESTSUITE_AT = \
 	tests/system-common-macros.at \
 	tests/system-ovn.at \
@@ -176,6 +183,7 @@ TESTSUITE = $(srcdir)/tests/testsuite
 TESTSUITE_PATCH = $(srcdir)/tests/testsuite.patch
 SYSTEM_KMOD_TESTSUITE = $(srcdir)/tests/system-kmod-testsuite
 SYSTEM_USERSPACE_TESTSUITE = $(srcdir)/tests/system-userspace-testsuite
+SYSTEM_AFXDP_TESTSUITE = $(srcdir)/tests/system-afxdp-testsuite
 SYSTEM_OFFLOADS_TESTSUITE = $(srcdir)/tests/system-offloads-testsuite
 SYSTEM_DPDK_TESTSUITE = $(srcdir)/tests/system-dpdk-testsuite
 DISTCLEANFILES += tests/atconfig tests/atlocal
@@ -304,6 +312,11 @@ check-system-userspace: all
 	set $(SHELL) '$(SYSTEM_USERSPACE_TESTSUITE)' -C tests  AUTOTEST_PATH='$(AUTOTEST_PATH)' $(TESTSUITEFLAGS) -j1; \
 	"$$@" || (test X'$(RECHECK)' = Xyes && "$$@" --recheck)
 
+check-afxdp: all
+	$(MAKE) install
+	set $(SHELL) '$(SYSTEM_AFXDP_TESTSUITE)' -C tests  AUTOTEST_PATH='$(AUTOTEST_PATH)' $(TESTSUITEFLAGS) -j1; \
+	"$$@" || (test X'$(RECHECK)' = Xyes && "$$@" --recheck)
+
 check-offloads: all
 	set $(SHELL) '$(SYSTEM_OFFLOADS_TESTSUITE)' -C tests  AUTOTEST_PATH='$(AUTOTEST_PATH)' $(TESTSUITEFLAGS) -j1; \
 	"$$@" || (test X'$(RECHECK)' = Xyes && "$$@" --recheck)
@@ -336,6 +349,10 @@ $(SYSTEM_USERSPACE_TESTSUITE): package.m4 $(SYSTEM_TESTSUITE_AT) $(SYSTEM_USERSP
 	$(AM_V_GEN)$(AUTOTEST) -I '$(srcdir)' -o $@.tmp $@.at
 	$(AM_V_at)mv $@.tmp $@
 
+$(SYSTEM_AFXDP_TESTSUITE): package.m4 $(SYSTEM_TESTSUITE_AT) $(SYSTEM_AFXDP_TESTSUITE_AT) $(COMMON_MACROS_AT)
+	$(AM_V_GEN)$(AUTOTEST) -I '$(srcdir)' -o $@.tmp $@.at
+	$(AM_V_at)mv $@.tmp $@
+
 $(SYSTEM_OFFLOADS_TESTSUITE): package.m4 $(SYSTEM_TESTSUITE_AT) $(SYSTEM_OFFLOADS_TESTSUITE_AT) $(COMMON_MACROS_AT)
 	$(AM_V_GEN)$(AUTOTEST) -I '$(srcdir)' -o $@.tmp $@.at
 	$(AM_V_at)mv $@.tmp $@
diff --git a/tests/system-afxdp-macros.at b/tests/system-afxdp-macros.at
new file mode 100644
index 000000000000..c9d2227f9ab6
--- /dev/null
+++ b/tests/system-afxdp-macros.at
@@ -0,0 +1,153 @@
+# _ADD_BR([name])
+#
+# Expands into the proper ovs-vsctl commands to create a bridge with the
+# appropriate type and properties
+m4_define([_ADD_BR], [[add-br $1 -- set Bridge $1 datapath_type="netdev" protocols=OpenFlow10,OpenFlow11,OpenFlow12,OpenFlow13,OpenFlow14,OpenFlow15 fail-mode=secure ]])
+
+# OVS_TRAFFIC_VSWITCHD_START([vsctl-args], [vsctl-output], [=override])
+#
+# Creates a database and starts ovsdb-server, starts ovs-vswitchd
+# connected to that database, calls ovs-vsctl to create a bridge named
+# br0 with predictable settings, passing 'vsctl-args' as additional
+# commands to ovs-vsctl.  If 'vsctl-args' causes ovs-vsctl to provide
+# output (e.g. because it includes "create" commands) then 'vsctl-output'
+# specifies the expected output after filtering through uuidfilt.
+m4_define([OVS_TRAFFIC_VSWITCHD_START],
+  [
+   export OVS_PKGDATADIR=$(`pwd`)
+   _OVS_VSWITCHD_START([--disable-system])
+   dnl Add bridges, ports, etc.
+   OVS_WAIT_WHILE([ip link show br0])
+   AT_CHECK([ovs-vsctl -- _ADD_BR([br0]) -- $1 m4_if([$2], [], [], [| uuidfilt])], [0], [$2])
+])
+
+# OVS_TRAFFIC_VSWITCHD_STOP([WHITELIST], [extra_cmds])
+#
+# Gracefully stops ovs-vswitchd and ovsdb-server, checking their log files
+# for messages with severity WARN or higher and signaling an error if any
+# is present.  The optional WHITELIST may contain shell-quoted "sed"
+# commands to delete any warnings that are actually expected, e.g.:
+#
+#   OVS_TRAFFIC_VSWITCHD_STOP(["/expected error/d"])
+#
+# 'extra_cmds' are shell commands to be executed afte OVS_VSWITCHD_STOP() is
+# invoked. They can be used to perform additional cleanups such as name space
+# removal.
+m4_define([OVS_TRAFFIC_VSWITCHD_STOP],
+  [OVS_VSWITCHD_STOP([dnl
+$1";/netdev_linux.*obtaining netdev stats via vport failed/d
+/dpif_netlink.*Generic Netlink family 'ovs_datapath' does not exist. The Open vSwitch kernel module is probably not loaded./d
+"])
+   AT_CHECK([:; $2])
+  ])
+
+m4_define([ADD_VETH_AFXDP],
+    [ AT_CHECK([ip link add $1 type veth peer name ovs-$1 || return 77])
+      CONFIGURE_AFXDP_VETH_OFFLOADS([$1])
+      AT_CHECK([ip link set $1 netns $2])
+      AT_CHECK([ip link set dev ovs-$1 up])
+      AT_CHECK([ovs-vsctl add-port $3 ovs-$1 -- \
+                set interface ovs-$1 external-ids:iface-id="$1" type="afxdp"])
+      NS_CHECK_EXEC([$2], [ip addr add $4 dev $1 $7])
+      NS_CHECK_EXEC([$2], [ip link set dev $1 up])
+      if test -n "$5"; then
+        NS_CHECK_EXEC([$2], [ip link set dev $1 address $5])
+      fi
+      if test -n "$6"; then
+        NS_CHECK_EXEC([$2], [ip route add default via $6])
+      fi
+      on_exit 'ip link del ovs-$1'
+    ]
+)
+
+# CONFIGURE_AFXDP_VETH_OFFLOADS([VETH])
+#
+# Disable TX offloads and VLAN offloads for veths used in AF_XDP.
+m4_define([CONFIGURE_AFXDP_VETH_OFFLOADS],
+    [AT_CHECK([ethtool -K $1 tx off], [0], [ignore], [ignore])
+     AT_CHECK([ethtool -K $1 rxvlan off], [0], [ignore], [ignore])
+     AT_CHECK([ethtool -K $1 txvlan off], [0], [ignore], [ignore])
+    ]
+)
+
+# CONFIGURE_VETH_OFFLOADS([VETH])
+#
+# Disable TX offloads for veths.  The userspace datapath uses the AF_PACKET
+# socket to receive packets for veths.  Unfortunately, the AF_PACKET socket
+# doesn't play well with offloads:
+# 1. GSO packets are received without segmentation and therefore discarded.
+# 2. Packets with offloaded partial checksum are received with the wrong
+#    checksum, therefore discarded by the receiver.
+#
+# By disabling tx offloads in the non-OVS side of the veth peer we make sure
+# that the AF_PACKET socket will not receive bad packets.
+#
+# This is a workaround, and should be removed when offloads are properly
+# supported in netdev-linux.
+m4_define([CONFIGURE_VETH_OFFLOADS],
+    [AT_CHECK([ethtool -K $1 tx off], [0], [ignore], [ignore])]
+)
+
+# CHECK_CONNTRACK()
+#
+# Perform requirements checks for running conntrack tests.
+#
+m4_define([CHECK_CONNTRACK],
+    [AT_SKIP_IF([test $HAVE_PYTHON = no])]
+)
+
+# CHECK_CONNTRACK_ALG()
+#
+# Perform requirements checks for running conntrack ALG tests. The userspace
+# supports FTP and TFTP.
+#
+m4_define([CHECK_CONNTRACK_ALG])
+
+# CHECK_CONNTRACK_FRAG()
+#
+# Perform requirements checks for running conntrack fragmentations tests.
+# The userspace doesn't support fragmentation yet, so skip the tests.
+m4_define([CHECK_CONNTRACK_FRAG],
+[
+    AT_SKIP_IF([:])
+])
+
+# CHECK_CONNTRACK_LOCAL_STACK()
+#
+# Perform requirements checks for running conntrack tests with local stack.
+# While the kernel connection tracker automatically passes all the connection
+# tracking state from an internal port to the OpenvSwitch kernel module, there
+# is simply no way of doing that with the userspace, so skip the tests.
+m4_define([CHECK_CONNTRACK_LOCAL_STACK],
+[
+    AT_SKIP_IF([:])
+])
+
+# CHECK_CONNTRACK_NAT()
+#
+# Perform requirements checks for running conntrack NAT tests. The userspace
+# datapath supports NAT.
+#
+m4_define([CHECK_CONNTRACK_NAT])
+
+# CHECK_CT_DPIF_FLUSH_BY_CT_TUPLE()
+#
+# Perform requirements checks for running ovs-dpctl flush-conntrack by
+# conntrack 5-tuple test. The userspace datapath does not support
+# this feature yet.
+m4_define([CHECK_CT_DPIF_FLUSH_BY_CT_TUPLE],
+[
+    AT_SKIP_IF([:])
+])
+
+# CHECK_CT_DPIF_SET_GET_MAXCONNS()
+#
+# Perform requirements checks for running ovs-dpctl ct-set-maxconns or
+# ovs-dpctl ct-get-maxconns. The userspace datapath does support this feature.
+m4_define([CHECK_CT_DPIF_SET_GET_MAXCONNS])
+
+# CHECK_CT_DPIF_GET_NCONNS()
+#
+# Perform requirements checks for running ovs-dpctl ct-get-nconns. The
+# userspace datapath does support this feature.
+m4_define([CHECK_CT_DPIF_GET_NCONNS])
diff --git a/tests/system-afxdp-testsuite.at b/tests/system-afxdp-testsuite.at
new file mode 100644
index 000000000000..538c0d15d556
--- /dev/null
+++ b/tests/system-afxdp-testsuite.at
@@ -0,0 +1,26 @@
+AT_INIT
+
+AT_COPYRIGHT([Copyright (c) 2018 Nicira, Inc.
+
+Licensed under the Apache License, Version 2.0 (the "License");
+you may not use this file except in compliance with the License.
+You may obtain a copy of the License at:
+
+    http://www.apache.org/licenses/LICENSE-2.0
+
+Unless required by applicable law or agreed to in writing, software
+distributed under the License is distributed on an "AS IS" BASIS,
+WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+See the License for the specific language governing permissions and
+limitations under the License.])
+
+m4_ifdef([AT_COLOR_TESTS], [AT_COLOR_TESTS])
+
+m4_include([tests/ovs-macros.at])
+m4_include([tests/ovsdb-macros.at])
+m4_include([tests/ofproto-macros.at])
+m4_include([tests/system-afxdp-macros.at])
+m4_include([tests/system-common-macros.at])
+
+m4_include([tests/system-afxdp-traffic.at])
+m4_include([tests/system-ovn.at])
diff --git a/tests/system-afxdp-traffic.at b/tests/system-afxdp-traffic.at
new file mode 100644
index 000000000000..87f4dd160b51
--- /dev/null
+++ b/tests/system-afxdp-traffic.at
@@ -0,0 +1,1541 @@
+AT_BANNER([AF_XDP netdev datapath-sanity])
+
+AT_SETUP([datapath - ping between two ports])
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - http between two ports])
+OVS_TRAFFIC_VSWITCHD_START()
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_START_L7([at_ns1], [http])
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping between two ports on vlan])
+OVS_TRAFFIC_VSWITCHD_START()
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+ADD_VLAN(p0, at_ns0, 100, "10.2.2.1/24")
+ADD_VLAN(p1, at_ns1, 100, "10.2.2.2/24")
+
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.2.2.2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping6 between two ports])
+OVS_TRAFFIC_VSWITCHD_START()
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "fc00::1/96")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "fc00::2/96")
+
+dnl Linux seems to take a little time to get its IPv6 stack in order. Without
+dnl waiting, we get occasional failures due to the following error:
+dnl "connect: Cannot assign requested address"
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 1 fc00::2])
+
+NS_CHECK_EXEC([at_ns0], [ping6 -q -c 3 -i 0.3 -w 6 fc00::2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping6 between two ports on vlan])
+OVS_TRAFFIC_VSWITCHD_START()
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "fc00::1/96")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "fc00::2/96")
+
+ADD_VLAN(p0, at_ns0, 100, "fc00:1::1/96")
+ADD_VLAN(p1, at_ns1, 100, "fc00:1::2/96")
+
+dnl Linux seems to take a little time to get its IPv6 stack in order. Without
+dnl waiting, we get occasional failures due to the following error:
+dnl "connect: Cannot assign requested address"
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 1 fc00:1::2])
+
+NS_CHECK_EXEC([at_ns0], [ping6 -q -c 3 -i 0.3 -w 2 fc00:1::2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping6 -s 1600 -q -c 3 -i 0.3 -w 2 fc00:1::2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping6 -s 3200 -q -c 3 -i 0.3 -w 2 fc00:1::2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over vxlan tunnel])
+OVS_CHECK_VXLAN()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "172.31.1.1/24")
+AT_CHECK([ip addr add dev br-underlay "172.31.1.100/24"])
+AT_CHECK([ip link set dev br-underlay up])
+
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL([vxlan], [br0], [at_vxlan0], [172.31.1.1], [10.1.1.100/24])
+ADD_NATIVE_TUNNEL([vxlan], [at_vxlan1], [at_ns0], [172.31.1.100], [10.1.1.1/24],
+                  [id 0 dstport 4789])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add 172.31.1.92/24 br-underlay], [0], [OK
+])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 172.31.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 1600 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 3200 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over vxlan6 tunnel])
+OVS_CHECK_VXLAN_UDP6ZEROCSUM()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "fc00::1/64", [], [], "nodad")
+AT_CHECK([ip addr add dev br-underlay "fc00::100/64" nodad])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL6([vxlan], [br0], [at_vxlan0], [fc00::1], [10.1.1.100/24])
+ADD_NATIVE_TUNNEL6([vxlan], [at_vxlan1], [at_ns0], [fc00::100], [10.1.1.1/24],
+                   [id 0 dstport 4789 udp6zerocsumtx udp6zerocsumrx])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add fc00::100/64 br-underlay], [0], [OK
+])
+
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 1 fc00::100])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping6 -q -c 3 -i 0.3 -w 2 fc00::100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 1600 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 3200 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over gre tunnel])
+OVS_CHECK_GRE()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "172.31.1.1/24")
+AT_CHECK([ip addr add dev br-underlay "172.31.1.100/24"])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL([gre], [br0], [at_gre0], [172.31.1.1], [10.1.1.100/24])
+ADD_NATIVE_TUNNEL([gretap], [ns_gre0], [at_ns0], [172.31.1.100], [10.1.1.1/24])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add 172.31.1.92/24 br-underlay], [0], [OK
+])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 172.31.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 1600 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 3200 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over erspan v1 tunnel])
+OVS_CHECK_GRE()
+OVS_CHECK_ERSPAN()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "172.31.1.1/24")
+AT_CHECK([ip addr add dev br-underlay "172.31.1.100/24"])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL([erspan], [br0], [at_erspan0], [172.31.1.1], [10.1.1.100/24], [options:key=1 options:erspan_ver=1 options:erspan_idx=7])
+ADD_NATIVE_TUNNEL([erspan], [ns_erspan0], [at_ns0], [172.31.1.100], [10.1.1.1/24], [seq key 1 erspan_ver 1 erspan 7])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add 172.31.1.92/24 br-underlay], [0], [OK
+])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 172.31.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+dnl NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+NS_CHECK_EXEC([at_ns0], [ping -s 1200 -i 0.3 -c 3 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over erspan v2 tunnel])
+OVS_CHECK_GRE()
+OVS_CHECK_ERSPAN()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "172.31.1.1/24")
+AT_CHECK([ip addr add dev br-underlay "172.31.1.100/24"])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL([erspan], [br0], [at_erspan0], [172.31.1.1], [10.1.1.100/24], [options:key=1 options:erspan_ver=2 options:erspan_dir=1 options:erspan_hwid=0x7])
+ADD_NATIVE_TUNNEL([erspan], [ns_erspan0], [at_ns0], [172.31.1.100], [10.1.1.1/24], [seq key 1 erspan_ver 2 erspan_dir egress erspan_hwid 7])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add 172.31.1.92/24 br-underlay], [0], [OK
+])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 172.31.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+dnl NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+NS_CHECK_EXEC([at_ns0], [ping -s 1200 -i 0.3 -c 3 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over ip6erspan v1 tunnel])
+OVS_CHECK_GRE()
+OVS_CHECK_ERSPAN()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "fc00:100::1/96", [], [], nodad)
+AT_CHECK([ip addr add dev br-underlay "fc00:100::100/96" nodad])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL6([ip6erspan], [br0], [at_erspan0], [fc00:100::1], [10.1.1.100/24],
+                [options:key=123 options:erspan_ver=1 options:erspan_idx=0x7])
+ADD_NATIVE_TUNNEL6([ip6erspan], [ns_erspan0], [at_ns0], [fc00:100::100],
+                   [10.1.1.1/24], [local fc00:100::1 seq key 123 erspan_ver 1 erspan 7])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add fc00:100::1/96 br-underlay], [0], [OK
+])
+
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 2 fc00:100::100])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping6 -q -c 3 -i 0.3 -w 2 fc00:100::100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over ip6erspan v2 tunnel])
+OVS_CHECK_GRE()
+OVS_CHECK_ERSPAN()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "fc00:100::1/96", [], [], nodad)
+AT_CHECK([ip addr add dev br-underlay "fc00:100::100/96" nodad])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL6([ip6erspan], [br0], [at_erspan0], [fc00:100::1], [10.1.1.100/24],
+                [options:key=121 options:erspan_ver=2 options:erspan_dir=0 options:erspan_hwid=0x7])
+ADD_NATIVE_TUNNEL6([ip6erspan], [ns_erspan0], [at_ns0], [fc00:100::100],
+                   [10.1.1.1/24],
+                   [local fc00:100::1 seq key 121 erspan_ver 2 erspan_dir ingress erspan_hwid 0x7])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add fc00:100::1/96 br-underlay], [0], [OK
+])
+
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 2 fc00:100::100])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping6 -q -c 3 -i 0.3 -w 2 fc00:100::100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over geneve tunnel])
+OVS_CHECK_GENEVE()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "172.31.1.1/24")
+AT_CHECK([ip addr add dev br-underlay "172.31.1.100/24"])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL([geneve], [br0], [at_gnv0], [172.31.1.1], [10.1.1.100/24])
+ADD_NATIVE_TUNNEL([geneve], [ns_gnv0], [at_ns0], [172.31.1.100], [10.1.1.1/24],
+                  [vni 0])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add 172.31.1.100/24 br-underlay], [0], [OK
+])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 172.31.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 1600 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 3200 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - ping over geneve6 tunnel])
+OVS_CHECK_GENEVE_UDP6ZEROCSUM()
+
+OVS_TRAFFIC_VSWITCHD_START()
+ADD_BR([br-underlay])
+
+AT_CHECK([ovs-ofctl add-flow br0 "actions=normal"])
+AT_CHECK([ovs-ofctl add-flow br-underlay "actions=normal"])
+
+ADD_NAMESPACES(at_ns0)
+
+dnl Set up underlay link from host into the namespace using veth pair.
+ADD_VETH_AFXDP(p0, at_ns0, br-underlay, "fc00::1/64", [], [], "nodad")
+AT_CHECK([ip addr add dev br-underlay "fc00::100/64" nodad])
+AT_CHECK([ip link set dev br-underlay up])
+
+dnl Set up tunnel endpoints on OVS outside the namespace and with a native
+dnl linux device inside the namespace.
+ADD_OVS_TUNNEL6([geneve], [br0], [at_gnv0], [fc00::1], [10.1.1.100/24])
+ADD_NATIVE_TUNNEL6([geneve], [ns_gnv0], [at_ns0], [fc00::100], [10.1.1.1/24],
+                   [vni 0 udp6zerocsumtx udp6zerocsumrx])
+
+AT_CHECK([ovs-appctl ovs/route/add 10.1.1.100/24 br0], [0], [OK
+])
+AT_CHECK([ovs-appctl ovs/route/add fc00::100/64 br-underlay], [0], [OK
+])
+
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 1 fc00::100])
+
+dnl First, check the underlay
+NS_CHECK_EXEC([at_ns0], [ping6 -q -c 3 -i 0.3 -w 2 fc00::100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+dnl Okay, now check the overlay with different packet sizes
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 1600 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+NS_CHECK_EXEC([at_ns0], [ping -s 3200 -q -c 3 -i 0.3 -w 2 10.1.1.100 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - clone action])
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+AT_CHECK([ovs-vsctl -- set interface ovs-p0 ofport_request=1 \
+                    -- set interface ovs-p1 ofport_request=2])
+
+AT_DATA([flows.txt], [dnl
+priority=1 actions=NORMAL
+priority=10 in_port=1,ip,actions=clone(mod_dl_dst(50:54:00:00:00:0a),set_field:192.168.3.3->ip_dst), output:2
+priority=10 in_port=2,ip,actions=clone(mod_dl_src(ae:c6:7e:54:8d:4d),mod_dl_dst(50:54:00:00:00:0b),set_field:192.168.4.4->ip_dst, controller), output:1
+])
+AT_CHECK([ovs-ofctl add-flows br0 flows.txt])
+
+AT_CHECK([ovs-ofctl monitor br0 65534 invalid_ttl --detach --no-chdir --pidfile 2> ofctl_monitor.log])
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+AT_CHECK([cat ofctl_monitor.log | STRIP_MONITOR_CSUM], [0], [dnl
+icmp,vlan_tci=0x0000,dl_src=ae:c6:7e:54:8d:4d,dl_dst=50:54:00:00:00:0b,nw_src=10.1.1.2,nw_dst=192.168.4.4,nw_tos=0,nw_ecn=0,nw_ttl=64,icmp_type=0,icmp_code=0 icmp_csum: <skip>
+icmp,vlan_tci=0x0000,dl_src=ae:c6:7e:54:8d:4d,dl_dst=50:54:00:00:00:0b,nw_src=10.1.1.2,nw_dst=192.168.4.4,nw_tos=0,nw_ecn=0,nw_ttl=64,icmp_type=0,icmp_code=0 icmp_csum: <skip>
+icmp,vlan_tci=0x0000,dl_src=ae:c6:7e:54:8d:4d,dl_dst=50:54:00:00:00:0b,nw_src=10.1.1.2,nw_dst=192.168.4.4,nw_tos=0,nw_ecn=0,nw_ttl=64,icmp_type=0,icmp_code=0 icmp_csum: <skip>
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - mpls actions])
+OVS_TRAFFIC_VSWITCHD_START([_ADD_BR([br1])])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br1, "10.1.1.2/24")
+
+AT_CHECK([ip link add patch0 type veth peer name patch1])
+on_exit 'ip link del patch0'
+
+AT_CHECK([ip link set dev patch0 up])
+AT_CHECK([ip link set dev patch1 up])
+AT_CHECK([ovs-vsctl add-port br0 patch0])
+AT_CHECK([ovs-vsctl add-port br1 patch1])
+
+AT_DATA([flows.txt], [dnl
+table=0,priority=100,dl_type=0x0800 actions=push_mpls:0x8847,set_mpls_label:3,resubmit(,1)
+table=0,priority=100,dl_type=0x8847,mpls_label=3 actions=pop_mpls:0x0800,resubmit(,1)
+table=0,priority=10 actions=resubmit(,1)
+table=1,priority=10 actions=normal
+])
+
+AT_CHECK([ovs-ofctl add-flows br0 flows.txt])
+AT_CHECK([ovs-ofctl add-flows br1 flows.txt])
+
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+NS_CHECK_EXEC([at_ns1], [ping -q -c 3 -i 0.3 -w 2 10.1.1.1 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([datapath - basic truncate action])
+AT_SKIP_IF([test $HAVE_NC = no])
+OVS_TRAFFIC_VSWITCHD_START()
+AT_CHECK([ovs-ofctl del-flows br0])
+
+dnl Create p0 and ovs-p0(1)
+ADD_NAMESPACES(at_ns0)
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+NS_CHECK_EXEC([at_ns0], [ip link set dev p0 address e6:66:c1:11:11:11])
+NS_CHECK_EXEC([at_ns0], [arp -s 10.1.1.2 e6:66:c1:22:22:22])
+
+dnl Create p1(3) and ovs-p1(2), packets received from ovs-p1 will appear in p1
+AT_CHECK([ip link add p1 type veth peer name ovs-p1])
+on_exit 'ip link del ovs-p1'
+AT_CHECK([ip link set dev ovs-p1 up])
+AT_CHECK([ip link set dev p1 up])
+AT_CHECK([ovs-vsctl add-port br0 ovs-p1 -- set interface ovs-p1 ofport_request=2])
+dnl Use p1 to check the truncated packet
+AT_CHECK([ovs-vsctl add-port br0 p1 -- set interface p1 ofport_request=3])
+
+dnl Create p2(5) and ovs-p2(4)
+AT_CHECK([ip link add p2 type veth peer name ovs-p2])
+on_exit 'ip link del ovs-p2'
+AT_CHECK([ip link set dev ovs-p2 up])
+AT_CHECK([ip link set dev p2 up])
+AT_CHECK([ovs-vsctl add-port br0 ovs-p2 -- set interface ovs-p2 ofport_request=4])
+dnl Use p2 to check the truncated packet
+AT_CHECK([ovs-vsctl add-port br0 p2 -- set interface p2 ofport_request=5])
+
+dnl basic test
+AT_CHECK([ovs-ofctl del-flows br0])
+AT_DATA([flows.txt], [dnl
+in_port=3 dl_dst=e6:66:c1:22:22:22 actions=drop
+in_port=5 dl_dst=e6:66:c1:22:22:22 actions=drop
+in_port=1 dl_dst=e6:66:c1:22:22:22 actions=output(port=2,max_len=100),output:4
+])
+AT_CHECK([ovs-ofctl add-flows br0 flows.txt])
+
+dnl use this file as payload file for ncat
+AT_CHECK([dd if=/dev/urandom of=payload200.bin bs=200 count=1 2> /dev/null])
+on_exit 'rm -f payload200.bin'
+NS_CHECK_EXEC([at_ns0], [nc $NC_EOF_OPT -u 10.1.1.2 1234 < payload200.bin])
+
+dnl packet with truncated size
+AT_CHECK([ovs-appctl revalidator/purge], [0])
+AT_CHECK([ovs-ofctl dump-flows br0 table=0 | grep "in_port=3" |  sed -n 's/.*\(n\_bytes=[[0-9]]*\).*/\1/p'], [0], [dnl
+n_bytes=100
+])
+dnl packet with original size
+AT_CHECK([ovs-appctl revalidator/purge], [0])
+AT_CHECK([ovs-ofctl dump-flows br0 table=0 | grep "in_port=5" | sed -n 's/.*\(n\_bytes=[[0-9]]*\).*/\1/p'], [0], [dnl
+n_bytes=242
+])
+
+dnl more complicated output actions
+AT_CHECK([ovs-ofctl del-flows br0])
+AT_DATA([flows.txt], [dnl
+in_port=3 dl_dst=e6:66:c1:22:22:22 actions=drop
+in_port=5 dl_dst=e6:66:c1:22:22:22 actions=drop
+in_port=1 dl_dst=e6:66:c1:22:22:22 actions=output(port=2,max_len=100),output:4,output(port=2,max_len=100),output(port=4,max_len=100),output:2,output(port=4,max_len=200),output(port=2,max_len=65535)
+])
+AT_CHECK([ovs-ofctl add-flows br0 flows.txt])
+
+NS_CHECK_EXEC([at_ns0], [nc $NC_EOF_OPT -u 10.1.1.2 1234 < payload200.bin])
+
+dnl 100 + 100 + 242 + min(65535,242) = 684
+AT_CHECK([ovs-appctl revalidator/purge], [0])
+AT_CHECK([ovs-ofctl dump-flows br0 table=0 | grep "in_port=3" | sed -n 's/.*\(n\_bytes=[[0-9]]*\).*/\1/p'], [0], [dnl
+n_bytes=684
+])
+dnl 242 + 100 + min(242,200) = 542
+AT_CHECK([ovs-ofctl dump-flows br0 table=0 | grep "in_port=5" | sed -n 's/.*\(n\_bytes=[[0-9]]*\).*/\1/p'], [0], [dnl
+n_bytes=542
+])
+
+dnl SLOW_ACTION: disable kernel datapath truncate support
+dnl Repeat the test above, but exercise the SLOW_ACTION code path
+AT_CHECK([ovs-appctl dpif/set-dp-features br0 trunc false], [0])
+
+dnl SLOW_ACTION test1: check datapatch actions
+AT_CHECK([ovs-ofctl del-flows br0])
+AT_CHECK([ovs-ofctl add-flows br0 flows.txt])
+
+AT_CHECK([ovs-appctl ofproto/trace br0 "in_port=1,dl_type=0x800,dl_src=e6:66:c1:11:11:11,dl_dst=e6:66:c1:22:22:22,nw_src=192.168.0.1,nw_dst=192.168.0.2,nw_proto=6,tp_src=8,tp_dst=9"], [0], [stdout])
+AT_CHECK([tail -3 stdout], [0],
+[Datapath actions: trunc(100),3,5,trunc(100),3,trunc(100),5,3,trunc(200),5,trunc(65535),3
+This flow is handled by the userspace slow path because it:
+  - Uses action(s) not supported by datapath.
+])
+
+dnl SLOW_ACTION test2: check actual packet truncate
+AT_CHECK([ovs-ofctl del-flows br0])
+AT_CHECK([ovs-ofctl add-flows br0 flows.txt])
+NS_CHECK_EXEC([at_ns0], [nc $NC_EOF_OPT -u 10.1.1.2 1234 < payload200.bin])
+
+dnl 100 + 100 + 242 + min(65535,242) = 684
+AT_CHECK([ovs-appctl revalidator/purge], [0])
+AT_CHECK([ovs-ofctl dump-flows br0 table=0 | grep "in_port=3" | sed -n 's/.*\(n\_bytes=[[0-9]]*\).*/\1/p'], [0], [dnl
+n_bytes=684
+])
+
+dnl 242 + 100 + min(242,200) = 542
+AT_CHECK([ovs-ofctl dump-flows br0 table=0 | grep "in_port=5" | sed -n 's/.*\(n\_bytes=[[0-9]]*\).*/\1/p'], [0], [dnl
+n_bytes=542
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+
+AT_BANNER([conntrack])
+
+AT_SETUP([conntrack - controller])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+AT_CHECK([ovs-appctl vlog/set dpif:dbg dpif_netdev:dbg ofproto_dpif_upcall:dbg])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=100,in_port=1,udp,action=ct(commit),controller
+priority=100,in_port=2,ct_state=-trk,udp,action=ct(table=0)
+priority=100,in_port=2,ct_state=+trk+est,udp,action=controller
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+AT_CAPTURE_FILE([ofctl_monitor.log])
+AT_CHECK([ovs-ofctl monitor br0 65534 invalid_ttl --detach --no-chdir --pidfile 2> ofctl_monitor.log])
+
+dnl Send an unsolicited reply from port 2. This should be dropped.
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 2 ct\(table=0\) '50540000000a50540000000908004500001c000000000011a4cd0a0101020a0101010002000100080000'])
+
+dnl OK, now start a new connection from port 1.
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 1 ct\(commit\),controller '50540000000a50540000000908004500001c000000000011a4cd0a0101010a0101020001000200080000'])
+
+dnl Now try a reply from port 2.
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 2 ct\(table=0\) '50540000000a50540000000908004500001c000000000011a4cd0a0101020a0101010002000100080000'])
+
+dnl Check this output. We only see the latter two packets, not the first.
+AT_CHECK([cat ofctl_monitor.log], [0], [dnl
+NXT_PACKET_IN2 (xid=0x0): total_len=42 in_port=1 (via action) data_len=42 (unbuffered)
+udp,vlan_tci=0x0000,dl_src=50:54:00:00:00:09,dl_dst=50:54:00:00:00:0a,nw_src=10.1.1.1,nw_dst=10.1.1.2,nw_tos=0,nw_ecn=0,nw_ttl=0,tp_src=1,tp_dst=2 udp_csum:0
+NXT_PACKET_IN2 (xid=0x0): cookie=0x0 total_len=42 ct_state=est|rpl|trk,ct_nw_src=10.1.1.1,ct_nw_dst=10.1.1.2,ct_nw_proto=17,ct_tp_src=1,ct_tp_dst=2,ip,in_port=2 (via action) data_len=42 (unbuffered)
+udp,vlan_tci=0x0000,dl_src=50:54:00:00:00:09,dl_dst=50:54:00:00:00:0a,nw_src=10.1.1.2,nw_dst=10.1.1.1,nw_tos=0,nw_ecn=0,nw_ttl=0,tp_src=2,tp_dst=1 udp_csum:0
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - force commit])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+AT_CHECK([ovs-appctl vlog/set dpif:dbg dpif_netdev:dbg ofproto_dpif_upcall:dbg])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=100,in_port=1,udp,action=ct(force,commit),controller
+priority=100,in_port=2,ct_state=-trk,udp,action=ct(table=0)
+priority=100,in_port=2,ct_state=+trk+est,udp,action=ct(force,commit,table=1)
+table=1,in_port=2,ct_state=+trk,udp,action=controller
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+AT_CAPTURE_FILE([ofctl_monitor.log])
+AT_CHECK([ovs-ofctl monitor br0 65534 invalid_ttl --detach --no-chdir --pidfile 2> ofctl_monitor.log])
+
+dnl Send an unsolicited reply from port 2. This should be dropped.
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 "in_port=2 packet=50540000000a50540000000908004500001c000000000011a4cd0a0101020a0101010002000100080000 actions=resubmit(,0)"])
+
+dnl OK, now start a new connection from port 1.
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 "in_port=1 packet=50540000000a50540000000908004500001c000000000011a4cd0a0101010a0101020001000200080000 actions=resubmit(,0)"])
+
+dnl Now try a reply from port 2.
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 "in_port=2 packet=50540000000a50540000000908004500001c000000000011a4cd0a0101020a0101010002000100080000 actions=resubmit(,0)"])
+
+AT_CHECK([ovs-appctl revalidator/purge], [0])
+
+dnl Check this output. We only see the latter two packets, not the first.
+AT_CHECK([cat ofctl_monitor.log], [0], [dnl
+NXT_PACKET_IN2 (xid=0x0): cookie=0x0 total_len=42 in_port=1 (via action) data_len=42 (unbuffered)
+udp,vlan_tci=0x0000,dl_src=50:54:00:00:00:09,dl_dst=50:54:00:00:00:0a,nw_src=10.1.1.1,nw_dst=10.1.1.2,nw_tos=0,nw_ecn=0,nw_ttl=0,tp_src=1,tp_dst=2 udp_csum:0
+NXT_PACKET_IN2 (xid=0x0): table_id=1 cookie=0x0 total_len=42 ct_state=new|trk,ct_nw_src=10.1.1.2,ct_nw_dst=10.1.1.1,ct_nw_proto=17,ct_tp_src=2,ct_tp_dst=1,ip,in_port=2 (via action) data_len=42 (unbuffered)
+udp,vlan_tci=0x0000,dl_src=50:54:00:00:00:09,dl_dst=50:54:00:00:00:0a,nw_src=10.1.1.2,nw_dst=10.1.1.1,nw_tos=0,nw_ecn=0,nw_ttl=0,tp_src=2,tp_dst=1 udp_csum:0
+])
+
+dnl
+dnl Check that the directionality has been changed by force commit.
+dnl
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | grep "orig=.src=10\.1\.1\.2,"], [], [dnl
+udp,orig=(src=10.1.1.2,dst=10.1.1.1,sport=2,dport=1),reply=(src=10.1.1.1,dst=10.1.1.2,sport=1,dport=2)
+])
+
+dnl OK, now send another packet from port 1 and see that it switches again
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 "in_port=1 packet=50540000000a50540000000908004500001c000000000011a4cd0a0101010a0101020001000200080000 actions=resubmit(,0)"])
+AT_CHECK([ovs-appctl revalidator/purge], [0])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | grep "orig=.src=10\.1\.1\.1,"], [], [dnl
+udp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=1,dport=2),reply=(src=10.1.1.2,dst=10.1.1.1,sport=2,dport=1)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - ct flush by 5-tuple])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=100,in_port=1,udp,action=ct(commit),2
+priority=100,in_port=2,udp,action=ct(zone=5,commit),1
+priority=100,in_port=1,icmp,action=ct(commit),2
+priority=100,in_port=2,icmp,action=ct(zone=5,commit),1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+dnl Test UDP from port 1
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 "in_port=1 packet=50540000000a50540000000908004500001c000000000011a4cd0a0101010a0101020001000200080000 actions=resubmit(,0)"])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | grep "orig=.src=10\.1\.1\.1,"], [], [dnl
+udp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=1,dport=2),reply=(src=10.1.1.2,dst=10.1.1.1,sport=2,dport=1)
+])
+
+AT_CHECK([ovs-appctl dpctl/flush-conntrack 'ct_nw_src=10.1.1.2,ct_nw_dst=10.1.1.1,ct_nw_proto=17,ct_tp_src=2,ct_tp_dst=1'])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | grep "orig=.src=10\.1\.1\.1,"], [1], [dnl
+])
+
+dnl Test UDP from port 2
+AT_CHECK([ovs-ofctl -O OpenFlow13 packet-out br0 "in_port=2 packet=50540000000a50540000000908004500001c000000000011a4cd0a0101020a0101010002000100080000 actions=resubmit(,0)"])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | grep "orig=.src=10\.1\.1\.2,"], [0], [dnl
+udp,orig=(src=10.1.1.2,dst=10.1.1.1,sport=2,dport=1),reply=(src=10.1.1.1,dst=10.1.1.2,sport=1,dport=2),zone=5
+])
+
+AT_CHECK([ovs-appctl dpctl/flush-conntrack zone=5 'ct_nw_src=10.1.1.1,ct_nw_dst=10.1.1.2,ct_nw_proto=17,ct_tp_src=1,ct_tp_dst=2'])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+])
+
+dnl Test ICMP traffic
+NS_CHECK_EXEC([at_ns1], [ping -q -c 3 -i 0.3 -w 2 10.1.1.1 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | grep "orig=.src=10\.1\.1\.2,"], [0], [stdout])
+AT_CHECK([cat stdout | FORMAT_CT(10.1.1.1)], [0],[dnl
+icmp,orig=(src=10.1.1.2,dst=10.1.1.1,id=<cleared>,type=8,code=0),reply=(src=10.1.1.1,dst=10.1.1.2,id=<cleared>,type=0,code=0),zone=5
+])
+
+ICMP_ID=`cat stdout | cut -d ',' -f4 | cut -d '=' -f2`
+ICMP_TUPLE=ct_nw_src=10.1.1.2,ct_nw_dst=10.1.1.1,ct_nw_proto=1,icmp_id=$ICMP_ID,icmp_type=8,icmp_code=0
+AT_CHECK([ovs-appctl dpctl/flush-conntrack zone=5 $ICMP_TUPLE])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | grep "orig=.src=10\.1\.1\.2,"], [1], [dnl
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - IPv4 ping])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=100,in_port=1,icmp,action=ct(commit),2
+priority=100,in_port=2,icmp,ct_state=-trk,action=ct(table=0)
+priority=100,in_port=2,icmp,ct_state=+trk+est,action=1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+dnl Pings from ns0->ns1 should work fine.
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+icmp,orig=(src=10.1.1.1,dst=10.1.1.2,id=<cleared>,type=8,code=0),reply=(src=10.1.1.2,dst=10.1.1.1,id=<cleared>,type=0,code=0)
+])
+
+AT_CHECK([ovs-appctl dpctl/flush-conntrack])
+
+dnl Pings from ns1->ns0 should fail.
+NS_CHECK_EXEC([at_ns1], [ping -q -c 3 -i 0.3 -w 2 10.1.1.1 | FORMAT_PING], [0], [dnl
+7 packets transmitted, 0 received, 100% packet loss, time 0ms
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - get_nconns and get/set_maxconns])
+CHECK_CONNTRACK()
+CHECK_CT_DPIF_SET_GET_MAXCONNS()
+CHECK_CT_DPIF_GET_NCONNS()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=100,in_port=1,icmp,action=ct(commit),2
+priority=100,in_port=2,icmp,ct_state=-trk,action=ct(table=0)
+priority=100,in_port=2,icmp,ct_state=+trk+est,action=1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+dnl Pings from ns0->ns1 should work fine.
+NS_CHECK_EXEC([at_ns0], [ping -q -c 3 -i 0.3 -w 2 10.1.1.2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+icmp,orig=(src=10.1.1.1,dst=10.1.1.2,id=<cleared>,type=8,code=0),reply=(src=10.1.1.2,dst=10.1.1.1,id=<cleared>,type=0,code=0)
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-set-maxconns one-bad-dp], [2], [], [dnl
+ovs-vswitchd: maxconns missing or malformed (Invalid argument)
+ovs-appctl: ovs-vswitchd: server returned an error
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-set-maxconns a], [2], [], [dnl
+ovs-vswitchd: maxconns missing or malformed (Invalid argument)
+ovs-appctl: ovs-vswitchd: server returned an error
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-set-maxconns one-bad-dp 10], [2], [], [dnl
+ovs-vswitchd: datapath not found (Invalid argument)
+ovs-appctl: ovs-vswitchd: server returned an error
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-get-maxconns one-bad-dp], [2], [], [dnl
+ovs-vswitchd: datapath not found (Invalid argument)
+ovs-appctl: ovs-vswitchd: server returned an error
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-get-nconns one-bad-dp], [2], [], [dnl
+ovs-vswitchd: datapath not found (Invalid argument)
+ovs-appctl: ovs-vswitchd: server returned an error
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-get-nconns], [], [dnl
+1
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-get-maxconns], [], [dnl
+3000000
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-set-maxconns 10], [], [dnl
+setting maxconns successful
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-get-maxconns], [], [dnl
+10
+])
+
+AT_CHECK([ovs-appctl dpctl/flush-conntrack])
+
+AT_CHECK([ovs-appctl dpctl/ct-get-nconns], [], [dnl
+0
+])
+
+AT_CHECK([ovs-appctl dpctl/ct-get-maxconns], [], [dnl
+10
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - IPv6 ping])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "fc00::1/96")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "fc00::2/96")
+
+AT_DATA([flows.txt], [dnl
+
+dnl ICMPv6 echo request and reply go to table 1.  The rest of the traffic goes
+dnl through normal action.
+table=0,priority=10,icmp6,icmp_type=128,action=goto_table:1
+table=0,priority=10,icmp6,icmp_type=129,action=goto_table:1
+table=0,priority=1,action=normal
+
+dnl Allow everything from ns0->ns1. Only allow return traffic from ns1->ns0.
+table=1,priority=100,in_port=1,icmp6,action=ct(commit),2
+table=1,priority=100,in_port=2,icmp6,ct_state=-trk,action=ct(table=0)
+table=1,priority=100,in_port=2,icmp6,ct_state=+trk+est,action=1
+table=1,priority=1,action=drop
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 1 fc00::2])
+
+dnl The above ping creates state in the connection tracker.  We're not
+dnl interested in that state.
+AT_CHECK([ovs-appctl dpctl/flush-conntrack])
+
+dnl Pings from ns1->ns0 should fail.
+NS_CHECK_EXEC([at_ns1], [ping6 -q -c 3 -i 0.3 -w 2 fc00::1 | FORMAT_PING], [0], [dnl
+7 packets transmitted, 0 received, 100% packet loss, time 0ms
+])
+
+dnl Pings from ns0->ns1 should work fine.
+NS_CHECK_EXEC([at_ns0], [ping6 -q -c 3 -i 0.3 -w 2 fc00::2 | FORMAT_PING], [0], [dnl
+3 packets transmitted, 3 received, 0% packet loss, time 0ms
+])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(fc00::2)], [0], [dnl
+icmpv6,orig=(src=fc00::1,dst=fc00::2,id=<cleared>,type=128,code=0),reply=(src=fc00::2,dst=fc00::1,id=<cleared>,type=129,code=0)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - preserve registers])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2, at_ns3)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+ADD_VETH_AFXDP(p2, at_ns2, br0, "10.1.1.3/24")
+ADD_VETH_AFXDP(p3, at_ns3, br0, "10.1.1.4/24")
+
+dnl Allow any traffic from ns0->ns1, ns2->ns3.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,ct_state=-trk,action=ct(commit,table=0)
+priority=100,in_port=1,tcp,ct_state=+trk,action=2
+priority=100,in_port=2,tcp,ct_state=-trk,action=ct(table=0)
+priority=100,in_port=2,tcp,ct_state=+trk,action=1
+priority=100,in_port=3,tcp,ct_state=-trk,action=load:0->NXM_NX_REG0[[]],ct(table=0)
+priority=100,in_port=3,tcp,ct_state=+trk,reg0=0,action=load:1->NXM_NX_REG0[[]],ct(commit,table=0)
+priority=100,in_port=3,tcp,ct_state=+trk,reg0=1,action=4
+priority=100,in_port=4,tcp,ct_state=-trk,action=ct(commit,table=0)
+priority=100,in_port=4,tcp,ct_state=+trk,action=3
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+OVS_START_L7([at_ns3], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+dnl HTTP requests from p2->p3 should work fine.
+NS_CHECK_EXEC([at_ns2], [wget 10.1.1.4 -t 3 -T 1 --retry-connrefused -v -o wget1.log])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - invalid])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2, at_ns3)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+ADD_VETH_AFXDP(p2, at_ns2, br0, "10.1.1.3/24")
+ADD_VETH_AFXDP(p3, at_ns3, br0, "10.1.1.4/24")
+
+dnl Pass traffic from ns0->ns1 without committing, but attempt to track in
+dnl the opposite direction. This should fail.
+dnl Pass traffic from ns3->ns4 without committing, and this time match
+dnl invalid traffic and allow it through.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,action=ct(),2
+priority=100,in_port=2,ct_state=-trk,tcp,action=ct(table=0)
+priority=100,in_port=2,ct_state=+trk+new,tcp,action=1
+priority=100,in_port=3,tcp,action=ct(),4
+priority=100,in_port=4,ct_state=-trk,tcp,action=ct(table=0)
+priority=100,in_port=4,ct_state=+trk+inv,tcp,action=3
+priority=100,in_port=4,ct_state=+trk+new,tcp,action=3
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+dnl We set up our rules to allow the request without committing. The return
+dnl traffic can't be identified, because the initial request wasn't committed.
+dnl For the first pair of ports, this means that the connection fails.
+OVS_START_L7([at_ns1], [http])
+OVS_START_L7([at_ns3], [http])
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log], [4])
+
+dnl For the second pair, we allow packets from invalid connections, so it works.
+NS_CHECK_EXEC([at_ns2], [wget 10.1.1.4 -t 3 -T 1 --retry-connrefused -v -o wget1.log])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - zones])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2, at_ns3)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+ADD_VETH_AFXDP(p2, at_ns2, br0, "10.1.1.3/24")
+ADD_VETH_AFXDP(p3, at_ns3, br0, "10.1.1.4/24")
+
+dnl Allow any traffic from ns0->ns1. Allow return traffic, matching on zone.
+dnl For ns2->ns3, use a different zone and see that the match fails.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,action=ct(commit,zone=1),2
+priority=100,in_port=2,ct_state=-trk,tcp,action=ct(table=0,zone=1)
+priority=100,in_port=2,ct_state=+trk,ct_zone=1,tcp,action=1
+priority=100,in_port=3,tcp,action=ct(commit,zone=2),4
+priority=100,in_port=4,ct_state=-trk,tcp,action=ct(table=0,zone=2)
+priority=100,in_port=4,ct_state=+trk,ct_zone=1,tcp,action=3
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+OVS_START_L7([at_ns3], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),zone=1,protoinfo=(state=<cleared>)
+])
+
+dnl HTTP requests from p2->p3 should fail due to network failure.
+dnl Try 3 times, in 1 second intervals.
+NS_CHECK_EXEC([at_ns2], [wget 10.1.1.4 -t 3 -T 1 -v -o wget1.log], [4])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.4)], [0], [dnl
+tcp,orig=(src=10.1.1.3,dst=10.1.1.4,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.4,dst=10.1.1.3,sport=<cleared>,dport=<cleared>),zone=2,protoinfo=(state=<cleared>)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - zones from field])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2, at_ns3)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+ADD_VETH_AFXDP(p2, at_ns2, br0, "10.1.1.3/24")
+ADD_VETH_AFXDP(p3, at_ns3, br0, "10.1.1.4/24")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,action=load:0x1001->NXM_NX_REG0[[0..15]],ct(commit,zone=NXM_NX_REG0[[0..15]]),2
+priority=100,in_port=2,ct_state=-trk,tcp,action=load:0x1001->NXM_NX_REG0[[0..15]],ct(table=0,zone=NXM_NX_REG0[[0..15]])
+priority=100,in_port=2,ct_state=+trk,ct_zone=0x1001,tcp,action=1
+priority=100,in_port=3,tcp,action=load:0x1002->NXM_NX_REG0[[0..15]],ct(commit,zone=NXM_NX_REG0[[0..15]]),4
+priority=100,in_port=4,ct_state=-trk,tcp,action=load:0x1002->NXM_NX_REG0[[0..15]],ct(table=0,zone=NXM_NX_REG0[[0..15]])
+priority=100,in_port=4,ct_state=+trk,ct_zone=0x1001,tcp,action=3
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+OVS_START_L7([at_ns3], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),zone=4097,protoinfo=(state=<cleared>)
+])
+
+dnl HTTP requests from p2->p3 should fail due to network failure.
+dnl Try 3 times, in 1 second intervals.
+NS_CHECK_EXEC([at_ns2], [wget 10.1.1.4 -t 3 -T 1 -v -o wget1.log], [4])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.4)], [0], [dnl
+tcp,orig=(src=10.1.1.3,dst=10.1.1.4,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.4,dst=10.1.1.3,sport=<cleared>,dport=<cleared>),zone=4098,protoinfo=(state=<cleared>)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - multiple bridges])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START(
+   [_ADD_BR([br1]) --\
+    add-port br0 patch+ -- set int patch+ type=patch options:peer=patch- --\
+    add-port br1 patch- -- set int patch- type=patch options:peer=patch+ --])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br1, "10.1.1.2/24")
+
+dnl Allow any traffic from ns0->br1, allow established in reverse.
+AT_DATA([flows-br0.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=2,tcp,ct_state=-trk,action=ct(commit,zone=1),1
+priority=100,in_port=1,tcp,ct_state=-trk,action=ct(table=0,zone=1)
+priority=100,in_port=1,tcp,ct_state=+trk+est,ct_zone=1,action=2
+])
+
+dnl Allow any traffic from br0->ns1, allow established in reverse.
+AT_DATA([flows-br1.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,ct_state=-trk,action=ct(table=0,zone=2)
+priority=100,in_port=1,tcp,ct_state=+trk+new,ct_zone=2,action=ct(commit,zone=2),2
+priority=100,in_port=1,tcp,ct_state=+trk+est,ct_zone=2,action=2
+priority=100,in_port=2,tcp,ct_state=-trk,action=ct(table=0,zone=2)
+priority=100,in_port=2,tcp,ct_state=+trk+est,ct_zone=2,action=ct(commit,zone=2),1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows-br0.txt])
+AT_CHECK([ovs-ofctl --bundle add-flows br1 flows-br1.txt])
+
+dnl HTTP requests from p0->p1 should work fine.
+OVS_START_L7([at_ns1], [http])
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - multiple zones])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,action=ct(commit,zone=1),ct(commit,zone=2),2
+priority=100,in_port=2,ct_state=-trk,tcp,action=ct(table=0,zone=2)
+priority=100,in_port=2,ct_state=+trk,ct_zone=2,tcp,action=1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+dnl (again) HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),zone=1,protoinfo=(state=<cleared>)
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),zone=2,protoinfo=(state=<cleared>)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - multiple namespaces, internal ports])
+CHECK_CONNTRACK()
+CHECK_CONNTRACK_LOCAL_STACK()
+OVS_TRAFFIC_VSWITCHD_START(
+   [set-fail-mode br0 secure -- ])
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_INT(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_INT(p1, at_ns1, br0, "10.1.1.2/24")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+dnl
+dnl If skb->nfct is leaking from inside the namespace, this test will fail.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,ct_state=-trk,action=ct(commit,zone=1),2
+priority=100,in_port=2,ct_state=-trk,tcp,action=ct(table=0,zone=1)
+priority=100,in_port=2,ct_state=+trk,ct_zone=1,tcp,action=1
+])
+
+AT_CHECK([ovs-ofctl add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+dnl (again) HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),zone=1,protoinfo=(state=<cleared>)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP(["dnl
+/ioctl(SIOCGIFINDEX) on .* device failed: No such device/d
+/removing policing failed: No such device/d"])
+AT_CLEANUP
+
+AT_SETUP([conntrack - ct_mark])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2, at_ns3)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+ADD_VETH_AFXDP(p2, at_ns2, br0, "10.1.1.3/24")
+ADD_VETH_AFXDP(p3, at_ns3, br0, "10.1.1.4/24")
+
+dnl Allow traffic between ns0<->ns1 using the ct_mark.
+dnl Check that different marks do not match for traffic between ns2<->ns3.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,action=ct(commit,exec(set_field:1->ct_mark)),2
+priority=100,in_port=2,ct_state=-trk,tcp,action=ct(table=0)
+priority=100,in_port=2,ct_state=+trk,ct_mark=1,tcp,action=1
+priority=100,in_port=3,tcp,action=ct(commit,exec(set_field:2->ct_mark)),4
+priority=100,in_port=4,ct_state=-trk,tcp,action=ct(table=0)
+priority=100,in_port=4,ct_state=+trk,ct_mark=1,tcp,action=3
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+OVS_START_L7([at_ns3], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),mark=1,protoinfo=(state=<cleared>)
+])
+
+dnl HTTP requests from p2->p3 should fail due to network failure.
+dnl Try 3 times, in 1 second intervals.
+NS_CHECK_EXEC([at_ns2], [wget 10.1.1.4 -t 3 -T 1 -v -o wget1.log], [4])
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.4)], [0], [dnl
+tcp,orig=(src=10.1.1.3,dst=10.1.1.4,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.4,dst=10.1.1.3,sport=<cleared>,dport=<cleared>),mark=2,protoinfo=(state=<cleared>)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - ct_mark bit-fiddling])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2, at_ns3)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+dnl Allow traffic between ns0<->ns1 using the ct_mark. Return traffic should
+dnl cause an additional bit to be set in the connection (and be allowed).
+AT_DATA([flows.txt], [dnl
+table=0,priority=1,action=drop
+table=0,priority=10,arp,action=normal
+table=0,priority=10,icmp,action=normal
+table=0,priority=100,in_port=1,tcp,action=ct(table=1)
+table=0,priority=100,in_port=2,ct_state=-trk,tcp,action=ct(table=1,commit,exec(set_field:0x2/0x6->ct_mark))
+table=1,in_port=1,ct_state=+new,tcp,action=ct(commit,exec(set_field:0x5/0x5->ct_mark)),2
+table=1,in_port=1,ct_state=-new,tcp,action=2
+table=1,in_port=2,ct_state=+trk,ct_mark=3,tcp,action=1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),mark=3,protoinfo=(state=<cleared>)
+])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_BANNER([conntrack - L7])
+
+AT_SETUP([conntrack - IPv4 HTTP])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,action=ct(commit),2
+priority=100,in_port=2,ct_state=-trk,tcp,action=ct(table=0)
+priority=100,in_port=2,ct_state=+trk+est,tcp,action=1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns0], [http])
+OVS_START_L7([at_ns1], [http])
+
+dnl HTTP requests from ns0->ns1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(10.1.1.2)], [0], [dnl
+tcp,orig=(src=10.1.1.1,dst=10.1.1.2,sport=<cleared>,dport=<cleared>),reply=(src=10.1.1.2,dst=10.1.1.1,sport=<cleared>,dport=<cleared>),protoinfo=(state=<cleared>)
+])
+
+dnl HTTP requests from ns1->ns0 should fail due to network failure.
+dnl Try 3 times, in 1 second intervals.
+NS_CHECK_EXEC([at_ns1], [wget 10.1.1.1 -t 3 -T 1 --retry-connrefused -v -o wget1.log], [4])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - IPv6 HTTP])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "fc00::1/96")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "fc00::2/96")
+
+dnl Allow any traffic from ns0->ns1. Only allow nd, return traffic from ns1->ns0.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,icmp6,action=normal
+priority=100,in_port=1,tcp6,action=ct(commit),2
+priority=100,in_port=2,ct_state=-trk,tcp6,action=ct(table=0)
+priority=100,in_port=2,ct_state=+trk+est,tcp6,action=1
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+dnl Linux seems to take a little time to get its IPv6 stack in order. Without
+dnl waiting, we get occasional failures due to the following error:
+dnl "connect: Cannot assign requested address"
+OVS_WAIT_UNTIL([ip netns exec at_ns0 ping6 -c 1 fc00::2])
+
+OVS_START_L7([at_ns0], [http6])
+OVS_START_L7([at_ns1], [http6])
+
+dnl HTTP requests from ns0->ns1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget http://[[fc00::2]] -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+AT_CHECK([ovs-appctl dpctl/dump-conntrack | FORMAT_CT(fc00::2)], [0], [dnl
+tcp,orig=(src=fc00::1,dst=fc00::2,sport=<cleared>,dport=<cleared>),reply=(src=fc00::2,dst=fc00::1,sport=<cleared>,dport=<cleared>),protoinfo=(state=<cleared>)
+])
+
+dnl HTTP requests from ns1->ns0 should fail due to network failure.
+dnl Try 3 times, in 1 second intervals.
+NS_CHECK_EXEC([at_ns1], [wget http://[[fc00::1]] -t 3 -T 1 --retry-connrefused -v -o wget1.log], [4])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+AT_SETUP([conntrack - commit, recirc])
+CHECK_CONNTRACK()
+OVS_TRAFFIC_VSWITCHD_START()
+
+ADD_NAMESPACES(at_ns0, at_ns1, at_ns2, at_ns3)
+
+ADD_VETH_AFXDP(p0, at_ns0, br0, "10.1.1.1/24")
+ADD_VETH_AFXDP(p1, at_ns1, br0, "10.1.1.2/24")
+ADD_VETH_AFXDP(p2, at_ns2, br0, "10.1.1.3/24")
+ADD_VETH_AFXDP(p3, at_ns3, br0, "10.1.1.4/24")
+
+dnl Allow any traffic from ns0->ns1, ns2->ns3.
+AT_DATA([flows.txt], [dnl
+priority=1,action=drop
+priority=10,arp,action=normal
+priority=10,icmp,action=normal
+priority=100,in_port=1,tcp,ct_state=-trk,action=ct(commit,table=0)
+priority=100,in_port=1,tcp,ct_state=+trk,action=2
+priority=100,in_port=2,tcp,ct_state=-trk,action=ct(table=0)
+priority=100,in_port=2,tcp,ct_state=+trk,action=1
+priority=100,in_port=3,tcp,ct_state=-trk,action=set_field:0->metadata,ct(table=0)
+priority=100,in_port=3,tcp,ct_state=+trk,metadata=0,action=set_field:1->metadata,ct(commit,table=0)
+priority=100,in_port=3,tcp,ct_state=+trk,metadata=1,action=4
+priority=100,in_port=4,tcp,ct_state=-trk,action=ct(commit,table=0)
+priority=100,in_port=4,tcp,ct_state=+trk,action=3
+])
+
+AT_CHECK([ovs-ofctl --bundle add-flows br0 flows.txt])
+
+OVS_START_L7([at_ns1], [http])
+OVS_START_L7([at_ns3], [http])
+
+dnl HTTP requests from p0->p1 should work fine.
+NS_CHECK_EXEC([at_ns0], [wget 10.1.1.2 -t 3 -T 1 --retry-connrefused -v -o wget0.log])
+
+dnl HTTP requests from p2->p3 should work fine.
+NS_CHECK_EXEC([at_ns2], [wget 10.1.1.4 -t 3 -T 1 --retry-connrefused -v -o wget1.log])
+
+OVS_TRAFFIC_VSWITCHD_STOP
+AT_CLEANUP
+
+
-- 
2.7.4

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