diff options
| author |   Vratko Polak <vrpolak@cisco.com> | 2018-07-09 15:14:36 +0200 |
|---|---|---|
| committer |   Peter Mikus <pmikus@cisco.com> | 2018-07-10 11:23:31 +0000 |
| commit | 61ef529d33efd51acd1b1986c325d25a9d7ba705 (patch) | |
| tree | cbb5ab397295053934160102dc62aea4d53da939 /docs | |
| parent | 173a910c5f56106cd5aaa620ae0f9cfb94fcfac3 (diff) | |
Remove THIS tag and use unix endlines
The THIS tag has sneaked in 10Ge2P1X520-Eth-L2Xcbase-Eth-1Memif-1Dcr-Mrr
but usually it is only to be used in draft testing.
Not sure about the way non-unix endlines crept in.
Is not git supposed to perform endline conversions on text files?
Or are .robot, .rst, .yaml and .vat not recognized as text?
Change-Id: Ia78cf942c05c3029c340a8639782786f37e57469
Signed-off-by: Vratko Polak <vrpolak@cisco.com>
Diffstat (limited to 'docs')
18 files changed, 2638 insertions, 2638 deletions
diff --git a/docs/report/detailed_test_results/vpp_unittest_results/index.rst b/docs/report/detailed_test_results/vpp_unittest_results/index.rst index f77153d6b9..5659d5e1ab 100644 --- a/docs/report/detailed_test_results/vpp_unittest_results/index.rst +++ b/docs/report/detailed_test_results/vpp_unittest_results/index.rst @@ -1,7 +1,7 @@ -VPP Unit Test Results
-=====================
-
-.. toctree::
-
- vpp_unittest_results
-
+VPP Unit Test Results +===================== + +.. toctree:: + + vpp_unittest_results + diff --git a/docs/report/detailed_test_results/vpp_unittest_results/vpp_unittest_results.rst b/docs/report/detailed_test_results/vpp_unittest_results/vpp_unittest_results.rst index 3e1fd5ac57..ba35f2b831 100644 --- a/docs/report/detailed_test_results/vpp_unittest_results/vpp_unittest_results.rst +++ b/docs/report/detailed_test_results/vpp_unittest_results/vpp_unittest_results.rst @@ -1,1178 +1,1178 @@ -ACL Security Groups
-```````````````````
-::
-
- ==============================================================================
- ACL plugin Test Case
- ==============================================================================
- ACL plugin version check; learn MACs OK
- ACL create/delete test OK
- permit ACL apply test OK
- deny ACL apply test OK
- VPP_624 permit ICMPv4 OK
- VPP_624 permit ICMPv6 OK
- VPP_624 deny ICMPv4 OK
- VPP_624 deny ICMPv6 OK
- permit TCPv4 OK
- permit TCPv6 OK
- permit UDPv4 OK
- permit UDPv6 OK
- deny TCPv4/v6 OK
- deny UDPv4/v6 OK
- verify add/dump acls OK
- permit single TCPv4 OK
- permit single UDPv4 OK
- permit single TCPv6 OK
- permit single UPPv6 OK
- deny single TCPv4/v6 OK
- deny single UDPv4/v6 OK
- deny single UDPv4/v6, permit ip any, verify non-initial fragment blocked OK
- VPP-687 zero length udp ipv4 packet OK
- VPP-687 zero length udp ipv6 packet OK
- permit TCPv4 + non-match range OK
- permit TCPv6 + non-match range OK
- permit UDPv4 + non-match range OK
- permit UDPv6 + non-match range OK
- deny TCPv4/v6 + non-match range OK
- deny UDPv4/v6 + non-match range OK
-
- ==============================================================================
- IRB Test Case
- ==============================================================================
- ACL plugin prepare OK
- ACL IPv6 routed -> bridged, L2 ACL deny OK
- ACL IPv6 routed -> bridged, L3 ACL deny OK
- ACL IPv4 routed -> bridged, L2 ACL deny OK
- ACL IPv4 routed -> bridged, L3 ACL deny OK
- ACL IPv6 bridged -> routed, L2 ACL deny OK
- ACL IPv6 bridged -> routed, L3 ACL deny OK
- ACL IPv4 bridged -> routed, L2 ACL deny OK
- ACL IPv4 bridged -> routed, L3 ACL deny OK
- ACL IPv6 routed -> bridged, L2 ACL permit+reflect OK
- ACL IPv6 bridged -> routed, L2 ACL permit+reflect OK
- ACL IPv4 routed -> bridged, L2 ACL permit+reflect OK
- ACL IPv4 bridged -> routed, L2 ACL permit+reflect OK
- ACL IPv6 routed -> bridged, L3 ACL permit+reflect OK
- ACL IPv6 bridged -> routed, L3 ACL permit+reflect OK
- ACL IPv4 routed -> bridged, L3 ACL permit+reflect OK
- ACL IPv4 bridged -> routed, L3 ACL permit+reflect OK
- ACL IPv6+EH routed -> bridged, L2 ACL deny OK
- ACL IPv6+EH routed -> bridged, L3 ACL deny OK
- ACL IPv6+EH bridged -> routed, L2 ACL deny OK
- ACL IPv6+EH bridged -> routed, L3 ACL deny OK
- ACL IPv6+EH routed -> bridged, L2 ACL permit+reflect OK
- ACL IPv6+EH bridged -> routed, L2 ACL permit+reflect OK
- ACL IPv6+EH routed -> bridged, L3 ACL permit+reflect OK
- ACL IPv6+EH bridged -> routed, L3 ACL permit+reflect OK
- ACL IPv4+MF routed -> bridged, L2 ACL deny OK
- ACL IPv4+MF routed -> bridged, L3 ACL deny OK
- ACL IPv4+MF bridged -> routed, L2 ACL deny OK
- ACL IPv4+MF bridged -> routed, L3 ACL deny OK
- ACL IPv4+MF routed -> bridged, L2 ACL permit+reflect OK
- ACL IPv4+MF bridged -> routed, L2 ACL permit+reflect OK
- ACL IPv4+MF routed -> bridged, L3 ACL permit+reflect OK
- ACL IPv4+MF bridged -> routed, L3 ACL permit+reflect OK
-
- ==============================================================================
- ACL plugin connection-oriented extended testcases
- ==============================================================================
- Prepare the settings SKIP
- IPv4: Basic conn timeout test reflect on ingress SKIP
- IPv4: Basic conn timeout test reflect on egress SKIP
- IPv4: reflect egress, clear conn SKIP
- IPv4: reflect ingress, clear conn SKIP
- IPv4: Idle conn behind active conn, reflect on ingress SKIP
- IPv4: Idle conn behind active conn, reflect on egress SKIP
- IPv6: Basic conn timeout test reflect on ingress SKIP
- IPv6: Basic conn timeout test reflect on egress SKIP
- IPv6: reflect egress, clear conn SKIP
- IPv6: reflect ingress, clear conn SKIP
- IPv6: Idle conn behind active conn, reflect on ingress SKIP
- IPv6: Idle conn behind active conn, reflect on egress SKIP
- Prepare for TCP session tests SKIP
- IPv4: transient TCP session (incomplete 3WHS), ref. on ingress SKIP
- IPv4: transient TCP session (incomplete 3WHS), ref. on egress SKIP
- IPv4: established TCP session (complete 3WHS), ref. on ingress SKIP
- IPv4: established TCP session (complete 3WHS), ref. on egress SKIP
- IPv4: transient TCP session (3WHS,ACK,FINACK), ref. on ingress SKIP
- IPv4: transient TCP session (3WHS,ACK,FINACK), ref. on egress SKIP
- IPv6: transient TCP session (incomplete 3WHS), ref. on ingress SKIP
- IPv6: transient TCP session (incomplete 3WHS), ref. on egress SKIP
- IPv6: established TCP session (complete 3WHS), ref. on ingress SKIP
- IPv6: established TCP session (complete 3WHS), ref. on egress SKIP
- IPv6: transient TCP session (3WHS,ACK,FINACK), ref. on ingress SKIP
- IPv6: transient TCP session (3WHS,ACK,FINACK), ref. on egress SKIP
-
- ==============================================================================
- ACL on dot1q bridged subinterfaces Tests
- ==============================================================================
- IP4 ACL SubIf Dot1Q bridged traffic OK
- IP6 ACL SubIf Dot1Q bridged traffic OK
-
- ==============================================================================
- ACL on dot1ad bridged subinterfaces Tests
- ==============================================================================
- IP4 ACL SubIf Dot1AD bridged traffic OK
- IP6 ACL SubIf Dot1AD bridged traffic OK
-
- ==============================================================================
- ACL on dot1ad routed subinterfaces Tests
- ==============================================================================
- IP4 ACL SubIf Dot1AD routed traffic OK
- IP4 ACL SubIf wrong tags Dot1AD routed traffic OK
- IP6 ACL SubIf Dot1AD routed traffic OK
- IP6 ACL SubIf wrong tags Dot1AD routed traffic OK
-
- ==============================================================================
- ACL on dot1q routed subinterfaces Tests
- ==============================================================================
- IP4 ACL SubIf Dot1Q routed traffic OK
- IP4 ACL SubIf wrong tags Dot1Q routed traffic OK
- IP6 ACL SubIf Dot1Q routed traffic OK
- IP6 ACL SubIf wrong tags Dot1Q routed traffic OK
-
-APIs
-````
-::
-
- ==============================================================================
- VAPI test
- ==============================================================================
- run C VAPI tests SKIP
- run C++ VAPI tests SKIP
-
- ==============================================================================
- VPP Object Model Test
- ==============================================================================
- run C++ VOM tests SKIP
-
- ==============================================================================
- PAPI Test Case
- ==============================================================================
- show version OK
- show version - invalid parameters OK
- u8 array OK
-
- ==============================================================================
- PAPI Message parsing Test Case
- ==============================================================================
- New compound type with array OK
- Add new types OK
- Add new types 2 OK
- Add new message object OK
- New message with array OK
- Argument name OK
- VLA with aribtrary length field placement OK
- Message to byte encoding OK
- Nested array type OK
- Old style VLA array OK
- Old VLA compound type OK
- Old VLA array arbitrary placement OK
- Old VLA u32 OK
- Simple array OK
-
- ==============================================================================
- JVPP Core Test Case
- ==============================================================================
- JVPP Acl Callback Api Test Case OK
- JVPP Acl Future Api Test Case OK
- JVPP Core Callback Api Test Case OK
- JVPP Core Future Api Test Case OK
- JVPP Ioamexport Callback Api Test Case OK
- JVPP Ioamexport Future Api Test Case OK
- JVPP Ioampot Callback Api Test Case OK
- JVPP Ioampot Future Api Test Case OK
- JVPP Ioamtrace Callback Api Test Case OK
- JVPP Ioamtrace Future Api Test Case OK
- JVPP Snat Callback Api Test Case OK
- JVPP Snat Future Api Test Case OK
-
-ARP
-```
-::
-
- ==============================================================================
- ARP Test Case
- ==============================================================================
- ARP OK
- ARP Duplicates OK
- ARP Static OK
- ARP reply with VRRP virtual src hw addr OK
- MPLS OK
- Proxy ARP OK
- Interface Mirror Proxy ARP OK
-
- ==============================================================================
- L2BD arp termination Test Case
- ==============================================================================
- L2BD arp term - add 5 hosts, verify arp responses OK
- L2BD arp term - delete 3 hosts, verify arp responses OK
- L2BD arp term - recreate BD1, readd 3 hosts, verify arp responses OK
- L2BD arp term - 2 IP4 addrs per host OK
- L2BD arp term - create and update 10 IP4-mac pairs OK
- L2BD arp/ND term - hosts with both ip4/ip6 OK
- L2BD ND term - Add and Del hosts, verify ND replies OK
- L2BD ND term - Add and update IP+mac, verify ND replies OK
- L2BD arp term - send garps, verify arp event reports OK
- L2BD arp term - send duplicate garps, verify suppression OK
- L2BD arp term - disable ip4 arp events,send garps, verify no events OK
- L2BD ND term - send NS packets verify reports OK
- L2BD ND term - send duplicate ns, verify suppression OK
- L2BD ND term - disable ip4 arp events,send ns, verify no events OK
-
-BFD API
-````````
-::
-
- ==============================================================================
- Bidirectional Forwarding Detection (BFD) - API
- ==============================================================================
- activate SHA1 authentication SKIP
- create BFD session using non-existent SHA1 (negative case) SKIP
- create a BFD session SKIP
- create IPv6 BFD session SKIP
- create a BFD session (SHA1) SKIP
- add SHA1 keys SKIP
- change SHA1 key SKIP
- deactivate SHA1 authentication SKIP
- create the same BFD session twice (negative case) SKIP
- create the same BFD session twice (negative case) (SHA1) SKIP
- modify BFD session parameters SKIP
- share single SHA1 key between multiple BFD sessions SKIP
-
-BFD Authentication
-``````````````````
-::
-
- ==============================================================================
- Bidirectional Forwarding Detection (BFD) (SHA1 auth)
- ==============================================================================
- hold BFD session up SKIP
- hold BFD session up - meticulous auth SKIP
- session is not brought down by unauthenticated msg SKIP
- session is not brought down by msg with non-existent key-id SKIP
- session is not brought down by msg with wrong auth type SKIP
- simulate remote peer restart and resynchronization SKIP
- session is not kept alive by msgs with bad sequence numbers SKIP
- bring BFD session up SKIP
-
-BFD Authentication Change
-`````````````````````````
-::
-
- ==============================================================================
- Bidirectional Forwarding Detection (BFD) (changing auth)
- ==============================================================================
- change auth key without disturbing session state (delayed) SKIP
- change auth key without disturbing session state (immediate) SKIP
- turn auth off without disturbing session state (delayed) SKIP
- turn auth off without disturbing session state (immediate) SKIP
- turn auth on without disturbing session state (delayed) SKIP
- turn auth on without disturbing session state (immediate) SKIP
-
-BFD CLI
-````````
-::
-
- ==============================================================================
- Bidirectional Forwarding Detection (BFD) (CLI)
- ==============================================================================
- create/modify/delete IPv4 BFD UDP session SKIP
- create/modify/delete IPv6 BFD UDP session SKIP
- create/modify/delete IPv6 BFD UDP session (authenticated) SKIP
- create/modify/delete IPv4 BFD UDP session (authenticated) SKIP
- put session admin-up and admin-down SKIP
- turn authentication on and off SKIP
- turn authentication on and off (delayed) SKIP
- set/delete meticulous SHA1 auth key SKIP
- set/delete SHA1 auth key SKIP
- set/del udp echo source SKIP
- show commands SKIP
-
-BFD IPv4
-````````
-::
-
- ==============================================================================
- Bidirectional Forwarding Detection (BFD)
- ==============================================================================
- put session admin-up and admin-down SKIP
- configuration change while peer in demand mode SKIP
- verify session goes down after inactivity SKIP
- echo function SKIP
- session goes down if echo function fails SKIP
- echo packets looped back SKIP
- echo function stops if echo source is removed SKIP
- echo function stops if peer sets required min echo rx zero SKIP
- hold BFD session up SKIP
- immediately honor remote required min rx reduction SKIP
- interface with bfd session deleted SKIP
- echo packets with invalid checksum don't keep a session up SKIP
- large remote required min rx interval SKIP
- modify detect multiplier SKIP
- modify session - double required min rx SKIP
- modify session - halve required min rx SKIP
- no periodic frames outside poll sequence if remote demand set SKIP
- test correct response to control frame with poll bit set SKIP
- test poll sequence queueing SKIP
- bring BFD session down SKIP
- bring BFD session up SKIP
- bring BFD session up - first frame looked up by address pair SKIP
- verify slow periodic control frames while session down SKIP
- stale echo packets don't keep a session up SKIP
- no packets when zero remote required min rx interval SKIP
-
-BFD IPv6
-````````
-::
-
- ==============================================================================
- Bidirectional Forwarding Detection (BFD) (IPv6)
- ==============================================================================
- echo function used SKIP
- echo packets looped back SKIP
- hold BFD session up SKIP
- interface with bfd session deleted SKIP
- bring BFD session up SKIP
- bring BFD session up - first frame looked up by address pair SKIP
-
- ==============================================================================
- BFD-FIB interactions (IPv6)
- ==============================================================================
- BFD-FIB interactions SKIP
-
-BIER - Bit Indexed Explicit Replication
-```````````````````````````````````````
-::
-
- ==============================================================================
- BIER Test Case
- ==============================================================================
- BIER end-to-end OK
- BIER head OK
- BIER head over UDP OK
- BIER midpoint OK
- BIER Tail OK
- BIER Tail over UDP OK
-
- ==============================================================================
- BIER FIB Test Case
- ==============================================================================
- BFIB Unit Tests OK
-
-Classifier
-``````````
-::
-
- ==============================================================================
- Classifier Test Case
- ==============================================================================
- IP ACL test OK
- MAC ACL test OK
- IP PBR test OK
-
-Container Integration
-`````````````````````
-::
-
- ==============================================================================
- Container integration extended testcases
- ==============================================================================
- IPv4 basic connectivity test SKIP
- IPv6 basic connectivity test SKIP
- Create loopbacks overlapping with remote addresses SKIP
- IPv4 local-spoof connectivity test SKIP
- IPv6 local-spoof connectivity test SKIP
- Configure container commands SKIP
- IPv4 test after configuring container SKIP
- IPv6 test after configuring container SKIP
- Unconfigure container commands SKIP
- IPv4 local-spoof after unconfig test SKIP
- IPv6 local-spoof after unconfig test SKIP
-
-CRUD Loopback
-`````````````
-::
-
- ==============================================================================
- CRUD Loopback
- ==============================================================================
- test_crud (test_interface_crud.TestLoopbackInterfaceCRUD) OK
- test_down (test_interface_crud.TestLoopbackInterfaceCRUD) OK
-
-DHCP
-````
-::
-
- ==============================================================================
- DHCP Test Case
- ==============================================================================
- DHCPv6 Proxy OK
- DHCP Client OK
- DHCPv4 Proxy OK
-
-Distributed Virtual Router
-``````````````````````````
-::
-
- ==============================================================================
- Distributed Virtual Router
- ==============================================================================
- Distributed Virtual Router OK
- L2 Emulation OK
-
-DS-Lite Softwire
-````````````````
-::
-
- ==============================================================================
- DS-Lite Test Cases
- ==============================================================================
- Test DS-Lite OK
-
-FIB
-```
-::
-
- ==============================================================================
- FIB Test Case
- ==============================================================================
- FIB Unit Tests OK
-
-Flowprobe
-`````````
-::
-
- ==============================================================================
- Re-enable Flowprobe feature
- ==============================================================================
- disable flowprobe feature after first packets and re-enable SKIP
-
- ==============================================================================
- collect information on Ethernet, IP4 and IP6 datapath (no timers)
- ==============================================================================
- no timers, one CFLOW packet, 9 Flows inside OK
- no timers, two CFLOW packets (mtu=256), 3 Flows in each OK
- L2 data on IP4 datapath OK
- L2 data on IP6 datapath OK
- L2 data on L2 datapath OK
- L3 data on IP4 datapath OK
- L3 data on IP6 datapath OK
- L3 data on L2 datapath OK
- L4 data on IP4 datapath OK
- L4 data on IP6 datapath OK
- L4 data on L2 datapath OK
- verify templates on IP6 datapath OK
- verify templates on IP4 datapath OK
- verify template on L2 datapath OK
-
- ==============================================================================
- Disable Flowprobe feature
- ==============================================================================
- disable flowprobe feature after first packets SKIP
-
- ==============================================================================
- Re-enable IPFIX
- ==============================================================================
- disable IPFIX after first packets and re-enable after few packets SKIP
-
- ==============================================================================
- Disable IPFIX
- ==============================================================================
- disable IPFIX after first packets SKIP
-
-Geneve Tunnels
-``````````````
-::
-
- ==============================================================================
- GENEVE Test Case
- ==============================================================================
- Decapsulation test OK
- Encapsulation test OK
- Multicast flood test OK
- Multicast receive test OK
- Unicast flood test OK
-
-GRE Tunnels
-```````````
-::
-
- ==============================================================================
- GRE Test Case
- ==============================================================================
- GRE IPv4 tunnel Tests OK
- GRE IPv6 tunnel Tests OK
- GRE tunnel L2 Tests OK
- GRE tunnel VRF Tests OK
-
-GTPU Tunnels
-````````````
-::
-
- ==============================================================================
- GTPU Test Case
- ==============================================================================
- Decapsulation test OK
- Encapsulation test OK
- Multicast flood test OK
- Multicast receive test OK
- Unicast flood test OK
-
-IP Multicast Routing
-````````````````````
-::
-
- ==============================================================================
- IP Multicast Test Case
- ==============================================================================
- IP Multicast Bi-directional OK
- IPv6 Multicast Replication OK
- IPv6 Multicast Replication in non-default table OK
- IP Multicast Replication OK
- IP Multicast Connected Source check OK
- IP Multicast Signal OK
- IP Multicast Replication in non-default table OK
-
-IPSec
-`````
-::
-
- ==============================================================================
- Basic test for IPSEC using AH transport and Tunnel mode
- ==============================================================================
- ipsec ah v4 transport basic test OK
- ipsec ah v4 transport burst test OK
- ipsec ah 4o4 tunnel basic test OK
- ipsec ah 4o4 tunnel burst test OK
-
- ==============================================================================
- Basic test for ipsec esp sanity - tunnel and transport modes.
- ==============================================================================
- ipsec esp v4 transport basic test OK
- ipsec esp v4 transport burst test OK
- ipsec esp 4o4 tunnel basic test OK
- ipsec esp 4o4 tunnel burst test OK
-
-IPv4 FIB CRUD
-`````````````
-::
-
- ==============================================================================
- FIB - add/update/delete - ip4 routes
- ==============================================================================
- Add 1k routes OK
- Delete 100 routes OK
- Add 1k routes OK
- Delete 1.5k routes OK
-
-IPv4 Routing
-````````````
-::
-
- ==============================================================================
- IPv4 Test Case
- ==============================================================================
- IPv4 FIB test OK
-
- ==============================================================================
- IPv4 routes via NULL
- ==============================================================================
- IP NULL route OK
-
- ==============================================================================
- IPv4 disabled
- ==============================================================================
- IP Disabled OK
-
- ==============================================================================
- IPv4 Subnets
- ==============================================================================
- IP Sub Nets OK
-
- ==============================================================================
- IPv4 VLAN-0
- ==============================================================================
- IP VLAN-0 OK
-
- ==============================================================================
- IPv4 Load-Balancing
- ==============================================================================
- IP Load-Balancing OK
-
- ==============================================================================
- IPv4 Deaggregate Routes
- ==============================================================================
- IP Deag Routes OK
-
- ==============================================================================
- IPv4 Input Exceptions
- ==============================================================================
- IP Input Exceptions OK
-
- ==============================================================================
- IPv4 Punt Police/Redirect
- ==============================================================================
- IP punt police and redirect OK
-
-IPv4 VRF Multi-instance
-```````````````````````
-::
-
- ==============================================================================
- IP4 VRF Multi-instance Test Case
- ==============================================================================
- IP4 VRF Multi-instance test 1 - create 5 BDs OK
- IP4 VRF Multi-instance test 2 - delete 2 VRFs OK
- IP4 VRF Multi-instance 3 - add 2 VRFs OK
- IP4 VRF Multi-instance test 4 - delete 4 VRFs OK
-
-IPv6 Routing
-````````````
-::
-
- ==============================================================================
- IPv6 Test Case
- ==============================================================================
- IPv6 FIB test OK
- IPv6 Neighbour Solicitation Exceptions OK
- ND Duplicates OK
- IPv6 Router Solicitation Exceptions OK
-
- ==============================================================================
- IPv6 Punt Police/Redirect
- ==============================================================================
- IP6 punt police and redirect OK
-
- ==============================================================================
- IPv6 disabled
- ==============================================================================
- IP Disabled OK
-
- ==============================================================================
- IPv6 ND ProxyTest Case
- ==============================================================================
- IPv6 Proxy ND OK
-
- ==============================================================================
- IPv6 Load-Balancing
- ==============================================================================
- IPv6 Load-Balancing OK
-
- ==============================================================================
- IPv6 routes via NULL
- ==============================================================================
- IP NULL route OK
-
- ==============================================================================
- IPv6 Input Exceptions
- ==============================================================================
- IP6 Input Exceptions OK
-
-IPv6 VRF Multi-instance
-```````````````````````
-::
-
- ==============================================================================
- IP6 VRF Multi-instance Test Case
- ==============================================================================
- IP6 VRF Multi-instance test 1 - create 4 VRFs OK
- IP6 VRF Multi-instance test 2 - reset 2 VRFs OK
- IP6 VRF Multi-instance 3 - add 2 VRFs OK
- IP6 VRF Multi-instance test 4 - reset 4 VRFs OK
-
-IRB Integrated Routing-Bridging
-```````````````````````````````
-::
-
- ==============================================================================
- IRB Test Case
- ==============================================================================
- IPv4 IRB test 1 OK
- IPv4 IRB test 2 OK
-
-Kube-proxy
-``````````
-::
-
- ==============================================================================
- Kube-proxy Test Case
- ==============================================================================
- Kube-proxy NAT44 OK
- Kube-proxy NAT46 SKIP
- Kube-proxy NAT64 SKIP
- Kube-proxy NAT66 SKIP
-
-L2 FIB CRUD
-```````````
-::
-
- ==============================================================================
- L2 FIB Test Case
- ==============================================================================
- L2 FIB - program 100 + 100 MACs OK
- L2 FIB - program 100 + delete 12 MACs OK
- L2 FIB - flush all OK
- L2 FIB - flush BD OK
- L2 FIB - flush interface OK
- L2 FIB - mac learning events OK
- L2 FIB - mac learning max macs in event OK
- L2 FIB - program 100 MACs OK
- L2 FIB - Program 10 MACs, learn 10 OK
-
-L2BD Multi-instance
-```````````````````
-::
-
- ==============================================================================
- L2BD Multi-instance Test Case
- ==============================================================================
- L2BD Multi-instance test 1 - create 5 BDs OK
- L2BD Multi-instance test 2 - update data of 5 BDs OK
- L2BD Multi-instance test 3 - delete 2 BDs OK
- L2BD Multi-instance test 4 - add 2 BDs OK
- L2BD Multi-instance test 5 - delete 5 BDs SKIP
-
-L2BD Switching
-``````````````
-::
-
- ==============================================================================
- L2BD Test Case
- ==============================================================================
- L2BD MAC learning dual-loop test OK
- L2BD MAC learning single-loop test OK
-
-L2XC Multi-instance
-```````````````````
-::
-
- ==============================================================================
- L2XC Multi-instance Test Case
- ==============================================================================
- L2XC Multi-instance test 1 - create 10 cross-connects OK
- L2XC Multi-instance test 2 - delete 4 cross-connects OK
- L2BD Multi-instance 3 - add new 4 cross-connects OK
- L2XC Multi-instance test 4 - delete 10 cross-connects OK
-
-L2XC Switching
-``````````````
-::
-
- ==============================================================================
- L2XC Test Case
- ==============================================================================
- L2XC dual-loop test OK
- L2XC single-loop test OK
-
-LISP Tunnels
-````````````
-::
-
- ==============================================================================
- Basic LISP test
- ==============================================================================
- Test case for basic encapsulation OK
-
-Load Balancer
-`````````````
-::
-
- ==============================================================================
- Load Balancer Test Case
- ==============================================================================
- Load Balancer IP4 GRE4 OK
- Load Balancer IP4 GRE6 OK
- Load Balancer IP6 GRE4 OK
- Load Balancer IP6 GRE6 OK
-
-MACIP Access Control
-````````````````````
-::
-
- ==============================================================================
- MACIP Tests
- ==============================================================================
- MACIP 10 ACLs each with 100+ entries OK
- MACIP 10 ACLs each with 100+ entries with IP4 traffic OK
- MACIP 10 ACLs each with 100+ entries with IP6 traffic OK
- MACIP ACL with 10 entries OK
- MACIP ACL with 100 entries OK
- MACIP ACL with 2 entries OK
- MACIP ACL with 20 entries OK
- MACIP ACL with 5 entries OK
- MACIP ACL with 50 entries OK
- MACIP 2 ACLs each with 100+ entries OK
- MACIP replace ACL OK
- MACIP ACL delete intf with acl OK
-
- ==============================================================================
- MACIP with IP6 traffic
- ==============================================================================
- IP6 MACIP exactMAC|exactIP ACL bridged traffic OK
- IP6 MACIP exactMAC|subnetIP ACL bridged traffic OK
- IP6 MACIP exactMAC|wildIP ACL bridged traffic OK
- IP6 MACIP oui_MAC|exactIP ACL bridged traffic OK
- IP6 MACIP ouiMAC|subnetIP ACL bridged traffic OK
- IP6 MACIP ouiMAC|wildIP ACL bridged traffic OK
- IP6 MACIP wildcardMAC|exactIP ACL bridged traffic OK
- IP6 MACIP wildcardMAC|subnetIP ACL bridged traffic OK
- IP6 MACIP wildcardMAC|wildIP ACL bridged traffic OK
- MACIP replace ACL with IP6 traffic OK
- IP6 MACIP exactMAC|exactIP ACL routed traffic OK
- IP6 MACIP exactMAC|subnetIP ACL routed traffic OK
- IP6 MACIP exactMAC|wildIP ACL routed traffic OK
- IP6 MACIP ouiMAC|exactIP ACL routed traffic OK
- IP6 MACIP ouiMAC|subnetIP ACL routed traffic OK
- IP6 MACIP ouiMAC|wildIP ACL routed traffic OK
- IP6 MACIP wildcardMAC|exactIP ACL routed traffic OK
- IP6 MACIP wildcardMAC|subnetIP ACL routed traffic OK
- IP6 MACIP wildcardMAC|wildIP ACL OK
-
- ==============================================================================
- MACIP with IP4 traffic
- ==============================================================================
- IP4 MACIP wildcardMAC|exactIP ACL bridged traffic OK
- IP4 MACIP exactMAC|exactIP ACL bridged traffic OK
- IP4 MACIP exactMAC|subnetIP ACL bridged traffic OK
- IP4 MACIP exactMAC|wildIP ACL bridged traffic OK
- IP4 MACIP ouiMAC|exactIP ACL bridged traffic OK
- IP4 MACIP ouiMAC|subnetIP ACL bridged traffic OK
- IP4 MACIP ouiMAC|wildIP ACL bridged traffic OK
- IP4 MACIP wildcardMAC|subnetIP ACL bridged traffic OK
- IP4 MACIP wildcardMAC|wildIP ACL bridged traffic OK
- MACIP replace ACL with IP4 traffic OK
- IP4 MACIP exactMAC|exactIP ACL routed traffic OK
- IP4 MACIP exactMAC|subnetIP ACL routed traffic OK
- IP4 MACIP exactMAC|wildIP ACL routed traffic OK
- IP4 MACIP ouiMAC|exactIP ACL routed traffic OK
- IP4 MACIP ouiMAC|subnetIP ACL routed traffic OK
- IP4 MACIP ouiMAC|wildIP ACL routed traffic OK
- IP4 MACIP wildcardMAC|exactIP ACL routed traffic OK
- IP4 MACIP wildcardMAC|subnetIP ACL routed traffic OK
- IP4 MACIP wildcardMAC|wildIP ACL OK
-
-MAP Softwires
-`````````````
-::
-
- ==============================================================================
- MAP Test Case
- ==============================================================================
- MAP-E OK
-
-MFIB Multicast FIB
-``````````````````
-::
-
- ==============================================================================
- MFIB Test Case
- ==============================================================================
- MFIB Unit Tests OK
-
-MPLS Switching
-``````````````
-::
-
- ==============================================================================
- MPLS-L2
- ==============================================================================
- Virtual Private LAN Service OK
- Virtual Private Wire Service OK
-
- ==============================================================================
- MPLS Test Case
- ==============================================================================
- MPLS Local Label Binding test OK
- MPLS Deagg OK
- MPLS label imposition test OK
- MPLS Interface Receive OK
- MPLS Multicast Head-end OK
- MPLS IPv4 Multicast Tail OK
- MPLS IPv6 Multicast Tail OK
- MPLS Multicast Mid Point OK
- MPLS label swap tests OK
- MPLS Tunnel Tests OK
- MPLS V4 Explicit NULL test OK
- MPLS V6 Explicit NULL test OK
-
- ==============================================================================
- MPLS PIC edge convergence
- ==============================================================================
- MPLS eBGP PIC edge convergence OK
- MPLS iBGP PIC edge convergence OK
- MPLSv6 eBGP PIC edge convergence OK
-
- ==============================================================================
- MPLS disabled
- ==============================================================================
- MPLS Disabled OK
-
-NAT44
-`````
-::
-
- ==============================================================================
- NAT44 Test Cases
- ==============================================================================
- Delete NAT44 session OK
- NAT44 dynamic translation test OK
- NAT44 handling of client packets with TTL=1 OK
- NAT44 handling of error responses to client packets with TTL=2 OK
- NAT44 handling of server packets with TTL=1 OK
- NAT44 handling of error responses to server packets with TTL=2 OK
- NAT44 interfaces without configured IP address OK
- NAT44 forwarding test OK
- NAT44 translate fragments arriving in order OK
- NAT44 translate fragments arriving out of order OK
- NAT44 hairpinning - 1:1 NAPT OK
- NAT44 hairpinning - 1:1 NAT OK
- 1:1 NAT translate packet with unknown protocol - hairpinning OK
- NAT44 translate packet with unknown protocol - hairpinning OK
- Identity NAT OK
- NAT44 multiple inside interfaces with overlapping address space OK
- Acquire NAT44 addresses from interface OK
- Identity NAT with addresses from interface OK
- Static mapping with addresses from interface OK
- IPFIX logging NAT addresses exhausted OK
- IPFIX logging NAT44 session created/delted OK
- MAX translations per user - recycle the least recently used OK
- NAT44 multiple non-overlapping address space inside interfaces OK
- One armed NAT44 OK
- NAT44 interface output feature (in2out postrouting) OK
- NAT44 interface output feature hairpinning (in2out postrouting) OK
- NAT44 interface output feature VRF aware (in2out postrouting) OK
- Ping internal host from outside network OK
- Ping NAT44 out interface from outside network OK
- NAT44 add pool addresses to FIB OK
- Port restricted NAT44 (MAP-E CE) OK
- NAT44 fragments hairpinning OK
- NAT44 set/get virtual fragmentation reassembly OK
- 1:1 NAT initialized from inside network OK
- NAT44 interfaces without configured IP address - 1:1 NAT OK
- NAT44 local service load balancing OK
- 1:1 NAT initialized from outside network OK
- 1:1 NAT translate packet with unknown protocol OK
- 1:1 NAT VRF awareness OK
- 1:1 NAPT initialized from inside network OK
- NAT44 interfaces without configured IP address - 1:1 NAPT OK
- 1:1 NAPT initialized from outside network OK
- Twice NAT44 OK
- Acquire twice NAT44 addresses from interface OK
- Twice NAT44 local service load balancing OK
- NAT44 translate packet with unknown protocol OK
- NAT44 tenant VRF independent address pool mode OK
- NAT44 tenant VRF aware address pool mode OK
-
- ==============================================================================
- Deterministic NAT Test Cases
- ==============================================================================
- Deterministic NAT translation test (TCP, UDP, ICMP) OK
- NAT plugin run deterministic mode OK
- Deterministic NAT multiple users OK
- Deterministic NAT maximum sessions per user limit SKIP
- Deterministic NAT session timeouts SKIP
- Set deterministic NAT timeouts OK
- Deterministic NAT TCP session close from inside network OK
- Deterministic NAT TCP session close from outside network OK
-
-NAT64
-`````
-::
-
- ==============================================================================
- NAT64 Test Cases
- ==============================================================================
- NAT64 dynamic translation test OK
- NAT64 translate fragments arriving in order OK
- NAT64 translate fragments arriving out of order OK
- NAT64 hairpinning OK
- NAT64 translate packet with unknown protocol - hairpinning OK
- NAT64 ICMP Error message translation OK
- Enable/disable NAT64 feature on the interface OK
- Acquire NAT64 pool addresses from interface OK
- One armed NAT64 OK
- Add/delete address to NAT64 pool OK
- NAT64 Network-Specific Prefix OK
- NAT64 fragments hairpinning OK
- NAT64 session timeout SKIP
- Set NAT64 timeouts OK
- NAT64 static translation test OK
- Add/delete static BIB entry OK
- NAT64 translate packet with unknown protocol OK
-
-P2P Ethernet Subinterface
-`````````````````````````
-::
-
- ==============================================================================
- P2P Ethernet tests
- ==============================================================================
- delete/create p2p subif OK
- create 1k of p2p subifs OK
-
- ==============================================================================
- P2P Ethernet IPv4 tests
- ==============================================================================
- receive ipv4 packet via p2p subinterface OK
- route rx packet not matching p2p subinterface OK
- send ip4 packet via p2p subinterface OK
- drop tx ip4 packet not matching p2p subinterface OK
-
- ==============================================================================
- P2P Ethernet IPv6 tests
- ==============================================================================
- receive ipv6 packet via p2p subinterface OK
- drop rx packet not matching p2p subinterface OK
- route rx ip6 packet not matching p2p subinterface OK
- send packet via p2p subinterface OK
- drop tx ip6 packet not matching p2p subinterface OK
- standard routing without p2p subinterfaces OK
-
-PPPoE Encapsulation
-```````````````````
-::
-
- ==============================================================================
- PPPoE Test Case
- ==============================================================================
- PPPoE Add Same Session Twice Test OK
- PPPoE Decap Test OK
- PPPoE Decap Multiple Sessions Test OK
- PPPoE Delete Same Session Twice Test OK
- PPPoE Encap Test OK
- PPPoE Encap Multiple Sessions Test OK
-
-SPAN Switch Port Analyzer
-`````````````````````````
-::
-
- ==============================================================================
- SPAN Test Case
- ==============================================================================
- SPAN device rx mirror OK
- SPAN l2 broadcast mirror OK
- SPAN l2 rx tx mirror OK
- SPAN l2 tx mirror OK
- SPAN l2 rx mirror OK
- SPAN l2 rx mirror into 1ad subif+vtr OK
- SPAN l2 rx mirror into 1q subif+vtr OK
- SPAN l2 rx mirror into gre-subif+vtr OK
- SPAN l2 rx mirror into vxlan OK
-
-SRv6 Routing
-````````````
-::
-
- ==============================================================================
- SRv6 Test Case
- ==============================================================================
- Test SRv6 End (without PSP) behavior. OK
- Test SRv6 End.DT4 behavior. OK
- Test SRv6 End.DT6 behavior. OK
- Test SRv6 End.DX2 behavior. OK
- Test SRv6 End.DX4 behavior. OK
- Test SRv6 End.DX6 behavior. OK
- Test SRv6 End.X (without PSP) behavior. OK
- Test SRv6 End.X with PSP behavior. OK
- Test SRv6 End with PSP behavior. OK
- Test SRv6 Transit.Encaps behavior for IPv6. OK
- Test SRv6 Transit.Encaps behavior for IPv4. OK
- Test SRv6 Transit.Encaps behavior for L2. SKIP
- Test SRv6 Transit.Insert behavior (IPv6 only). OK
- Test SRv6 Transit.Insert behavior (IPv6 only). OK
-
-TCP/IP Stack
-````````````
-::
-
- ==============================================================================
- TCP Test Case
- ==============================================================================
- TCP builtin client/server transfer OK
- TCP Unit Tests OK
-
-UDP Stack
-`````````
-::
-
- ==============================================================================
- UDP Encap Test Case
- ==============================================================================
- UDP Encap test OK
-
-VTR VLAN Tag Rewrites
-`````````````````````
-::
-
- ==============================================================================
- VTR Test Case
- ==============================================================================
- 1AD VTR pop 1 test OK
- 1AD VTR pop 2 test OK
- 1AD VTR push 1 1AD test OK
- 1AD VTR push 1 1Q test OK
- 1AD VTR push 2 1AD test OK
- 1AD VTR push 2 1Q test OK
- 1AD VTR translate 1 -> 1 1AD test OK
- 1AD VTR translate 1 -> 1 1Q test OK
- 1AD VTR translate 1 -> 2 1AD test OK
- 1AD VTR translate 1 -> 2 1Q test OK
- 1AD VTR translate 2 -> 1 1AD test OK
- 1AD VTR translate 2 -> 1 1Q test OK
- 1AD VTR translate 2 -> 2 1AD test OK
- 1AD VTR translate 2 -> 2 1Q test OK
- 1Q VTR pop 1 test OK
- 1Q VTR push 1 test OK
- 1Q VTR push 2 test OK
- 1Q VTR translate 1 -> 1 test OK
- 1Q VTR translate 1 -> 2 test OK
-
-VXLAN Tunnels
-`````````````
-::
-
- ==============================================================================
- VXLAN Test Case
- ==============================================================================
- Decapsulation test OK
- Encapsulation test OK
- Multicast flood test OK
- Multicast receive test OK
- Unicast flood test OK
-
-VXLAN-GPE Tunnels
-`````````````````
-::
-
- ==============================================================================
- VXLAN-GPE Test Case
- ==============================================================================
- Decapsulation test SKIP
- Encapsulation test SKIP
- Multicast flood test SKIP
- Multicast receive test SKIP
- Unicast flood test SKIP
-
-Other Tests
-```````````
-::
-
- ==============================================================================
- Ping Test Case
- ==============================================================================
- basic ping test OK
- burst ping test OK
-
- ==============================================================================
- Session Test Case
- ==============================================================================
- Session Unit Tests OK
-
- ==============================================================================
- Template verification, timer tests
- ==============================================================================
- timer less than template timeout OK
- timer greater than template timeout OK
- verify cflow packet fields OK
-
+ACL Security Groups +``````````````````` +:: + + ============================================================================== + ACL plugin Test Case + ============================================================================== + ACL plugin version check; learn MACs OK + ACL create/delete test OK + permit ACL apply test OK + deny ACL apply test OK + VPP_624 permit ICMPv4 OK + VPP_624 permit ICMPv6 OK + VPP_624 deny ICMPv4 OK + VPP_624 deny ICMPv6 OK + permit TCPv4 OK + permit TCPv6 OK + permit UDPv4 OK + permit UDPv6 OK + deny TCPv4/v6 OK + deny UDPv4/v6 OK + verify add/dump acls OK + permit single TCPv4 OK + permit single UDPv4 OK + permit single TCPv6 OK + permit single UPPv6 OK + deny single TCPv4/v6 OK + deny single UDPv4/v6 OK + deny single UDPv4/v6, permit ip any, verify non-initial fragment blocked OK + VPP-687 zero length udp ipv4 packet OK + VPP-687 zero length udp ipv6 packet OK + permit TCPv4 + non-match range OK + permit TCPv6 + non-match range OK + permit UDPv4 + non-match range OK + permit UDPv6 + non-match range OK + deny TCPv4/v6 + non-match range OK + deny UDPv4/v6 + non-match range OK + + ============================================================================== + IRB Test Case + ============================================================================== + ACL plugin prepare OK + ACL IPv6 routed -> bridged, L2 ACL deny OK + ACL IPv6 routed -> bridged, L3 ACL deny OK + ACL IPv4 routed -> bridged, L2 ACL deny OK + ACL IPv4 routed -> bridged, L3 ACL deny OK + ACL IPv6 bridged -> routed, L2 ACL deny OK + ACL IPv6 bridged -> routed, L3 ACL deny OK + ACL IPv4 bridged -> routed, L2 ACL deny OK + ACL IPv4 bridged -> routed, L3 ACL deny OK + ACL IPv6 routed -> bridged, L2 ACL permit+reflect OK + ACL IPv6 bridged -> routed, L2 ACL permit+reflect OK + ACL IPv4 routed -> bridged, L2 ACL permit+reflect OK + ACL IPv4 bridged -> routed, L2 ACL permit+reflect OK + ACL IPv6 routed -> bridged, L3 ACL permit+reflect OK + ACL IPv6 bridged -> routed, L3 ACL permit+reflect OK + ACL IPv4 routed -> bridged, L3 ACL permit+reflect OK + ACL IPv4 bridged -> routed, L3 ACL permit+reflect OK + ACL IPv6+EH routed -> bridged, L2 ACL deny OK + ACL IPv6+EH routed -> bridged, L3 ACL deny OK + ACL IPv6+EH bridged -> routed, L2 ACL deny OK + ACL IPv6+EH bridged -> routed, L3 ACL deny OK + ACL IPv6+EH routed -> bridged, L2 ACL permit+reflect OK + ACL IPv6+EH bridged -> routed, L2 ACL permit+reflect OK + ACL IPv6+EH routed -> bridged, L3 ACL permit+reflect OK + ACL IPv6+EH bridged -> routed, L3 ACL permit+reflect OK + ACL IPv4+MF routed -> bridged, L2 ACL deny OK + ACL IPv4+MF routed -> bridged, L3 ACL deny OK + ACL IPv4+MF bridged -> routed, L2 ACL deny OK + ACL IPv4+MF bridged -> routed, L3 ACL deny OK + ACL IPv4+MF routed -> bridged, L2 ACL permit+reflect OK + ACL IPv4+MF bridged -> routed, L2 ACL permit+reflect OK + ACL IPv4+MF routed -> bridged, L3 ACL permit+reflect OK + ACL IPv4+MF bridged -> routed, L3 ACL permit+reflect OK + + ============================================================================== + ACL plugin connection-oriented extended testcases + ============================================================================== + Prepare the settings SKIP + IPv4: Basic conn timeout test reflect on ingress SKIP + IPv4: Basic conn timeout test reflect on egress SKIP + IPv4: reflect egress, clear conn SKIP + IPv4: reflect ingress, clear conn SKIP + IPv4: Idle conn behind active conn, reflect on ingress SKIP + IPv4: Idle conn behind active conn, reflect on egress SKIP + IPv6: Basic conn timeout test reflect on ingress SKIP + IPv6: Basic conn timeout test reflect on egress SKIP + IPv6: reflect egress, clear conn SKIP + IPv6: reflect ingress, clear conn SKIP + IPv6: Idle conn behind active conn, reflect on ingress SKIP + IPv6: Idle conn behind active conn, reflect on egress SKIP + Prepare for TCP session tests SKIP + IPv4: transient TCP session (incomplete 3WHS), ref. on ingress SKIP + IPv4: transient TCP session (incomplete 3WHS), ref. on egress SKIP + IPv4: established TCP session (complete 3WHS), ref. on ingress SKIP + IPv4: established TCP session (complete 3WHS), ref. on egress SKIP + IPv4: transient TCP session (3WHS,ACK,FINACK), ref. on ingress SKIP + IPv4: transient TCP session (3WHS,ACK,FINACK), ref. on egress SKIP + IPv6: transient TCP session (incomplete 3WHS), ref. on ingress SKIP + IPv6: transient TCP session (incomplete 3WHS), ref. on egress SKIP + IPv6: established TCP session (complete 3WHS), ref. on ingress SKIP + IPv6: established TCP session (complete 3WHS), ref. on egress SKIP + IPv6: transient TCP session (3WHS,ACK,FINACK), ref. on ingress SKIP + IPv6: transient TCP session (3WHS,ACK,FINACK), ref. on egress SKIP + + ============================================================================== + ACL on dot1q bridged subinterfaces Tests + ============================================================================== + IP4 ACL SubIf Dot1Q bridged traffic OK + IP6 ACL SubIf Dot1Q bridged traffic OK + + ============================================================================== + ACL on dot1ad bridged subinterfaces Tests + ============================================================================== + IP4 ACL SubIf Dot1AD bridged traffic OK + IP6 ACL SubIf Dot1AD bridged traffic OK + + ============================================================================== + ACL on dot1ad routed subinterfaces Tests + ============================================================================== + IP4 ACL SubIf Dot1AD routed traffic OK + IP4 ACL SubIf wrong tags Dot1AD routed traffic OK + IP6 ACL SubIf Dot1AD routed traffic OK + IP6 ACL SubIf wrong tags Dot1AD routed traffic OK + + ============================================================================== + ACL on dot1q routed subinterfaces Tests + ============================================================================== + IP4 ACL SubIf Dot1Q routed traffic OK + IP4 ACL SubIf wrong tags Dot1Q routed traffic OK + IP6 ACL SubIf Dot1Q routed traffic OK + IP6 ACL SubIf wrong tags Dot1Q routed traffic OK + +APIs +```` +:: + + ============================================================================== + VAPI test + ============================================================================== + run C VAPI tests SKIP + run C++ VAPI tests SKIP + + ============================================================================== + VPP Object Model Test + ============================================================================== + run C++ VOM tests SKIP + + ============================================================================== + PAPI Test Case + ============================================================================== + show version OK + show version - invalid parameters OK + u8 array OK + + ============================================================================== + PAPI Message parsing Test Case + ============================================================================== + New compound type with array OK + Add new types OK + Add new types 2 OK + Add new message object OK + New message with array OK + Argument name OK + VLA with aribtrary length field placement OK + Message to byte encoding OK + Nested array type OK + Old style VLA array OK + Old VLA compound type OK + Old VLA array arbitrary placement OK + Old VLA u32 OK + Simple array OK + + ============================================================================== + JVPP Core Test Case + ============================================================================== + JVPP Acl Callback Api Test Case OK + JVPP Acl Future Api Test Case OK + JVPP Core Callback Api Test Case OK + JVPP Core Future Api Test Case OK + JVPP Ioamexport Callback Api Test Case OK + JVPP Ioamexport Future Api Test Case OK + JVPP Ioampot Callback Api Test Case OK + JVPP Ioampot Future Api Test Case OK + JVPP Ioamtrace Callback Api Test Case OK + JVPP Ioamtrace Future Api Test Case OK + JVPP Snat Callback Api Test Case OK + JVPP Snat Future Api Test Case OK + +ARP +``` +:: + + ============================================================================== + ARP Test Case + ============================================================================== + ARP OK + ARP Duplicates OK + ARP Static OK + ARP reply with VRRP virtual src hw addr OK + MPLS OK + Proxy ARP OK + Interface Mirror Proxy ARP OK + + ============================================================================== + L2BD arp termination Test Case + ============================================================================== + L2BD arp term - add 5 hosts, verify arp responses OK + L2BD arp term - delete 3 hosts, verify arp responses OK + L2BD arp term - recreate BD1, readd 3 hosts, verify arp responses OK + L2BD arp term - 2 IP4 addrs per host OK + L2BD arp term - create and update 10 IP4-mac pairs OK + L2BD arp/ND term - hosts with both ip4/ip6 OK + L2BD ND term - Add and Del hosts, verify ND replies OK + L2BD ND term - Add and update IP+mac, verify ND replies OK + L2BD arp term - send garps, verify arp event reports OK + L2BD arp term - send duplicate garps, verify suppression OK + L2BD arp term - disable ip4 arp events,send garps, verify no events OK + L2BD ND term - send NS packets verify reports OK + L2BD ND term - send duplicate ns, verify suppression OK + L2BD ND term - disable ip4 arp events,send ns, verify no events OK + +BFD API +```````` +:: + + ============================================================================== + Bidirectional Forwarding Detection (BFD) - API + ============================================================================== + activate SHA1 authentication SKIP + create BFD session using non-existent SHA1 (negative case) SKIP + create a BFD session SKIP + create IPv6 BFD session SKIP + create a BFD session (SHA1) SKIP + add SHA1 keys SKIP + change SHA1 key SKIP + deactivate SHA1 authentication SKIP + create the same BFD session twice (negative case) SKIP + create the same BFD session twice (negative case) (SHA1) SKIP + modify BFD session parameters SKIP + share single SHA1 key between multiple BFD sessions SKIP + +BFD Authentication +`````````````````` +:: + + ============================================================================== + Bidirectional Forwarding Detection (BFD) (SHA1 auth) + ============================================================================== + hold BFD session up SKIP + hold BFD session up - meticulous auth SKIP + session is not brought down by unauthenticated msg SKIP + session is not brought down by msg with non-existent key-id SKIP + session is not brought down by msg with wrong auth type SKIP + simulate remote peer restart and resynchronization SKIP + session is not kept alive by msgs with bad sequence numbers SKIP + bring BFD session up SKIP + +BFD Authentication Change +````````````````````````` +:: + + ============================================================================== + Bidirectional Forwarding Detection (BFD) (changing auth) + ============================================================================== + change auth key without disturbing session state (delayed) SKIP + change auth key without disturbing session state (immediate) SKIP + turn auth off without disturbing session state (delayed) SKIP + turn auth off without disturbing session state (immediate) SKIP + turn auth on without disturbing session state (delayed) SKIP + turn auth on without disturbing session state (immediate) SKIP + +BFD CLI +```````` +:: + + ============================================================================== + Bidirectional Forwarding Detection (BFD) (CLI) + ============================================================================== + create/modify/delete IPv4 BFD UDP session SKIP + create/modify/delete IPv6 BFD UDP session SKIP + create/modify/delete IPv6 BFD UDP session (authenticated) SKIP + create/modify/delete IPv4 BFD UDP session (authenticated) SKIP + put session admin-up and admin-down SKIP + turn authentication on and off SKIP + turn authentication on and off (delayed) SKIP + set/delete meticulous SHA1 auth key SKIP + set/delete SHA1 auth key SKIP + set/del udp echo source SKIP + show commands SKIP + +BFD IPv4 +```````` +:: + + ============================================================================== + Bidirectional Forwarding Detection (BFD) + ============================================================================== + put session admin-up and admin-down SKIP + configuration change while peer in demand mode SKIP + verify session goes down after inactivity SKIP + echo function SKIP + session goes down if echo function fails SKIP + echo packets looped back SKIP + echo function stops if echo source is removed SKIP + echo function stops if peer sets required min echo rx zero SKIP + hold BFD session up SKIP + immediately honor remote required min rx reduction SKIP + interface with bfd session deleted SKIP + echo packets with invalid checksum don't keep a session up SKIP + large remote required min rx interval SKIP + modify detect multiplier SKIP + modify session - double required min rx SKIP + modify session - halve required min rx SKIP + no periodic frames outside poll sequence if remote demand set SKIP + test correct response to control frame with poll bit set SKIP + test poll sequence queueing SKIP + bring BFD session down SKIP + bring BFD session up SKIP + bring BFD session up - first frame looked up by address pair SKIP + verify slow periodic control frames while session down SKIP + stale echo packets don't keep a session up SKIP + no packets when zero remote required min rx interval SKIP + +BFD IPv6 +```````` +:: + + ============================================================================== + Bidirectional Forwarding Detection (BFD) (IPv6) + ============================================================================== + echo function used SKIP + echo packets looped back SKIP + hold BFD session up SKIP + interface with bfd session deleted SKIP + bring BFD session up SKIP + bring BFD session up - first frame looked up by address pair SKIP + + ============================================================================== + BFD-FIB interactions (IPv6) + ============================================================================== + BFD-FIB interactions SKIP + +BIER - Bit Indexed Explicit Replication +``````````````````````````````````````` +:: + + ============================================================================== + BIER Test Case + ============================================================================== + BIER end-to-end OK + BIER head OK + BIER head over UDP OK + BIER midpoint OK + BIER Tail OK + BIER Tail over UDP OK + + ============================================================================== + BIER FIB Test Case + ============================================================================== + BFIB Unit Tests OK + +Classifier +`````````` +:: + + ============================================================================== + Classifier Test Case + ============================================================================== + IP ACL test OK + MAC ACL test OK + IP PBR test OK + +Container Integration +````````````````````` +:: + + ============================================================================== + Container integration extended testcases + ============================================================================== + IPv4 basic connectivity test SKIP + IPv6 basic connectivity test SKIP + Create loopbacks overlapping with remote addresses SKIP + IPv4 local-spoof connectivity test SKIP + IPv6 local-spoof connectivity test SKIP + Configure container commands SKIP + IPv4 test after configuring container SKIP + IPv6 test after configuring container SKIP + Unconfigure container commands SKIP + IPv4 local-spoof after unconfig test SKIP + IPv6 local-spoof after unconfig test SKIP + +CRUD Loopback +````````````` +:: + + ============================================================================== + CRUD Loopback + ============================================================================== + test_crud (test_interface_crud.TestLoopbackInterfaceCRUD) OK + test_down (test_interface_crud.TestLoopbackInterfaceCRUD) OK + +DHCP +```` +:: + + ============================================================================== + DHCP Test Case + ============================================================================== + DHCPv6 Proxy OK + DHCP Client OK + DHCPv4 Proxy OK + +Distributed Virtual Router +`````````````````````````` +:: + + ============================================================================== + Distributed Virtual Router + ============================================================================== + Distributed Virtual Router OK + L2 Emulation OK + +DS-Lite Softwire +```````````````` +:: + + ============================================================================== + DS-Lite Test Cases + ============================================================================== + Test DS-Lite OK + +FIB +``` +:: + + ============================================================================== + FIB Test Case + ============================================================================== + FIB Unit Tests OK + +Flowprobe +````````` +:: + + ============================================================================== + Re-enable Flowprobe feature + ============================================================================== + disable flowprobe feature after first packets and re-enable SKIP + + ============================================================================== + collect information on Ethernet, IP4 and IP6 datapath (no timers) + ============================================================================== + no timers, one CFLOW packet, 9 Flows inside OK + no timers, two CFLOW packets (mtu=256), 3 Flows in each OK + L2 data on IP4 datapath OK + L2 data on IP6 datapath OK + L2 data on L2 datapath OK + L3 data on IP4 datapath OK + L3 data on IP6 datapath OK + L3 data on L2 datapath OK + L4 data on IP4 datapath OK + L4 data on IP6 datapath OK + L4 data on L2 datapath OK + verify templates on IP6 datapath OK + verify templates on IP4 datapath OK + verify template on L2 datapath OK + + ============================================================================== + Disable Flowprobe feature + ============================================================================== + disable flowprobe feature after first packets SKIP + + ============================================================================== + Re-enable IPFIX + ============================================================================== + disable IPFIX after first packets and re-enable after few packets SKIP + + ============================================================================== + Disable IPFIX + ============================================================================== + disable IPFIX after first packets SKIP + +Geneve Tunnels +`````````````` +:: + + ============================================================================== + GENEVE Test Case + ============================================================================== + Decapsulation test OK + Encapsulation test OK + Multicast flood test OK + Multicast receive test OK + Unicast flood test OK + +GRE Tunnels +``````````` +:: + + ============================================================================== + GRE Test Case + ============================================================================== + GRE IPv4 tunnel Tests OK + GRE IPv6 tunnel Tests OK + GRE tunnel L2 Tests OK + GRE tunnel VRF Tests OK + +GTPU Tunnels +```````````` +:: + + ============================================================================== + GTPU Test Case + ============================================================================== + Decapsulation test OK + Encapsulation test OK + Multicast flood test OK + Multicast receive test OK + Unicast flood test OK + +IP Multicast Routing +```````````````````` +:: + + ============================================================================== + IP Multicast Test Case + ============================================================================== + IP Multicast Bi-directional OK + IPv6 Multicast Replication OK + IPv6 Multicast Replication in non-default table OK + IP Multicast Replication OK + IP Multicast Connected Source check OK + IP Multicast Signal OK + IP Multicast Replication in non-default table OK + +IPSec +````` +:: + + ============================================================================== + Basic test for IPSEC using AH transport and Tunnel mode + ============================================================================== + ipsec ah v4 transport basic test OK + ipsec ah v4 transport burst test OK + ipsec ah 4o4 tunnel basic test OK + ipsec ah 4o4 tunnel burst test OK + + ============================================================================== + Basic test for ipsec esp sanity - tunnel and transport modes. + ============================================================================== + ipsec esp v4 transport basic test OK + ipsec esp v4 transport burst test OK + ipsec esp 4o4 tunnel basic test OK + ipsec esp 4o4 tunnel burst test OK + +IPv4 FIB CRUD +````````````` +:: + + ============================================================================== + FIB - add/update/delete - ip4 routes + ============================================================================== + Add 1k routes OK + Delete 100 routes OK + Add 1k routes OK + Delete 1.5k routes OK + +IPv4 Routing +```````````` +:: + + ============================================================================== + IPv4 Test Case + ============================================================================== + IPv4 FIB test OK + + ============================================================================== + IPv4 routes via NULL + ============================================================================== + IP NULL route OK + + ============================================================================== + IPv4 disabled + ============================================================================== + IP Disabled OK + + ============================================================================== + IPv4 Subnets + ============================================================================== + IP Sub Nets OK + + ============================================================================== + IPv4 VLAN-0 + ============================================================================== + IP VLAN-0 OK + + ============================================================================== + IPv4 Load-Balancing + ============================================================================== + IP Load-Balancing OK + + ============================================================================== + IPv4 Deaggregate Routes + ============================================================================== + IP Deag Routes OK + + ============================================================================== + IPv4 Input Exceptions + ============================================================================== + IP Input Exceptions OK + + ============================================================================== + IPv4 Punt Police/Redirect + ============================================================================== + IP punt police and redirect OK + +IPv4 VRF Multi-instance +``````````````````````` +:: + + ============================================================================== + IP4 VRF Multi-instance Test Case + ============================================================================== + IP4 VRF Multi-instance test 1 - create 5 BDs OK + IP4 VRF Multi-instance test 2 - delete 2 VRFs OK + IP4 VRF Multi-instance 3 - add 2 VRFs OK + IP4 VRF Multi-instance test 4 - delete 4 VRFs OK + +IPv6 Routing +```````````` +:: + + ============================================================================== + IPv6 Test Case + ============================================================================== + IPv6 FIB test OK + IPv6 Neighbour Solicitation Exceptions OK + ND Duplicates OK + IPv6 Router Solicitation Exceptions OK + + ============================================================================== + IPv6 Punt Police/Redirect + ============================================================================== + IP6 punt police and redirect OK + + ============================================================================== + IPv6 disabled + ============================================================================== + IP Disabled OK + + ============================================================================== + IPv6 ND ProxyTest Case + ============================================================================== + IPv6 Proxy ND OK + + ============================================================================== + IPv6 Load-Balancing + ============================================================================== + IPv6 Load-Balancing OK + + ============================================================================== + IPv6 routes via NULL + ============================================================================== + IP NULL route OK + + ============================================================================== + IPv6 Input Exceptions + ============================================================================== + IP6 Input Exceptions OK + +IPv6 VRF Multi-instance +``````````````````````` +:: + + ============================================================================== + IP6 VRF Multi-instance Test Case + ============================================================================== + IP6 VRF Multi-instance test 1 - create 4 VRFs OK + IP6 VRF Multi-instance test 2 - reset 2 VRFs OK + IP6 VRF Multi-instance 3 - add 2 VRFs OK + IP6 VRF Multi-instance test 4 - reset 4 VRFs OK + +IRB Integrated Routing-Bridging +``````````````````````````````` +:: + + ============================================================================== + IRB Test Case + ============================================================================== + IPv4 IRB test 1 OK + IPv4 IRB test 2 OK + +Kube-proxy +`````````` +:: + + ============================================================================== + Kube-proxy Test Case + ============================================================================== + Kube-proxy NAT44 OK + Kube-proxy NAT46 SKIP + Kube-proxy NAT64 SKIP + Kube-proxy NAT66 SKIP + +L2 FIB CRUD +``````````` +:: + + ============================================================================== + L2 FIB Test Case + ============================================================================== + L2 FIB - program 100 + 100 MACs OK + L2 FIB - program 100 + delete 12 MACs OK + L2 FIB - flush all OK + L2 FIB - flush BD OK + L2 FIB - flush interface OK + L2 FIB - mac learning events OK + L2 FIB - mac learning max macs in event OK + L2 FIB - program 100 MACs OK + L2 FIB - Program 10 MACs, learn 10 OK + +L2BD Multi-instance +``````````````````` +:: + + ============================================================================== + L2BD Multi-instance Test Case + ============================================================================== + L2BD Multi-instance test 1 - create 5 BDs OK + L2BD Multi-instance test 2 - update data of 5 BDs OK + L2BD Multi-instance test 3 - delete 2 BDs OK + L2BD Multi-instance test 4 - add 2 BDs OK + L2BD Multi-instance test 5 - delete 5 BDs SKIP + +L2BD Switching +`````````````` +:: + + ============================================================================== + L2BD Test Case + ============================================================================== + L2BD MAC learning dual-loop test OK + L2BD MAC learning single-loop test OK + +L2XC Multi-instance +``````````````````` +:: + + ============================================================================== + L2XC Multi-instance Test Case + ============================================================================== + L2XC Multi-instance test 1 - create 10 cross-connects OK + L2XC Multi-instance test 2 - delete 4 cross-connects OK + L2BD Multi-instance 3 - add new 4 cross-connects OK + L2XC Multi-instance test 4 - delete 10 cross-connects OK + +L2XC Switching +`````````````` +:: + + ============================================================================== + L2XC Test Case + ============================================================================== + L2XC dual-loop test OK + L2XC single-loop test OK + +LISP Tunnels +```````````` +:: + + ============================================================================== + Basic LISP test + ============================================================================== + Test case for basic encapsulation OK + +Load Balancer +````````````` +:: + + ============================================================================== + Load Balancer Test Case + ============================================================================== + Load Balancer IP4 GRE4 OK + Load Balancer IP4 GRE6 OK + Load Balancer IP6 GRE4 OK + Load Balancer IP6 GRE6 OK + +MACIP Access Control +```````````````````` +:: + + ============================================================================== + MACIP Tests + ============================================================================== + MACIP 10 ACLs each with 100+ entries OK + MACIP 10 ACLs each with 100+ entries with IP4 traffic OK + MACIP 10 ACLs each with 100+ entries with IP6 traffic OK + MACIP ACL with 10 entries OK + MACIP ACL with 100 entries OK + MACIP ACL with 2 entries OK + MACIP ACL with 20 entries OK + MACIP ACL with 5 entries OK + MACIP ACL with 50 entries OK + MACIP 2 ACLs each with 100+ entries OK + MACIP replace ACL OK + MACIP ACL delete intf with acl OK + + ============================================================================== + MACIP with IP6 traffic + ============================================================================== + IP6 MACIP exactMAC|exactIP ACL bridged traffic OK + IP6 MACIP exactMAC|subnetIP ACL bridged traffic OK + IP6 MACIP exactMAC|wildIP ACL bridged traffic OK + IP6 MACIP oui_MAC|exactIP ACL bridged traffic OK + IP6 MACIP ouiMAC|subnetIP ACL bridged traffic OK + IP6 MACIP ouiMAC|wildIP ACL bridged traffic OK + IP6 MACIP wildcardMAC|exactIP ACL bridged traffic OK + IP6 MACIP wildcardMAC|subnetIP ACL bridged traffic OK + IP6 MACIP wildcardMAC|wildIP ACL bridged traffic OK + MACIP replace ACL with IP6 traffic OK + IP6 MACIP exactMAC|exactIP ACL routed traffic OK + IP6 MACIP exactMAC|subnetIP ACL routed traffic OK + IP6 MACIP exactMAC|wildIP ACL routed traffic OK + IP6 MACIP ouiMAC|exactIP ACL routed traffic OK + IP6 MACIP ouiMAC|subnetIP ACL routed traffic OK + IP6 MACIP ouiMAC|wildIP ACL routed traffic OK + IP6 MACIP wildcardMAC|exactIP ACL routed traffic OK + IP6 MACIP wildcardMAC|subnetIP ACL routed traffic OK + IP6 MACIP wildcardMAC|wildIP ACL OK + + ============================================================================== + MACIP with IP4 traffic + ============================================================================== + IP4 MACIP wildcardMAC|exactIP ACL bridged traffic OK + IP4 MACIP exactMAC|exactIP ACL bridged traffic OK + IP4 MACIP exactMAC|subnetIP ACL bridged traffic OK + IP4 MACIP exactMAC|wildIP ACL bridged traffic OK + IP4 MACIP ouiMAC|exactIP ACL bridged traffic OK + IP4 MACIP ouiMAC|subnetIP ACL bridged traffic OK + IP4 MACIP ouiMAC|wildIP ACL bridged traffic OK + IP4 MACIP wildcardMAC|subnetIP ACL bridged traffic OK + IP4 MACIP wildcardMAC|wildIP ACL bridged traffic OK + MACIP replace ACL with IP4 traffic OK + IP4 MACIP exactMAC|exactIP ACL routed traffic OK + IP4 MACIP exactMAC|subnetIP ACL routed traffic OK + IP4 MACIP exactMAC|wildIP ACL routed traffic OK + IP4 MACIP ouiMAC|exactIP ACL routed traffic OK + IP4 MACIP ouiMAC|subnetIP ACL routed traffic OK + IP4 MACIP ouiMAC|wildIP ACL routed traffic OK + IP4 MACIP wildcardMAC|exactIP ACL routed traffic OK + IP4 MACIP wildcardMAC|subnetIP ACL routed traffic OK + IP4 MACIP wildcardMAC|wildIP ACL OK + +MAP Softwires +````````````` +:: + + ============================================================================== + MAP Test Case + ============================================================================== + MAP-E OK + +MFIB Multicast FIB +`````````````````` +:: + + ============================================================================== + MFIB Test Case + ============================================================================== + MFIB Unit Tests OK + +MPLS Switching +`````````````` +:: + + ============================================================================== + MPLS-L2 + ============================================================================== + Virtual Private LAN Service OK + Virtual Private Wire Service OK + + ============================================================================== + MPLS Test Case + ============================================================================== + MPLS Local Label Binding test OK + MPLS Deagg OK + MPLS label imposition test OK + MPLS Interface Receive OK + MPLS Multicast Head-end OK + MPLS IPv4 Multicast Tail OK + MPLS IPv6 Multicast Tail OK + MPLS Multicast Mid Point OK + MPLS label swap tests OK + MPLS Tunnel Tests OK + MPLS V4 Explicit NULL test OK + MPLS V6 Explicit NULL test OK + + ============================================================================== + MPLS PIC edge convergence + ============================================================================== + MPLS eBGP PIC edge convergence OK + MPLS iBGP PIC edge convergence OK + MPLSv6 eBGP PIC edge convergence OK + + ============================================================================== + MPLS disabled + ============================================================================== + MPLS Disabled OK + +NAT44 +````` +:: + + ============================================================================== + NAT44 Test Cases + ============================================================================== + Delete NAT44 session OK + NAT44 dynamic translation test OK + NAT44 handling of client packets with TTL=1 OK + NAT44 handling of error responses to client packets with TTL=2 OK + NAT44 handling of server packets with TTL=1 OK + NAT44 handling of error responses to server packets with TTL=2 OK + NAT44 interfaces without configured IP address OK + NAT44 forwarding test OK + NAT44 translate fragments arriving in order OK + NAT44 translate fragments arriving out of order OK + NAT44 hairpinning - 1:1 NAPT OK + NAT44 hairpinning - 1:1 NAT OK + 1:1 NAT translate packet with unknown protocol - hairpinning OK + NAT44 translate packet with unknown protocol - hairpinning OK + Identity NAT OK + NAT44 multiple inside interfaces with overlapping address space OK + Acquire NAT44 addresses from interface OK + Identity NAT with addresses from interface OK + Static mapping with addresses from interface OK + IPFIX logging NAT addresses exhausted OK + IPFIX logging NAT44 session created/delted OK + MAX translations per user - recycle the least recently used OK + NAT44 multiple non-overlapping address space inside interfaces OK + One armed NAT44 OK + NAT44 interface output feature (in2out postrouting) OK + NAT44 interface output feature hairpinning (in2out postrouting) OK + NAT44 interface output feature VRF aware (in2out postrouting) OK + Ping internal host from outside network OK + Ping NAT44 out interface from outside network OK + NAT44 add pool addresses to FIB OK + Port restricted NAT44 (MAP-E CE) OK + NAT44 fragments hairpinning OK + NAT44 set/get virtual fragmentation reassembly OK + 1:1 NAT initialized from inside network OK + NAT44 interfaces without configured IP address - 1:1 NAT OK + NAT44 local service load balancing OK + 1:1 NAT initialized from outside network OK + 1:1 NAT translate packet with unknown protocol OK + 1:1 NAT VRF awareness OK + 1:1 NAPT initialized from inside network OK + NAT44 interfaces without configured IP address - 1:1 NAPT OK + 1:1 NAPT initialized from outside network OK + Twice NAT44 OK + Acquire twice NAT44 addresses from interface OK + Twice NAT44 local service load balancing OK + NAT44 translate packet with unknown protocol OK + NAT44 tenant VRF independent address pool mode OK + NAT44 tenant VRF aware address pool mode OK + + ============================================================================== + Deterministic NAT Test Cases + ============================================================================== + Deterministic NAT translation test (TCP, UDP, ICMP) OK + NAT plugin run deterministic mode OK + Deterministic NAT multiple users OK + Deterministic NAT maximum sessions per user limit SKIP + Deterministic NAT session timeouts SKIP + Set deterministic NAT timeouts OK + Deterministic NAT TCP session close from inside network OK + Deterministic NAT TCP session close from outside network OK + +NAT64 +````` +:: + + ============================================================================== + NAT64 Test Cases + ============================================================================== + NAT64 dynamic translation test OK + NAT64 translate fragments arriving in order OK + NAT64 translate fragments arriving out of order OK + NAT64 hairpinning OK + NAT64 translate packet with unknown protocol - hairpinning OK + NAT64 ICMP Error message translation OK + Enable/disable NAT64 feature on the interface OK + Acquire NAT64 pool addresses from interface OK + One armed NAT64 OK + Add/delete address to NAT64 pool OK + NAT64 Network-Specific Prefix OK + NAT64 fragments hairpinning OK + NAT64 session timeout SKIP + Set NAT64 timeouts OK + NAT64 static translation test OK + Add/delete static BIB entry OK + NAT64 translate packet with unknown protocol OK + +P2P Ethernet Subinterface +````````````````````````` +:: + + ============================================================================== + P2P Ethernet tests + ============================================================================== + delete/create p2p subif OK + create 1k of p2p subifs OK + + ============================================================================== + P2P Ethernet IPv4 tests + ============================================================================== + receive ipv4 packet via p2p subinterface OK + route rx packet not matching p2p subinterface OK + send ip4 packet via p2p subinterface OK + drop tx ip4 packet not matching p2p subinterface OK + + ============================================================================== + P2P Ethernet IPv6 tests + ============================================================================== + receive ipv6 packet via p2p subinterface OK + drop rx packet not matching p2p subinterface OK + route rx ip6 packet not matching p2p subinterface OK + send packet via p2p subinterface OK + drop tx ip6 packet not matching p2p subinterface OK + standard routing without p2p subinterfaces OK + +PPPoE Encapsulation +``````````````````` +:: + + ============================================================================== + PPPoE Test Case + ============================================================================== + PPPoE Add Same Session Twice Test OK + PPPoE Decap Test OK + PPPoE Decap Multiple Sessions Test OK + PPPoE Delete Same Session Twice Test OK + PPPoE Encap Test OK + PPPoE Encap Multiple Sessions Test OK + +SPAN Switch Port Analyzer +````````````````````````` +:: + + ============================================================================== + SPAN Test Case + ============================================================================== + SPAN device rx mirror OK + SPAN l2 broadcast mirror OK + SPAN l2 rx tx mirror OK + SPAN l2 tx mirror OK + SPAN l2 rx mirror OK + SPAN l2 rx mirror into 1ad subif+vtr OK + SPAN l2 rx mirror into 1q subif+vtr OK + SPAN l2 rx mirror into gre-subif+vtr OK + SPAN l2 rx mirror into vxlan OK + +SRv6 Routing +```````````` +:: + + ============================================================================== + SRv6 Test Case + ============================================================================== + Test SRv6 End (without PSP) behavior. OK + Test SRv6 End.DT4 behavior. OK + Test SRv6 End.DT6 behavior. OK + Test SRv6 End.DX2 behavior. OK + Test SRv6 End.DX4 behavior. OK + Test SRv6 End.DX6 behavior. OK + Test SRv6 End.X (without PSP) behavior. OK + Test SRv6 End.X with PSP behavior. OK + Test SRv6 End with PSP behavior. OK + Test SRv6 Transit.Encaps behavior for IPv6. OK + Test SRv6 Transit.Encaps behavior for IPv4. OK + Test SRv6 Transit.Encaps behavior for L2. SKIP + Test SRv6 Transit.Insert behavior (IPv6 only). OK + Test SRv6 Transit.Insert behavior (IPv6 only). OK + +TCP/IP Stack +```````````` +:: + + ============================================================================== + TCP Test Case + ============================================================================== + TCP builtin client/server transfer OK + TCP Unit Tests OK + +UDP Stack +````````` +:: + + ============================================================================== + UDP Encap Test Case + ============================================================================== + UDP Encap test OK + +VTR VLAN Tag Rewrites +````````````````````` +:: + + ============================================================================== + VTR Test Case + ============================================================================== + 1AD VTR pop 1 test OK + 1AD VTR pop 2 test OK + 1AD VTR push 1 1AD test OK + 1AD VTR push 1 1Q test OK + 1AD VTR push 2 1AD test OK + 1AD VTR push 2 1Q test OK + 1AD VTR translate 1 -> 1 1AD test OK + 1AD VTR translate 1 -> 1 1Q test OK + 1AD VTR translate 1 -> 2 1AD test OK + 1AD VTR translate 1 -> 2 1Q test OK + 1AD VTR translate 2 -> 1 1AD test OK + 1AD VTR translate 2 -> 1 1Q test OK + 1AD VTR translate 2 -> 2 1AD test OK + 1AD VTR translate 2 -> 2 1Q test OK + 1Q VTR pop 1 test OK + 1Q VTR push 1 test OK + 1Q VTR push 2 test OK + 1Q VTR translate 1 -> 1 test OK + 1Q VTR translate 1 -> 2 test OK + +VXLAN Tunnels +````````````` +:: + + ============================================================================== + VXLAN Test Case + ============================================================================== + Decapsulation test OK + Encapsulation test OK + Multicast flood test OK + Multicast receive test OK + Unicast flood test OK + +VXLAN-GPE Tunnels +````````````````` +:: + + ============================================================================== + VXLAN-GPE Test Case + ============================================================================== + Decapsulation test SKIP + Encapsulation test SKIP + Multicast flood test SKIP + Multicast receive test SKIP + Unicast flood test SKIP + +Other Tests +``````````` +:: + + ============================================================================== + Ping Test Case + ============================================================================== + basic ping test OK + burst ping test OK + + ============================================================================== + Session Test Case + ============================================================================== + Session Unit Tests OK + + ============================================================================== + Template verification, timer tests + ============================================================================== + timer less than template timeout OK + timer greater than template timeout OK + verify cflow packet fields OK + diff --git a/docs/report/dpdk_performance_tests/documentation.rst b/docs/report/dpdk_performance_tests/documentation.rst index 47ec7cbe2a..254569dc66 100644 --- a/docs/report/dpdk_performance_tests/documentation.rst +++ b/docs/report/dpdk_performance_tests/documentation.rst @@ -1,5 +1,5 @@ -Documentation
-=============
-
-`CSIT DPDK Performance Tests Documentation`_ contains detailed
-functional description and input parameters for each test case.
+Documentation +============= + +`CSIT DPDK Performance Tests Documentation`_ contains detailed +functional description and input parameters for each test case. diff --git a/docs/report/dpdk_performance_tests/test_environment.rst b/docs/report/dpdk_performance_tests/test_environment.rst index eb6617b11c..204792015f 100644 --- a/docs/report/dpdk_performance_tests/test_environment.rst +++ b/docs/report/dpdk_performance_tests/test_environment.rst @@ -1,68 +1,68 @@ -.. include:: ../vpp_performance_tests/test_environment_intro.rst
-
-.. include:: ../vpp_performance_tests/test_environment_sut_conf_1.rst
-
-.. include:: ../vpp_performance_tests/test_environment_sut_conf_3.rst
-
-
-DUT Configuration - DPDK
-------------------------
-
-**DPDK Version**
-
-|dpdk-release|
-
-**DPDK Compile Parameters**
-
-.. code-block:: bash
-
- make install T=x86_64-native-linuxapp-gcc -j
-
-**Testpmd Startup Configuration**
-
-Testpmd startup configuration changes per test case with different settings for CPU
-cores, rx-queues. Startup config is aligned with applied test case tag:
-
-Tagged by **1T1C**
-
-.. code-block:: bash
-
- testpmd -c 0x3 -n 4 -- --numa --nb-ports=2 --portmask=0x3 --nb-cores=1 --max-pkt-len=9000 --txqflags=0 --forward-mode=io --rxq=1 --txq=1 --burst=64 --rxd=1024 --txd=1024 --disable-link-check --auto-start
-
-Tagged by **2T2C**
-
-.. code-block:: bash
-
- testpmd -c 0x403 -n 4 -- --numa --nb-ports=2 --portmask=0x3 --nb-cores=2 --max-pkt-len=9000 --txqflags=0 --forward-mode=io --rxq=1 --txq=1 --burst=64 --rxd=1024 --txd=1024 --disable-link-check --auto-start
-
-Tagged by **4T4C**
-
-.. code-block:: bash
-
- testpmd -c 0xc07 -n 4 -- --numa --nb-ports=2 --portmask=0x3 --nb-cores=4 --max-pkt-len=9000 --txqflags=0 --forward-mode=io --rxq=2 --txq=2 --burst=64 --rxd=1024 --txd=1024 --disable-link-check --auto-start
-
-**L3FWD Startup Configuration**
-
-L3FWD startup configuration changes per test case with different settings for CPU
-cores, rx-queues. Startup config is aligned with applied test case tag:
-
-Tagged by **1T1C**
-
-.. code-block:: bash
-
- l3fwd -l 1 -n 4 -- -P -L -p 0x3 --config='${port_config}' --enable-jumbo --max-pkt-len=9000 --eth-dest=0,${adj_mac0} --eth-dest=1,${adj_mac1} --parse-ptype
-
-Tagged by **2T2C**
-
-.. code-block:: bash
-
- l3fwd -l 1,2 -n 4 -- -P -L -p 0x3 --config='${port_config}' --enable-jumbo --max-pkt-len=9000 --eth-dest=0,${adj_mac0} --eth-dest=1,${adj_mac1} --parse-ptype
-
-Tagged by **4T4C**
-
-.. code-block:: bash
-
- l3fwd -l 1,2,3,4 -n 4 -- -P -L -p 0x3 --config='${port_config}' --enable-jumbo --max-pkt-len=9000 --eth-dest=0,${adj_mac0} --eth-dest=1,${adj_mac1} --parse-ptype
-
-
-.. include:: ../vpp_performance_tests/test_environment_tg.rst
+.. include:: ../vpp_performance_tests/test_environment_intro.rst + +.. include:: ../vpp_performance_tests/test_environment_sut_conf_1.rst + +.. include:: ../vpp_performance_tests/test_environment_sut_conf_3.rst + + +DUT Configuration - DPDK +------------------------ + +**DPDK Version** + +|dpdk-release| + +**DPDK Compile Parameters** + +.. code-block:: bash + + make install T=x86_64-native-linuxapp-gcc -j + +**Testpmd Startup Configuration** + +Testpmd startup configuration changes per test case with different settings for CPU +cores, rx-queues. Startup config is aligned with applied test case tag: + +Tagged by **1T1C** + +.. code-block:: bash + + testpmd -c 0x3 -n 4 -- --numa --nb-ports=2 --portmask=0x3 --nb-cores=1 --max-pkt-len=9000 --txqflags=0 --forward-mode=io --rxq=1 --txq=1 --burst=64 --rxd=1024 --txd=1024 --disable-link-check --auto-start + +Tagged by **2T2C** + +.. code-block:: bash + + testpmd -c 0x403 -n 4 -- --numa --nb-ports=2 --portmask=0x3 --nb-cores=2 --max-pkt-len=9000 --txqflags=0 --forward-mode=io --rxq=1 --txq=1 --burst=64 --rxd=1024 --txd=1024 --disable-link-check --auto-start + +Tagged by **4T4C** + +.. code-block:: bash + + testpmd -c 0xc07 -n 4 -- --numa --nb-ports=2 --portmask=0x3 --nb-cores=4 --max-pkt-len=9000 --txqflags=0 --forward-mode=io --rxq=2 --txq=2 --burst=64 --rxd=1024 --txd=1024 --disable-link-check --auto-start + +**L3FWD Startup Configuration** + +L3FWD startup configuration changes per test case with different settings for CPU +cores, rx-queues. Startup config is aligned with applied test case tag: + +Tagged by **1T1C** + +.. code-block:: bash + + l3fwd -l 1 -n 4 -- -P -L -p 0x3 --config='${port_config}' --enable-jumbo --max-pkt-len=9000 --eth-dest=0,${adj_mac0} --eth-dest=1,${adj_mac1} --parse-ptype + +Tagged by **2T2C** + +.. code-block:: bash + + l3fwd -l 1,2 -n 4 -- -P -L -p 0x3 --config='${port_config}' --enable-jumbo --max-pkt-len=9000 --eth-dest=0,${adj_mac0} --eth-dest=1,${adj_mac1} --parse-ptype + +Tagged by **4T4C** + +.. code-block:: bash + + l3fwd -l 1,2,3,4 -n 4 -- -P -L -p 0x3 --config='${port_config}' --enable-jumbo --max-pkt-len=9000 --eth-dest=0,${adj_mac0} --eth-dest=1,${adj_mac1} --parse-ptype + + +.. include:: ../vpp_performance_tests/test_environment_tg.rst diff --git a/docs/report/honeycomb_functional_tests/csit_release_notes.rst b/docs/report/honeycomb_functional_tests/csit_release_notes.rst index f47a15af5a..c1c46ff9e7 100644 --- a/docs/report/honeycomb_functional_tests/csit_release_notes.rst +++ b/docs/report/honeycomb_functional_tests/csit_release_notes.rst @@ -1,31 +1,31 @@ -CSIT Release Notes
-==================
-
-Changes in CSIT |release|
--------------------------
-
-No changes.
-
-Known Issues
-------------
-
-Here is the list of known issues in CSIT |release| for Honeycomb functional
-tests in VIRL:
-
-+---+--------------------------------------------+---------------+-------------------------------------------------------------------------+
-| # | Issue | Jira ID | Description |
-+---+--------------------------------------------+---------------+-------------------------------------------------------------------------+
-| 1 | IPv6 BGP route configuration | HONEYCOMB-403 | Configuring Ipv6 route results in missing writer |
-| | | | for IPv6Route and IPv6NextHop exception. |
-+---+--------------------------------------------+---------------+-------------------------------------------------------------------------+
-| 2 | IP address subnet validation | VPP-649 | When configuring two IP addresses from the same subnet on an interface, |
-| | | | VPP refuses the configuration but returns code 200:OK. This can cause |
-| | | | desync between Honeycomb's config and operational data. |
-+---+--------------------------------------------+---------------+-------------------------------------------------------------------------+
-| 3 | VxLAN GPE configuration crashes VPP | VPP-875 | Specific VxLAN GPE configurations cause VPP to crash and restart. |
-+---+--------------------------------------------+---------------+-------------------------------------------------------------------------+
-| 4 | Operational data for IPv6 special routes | HC2VPP-254 | Special hop routes are misidentified as regular routes |
-| | | | in operational data. |
-+---+--------------------------------------------+---------------+-------------------------------------------------------------------------+
-| 5 | LISP PITR feature configuration | HC2VPP-263 | Locator set reference in operational data is incorrect. |
-+---+--------------------------------------------+---------------+-------------------------------------------------------------------------+
+CSIT Release Notes +================== + +Changes in CSIT |release| +------------------------- + +No changes. + +Known Issues +------------ + +Here is the list of known issues in CSIT |release| for Honeycomb functional +tests in VIRL: + ++---+--------------------------------------------+---------------+-------------------------------------------------------------------------+ +| # | Issue | Jira ID | Description | ++---+--------------------------------------------+---------------+-------------------------------------------------------------------------+ +| 1 | IPv6 BGP route configuration | HONEYCOMB-403 | Configuring Ipv6 route results in missing writer | +| | | | for IPv6Route and IPv6NextHop exception. | ++---+--------------------------------------------+---------------+-------------------------------------------------------------------------+ +| 2 | IP address subnet validation | VPP-649 | When configuring two IP addresses from the same subnet on an interface, | +| | | | VPP refuses the configuration but returns code 200:OK. This can cause | +| | | | desync between Honeycomb's config and operational data. | ++---+--------------------------------------------+---------------+-------------------------------------------------------------------------+ +| 3 | VxLAN GPE configuration crashes VPP | VPP-875 | Specific VxLAN GPE configurations cause VPP to crash and restart. | ++---+--------------------------------------------+---------------+-------------------------------------------------------------------------+ +| 4 | Operational data for IPv6 special routes | HC2VPP-254 | Special hop routes are misidentified as regular routes | +| | | | in operational data. | ++---+--------------------------------------------+---------------+-------------------------------------------------------------------------+ +| 5 | LISP PITR feature configuration | HC2VPP-263 | Locator set reference in operational data is incorrect. | ++---+--------------------------------------------+---------------+-------------------------------------------------------------------------+ diff --git a/docs/report/honeycomb_functional_tests/documentation.rst b/docs/report/honeycomb_functional_tests/documentation.rst index 7ded3d4181..354c4062f6 100644 --- a/docs/report/honeycomb_functional_tests/documentation.rst +++ b/docs/report/honeycomb_functional_tests/documentation.rst @@ -1,5 +1,5 @@ -Documentation
-=============
-
-`CSIT Honeycomb Functional Tests Documentation`_ contains detailed
-functional description and input parameters for each test case.
+Documentation +============= + +`CSIT Honeycomb Functional Tests Documentation`_ contains detailed +functional description and input parameters for each test case. diff --git a/docs/report/honeycomb_functional_tests/test_environment.rst b/docs/report/honeycomb_functional_tests/test_environment.rst index 8f7e7efa51..8d8d832e92 100644 --- a/docs/report/honeycomb_functional_tests/test_environment.rst +++ b/docs/report/honeycomb_functional_tests/test_environment.rst @@ -1,5 +1,5 @@ -Test Environment
-================
-
-CSIT functional tests are currently executed in FD.IO VIRL testbed.
-See `VPP Functional Tests Environment <../vpp_functional_tests/test_environment.html>`_ for more details.
+Test Environment +================ + +CSIT functional tests are currently executed in FD.IO VIRL testbed. +See `VPP Functional Tests Environment <../vpp_functional_tests/test_environment.html>`_ for more details. diff --git a/docs/report/nsh_sfc_functional_tests/documentation.rst b/docs/report/nsh_sfc_functional_tests/documentation.rst index 709f2a8a84..9e3298a295 100644 --- a/docs/report/nsh_sfc_functional_tests/documentation.rst +++ b/docs/report/nsh_sfc_functional_tests/documentation.rst @@ -1,6 +1,6 @@ -Documentation
-=============
-
-`CSIT NSH_SFC Functional Tests Documentation`_ contains detailed
-functional description and input parameters for each test case.
-
+Documentation +============= + +`CSIT NSH_SFC Functional Tests Documentation`_ contains detailed +functional description and input parameters for each test case. + diff --git a/docs/report/nsh_sfc_functional_tests/overview.rst b/docs/report/nsh_sfc_functional_tests/overview.rst index 6420d6a660..754fd9242d 100644 --- a/docs/report/nsh_sfc_functional_tests/overview.rst +++ b/docs/report/nsh_sfc_functional_tests/overview.rst @@ -1,118 +1,118 @@ -Overview
-========
-
-Tested Virtual Topologies
--------------------------
-
-CSIT NSH_SFC functional tests are executed on virtualized topologies created using
-:abbr:`VIRL (Virtual Internet Routing Lab)` simulation platform contributed by
-Cisco. VIRL runs on physical baremetal servers hosted by LF FD.io project.
-Majority of the tests are executed in the three node logical test topology -
-Traffic Generator (TG) node and two Systems Under Test (SUT) nodes connected in
-a loop. Some tests use two node logical test topology - TG node and SUT1 node.
-Both logical test topologies are shown in the figures below.::
-
- +------------------------+ +------------------------+
- | | | |
- | +------------------+ | | +------------------+ |
- | | <-----------------> | |
- | | | | | | | |
- | | DUT1 <-----------------> DUT2 | |
- | +--^--^------------+ | | +------------^--^--+ |
- | | | | | | | |
- | | | SUT1 | | SUT2 | | |
- +------------------------+ +------------------------+
- | | | |
- | | | |
- | | +-----------+ | |
- | +---------------> <---------------+ |
- | | TG | |
- +------------------> <------------------+
- +-----------+
-
- +------------------------+
- | |
- | +------------------+ |
- +---------------> <--------------+
- | | | | | |
- | |------------> DUT1 <-----------+ |
- | | | +------------------+ | | |
- | | | | | |
- | | | SUT1 | | |
- | | +------------------------+ | |
- | | | |
- | | | |
- | | +-----------+ | |
- | +---------------> <---------------+ |
- | | TG | |
- +------------------> <------------------+
- +-----------+
-
-SUT1 and SUT2 are two VMs (Ubuntu or Centos, depending on the test suite), TG
-is a Traffic Generator (TG, another Ubuntu VM). SUTs run VPP SW application in
-Linux user-mode as a Device Under Test (DUT) within the VM. TG runs Scapy SW
-application as a packet Traffic Generator. Logical connectivity between SUTs
-and to TG is provided using virtual NICs using VMs' virtio driver.
-
-Virtual testbeds are created on-demand whenever a verification job is started
-(e.g. triggered by the gerrit patch submission) and destroyed upon completion
-of all functional tests. Each node is a Virtual Machine and each connection
-that is drawn on the diagram is available for use in any test case. During the
-test execution, all nodes are reachable thru the Management network connected
-to every node via dedicated virtual NICs and virtual links (not shown above
-for clarity).
-
-For the test cases that require DUT (VPP) to communicate with VM over the
-vhost-user interfaces, a nested VM is created on SUT1 and/or SUT2 for the
-duration of these particular test cases only. DUT (VPP) test topology with VM
-is shown in the figure below including the applicable packet flow thru the VM
-(marked in the figure with ``***``).::
-
- +------------------------+ +------------------------+
- | +----------+ | | +----------+ |
- | | VM | | | | VM | |
- | | ****** | | | | ****** | |
- | +--^----^--+ | | +--^----^--+ |
- | *| |* | | *| |* |
- | +------v----v------+ | | +------v----v------+ |
- | | * * |**|***********|**| * * | |
- | | ***** *******<----------------->******* ***** | |
- | | * DUT1 | | | | DUT2 * | |
- | +--^---------------+ | | +---------------^--+ |
- | *| | | |* |
- | *| SUT1 | | SUT2 |* |
- +------------------------+ +------------------^-----+
- *| |*
- *| |*
- *| +-----------+ |*
- *| | | |*
- *+------------------> TG <------------------+*
- ******************* | |********************
- +-----------+
-
-NSH_SFC Functional Tests Coverage
----------------------------------
-
-Following NSH_SFC functional test areas are covered in the CSIT |release| with
-results listed in this report:
-
-- **NSH SFC Classifier** - TG sends some TCP packets to test NSH SFC
- Classifier functional. DUT1 will receive these packets from one NIC and loopback
- the VXLAN-GPE-NSH encapsulated packets to the TG from other NIC.
- - Test case count: 7
-- **NSH SFC Proxy Inbound** - TG sends some VXLAN-GPE-NSH encapsulated packets
- to test NSH SFC Proxy Inbound functional. DUT1 will receive these packets from one
- NIC and loopback the VXLAN encapsulated packets to the TG from other NIC.
- - Test case count: 6
-- **NSH SFC Proxy Outbound** - TG sends some VXLAN encapsulated packets to test
- NSH SFC Proxy Outbound functional. DUT1 will receive these packets from one NIC
- and loopback the VXLAN-GPE-NSH encapsulated packets to the TG from other NIC.
- - Test case count: 6
-- **NSH SFC Service Function Forward** - TG sends some VXLAN-GPE-NSH encapsulated
- packets to test NSH SFC Service Function Forward functional. DUT1 will receive these
- packets from one NIC and swap the VXLAN-GPE-NSH header, after that DUT1 loopback the
- VXLAN-GPE-NSH encapsulated packtes to the TG from other NIC.
- - Test case count: 6
-
-Total 25 NSH SFC functional tests in the CSIT |release|.
-
+Overview +======== + +Tested Virtual Topologies +------------------------- + +CSIT NSH_SFC functional tests are executed on virtualized topologies created using +:abbr:`VIRL (Virtual Internet Routing Lab)` simulation platform contributed by +Cisco. VIRL runs on physical baremetal servers hosted by LF FD.io project. +Majority of the tests are executed in the three node logical test topology - +Traffic Generator (TG) node and two Systems Under Test (SUT) nodes connected in +a loop. Some tests use two node logical test topology - TG node and SUT1 node. +Both logical test topologies are shown in the figures below.:: + + +------------------------+ +------------------------+ + | | | | + | +------------------+ | | +------------------+ | + | | <-----------------> | | + | | | | | | | | + | | DUT1 <-----------------> DUT2 | | + | +--^--^------------+ | | +------------^--^--+ | + | | | | | | | | + | | | SUT1 | | SUT2 | | | + +------------------------+ +------------------------+ + | | | | + | | | | + | | +-----------+ | | + | +---------------> <---------------+ | + | | TG | | + +------------------> <------------------+ + +-----------+ + + +------------------------+ + | | + | +------------------+ | + +---------------> <--------------+ + | | | | | | + | |------------> DUT1 <-----------+ | + | | | +------------------+ | | | + | | | | | | + | | | SUT1 | | | + | | +------------------------+ | | + | | | | + | | | | + | | +-----------+ | | + | +---------------> <---------------+ | + | | TG | | + +------------------> <------------------+ + +-----------+ + +SUT1 and SUT2 are two VMs (Ubuntu or Centos, depending on the test suite), TG +is a Traffic Generator (TG, another Ubuntu VM). SUTs run VPP SW application in +Linux user-mode as a Device Under Test (DUT) within the VM. TG runs Scapy SW +application as a packet Traffic Generator. Logical connectivity between SUTs +and to TG is provided using virtual NICs using VMs' virtio driver. + +Virtual testbeds are created on-demand whenever a verification job is started +(e.g. triggered by the gerrit patch submission) and destroyed upon completion +of all functional tests. Each node is a Virtual Machine and each connection +that is drawn on the diagram is available for use in any test case. During the +test execution, all nodes are reachable thru the Management network connected +to every node via dedicated virtual NICs and virtual links (not shown above +for clarity). + +For the test cases that require DUT (VPP) to communicate with VM over the +vhost-user interfaces, a nested VM is created on SUT1 and/or SUT2 for the +duration of these particular test cases only. DUT (VPP) test topology with VM +is shown in the figure below including the applicable packet flow thru the VM +(marked in the figure with ``***``).:: + + +------------------------+ +------------------------+ + | +----------+ | | +----------+ | + | | VM | | | | VM | | + | | ****** | | | | ****** | | + | +--^----^--+ | | +--^----^--+ | + | *| |* | | *| |* | + | +------v----v------+ | | +------v----v------+ | + | | * * |**|***********|**| * * | | + | | ***** *******<----------------->******* ***** | | + | | * DUT1 | | | | DUT2 * | | + | +--^---------------+ | | +---------------^--+ | + | *| | | |* | + | *| SUT1 | | SUT2 |* | + +------------------------+ +------------------^-----+ + *| |* + *| |* + *| +-----------+ |* + *| | | |* + *+------------------> TG <------------------+* + ******************* | |******************** + +-----------+ + +NSH_SFC Functional Tests Coverage +--------------------------------- + +Following NSH_SFC functional test areas are covered in the CSIT |release| with +results listed in this report: + +- **NSH SFC Classifier** - TG sends some TCP packets to test NSH SFC + Classifier functional. DUT1 will receive these packets from one NIC and loopback + the VXLAN-GPE-NSH encapsulated packets to the TG from other NIC. + - Test case count: 7 +- **NSH SFC Proxy Inbound** - TG sends some VXLAN-GPE-NSH encapsulated packets + to test NSH SFC Proxy Inbound functional. DUT1 will receive these packets from one + NIC and loopback the VXLAN encapsulated packets to the TG from other NIC. + - Test case count: 6 +- **NSH SFC Proxy Outbound** - TG sends some VXLAN encapsulated packets to test + NSH SFC Proxy Outbound functional. DUT1 will receive these packets from one NIC + and loopback the VXLAN-GPE-NSH encapsulated packets to the TG from other NIC. + - Test case count: 6 +- **NSH SFC Service Function Forward** - TG sends some VXLAN-GPE-NSH encapsulated + packets to test NSH SFC Service Function Forward functional. DUT1 will receive these + packets from one NIC and swap the VXLAN-GPE-NSH header, after that DUT1 loopback the + VXLAN-GPE-NSH encapsulated packtes to the TG from other NIC. + - Test case count: 6 + +Total 25 NSH SFC functional tests in the CSIT |release|. + diff --git a/docs/report/nsh_sfc_functional_tests/test_environment.rst b/docs/report/nsh_sfc_functional_tests/test_environment.rst index ca7285d5e7..3b35fd432f 100644 --- a/docs/report/nsh_sfc_functional_tests/test_environment.rst +++ b/docs/report/nsh_sfc_functional_tests/test_environment.rst @@ -1 +1 @@ -.. include:: ../vpp_functional_tests/test_environment.rst
+.. include:: ../vpp_functional_tests/test_environment.rst diff --git a/docs/report/test_operational_data/index.rst b/docs/report/test_operational_data/index.rst index d5eca487c0..a85e8eaea2 100644 --- a/docs/report/test_operational_data/index.rst +++ b/docs/report/test_operational_data/index.rst @@ -1,8 +1,8 @@ -.. only:: html
-
- Test Operational Data
- =====================
-
- .. toctree::
-
- vpp_performance_operational_data/index
+.. only:: html + + Test Operational Data + ===================== + + .. toctree:: + + vpp_performance_operational_data/index diff --git a/docs/report/vpp_functional_tests/documentation.rst b/docs/report/vpp_functional_tests/documentation.rst index e0f180c3ec..6d99185892 100644 --- a/docs/report/vpp_functional_tests/documentation.rst +++ b/docs/report/vpp_functional_tests/documentation.rst @@ -1,6 +1,6 @@ -Documentation
-=============
-
-`CSIT VPP Functional Tests Documentation`_ contains detailed
-functional description and input parameters for each test case.
-
+Documentation +============= + +`CSIT VPP Functional Tests Documentation`_ contains detailed +functional description and input parameters for each test case. + diff --git a/docs/report/vpp_functional_tests/overview.rst b/docs/report/vpp_functional_tests/overview.rst index 1cd5def87d..32d70f102b 100644 --- a/docs/report/vpp_functional_tests/overview.rst +++ b/docs/report/vpp_functional_tests/overview.rst @@ -1,149 +1,149 @@ -Overview
-========
-
-Tested Virtual Topologies
--------------------------
-
-CSIT VPP functional tests are executed on virtualized topologies created using
-:abbr:`VIRL (Virtual Internet Routing Lab)` simulation platform contributed by
-Cisco. VIRL runs on physical baremetal servers hosted by LF FD.io project.
-Majority of the tests are executed in the three node logical test topology -
-Traffic Generator (TG) node and two Systems Under Test (SUT) nodes connected in
-a loop. Some tests use two node logical test topology - TG node and SUT1 node.
-Both logical test topologies are shown in the figures below.::
-
- +------------------------+ +------------------------+
- | | | |
- | +------------------+ | | +------------------+ |
- | | <-----------------> | |
- | | | | | | | |
- | | DUT1 <-----------------> DUT2 | |
- | +--^--^------------+ | | +------------^--^--+ |
- | | | | | | | |
- | | | SUT1 | | SUT2 | | |
- +------------------------+ +------------------------+
- | | | |
- | | | |
- | | +-----------+ | |
- | +---------------> <---------------+ |
- | | TG | |
- +------------------> <------------------+
- +-----------+
-
- +------------------------+
- | |
- | +------------------+ |
- +---------------> <--------------+
- | | | | | |
- | |------------> DUT1 <-----------+ |
- | | | +------------------+ | | |
- | | | | | |
- | | | SUT1 | | |
- | | +------------------------+ | |
- | | | |
- | | | |
- | | +-----------+ | |
- | +---------------> <---------------+ |
- | | TG | |
- +------------------> <------------------+
- +-----------+
-
-SUT1 and SUT2 are two VMs (Ubuntu or Centos, depending on the test suite), TG
-is a Traffic Generator (TG, another Ubuntu VM). SUTs run VPP SW application in
-Linux user-mode as a Device Under Test (DUT) within the VM. TG runs Scapy SW
-application as a packet Traffic Generator. Logical connectivity between SUTs
-and to TG is provided using virtual NICs using VMs' virtio driver.
-
-Virtual testbeds are created on-demand whenever a verification job is started
-(e.g. triggered by the gerrit patch submission) and destroyed upon completion
-of all functional tests. Each node is a Virtual Machine and each connection
-that is drawn on the diagram is available for use in any test case. During the
-test execution, all nodes are reachable thru the Management network connected
-to every node via dedicated virtual NICs and virtual links (not shown above
-for clarity).
-
-For the test cases that require DUT (VPP) to communicate with VM over the
-vhost-user interfaces, a nested VM is created on SUT1 and/or SUT2 for the
-duration of these particular test cases only. DUT (VPP) test topology with VM
-is shown in the figure below including the applicable packet flow thru the VM
-(marked in the figure with ``***``).::
-
- +------------------------+ +------------------------+
- | +----------+ | | +----------+ |
- | | VM | | | | VM | |
- | | ****** | | | | ****** | |
- | +--^----^--+ | | +--^----^--+ |
- | *| |* | | *| |* |
- | +------v----v------+ | | +------v----v------+ |
- | | * * |**|***********|**| * * | |
- | | ***** *******<----------------->******* ***** | |
- | | * DUT1 | | | | DUT2 * | |
- | +--^---------------+ | | +---------------^--+ |
- | *| | | |* |
- | *| SUT1 | | SUT2 |* |
- +------------------------+ +------------------^-----+
- *| |*
- *| |*
- *| +-----------+ |*
- *| | | |*
- *+------------------> TG <------------------+*
- ******************* | |********************
- +-----------+
-
-Functional Tests Coverage
--------------------------
-
-Following VPP functional test areas are covered in the CSIT |release| with
-results listed in this report:
-
-- **DHCP - Client and Proxy** - Dynamic Host Control Protocol Client and Proxy
- for IPv4, IPv6.
-- **GRE Overlay Tunnels** - Generic Routing Encapsulation for IPv4.
-- **L2BD Ethernet Switching** - L2 Bridge-Domain switched-forwarding for
- untagged Ethernet, dot1q and dot1ad tagged.
-- **L2XC Ethernet Switching** - L2 Cross-Connect switched-forwarding for
- untagged Ethernet, dot1q and dot1ad tagged.
-- **LISP Overlay Tunnels** - Locator/ID Separation Protocol overlay tunnels and
- locator/id mapping control.
-- **Softwire Tunnels** - IPv4-in-IPv6 softwire tunnels.
-- **Cop Address Security** - address white-list and black-list filtering for
- IPv4, IPv6.
-- **IPSec - Tunnels and Transport** - IPSec tunnel and transport modes.
-- **IPv6 Routed-Forwarding** - IPv6 routed-forwarding, NS/ND, RA, ICMPv6.
-- **uRPF Source Security** - unicast Reverse Path Forwarding security.
-- **Tap Interface** - baseline Linux tap interface tests.
-- **Telemetry - IPFIX and SPAN** - IPFIX netflow statistics and SPAN port
- mirroring.
-- **VRF Routed-Forwarding** - multi-context IPVPN routed-forwarding for IPv4,
- IPv6.
-- **iACL Security** - ingress Access Control List security for IPv4, IPv6, MAC.
-- **IPv4 Routed-Forwarding** - IPv4 routed-forwarding, RPF, ARP, Proxy ARP,
- ICMPv4.
-- **QoS Policer Metering** - ingress packet rate measuring and marking for IPv4,
- IPv6.
-- **VLAN Tag Translation** - L2 VLAN tag translation 2to2, 2to1, 1to2, 1to1.
-- **VXLAN Overlay Tunnels** - VXLAN tunneling for L2-over-IP, for IPv4, IPv6.
-
-Functional Tests Naming
------------------------
-
-CSIT |release| follows a common structured naming convention for all performance
-and system functional tests, introduced in CSIT rls1701.
-
-The naming should be intuitive for majority of the tests. Complete description
-of CSIT test naming convention is provided on :ref:`csit_test_naming`..
-
-Here few illustrative examples of the new naming usage for functional test
-suites:
-
-#. **Physical port to physical port - a.k.a. NIC-to-NIC, Phy-to-Phy, P2P**
-
- - *eth2p-ethip4-ip4base-func.robot* => 2 ports of Ethernet, IPv4 baseline
- routed forwarding, functional tests.
-
-#. **Physical port to VM (or VM chain) to physical port - a.k.a. NIC2VM2NIC,
- P2V2P, NIC2VMchain2NIC, P2V2V2P**
-
- - *eth2p-ethip4vxlan-l2bdbasemaclrn-eth-2vhost-1vm-func.robot* => 2 ports of
- Ethernet, IPv4 VXLAN Ethernet, L2 bridge-domain switching to/from two vhost
- interfaces and one VM, functional tests.
+Overview +======== + +Tested Virtual Topologies +------------------------- + +CSIT VPP functional tests are executed on virtualized topologies created using +:abbr:`VIRL (Virtual Internet Routing Lab)` simulation platform contributed by +Cisco. VIRL runs on physical baremetal servers hosted by LF FD.io project. +Majority of the tests are executed in the three node logical test topology - +Traffic Generator (TG) node and two Systems Under Test (SUT) nodes connected in +a loop. Some tests use two node logical test topology - TG node and SUT1 node. +Both logical test topologies are shown in the figures below.:: + + +------------------------+ +------------------------+ + | | | | + | +------------------+ | | +------------------+ | + | | <-----------------> | | + | | | | | | | | + | | DUT1 <-----------------> DUT2 | | + | +--^--^------------+ | | +------------^--^--+ | + | | | | | | | | + | | | SUT1 | | SUT2 | | | + +------------------------+ +------------------------+ + | | | | + | | | | + | | +-----------+ | | + | +---------------> <---------------+ | + | | TG | | + +------------------> <------------------+ + +-----------+ + + +------------------------+ + | | + | +------------------+ | + +---------------> <--------------+ + | | | | | | + | |------------> DUT1 <-----------+ | + | | | +------------------+ | | | + | | | | | | + | | | SUT1 | | | + | | +------------------------+ | | + | | | | + | | | | + | | +-----------+ | | + | +---------------> <---------------+ | + | | TG | | + +------------------> <------------------+ + +-----------+ + +SUT1 and SUT2 are two VMs (Ubuntu or Centos, depending on the test suite), TG +is a Traffic Generator (TG, another Ubuntu VM). SUTs run VPP SW application in +Linux user-mode as a Device Under Test (DUT) within the VM. TG runs Scapy SW +application as a packet Traffic Generator. Logical connectivity between SUTs +and to TG is provided using virtual NICs using VMs' virtio driver. + +Virtual testbeds are created on-demand whenever a verification job is started +(e.g. triggered by the gerrit patch submission) and destroyed upon completion +of all functional tests. Each node is a Virtual Machine and each connection +that is drawn on the diagram is available for use in any test case. During the +test execution, all nodes are reachable thru the Management network connected +to every node via dedicated virtual NICs and virtual links (not shown above +for clarity). + +For the test cases that require DUT (VPP) to communicate with VM over the +vhost-user interfaces, a nested VM is created on SUT1 and/or SUT2 for the +duration of these particular test cases only. DUT (VPP) test topology with VM +is shown in the figure below including the applicable packet flow thru the VM +(marked in the figure with ``***``).:: + + +------------------------+ +------------------------+ + | +----------+ | | +----------+ | + | | VM | | | | VM | | + | | ****** | | | | ****** | | + | +--^----^--+ | | +--^----^--+ | + | *| |* | | *| |* | + | +------v----v------+ | | +------v----v------+ | + | | * * |**|***********|**| * * | | + | | ***** *******<----------------->******* ***** | | + | | * DUT1 | | | | DUT2 * | | + | +--^---------------+ | | +---------------^--+ | + | *| | | |* | + | *| SUT1 | | SUT2 |* | + +------------------------+ +------------------^-----+ + *| |* + *| |* + *| +-----------+ |* + *| | | |* + *+------------------> TG <------------------+* + ******************* | |******************** + +-----------+ + +Functional Tests Coverage +------------------------- + +Following VPP functional test areas are covered in the CSIT |release| with +results listed in this report: + +- **DHCP - Client and Proxy** - Dynamic Host Control Protocol Client and Proxy + for IPv4, IPv6. +- **GRE Overlay Tunnels** - Generic Routing Encapsulation for IPv4. +- **L2BD Ethernet Switching** - L2 Bridge-Domain switched-forwarding for + untagged Ethernet, dot1q and dot1ad tagged. +- **L2XC Ethernet Switching** - L2 Cross-Connect switched-forwarding for + untagged Ethernet, dot1q and dot1ad tagged. +- **LISP Overlay Tunnels** - Locator/ID Separation Protocol overlay tunnels and + locator/id mapping control. +- **Softwire Tunnels** - IPv4-in-IPv6 softwire tunnels. +- **Cop Address Security** - address white-list and black-list filtering for + IPv4, IPv6. +- **IPSec - Tunnels and Transport** - IPSec tunnel and transport modes. +- **IPv6 Routed-Forwarding** - IPv6 routed-forwarding, NS/ND, RA, ICMPv6. +- **uRPF Source Security** - unicast Reverse Path Forwarding security. +- **Tap Interface** - baseline Linux tap interface tests. +- **Telemetry - IPFIX and SPAN** - IPFIX netflow statistics and SPAN port + mirroring. +- **VRF Routed-Forwarding** - multi-context IPVPN routed-forwarding for IPv4, + IPv6. +- **iACL Security** - ingress Access Control List security for IPv4, IPv6, MAC. +- **IPv4 Routed-Forwarding** - IPv4 routed-forwarding, RPF, ARP, Proxy ARP, + ICMPv4. +- **QoS Policer Metering** - ingress packet rate measuring and marking for IPv4, + IPv6. +- **VLAN Tag Translation** - L2 VLAN tag translation 2to2, 2to1, 1to2, 1to1. +- **VXLAN Overlay Tunnels** - VXLAN tunneling for L2-over-IP, for IPv4, IPv6. + +Functional Tests Naming +----------------------- + +CSIT |release| follows a common structured naming convention for all performance +and system functional tests, introduced in CSIT rls1701. + +The naming should be intuitive for majority of the tests. Complete description +of CSIT test naming convention is provided on :ref:`csit_test_naming`.. + +Here few illustrative examples of the new naming usage for functional test +suites: + +#. **Physical port to physical port - a.k.a. NIC-to-NIC, Phy-to-Phy, P2P** + + - *eth2p-ethip4-ip4base-func.robot* => 2 ports of Ethernet, IPv4 baseline + routed forwarding, functional tests. + +#. **Physical port to VM (or VM chain) to physical port - a.k.a. NIC2VM2NIC, + P2V2P, NIC2VMchain2NIC, P2V2V2P** + + - *eth2p-ethip4vxlan-l2bdbasemaclrn-eth-2vhost-1vm-func.robot* => 2 ports of + Ethernet, IPv4 VXLAN Ethernet, L2 bridge-domain switching to/from two vhost + interfaces and one VM, functional tests. diff --git a/docs/report/vpp_functional_tests/test_environment.rst b/docs/report/vpp_functional_tests/test_environment.rst index 175e5181b0..dfc40b0040 100644 --- a/docs/report/vpp_functional_tests/test_environment.rst +++ b/docs/report/vpp_functional_tests/test_environment.rst @@ -1,622 +1,622 @@ -Test Environment
-================
-
-CSIT functional tests are currently executed in FD.IO VIRL testbed. The physical
-VIRL testbed infrastructure consists of three VIRL hosts:
-
-- All hosts are Cisco UCS C240-M4 (2x Intel(R) Xeon(R) CPU E5-2699 v3 @2.30GHz,
- 18c, 512GB RAM)
-
-- tb4-virl1:
-
- - Status: Production
- - OS: Ubuntu 16.04.2
- - STD server version 0.10.32.16
- - UWM server version 0.10.32.16
-
-- tb4-virl2:
-
- - Status: Production
- - OS: Ubuntu 16.04.2
- - STD server version 0.10.32.16
- - UWM server version 0.10.32.16
-
-- tb4-virl3:
-
- - Status: Testing
- - OS: Ubuntu 16.04.2
- - STD server version 0.10.32.19
- - UWM server version 0.10.32.19
-
-Whenever a patch is submitted to gerrit for review, parallel VIRL simulations
-are started to reduce the time of execution of all functional tests. The number
-of parallel VIRL simulations is equal to number of test groups defined by
-TEST_GROUPS variable in :file:`csit/bootstrap.sh` file. The VIRL host to run
-VIRL simulation is selected based on least load algorithm per VIRL simulation.
-
-Every VIRL simulation uses the same three-node - Traffic Generator (TG node) and
-two Systems Under Test (SUT1 and SUT2) - "double-ring" topology. The appropriate
-pre-built VPP packages built by Jenkins for the patch under review are then
-installed on the two SUTs, along with their :file:`/etc/vpp/startup.conf` file,
-in all VIRL simulations.
-
-SUT Configuration - VIRL Guest VM
----------------------------------
-
-Configurations of the SUT VMs is defined in `VIRL topologies directory`_
-
-- List of SUT VM interfaces:::
-
- <interface id="0" name="GigabitEthernet0/4/0"/>
- <interface id="1" name="GigabitEthernet0/5/0"/>
- <interface id="2" name="GigabitEthernet0/6/0"/>
- <interface id="3" name="GigabitEthernet0/7/0"/>
-
-- Number of 2MB hugepages: 1024
-
-- Maximum number of memory map areas: 20000
-
-- Kernel Shared Memory Max: 2147483648 (vm.nr_hugepages * 2 * 1024 * 1024)
-
-SUT Configuration - VIRL Guest OS Linux
----------------------------------------
-
-In CSIT terminology, the VM operating system for both SUTs that |vpp-release| has
-been tested with, is the following:
-
-#. **Ubuntu VIRL image**
-
- This image implies Ubuntu 16.04.1 LTS, current as of yyyy-mm-dd (that is,
- package versions are those that would have been installed by a
- :command:`apt-get update`, :command:`apt-get upgrade` on that day), produced
- by CSIT disk image build scripts.
-
- The exact list of installed packages and their versions (including the Linux
- kernel package version) are included in `VIRL ubuntu images lists`_.
-
- A replica of this VM image can be built by running the :command:`build.sh`
- script in CSIT repository.
-
-#. **CentOS VIRL image**
-
- This image implies Centos 7.4-1711, current as of yyyy-mm-dd (that is,
- package versions are those that would have been installed by a
- :command:`yum update`, :command:`yum upgrade` on that day), produced
- by CSIT disk image build scripts.
-
- The exact list of installed packages and their versions (including the Linux
- kernel package version) are included in `VIRL centos images lists`_.
-
- A replica of this VM image can be built by running the :command:`build.sh`
- script in CSIT repository.
-
-#. **Nested VM image**
-
- In addition to the "main" VM image, tests which require VPP to communicate to
- a VM over a vhost-user interface, utilize a "nested" VM image.
-
- This "nested" VM is dynamically created and destroyed as part of a test case,
- and therefore the "nested" VM image is optimized to be small, lightweight and
- have a short boot time. The "nested" VM image is not built around any
- established Linux distribution, but is based on `BuildRoot
- <https://buildroot.org/>`_, a tool for building embedded Linux systems. Just
- as for the "main" image, scripts to produce an identical replica of the
- "nested" image are included in CSIT GIT repository, and the image can be
- rebuilt using the "build.sh" script at `VIRL nested`_.
-
-DUT Configuration - VPP
------------------------
-
-Every System Under Test runs VPP SW application in Linux user-mode as a Device
-Under Test (DUT) node.
-
-**DUT port configuration**
-
-Port configuration of DUTs is defined in topology file that is generated per
-VIRL simulation based on the definition stored in `VIRL topologies directory`_.
-
-Example of DUT nodes configuration:::
-
- DUT1:
- type: DUT
- host: "10.30.51.157"
- port: 22
- username: cisco
- honeycomb:
- user: admin
- passwd: admin
- port: 8183
- netconf_port: 2831
- priv_key: |
- -----BEGIN RSA PRIVATE KEY-----
- MIIEpgIBAAKCAQEAwUDlTpzSHpwLQotZOFS4AgcPNEWCnP1AB2hWFmvI+8Kah/gb
- v8ruZU9RqhPs56tyKzxbhvNkY4VbH5F1GilHZu3mLqzM4KfghMmaeMEjO1T7BYYd
- vuBfTvIluljfQ2vAlnYrDwn+ClxJk81m0pDgvrLEX4qVVh2sGh7UEkYy5r82DNa2
- 4VjzPB1J/c8a9zP8FoZUhYIzF4FLvRMjUADpbMXgJMsGpaZLmz95ap0Eot7vb1Cc
- 1LvF97iyBCrtIOSKRKA50ZhLGjMKmOwnYU+cP5718tbproDVi6VJOo7zeuXyetMs
- 8YBl9kWblWG9BqP9jctFvsmi5G7hXgq1Y8u+DwIDAQABAoIBAQC/W4E0DHjLMny7
- 0bvw2YKzD0Zw3fttdB94tkm4PdZv5MybooPnsAvLaXVV0hEdfVi5kzSWNl/LY/tN
- EP1BgGphc2QgB59/PPxGwFIjDCvUzlsZpynBHe+B/qh5ExNQcVvsIOqWI7DXlXaN
- 0i/khOzmJ6HncRRah1spKimYRsaUUDskyg7q3QqMWVaqBbbMvLs/w7ZWd/zoDqCU
- MY/pCI6hkB3QbRo0OdiZLohphBl2ShABTwjvVyyKL5UA4jAEneJrhH5gWVLXnfgD
- p62W5CollKEYblC8mUkPxpP7Qo277zw3xaq+oktIZhc5SUEUd7nJZtNqVAHqkItW
- 79VmpKyxAoGBAPfU+kqNPaTSvp+x1n5sn2SgipzDtgi9QqNmC4cjtrQQaaqI57SG
- OHw1jX8i7L2G1WvVtkHg060nlEVo5n65ffFOqeVBezLVJ7ghWI8U+oBiJJyQ4boD
- GJVNsoOSUQ0rtuGd9eVwfDk3ol9aCN0KK53oPfIYli29pyu4l095kg11AoGBAMef
- bPEMBI/2XmCPshLSwhGFl+dW8d+Klluj3CUQ/0vUlvma3dfBOYNsIwAgTP0iIUTg
- 8DYE6KBCdPtxAUEI0YAEAKB9ry1tKR2NQEIPfslYytKErtwjAiqSi0heM6+zwEzu
- f54Z4oBhsMSL0jXoOMnu+NZzEc6EUdQeY4O+jhjzAoGBAIogC3dtjMPGKTP7+93u
- UE/XIioI8fWg9fj3sMka4IMu+pVvRCRbAjRH7JrFLkjbUyuMqs3Arnk9K+gbdQt/
- +m95Njtt6WoFXuPCwgbM3GidSmZwYT4454SfDzVBYScEDCNm1FuR+8ov9bFLDtGT
- D4gsngnGJj1MDFXTxZEn4nzZAoGBAKCg4WmpUPaCuXibyB+rZavxwsTNSn2lJ83/
- sYJGBhf/raiV/FLDUcM1vYg5dZnu37RsB/5/vqxOLZGyYd7x+Jo5HkQGPnKgNwhn
- g8BkdZIRF8uEJqxOo0ycdOU7n/2O93swIpKWo5LIiRPuqqzj+uZKnAL7vuVdxfaY
- qVz2daMPAoGBALgaaKa3voU/HO1PYLWIhFrBThyJ+BQSQ8OqrEzC8AnegWFxRAM8
- EqrzZXl7ACUuo1dH0Eipm41j2+BZWlQjiUgq5uj8+yzy+EU1ZRRyJcOKzbDACeuD
- BpWWSXGBI5G4CppeYLjMUHZpJYeX1USULJQd2c4crLJKb76E8gz3Z9kN
- -----END RSA PRIVATE KEY-----
-
- interfaces:
- port1:
- mac_address: "fa:16:3e:9b:89:52"
- pci_address: "0000:00:04.0"
- link: link1
- port2:
- mac_address: "fa:16:3e:7a:33:60"
- pci_address: "0000:00:05.0"
- link: link4
- port3:
- mac_address: "fa:16:3e:29:b7:ae"
- pci_address: "0000:00:06.0"
- link: link3
- port4:
- mac_address: "fa:16:3e:76:8d:ff"
- pci_address: "0000:00:07.0"
- link: link6
- DUT2:
- type: DUT
- host: "10.30.51.156"
- port: 22
- username: cisco
- honeycomb:
- user: admin
- passwd: admin
- port: 8183
- netconf_port: 2831
- priv_key: |
- -----BEGIN RSA PRIVATE KEY-----
- MIIEpgIBAAKCAQEAwUDlTpzSHpwLQotZOFS4AgcPNEWCnP1AB2hWFmvI+8Kah/gb
- v8ruZU9RqhPs56tyKzxbhvNkY4VbH5F1GilHZu3mLqzM4KfghMmaeMEjO1T7BYYd
- vuBfTvIluljfQ2vAlnYrDwn+ClxJk81m0pDgvrLEX4qVVh2sGh7UEkYy5r82DNa2
- 4VjzPB1J/c8a9zP8FoZUhYIzF4FLvRMjUADpbMXgJMsGpaZLmz95ap0Eot7vb1Cc
- 1LvF97iyBCrtIOSKRKA50ZhLGjMKmOwnYU+cP5718tbproDVi6VJOo7zeuXyetMs
- 8YBl9kWblWG9BqP9jctFvsmi5G7hXgq1Y8u+DwIDAQABAoIBAQC/W4E0DHjLMny7
- 0bvw2YKzD0Zw3fttdB94tkm4PdZv5MybooPnsAvLaXVV0hEdfVi5kzSWNl/LY/tN
- EP1BgGphc2QgB59/PPxGwFIjDCvUzlsZpynBHe+B/qh5ExNQcVvsIOqWI7DXlXaN
- 0i/khOzmJ6HncRRah1spKimYRsaUUDskyg7q3QqMWVaqBbbMvLs/w7ZWd/zoDqCU
- MY/pCI6hkB3QbRo0OdiZLohphBl2ShABTwjvVyyKL5UA4jAEneJrhH5gWVLXnfgD
- p62W5CollKEYblC8mUkPxpP7Qo277zw3xaq+oktIZhc5SUEUd7nJZtNqVAHqkItW
- 79VmpKyxAoGBAPfU+kqNPaTSvp+x1n5sn2SgipzDtgi9QqNmC4cjtrQQaaqI57SG
- OHw1jX8i7L2G1WvVtkHg060nlEVo5n65ffFOqeVBezLVJ7ghWI8U+oBiJJyQ4boD
- GJVNsoOSUQ0rtuGd9eVwfDk3ol9aCN0KK53oPfIYli29pyu4l095kg11AoGBAMef
- bPEMBI/2XmCPshLSwhGFl+dW8d+Klluj3CUQ/0vUlvma3dfBOYNsIwAgTP0iIUTg
- 8DYE6KBCdPtxAUEI0YAEAKB9ry1tKR2NQEIPfslYytKErtwjAiqSi0heM6+zwEzu
- f54Z4oBhsMSL0jXoOMnu+NZzEc6EUdQeY4O+jhjzAoGBAIogC3dtjMPGKTP7+93u
- UE/XIioI8fWg9fj3sMka4IMu+pVvRCRbAjRH7JrFLkjbUyuMqs3Arnk9K+gbdQt/
- +m95Njtt6WoFXuPCwgbM3GidSmZwYT4454SfDzVBYScEDCNm1FuR+8ov9bFLDtGT
- D4gsngnGJj1MDFXTxZEn4nzZAoGBAKCg4WmpUPaCuXibyB+rZavxwsTNSn2lJ83/
- sYJGBhf/raiV/FLDUcM1vYg5dZnu37RsB/5/vqxOLZGyYd7x+Jo5HkQGPnKgNwhn
- g8BkdZIRF8uEJqxOo0ycdOU7n/2O93swIpKWo5LIiRPuqqzj+uZKnAL7vuVdxfaY
- qVz2daMPAoGBALgaaKa3voU/HO1PYLWIhFrBThyJ+BQSQ8OqrEzC8AnegWFxRAM8
- EqrzZXl7ACUuo1dH0Eipm41j2+BZWlQjiUgq5uj8+yzy+EU1ZRRyJcOKzbDACeuD
- BpWWSXGBI5G4CppeYLjMUHZpJYeX1USULJQd2c4crLJKb76E8gz3Z9kN
- -----END RSA PRIVATE KEY-----
-
- interfaces:
- port1:
- mac_address: "fa:16:3e:ad:6c:7d"
- pci_address: "0000:00:04.0"
- link: link2
- port2:
- mac_address: "fa:16:3e:94:a4:99"
- pci_address: "0000:00:05.0"
- link: link5
- port3:
- mac_address: "fa:16:3e:75:92:da"
- pci_address: "0000:00:06.0"
- link: link3
- port4:
- mac_address: "fa:16:3e:2c:b1:2a"
- pci_address: "0000:00:07.0"
- link: link6
-
-**VPP Version**
-
-|vpp-release|
-
-**VPP Installed Packages - Ubuntu**
-::
-
- $ dpkg -l vpp\*
- Desired=Unknown/Install/Remove/Purge/Hold
- | Status=Not/Inst/Conf-files/Unpacked/halF-conf/Half-inst/trig-aWait/Trig-pend
- |/ Err?=(none)/Reinst-required (Status,Err: uppercase=bad)
- ||/ Name Version Architecture Description
- +++-==============-=============-============-=================================================
- ii vpp 18.04-release amd64 Vector Packet Processing--executables
- ii vpp-dbg 18.04-release amd64 Vector Packet Processing--debug symbols
- ii vpp-dev 18.04-release amd64 Vector Packet Processing--development support
- ii vpp-dpdk-dkms 18.02-vpp1 amd64 DPDK Development Package for VPP - Kernel Modules
- ii vpp-lib 18.04-release amd64 Vector Packet Processing--runtime libraries
- ii vpp-plugins 18.04-release amd64 Vector Packet Processing--runtime plugins
-
-**VPP Installed Packages - Centos**
-::
-
- $ rpm -qai vpp*
- Name : vpp
- Version : 18.04
- Release : release
- Architecture: x86_64
- Install Date: Fri 04 May 2018 02:47:36 AM EDT
- Group : Unspecified
- Size : 2311324
- License : ASL 2.0
- Signature : (none)
- Source RPM : vpp-18.04-release.src.rpm
- Build Date : Wed 25 Apr 2018 01:00:24 PM EDT
- Build Host : c29a51c12e88
- Relocations : (not relocatable)
- Summary : Vector Packet Processing
- Description :
- This package provides VPP executables: vpp, vpp_api_test, vpp_json_test
- vpp - the vector packet engine
- vpp_api_test - vector packet engine API test tool
- vpp_json_test - vector packet engine JSON test tool
- Name : vpp-lib
- Version : 18.04
- Release : release
- Architecture: x86_64
- Install Date: Fri 04 May 2018 02:47:36 AM EDT
- Group : System Environment/Libraries
- Size : 24949034
- License : ASL 2.0
- Signature : (none)
- Source RPM : vpp-18.04-release.src.rpm
- Build Date : Wed 25 Apr 2018 01:00:24 PM EDT
- Build Host : c29a51c12e88
- Relocations : (not relocatable)
- Summary : VPP libraries
- Description :
- This package contains the VPP shared libraries, including:
- vppinfra - foundation library supporting vectors, hashes, bitmaps, pools, and string formatting.
- svm - vm library
- vlib - vector processing library
- vlib-api - binary API library
- vnet - network stack library
- Name : vpp-selinux-policy
- Version : 18.04
- Release : release
- Architecture: x86_64
- Install Date: Fri 04 May 2018 02:47:35 AM EDT
- Group : System Environment/Base
- Size : 86170
- License : ASL 2.0
- Signature : (none)
- Source RPM : vpp-18.04-release.src.rpm
- Build Date : Wed 25 Apr 2018 01:00:24 PM EDT
- Build Host : c29a51c12e88
- Relocations : (not relocatable)
- Summary : VPP Security-Enhanced Linux (SELinux) policy
- Description :
- This package contains a tailored VPP SELinux policy
- Name : vpp-devel
- Version : 18.04
- Release : release
- Architecture: x86_64
- Install Date: Fri 04 May 2018 02:47:38 AM EDT
- Group : Development/Libraries
- Size : 10632218
- License : ASL 2.0
- Signature : (none)
- Source RPM : vpp-18.04-release.src.rpm
- Build Date : Wed 25 Apr 2018 01:00:24 PM EDT
- Build Host : c29a51c12e88
- Relocations : (not relocatable)
- Summary : VPP header files, static libraries
- Description :
- This package contains the header files for VPP.
- Install this package if you want to write a
- program for compilation and linking with vpp lib.
- vlib
- vlibmemory
- vnet - devices, classify, dhcp, ethernet flow, gre, ip, etc.
- vpp-api
- vppinfra
- Name : vpp-plugins
- Version : 18.04
- Release : release
- Architecture: x86_64
- Install Date: Fri 04 May 2018 02:47:37 AM EDT
- Group : System Environment/Libraries
- Size : 44145968
- License : ASL 2.0
- Signature : (none)
- Source RPM : vpp-18.04-release.src.rpm
- Build Date : Wed 25 Apr 2018 01:00:24 PM EDT
- Build Host : c29a51c12e88
- Relocations : (not relocatable)
- Summary : Vector Packet Processing--runtime plugins
- Description :
- This package contains VPP plugins
-
-**VPP Startup Configuration**
-
-VPP startup configuration is common for all test cases except test cases related
-to SW Crypto device.
-
-**Default**
-
-::
-
- $ cat /etc/vpp/startup.conf
- unix {
- nodaemon
- log /var/log/vpp/vpp.log
- full-coredump
- cli-listen /run/vpp/cli.sock
- gid vpp
- }
-
- api-trace {
- ## This stanza controls binary API tracing. Unless there is a very strong reason,
- ## please leave this feature enabled.
- on
- ## Additional parameters:
- ##
- ## To set the number of binary API trace records in the circular buffer, configure nitems
- ##
- ## nitems <nnn>
- ##
- ## To save the api message table decode tables, configure a filename. Results in /tmp/<filename>
- ## Very handy for understanding api message changes between versions, identifying missing
- ## plugins, and so forth.
- ##
- ## save-api-table <filename>
- }
-
- api-segment {
- gid vpp
- }
-
- cpu {
- ## In the VPP there is one main thread and optionally the user can create worker(s)
- ## The main thread and worker thread(s) can be pinned to CPU core(s) manually or automatically
-
- ## Manual pinning of thread(s) to CPU core(s)
-
- ## Set logical CPU core where main thread runs
- # main-core 1
-
- ## Set logical CPU core(s) where worker threads are running
- # corelist-workers 2-3,18-19
-
- ## Automatic pinning of thread(s) to CPU core(s)
-
- ## Sets number of CPU core(s) to be skipped (1 ... N-1)
- ## Skipped CPU core(s) are not used for pinning main thread and working thread(s).
- ## The main thread is automatically pinned to the first available CPU core and worker(s)
- ## are pinned to next free CPU core(s) after core assigned to main thread
- # skip-cores 4
-
- ## Specify a number of workers to be created
- ## Workers are pinned to N consecutive CPU cores while skipping "skip-cores" CPU core(s)
- ## and main thread's CPU core
- # workers 2
-
- ## Set scheduling policy and priority of main and worker threads
-
- ## Scheduling policy options are: other (SCHED_OTHER), batch (SCHED_BATCH)
- ## idle (SCHED_IDLE), fifo (SCHED_FIFO), rr (SCHED_RR)
- # scheduler-policy fifo
-
- ## Scheduling priority is used only for "real-time policies (fifo and rr),
- ## and has to be in the range of priorities supported for a particular policy
- # scheduler-priority 50
- }
-
- # dpdk {
- ## Change default settings for all intefaces
- # dev default {
- ## Number of receive queues, enables RSS
- ## Default is 1
- # num-rx-queues 3
-
- ## Number of transmit queues, Default is equal
- ## to number of worker threads or 1 if no workers treads
- # num-tx-queues 3
-
- ## Number of descriptors in transmit and receive rings
- ## increasing or reducing number can impact performance
- ## Default is 1024 for both rx and tx
- # num-rx-desc 512
- # num-tx-desc 512
-
- ## VLAN strip offload mode for interface
- ## Default is off
- # vlan-strip-offload on
- # }
-
- ## Whitelist specific interface by specifying PCI address
- # dev 0000:02:00.0
-
- ## Whitelist specific interface by specifying PCI address and in
- ## addition specify custom parameters for this interface
- # dev 0000:02:00.1 {
- # num-rx-queues 2
- # }
-
- ## Specify bonded interface and its slaves via PCI addresses
- ##
- ## Bonded interface in XOR load balance mode (mode 2) with L3 and L4 headers
- # vdev eth_bond0,mode=2,slave=0000:02:00.0,slave=0000:03:00.0,xmit_policy=l34
- # vdev eth_bond1,mode=2,slave=0000:02:00.1,slave=0000:03:00.1,xmit_policy=l34
- ##
- ## Bonded interface in Active-Back up mode (mode 1)
- # vdev eth_bond0,mode=1,slave=0000:02:00.0,slave=0000:03:00.0
- # vdev eth_bond1,mode=1,slave=0000:02:00.1,slave=0000:03:00.1
-
- ## Change UIO driver used by VPP, Options are: igb_uio, vfio-pci,
- ## uio_pci_generic or auto (default)
- # uio-driver vfio-pci
-
- ## Disable mutli-segment buffers, improves performance but
- ## disables Jumbo MTU support
- # no-multi-seg
-
- ## Increase number of buffers allocated, needed only in scenarios with
- ## large number of interfaces and worker threads. Value is per CPU socket.
- ## Default is 16384
- # num-mbufs 128000
-
- ## Change hugepages allocation per-socket, needed only if there is need for
- ## larger number of mbufs. Default is 256M on each detected CPU socket
- # socket-mem 2048,2048
-
- ## Disables UDP / TCP TX checksum offload. Typically needed for use
- ## faster vector PMDs (together with no-multi-seg)
- # no-tx-checksum-offload
- # }
-
-
- # plugins {
- ## Adjusting the plugin path depending on where the VPP plugins are
- # path /home/bms/vpp/build-root/install-vpp-native/vpp/lib64/vpp_plugins
-
- ## Disable all plugins by default and then selectively enable specific plugins
- # plugin default { disable }
- # plugin dpdk_plugin.so { enable }
- # plugin acl_plugin.so { enable }
-
- ## Enable all plugins by default and then selectively disable specific plugins
- # plugin dpdk_plugin.so { disable }
- # plugin acl_plugin.so { disable }
- # }
-
- ## Alternate syntax to choose plugin path
- # plugin_path /home/bms/vpp/build-root/install-vpp-native/vpp/lib64/vpp_plugins
-
-**SW Crypto Device**
-
-::
-
- $ cat /etc/vpp/startup.conf
- unix
- {
- cli-listen /run/vpp/cli.sock
- gid vpp
- nodaemon
- full-coredump
- log /tmp/vpp.log
- }
- api-segment
- {
- gid vpp
- }
- dpdk
- {
- vdev cryptodev_aesni_gcm_pmd,socket_id=0
- vdev cryptodev_aesni_mb_pmd,socket_id=0
- }
-
-TG Configuration
-----------------
-
-Traffic Generator node is VM running the same OS Linux as SUTs. Ports of this
-VM are used as source (Tx) and destination (Rx) ports for the traffic.
-
-Traffic scripts of test cases are executed on this VM.
-
-**TG VM configuration**
-
-Configuration of the TG VMs is defined in `VIRL topologies directory`_.
-
- /csit/resources/tools/virl/topologies/double-ring-nested.xenial.virl
-
-- List of TG VM interfaces:::
-
- <interface id="0" name="eth1"/>
- <interface id="1" name="eth2"/>
- <interface id="2" name="eth3"/>
- <interface id="3" name="eth4"/>
- <interface id="4" name="eth5"/>
- <interface id="5" name="eth6"/>
-
-**TG node port configuration**
-
-Port configuration of TG is defined in topology file that is generated per VIRL
-simulation based on the definition stored in `VIRL topologies directory`_.
-
-Example of TG node configuration:::
-
- TG:
- type: TG
- host: "10.30.51.155"
- port: 22
- username: cisco
- priv_key: |
- -----BEGIN RSA PRIVATE KEY-----
- MIIEpgIBAAKCAQEAwUDlTpzSHpwLQotZOFS4AgcPNEWCnP1AB2hWFmvI+8Kah/gb
- v8ruZU9RqhPs56tyKzxbhvNkY4VbH5F1GilHZu3mLqzM4KfghMmaeMEjO1T7BYYd
- vuBfTvIluljfQ2vAlnYrDwn+ClxJk81m0pDgvrLEX4qVVh2sGh7UEkYy5r82DNa2
- 4VjzPB1J/c8a9zP8FoZUhYIzF4FLvRMjUADpbMXgJMsGpaZLmz95ap0Eot7vb1Cc
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- 0bvw2YKzD0Zw3fttdB94tkm4PdZv5MybooPnsAvLaXVV0hEdfVi5kzSWNl/LY/tN
- EP1BgGphc2QgB59/PPxGwFIjDCvUzlsZpynBHe+B/qh5ExNQcVvsIOqWI7DXlXaN
- 0i/khOzmJ6HncRRah1spKimYRsaUUDskyg7q3QqMWVaqBbbMvLs/w7ZWd/zoDqCU
- MY/pCI6hkB3QbRo0OdiZLohphBl2ShABTwjvVyyKL5UA4jAEneJrhH5gWVLXnfgD
- p62W5CollKEYblC8mUkPxpP7Qo277zw3xaq+oktIZhc5SUEUd7nJZtNqVAHqkItW
- 79VmpKyxAoGBAPfU+kqNPaTSvp+x1n5sn2SgipzDtgi9QqNmC4cjtrQQaaqI57SG
- OHw1jX8i7L2G1WvVtkHg060nlEVo5n65ffFOqeVBezLVJ7ghWI8U+oBiJJyQ4boD
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- UE/XIioI8fWg9fj3sMka4IMu+pVvRCRbAjRH7JrFLkjbUyuMqs3Arnk9K+gbdQt/
- +m95Njtt6WoFXuPCwgbM3GidSmZwYT4454SfDzVBYScEDCNm1FuR+8ov9bFLDtGT
- D4gsngnGJj1MDFXTxZEn4nzZAoGBAKCg4WmpUPaCuXibyB+rZavxwsTNSn2lJ83/
- sYJGBhf/raiV/FLDUcM1vYg5dZnu37RsB/5/vqxOLZGyYd7x+Jo5HkQGPnKgNwhn
- g8BkdZIRF8uEJqxOo0ycdOU7n/2O93swIpKWo5LIiRPuqqzj+uZKnAL7vuVdxfaY
- qVz2daMPAoGBALgaaKa3voU/HO1PYLWIhFrBThyJ+BQSQ8OqrEzC8AnegWFxRAM8
- EqrzZXl7ACUuo1dH0Eipm41j2+BZWlQjiUgq5uj8+yzy+EU1ZRRyJcOKzbDACeuD
- BpWWSXGBI5G4CppeYLjMUHZpJYeX1USULJQd2c4crLJKb76E8gz3Z9kN
- -----END RSA PRIVATE KEY-----
-
- interfaces:
- port3:
- mac_address: "fa:16:3e:b9:e1:27"
- pci_address: "0000:00:06.0"
- link: link1
- driver: virtio-pci
- port4:
- mac_address: "fa:16:3e:e9:c8:68"
- pci_address: "0000:00:07.0"
- link: link4
- driver: virtio-pci
- port5:
- mac_address: "fa:16:3e:e8:d3:47"
- pci_address: "0000:00:08.0"
- link: link2
- driver: virtio-pci
- port6:
- mac_address: "fa:16:3e:cf:ca:58"
- pci_address: "0000:00:09.0"
- link: link5
- driver: virtio-pci
-
-**Traffic generator**
-
-Functional tests utilize Scapy as a traffic generator. There was used Scapy
-v2.3.1 for |vpp-release| tests.
-
+Test Environment +================ + +CSIT functional tests are currently executed in FD.IO VIRL testbed. The physical +VIRL testbed infrastructure consists of three VIRL hosts: + +- All hosts are Cisco UCS C240-M4 (2x Intel(R) Xeon(R) CPU E5-2699 v3 @2.30GHz, + 18c, 512GB RAM) + +- tb4-virl1: + + - Status: Production + - OS: Ubuntu 16.04.2 + - STD server version 0.10.32.16 + - UWM server version 0.10.32.16 + +- tb4-virl2: + + - Status: Production + - OS: Ubuntu 16.04.2 + - STD server version 0.10.32.16 + - UWM server version 0.10.32.16 + +- tb4-virl3: + + - Status: Testing + - OS: Ubuntu 16.04.2 + - STD server version 0.10.32.19 + - UWM server version 0.10.32.19 + +Whenever a patch is submitted to gerrit for review, parallel VIRL simulations +are started to reduce the time of execution of all functional tests. The number +of parallel VIRL simulations is equal to number of test groups defined by +TEST_GROUPS variable in :file:`csit/bootstrap.sh` file. The VIRL host to run +VIRL simulation is selected based on least load algorithm per VIRL simulation. + +Every VIRL simulation uses the same three-node - Traffic Generator (TG node) and +two Systems Under Test (SUT1 and SUT2) - "double-ring" topology. The appropriate +pre-built VPP packages built by Jenkins for the patch under review are then +installed on the two SUTs, along with their :file:`/etc/vpp/startup.conf` file, +in all VIRL simulations. + +SUT Configuration - VIRL Guest VM +--------------------------------- + +Configurations of the SUT VMs is defined in `VIRL topologies directory`_ + +- List of SUT VM interfaces::: + + <interface id="0" name="GigabitEthernet0/4/0"/> + <interface id="1" name="GigabitEthernet0/5/0"/> + <interface id="2" name="GigabitEthernet0/6/0"/> + <interface id="3" name="GigabitEthernet0/7/0"/> + +- Number of 2MB hugepages: 1024 + +- Maximum number of memory map areas: 20000 + +- Kernel Shared Memory Max: 2147483648 (vm.nr_hugepages * 2 * 1024 * 1024) + +SUT Configuration - VIRL Guest OS Linux +--------------------------------------- + +In CSIT terminology, the VM operating system for both SUTs that |vpp-release| has +been tested with, is the following: + +#. **Ubuntu VIRL image** + + This image implies Ubuntu 16.04.1 LTS, current as of yyyy-mm-dd (that is, + package versions are those that would have been installed by a + :command:`apt-get update`, :command:`apt-get upgrade` on that day), produced + by CSIT disk image build scripts. + + The exact list of installed packages and their versions (including the Linux + kernel package version) are included in `VIRL ubuntu images lists`_. + + A replica of this VM image can be built by running the :command:`build.sh` + script in CSIT repository. + +#. **CentOS VIRL image** + + This image implies Centos 7.4-1711, current as of yyyy-mm-dd (that is, + package versions are those that would have been installed by a + :command:`yum update`, :command:`yum upgrade` on that day), produced + by CSIT disk image build scripts. + + The exact list of installed packages and their versions (including the Linux + kernel package version) are included in `VIRL centos images lists`_. + + A replica of this VM image can be built by running the :command:`build.sh` + script in CSIT repository. + +#. **Nested VM image** + + In addition to the "main" VM image, tests which require VPP to communicate to + a VM over a vhost-user interface, utilize a "nested" VM image. + + This "nested" VM is dynamically created and destroyed as part of a test case, + and therefore the "nested" VM image is optimized to be small, lightweight and + have a short boot time. The "nested" VM image is not built around any + established Linux distribution, but is based on `BuildRoot + <https://buildroot.org/>`_, a tool for building embedded Linux systems. Just + as for the "main" image, scripts to produce an identical replica of the + "nested" image are included in CSIT GIT repository, and the image can be + rebuilt using the "build.sh" script at `VIRL nested`_. + +DUT Configuration - VPP +----------------------- + +Every System Under Test runs VPP SW application in Linux user-mode as a Device +Under Test (DUT) node. + +**DUT port configuration** + +Port configuration of DUTs is defined in topology file that is generated per +VIRL simulation based on the definition stored in `VIRL topologies directory`_. + +Example of DUT nodes configuration::: + + DUT1: + type: DUT + host: "10.30.51.157" + port: 22 + username: cisco + honeycomb: + user: admin + passwd: admin + port: 8183 + netconf_port: 2831 + priv_key: | + -----BEGIN RSA PRIVATE KEY----- + MIIEpgIBAAKCAQEAwUDlTpzSHpwLQotZOFS4AgcPNEWCnP1AB2hWFmvI+8Kah/gb + v8ruZU9RqhPs56tyKzxbhvNkY4VbH5F1GilHZu3mLqzM4KfghMmaeMEjO1T7BYYd + vuBfTvIluljfQ2vAlnYrDwn+ClxJk81m0pDgvrLEX4qVVh2sGh7UEkYy5r82DNa2 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UE/XIioI8fWg9fj3sMka4IMu+pVvRCRbAjRH7JrFLkjbUyuMqs3Arnk9K+gbdQt/ + +m95Njtt6WoFXuPCwgbM3GidSmZwYT4454SfDzVBYScEDCNm1FuR+8ov9bFLDtGT + D4gsngnGJj1MDFXTxZEn4nzZAoGBAKCg4WmpUPaCuXibyB+rZavxwsTNSn2lJ83/ + sYJGBhf/raiV/FLDUcM1vYg5dZnu37RsB/5/vqxOLZGyYd7x+Jo5HkQGPnKgNwhn + g8BkdZIRF8uEJqxOo0ycdOU7n/2O93swIpKWo5LIiRPuqqzj+uZKnAL7vuVdxfaY + qVz2daMPAoGBALgaaKa3voU/HO1PYLWIhFrBThyJ+BQSQ8OqrEzC8AnegWFxRAM8 + EqrzZXl7ACUuo1dH0Eipm41j2+BZWlQjiUgq5uj8+yzy+EU1ZRRyJcOKzbDACeuD + BpWWSXGBI5G4CppeYLjMUHZpJYeX1USULJQd2c4crLJKb76E8gz3Z9kN + -----END RSA PRIVATE KEY----- + + interfaces: + port1: + mac_address: "fa:16:3e:9b:89:52" + pci_address: "0000:00:04.0" + link: link1 + port2: + mac_address: "fa:16:3e:7a:33:60" + pci_address: "0000:00:05.0" + link: link4 + port3: + mac_address: "fa:16:3e:29:b7:ae" + pci_address: "0000:00:06.0" + link: link3 + port4: + mac_address: "fa:16:3e:76:8d:ff" + pci_address: "0000:00:07.0" + link: link6 + DUT2: + type: DUT + host: "10.30.51.156" + port: 22 + username: cisco + honeycomb: + user: admin + passwd: admin + port: 8183 + netconf_port: 2831 + priv_key: | + -----BEGIN RSA PRIVATE KEY----- + MIIEpgIBAAKCAQEAwUDlTpzSHpwLQotZOFS4AgcPNEWCnP1AB2hWFmvI+8Kah/gb + v8ruZU9RqhPs56tyKzxbhvNkY4VbH5F1GilHZu3mLqzM4KfghMmaeMEjO1T7BYYd + vuBfTvIluljfQ2vAlnYrDwn+ClxJk81m0pDgvrLEX4qVVh2sGh7UEkYy5r82DNa2 + 4VjzPB1J/c8a9zP8FoZUhYIzF4FLvRMjUADpbMXgJMsGpaZLmz95ap0Eot7vb1Cc + 1LvF97iyBCrtIOSKRKA50ZhLGjMKmOwnYU+cP5718tbproDVi6VJOo7zeuXyetMs + 8YBl9kWblWG9BqP9jctFvsmi5G7hXgq1Y8u+DwIDAQABAoIBAQC/W4E0DHjLMny7 + 0bvw2YKzD0Zw3fttdB94tkm4PdZv5MybooPnsAvLaXVV0hEdfVi5kzSWNl/LY/tN + EP1BgGphc2QgB59/PPxGwFIjDCvUzlsZpynBHe+B/qh5ExNQcVvsIOqWI7DXlXaN + 0i/khOzmJ6HncRRah1spKimYRsaUUDskyg7q3QqMWVaqBbbMvLs/w7ZWd/zoDqCU + MY/pCI6hkB3QbRo0OdiZLohphBl2ShABTwjvVyyKL5UA4jAEneJrhH5gWVLXnfgD + p62W5CollKEYblC8mUkPxpP7Qo277zw3xaq+oktIZhc5SUEUd7nJZtNqVAHqkItW + 79VmpKyxAoGBAPfU+kqNPaTSvp+x1n5sn2SgipzDtgi9QqNmC4cjtrQQaaqI57SG + OHw1jX8i7L2G1WvVtkHg060nlEVo5n65ffFOqeVBezLVJ7ghWI8U+oBiJJyQ4boD + GJVNsoOSUQ0rtuGd9eVwfDk3ol9aCN0KK53oPfIYli29pyu4l095kg11AoGBAMef + bPEMBI/2XmCPshLSwhGFl+dW8d+Klluj3CUQ/0vUlvma3dfBOYNsIwAgTP0iIUTg + 8DYE6KBCdPtxAUEI0YAEAKB9ry1tKR2NQEIPfslYytKErtwjAiqSi0heM6+zwEzu + f54Z4oBhsMSL0jXoOMnu+NZzEc6EUdQeY4O+jhjzAoGBAIogC3dtjMPGKTP7+93u + UE/XIioI8fWg9fj3sMka4IMu+pVvRCRbAjRH7JrFLkjbUyuMqs3Arnk9K+gbdQt/ + +m95Njtt6WoFXuPCwgbM3GidSmZwYT4454SfDzVBYScEDCNm1FuR+8ov9bFLDtGT + D4gsngnGJj1MDFXTxZEn4nzZAoGBAKCg4WmpUPaCuXibyB+rZavxwsTNSn2lJ83/ + sYJGBhf/raiV/FLDUcM1vYg5dZnu37RsB/5/vqxOLZGyYd7x+Jo5HkQGPnKgNwhn + g8BkdZIRF8uEJqxOo0ycdOU7n/2O93swIpKWo5LIiRPuqqzj+uZKnAL7vuVdxfaY + qVz2daMPAoGBALgaaKa3voU/HO1PYLWIhFrBThyJ+BQSQ8OqrEzC8AnegWFxRAM8 + EqrzZXl7ACUuo1dH0Eipm41j2+BZWlQjiUgq5uj8+yzy+EU1ZRRyJcOKzbDACeuD + BpWWSXGBI5G4CppeYLjMUHZpJYeX1USULJQd2c4crLJKb76E8gz3Z9kN + -----END RSA PRIVATE KEY----- + + interfaces: + port1: + mac_address: "fa:16:3e:ad:6c:7d" + pci_address: "0000:00:04.0" + link: link2 + port2: + mac_address: "fa:16:3e:94:a4:99" + pci_address: "0000:00:05.0" + link: link5 + port3: + mac_address: "fa:16:3e:75:92:da" + pci_address: "0000:00:06.0" + link: link3 + port4: + mac_address: "fa:16:3e:2c:b1:2a" + pci_address: "0000:00:07.0" + link: link6 + +**VPP Version** + +|vpp-release| + +**VPP Installed Packages - Ubuntu** +:: + + $ dpkg -l vpp\* + Desired=Unknown/Install/Remove/Purge/Hold + | Status=Not/Inst/Conf-files/Unpacked/halF-conf/Half-inst/trig-aWait/Trig-pend + |/ Err?=(none)/Reinst-required (Status,Err: uppercase=bad) + ||/ Name Version Architecture Description + +++-==============-=============-============-================================================= + ii vpp 18.04-release amd64 Vector Packet Processing--executables + ii vpp-dbg 18.04-release amd64 Vector Packet Processing--debug symbols + ii vpp-dev 18.04-release amd64 Vector Packet Processing--development support + ii vpp-dpdk-dkms 18.02-vpp1 amd64 DPDK Development Package for VPP - Kernel Modules + ii vpp-lib 18.04-release amd64 Vector Packet Processing--runtime libraries + ii vpp-plugins 18.04-release amd64 Vector Packet Processing--runtime plugins + +**VPP Installed Packages - Centos** +:: + + $ rpm -qai vpp* + Name : vpp + Version : 18.04 + Release : release + Architecture: x86_64 + Install Date: Fri 04 May 2018 02:47:36 AM EDT + Group : Unspecified + Size : 2311324 + License : ASL 2.0 + Signature : (none) + Source RPM : vpp-18.04-release.src.rpm + Build Date : Wed 25 Apr 2018 01:00:24 PM EDT + Build Host : c29a51c12e88 + Relocations : (not relocatable) + Summary : Vector Packet Processing + Description : + This package provides VPP executables: vpp, vpp_api_test, vpp_json_test + vpp - the vector packet engine + vpp_api_test - vector packet engine API test tool + vpp_json_test - vector packet engine JSON test tool + Name : vpp-lib + Version : 18.04 + Release : release + Architecture: x86_64 + Install Date: Fri 04 May 2018 02:47:36 AM EDT + Group : System Environment/Libraries + Size : 24949034 + License : ASL 2.0 + Signature : (none) + Source RPM : vpp-18.04-release.src.rpm + Build Date : Wed 25 Apr 2018 01:00:24 PM EDT + Build Host : c29a51c12e88 + Relocations : (not relocatable) + Summary : VPP libraries + Description : + This package contains the VPP shared libraries, including: + vppinfra - foundation library supporting vectors, hashes, bitmaps, pools, and string formatting. + svm - vm library + vlib - vector processing library + vlib-api - binary API library + vnet - network stack library + Name : vpp-selinux-policy + Version : 18.04 + Release : release + Architecture: x86_64 + Install Date: Fri 04 May 2018 02:47:35 AM EDT + Group : System Environment/Base + Size : 86170 + License : ASL 2.0 + Signature : (none) + Source RPM : vpp-18.04-release.src.rpm + Build Date : Wed 25 Apr 2018 01:00:24 PM EDT + Build Host : c29a51c12e88 + Relocations : (not relocatable) + Summary : VPP Security-Enhanced Linux (SELinux) policy + Description : + This package contains a tailored VPP SELinux policy + Name : vpp-devel + Version : 18.04 + Release : release + Architecture: x86_64 + Install Date: Fri 04 May 2018 02:47:38 AM EDT + Group : Development/Libraries + Size : 10632218 + License : ASL 2.0 + Signature : (none) + Source RPM : vpp-18.04-release.src.rpm + Build Date : Wed 25 Apr 2018 01:00:24 PM EDT + Build Host : c29a51c12e88 + Relocations : (not relocatable) + Summary : VPP header files, static libraries + Description : + This package contains the header files for VPP. + Install this package if you want to write a + program for compilation and linking with vpp lib. + vlib + vlibmemory + vnet - devices, classify, dhcp, ethernet flow, gre, ip, etc. + vpp-api + vppinfra + Name : vpp-plugins + Version : 18.04 + Release : release + Architecture: x86_64 + Install Date: Fri 04 May 2018 02:47:37 AM EDT + Group : System Environment/Libraries + Size : 44145968 + License : ASL 2.0 + Signature : (none) + Source RPM : vpp-18.04-release.src.rpm + Build Date : Wed 25 Apr 2018 01:00:24 PM EDT + Build Host : c29a51c12e88 + Relocations : (not relocatable) + Summary : Vector Packet Processing--runtime plugins + Description : + This package contains VPP plugins + +**VPP Startup Configuration** + +VPP startup configuration is common for all test cases except test cases related +to SW Crypto device. + +**Default** + +:: + + $ cat /etc/vpp/startup.conf + unix { + nodaemon + log /var/log/vpp/vpp.log + full-coredump + cli-listen /run/vpp/cli.sock + gid vpp + } + + api-trace { + ## This stanza controls binary API tracing. Unless there is a very strong reason, + ## please leave this feature enabled. + on + ## Additional parameters: + ## + ## To set the number of binary API trace records in the circular buffer, configure nitems + ## + ## nitems <nnn> + ## + ## To save the api message table decode tables, configure a filename. Results in /tmp/<filename> + ## Very handy for understanding api message changes between versions, identifying missing + ## plugins, and so forth. + ## + ## save-api-table <filename> + } + + api-segment { + gid vpp + } + + cpu { + ## In the VPP there is one main thread and optionally the user can create worker(s) + ## The main thread and worker thread(s) can be pinned to CPU core(s) manually or automatically + + ## Manual pinning of thread(s) to CPU core(s) + + ## Set logical CPU core where main thread runs + # main-core 1 + + ## Set logical CPU core(s) where worker threads are running + # corelist-workers 2-3,18-19 + + ## Automatic pinning of thread(s) to CPU core(s) + + ## Sets number of CPU core(s) to be skipped (1 ... N-1) + ## Skipped CPU core(s) are not used for pinning main thread and working thread(s). + ## The main thread is automatically pinned to the first available CPU core and worker(s) + ## are pinned to next free CPU core(s) after core assigned to main thread + # skip-cores 4 + + ## Specify a number of workers to be created + ## Workers are pinned to N consecutive CPU cores while skipping "skip-cores" CPU core(s) + ## and main thread's CPU core + # workers 2 + + ## Set scheduling policy and priority of main and worker threads + + ## Scheduling policy options are: other (SCHED_OTHER), batch (SCHED_BATCH) + ## idle (SCHED_IDLE), fifo (SCHED_FIFO), rr (SCHED_RR) + # scheduler-policy fifo + + ## Scheduling priority is used only for "real-time policies (fifo and rr), + ## and has to be in the range of priorities supported for a particular policy + # scheduler-priority 50 + } + + # dpdk { + ## Change default settings for all intefaces + # dev default { + ## Number of receive queues, enables RSS + ## Default is 1 + # num-rx-queues 3 + + ## Number of transmit queues, Default is equal + ## to number of worker threads or 1 if no workers treads + # num-tx-queues 3 + + ## Number of descriptors in transmit and receive rings + ## increasing or reducing number can impact performance + ## Default is 1024 for both rx and tx + # num-rx-desc 512 + # num-tx-desc 512 + + ## VLAN strip offload mode for interface + ## Default is off + # vlan-strip-offload on + # } + + ## Whitelist specific interface by specifying PCI address + # dev 0000:02:00.0 + + ## Whitelist specific interface by specifying PCI address and in + ## addition specify custom parameters for this interface + # dev 0000:02:00.1 { + # num-rx-queues 2 + # } + + ## Specify bonded interface and its slaves via PCI addresses + ## + ## Bonded interface in XOR load balance mode (mode 2) with L3 and L4 headers + # vdev eth_bond0,mode=2,slave=0000:02:00.0,slave=0000:03:00.0,xmit_policy=l34 + # vdev eth_bond1,mode=2,slave=0000:02:00.1,slave=0000:03:00.1,xmit_policy=l34 + ## + ## Bonded interface in Active-Back up mode (mode 1) + # vdev eth_bond0,mode=1,slave=0000:02:00.0,slave=0000:03:00.0 + # vdev eth_bond1,mode=1,slave=0000:02:00.1,slave=0000:03:00.1 + + ## Change UIO driver used by VPP, Options are: igb_uio, vfio-pci, + ## uio_pci_generic or auto (default) + # uio-driver vfio-pci + + ## Disable mutli-segment buffers, improves performance but + ## disables Jumbo MTU support + # no-multi-seg + + ## Increase number of buffers allocated, needed only in scenarios with + ## large number of interfaces and worker threads. Value is per CPU socket. + ## Default is 16384 + # num-mbufs 128000 + + ## Change hugepages allocation per-socket, needed only if there is need for + ## larger number of mbufs. Default is 256M on each detected CPU socket + # socket-mem 2048,2048 + + ## Disables UDP / TCP TX checksum offload. Typically needed for use + ## faster vector PMDs (together with no-multi-seg) + # no-tx-checksum-offload + # } + + + # plugins { + ## Adjusting the plugin path depending on where the VPP plugins are + # path /home/bms/vpp/build-root/install-vpp-native/vpp/lib64/vpp_plugins + + ## Disable all plugins by default and then selectively enable specific plugins + # plugin default { disable } + # plugin dpdk_plugin.so { enable } + # plugin acl_plugin.so { enable } + + ## Enable all plugins by default and then selectively disable specific plugins + # plugin dpdk_plugin.so { disable } + # plugin acl_plugin.so { disable } + # } + + ## Alternate syntax to choose plugin path + # plugin_path /home/bms/vpp/build-root/install-vpp-native/vpp/lib64/vpp_plugins + +**SW Crypto Device** + +:: + + $ cat /etc/vpp/startup.conf + unix + { + cli-listen /run/vpp/cli.sock + gid vpp + nodaemon + full-coredump + log /tmp/vpp.log + } + api-segment + { + gid vpp + } + dpdk + { + vdev cryptodev_aesni_gcm_pmd,socket_id=0 + vdev cryptodev_aesni_mb_pmd,socket_id=0 + } + +TG Configuration +---------------- + +Traffic Generator node is VM running the same OS Linux as SUTs. Ports of this +VM are used as source (Tx) and destination (Rx) ports for the traffic. + +Traffic scripts of test cases are executed on this VM. + +**TG VM configuration** + +Configuration of the TG VMs is defined in `VIRL topologies directory`_. + + /csit/resources/tools/virl/topologies/double-ring-nested.xenial.virl + +- List of TG VM interfaces::: + + <interface id="0" name="eth1"/> + <interface id="1" name="eth2"/> + <interface id="2" name="eth3"/> + <interface id="3" name="eth4"/> + <interface id="4" name="eth5"/> + <interface id="5" name="eth6"/> + +**TG node port configuration** + +Port configuration of TG is defined in topology file that is generated per VIRL +simulation based on the definition stored in `VIRL topologies directory`_. + +Example of TG node configuration::: + + TG: + type: TG + host: "10.30.51.155" + port: 22 + username: cisco + priv_key: | + -----BEGIN RSA PRIVATE KEY----- + MIIEpgIBAAKCAQEAwUDlTpzSHpwLQotZOFS4AgcPNEWCnP1AB2hWFmvI+8Kah/gb + v8ruZU9RqhPs56tyKzxbhvNkY4VbH5F1GilHZu3mLqzM4KfghMmaeMEjO1T7BYYd + vuBfTvIluljfQ2vAlnYrDwn+ClxJk81m0pDgvrLEX4qVVh2sGh7UEkYy5r82DNa2 + 4VjzPB1J/c8a9zP8FoZUhYIzF4FLvRMjUADpbMXgJMsGpaZLmz95ap0Eot7vb1Cc + 1LvF97iyBCrtIOSKRKA50ZhLGjMKmOwnYU+cP5718tbproDVi6VJOo7zeuXyetMs + 8YBl9kWblWG9BqP9jctFvsmi5G7hXgq1Y8u+DwIDAQABAoIBAQC/W4E0DHjLMny7 + 0bvw2YKzD0Zw3fttdB94tkm4PdZv5MybooPnsAvLaXVV0hEdfVi5kzSWNl/LY/tN + EP1BgGphc2QgB59/PPxGwFIjDCvUzlsZpynBHe+B/qh5ExNQcVvsIOqWI7DXlXaN + 0i/khOzmJ6HncRRah1spKimYRsaUUDskyg7q3QqMWVaqBbbMvLs/w7ZWd/zoDqCU + MY/pCI6hkB3QbRo0OdiZLohphBl2ShABTwjvVyyKL5UA4jAEneJrhH5gWVLXnfgD + p62W5CollKEYblC8mUkPxpP7Qo277zw3xaq+oktIZhc5SUEUd7nJZtNqVAHqkItW + 79VmpKyxAoGBAPfU+kqNPaTSvp+x1n5sn2SgipzDtgi9QqNmC4cjtrQQaaqI57SG + OHw1jX8i7L2G1WvVtkHg060nlEVo5n65ffFOqeVBezLVJ7ghWI8U+oBiJJyQ4boD + GJVNsoOSUQ0rtuGd9eVwfDk3ol9aCN0KK53oPfIYli29pyu4l095kg11AoGBAMef + bPEMBI/2XmCPshLSwhGFl+dW8d+Klluj3CUQ/0vUlvma3dfBOYNsIwAgTP0iIUTg + 8DYE6KBCdPtxAUEI0YAEAKB9ry1tKR2NQEIPfslYytKErtwjAiqSi0heM6+zwEzu + f54Z4oBhsMSL0jXoOMnu+NZzEc6EUdQeY4O+jhjzAoGBAIogC3dtjMPGKTP7+93u + UE/XIioI8fWg9fj3sMka4IMu+pVvRCRbAjRH7JrFLkjbUyuMqs3Arnk9K+gbdQt/ + +m95Njtt6WoFXuPCwgbM3GidSmZwYT4454SfDzVBYScEDCNm1FuR+8ov9bFLDtGT + D4gsngnGJj1MDFXTxZEn4nzZAoGBAKCg4WmpUPaCuXibyB+rZavxwsTNSn2lJ83/ + sYJGBhf/raiV/FLDUcM1vYg5dZnu37RsB/5/vqxOLZGyYd7x+Jo5HkQGPnKgNwhn + g8BkdZIRF8uEJqxOo0ycdOU7n/2O93swIpKWo5LIiRPuqqzj+uZKnAL7vuVdxfaY + qVz2daMPAoGBALgaaKa3voU/HO1PYLWIhFrBThyJ+BQSQ8OqrEzC8AnegWFxRAM8 + EqrzZXl7ACUuo1dH0Eipm41j2+BZWlQjiUgq5uj8+yzy+EU1ZRRyJcOKzbDACeuD + BpWWSXGBI5G4CppeYLjMUHZpJYeX1USULJQd2c4crLJKb76E8gz3Z9kN + -----END RSA PRIVATE KEY----- + + interfaces: + port3: + mac_address: "fa:16:3e:b9:e1:27" + pci_address: "0000:00:06.0" + link: link1 + driver: virtio-pci + port4: + mac_address: "fa:16:3e:e9:c8:68" + pci_address: "0000:00:07.0" + link: link4 + driver: virtio-pci + port5: + mac_address: "fa:16:3e:e8:d3:47" + pci_address: "0000:00:08.0" + link: link2 + driver: virtio-pci + port6: + mac_address: "fa:16:3e:cf:ca:58" + pci_address: "0000:00:09.0" + link: link5 + driver: virtio-pci + +**Traffic generator** + +Functional tests utilize Scapy as a traffic generator. There was used Scapy +v2.3.1 for |vpp-release| tests. + diff --git a/docs/report/vpp_performance_tests/csit_release_notes.rst b/docs/report/vpp_performance_tests/csit_release_notes.rst index 377bd30d3f..0309885c0d 100644 --- a/docs/report/vpp_performance_tests/csit_release_notes.rst +++ b/docs/report/vpp_performance_tests/csit_release_notes.rst @@ -1,150 +1,150 @@ -CSIT Release Notes
-==================
-
-Changes in CSIT |release|
--------------------------
-
-#. **VPP performance tests**
-
- - *MRR tests* - New Maximum Receive Rate tests measure the packet
- forwarding rate under the maximum load offered by traffic
- generator over a set trial duration, regardless of packet loss.
- MRR tests are used for continuous performance trending and for
- comparison between releases.
-
- - *Service Chaining with SRv6* - New SRv6 (Segment Routing IPv6) proxy
- tests measure performance of SRv6 Endpoint fronting SR-unaware
- appliance via masquerading (End.AM), dynamic proxy (End.AD) or
- static proxy (End.AS) SR functions.
-
-#. **Presentation and Analytics Layer**
-
- - *Performance trending* - Added continuous performance trending and
- analysis. New Performance Trending and Performance Analysis jobs
- executed regular throughput tests, with results being subsequently
- analysed and trend and anomalies summarized and presented in VPP
- Performance Dashboard and trendline graphs.
-
-#. **Test Framework Optimizations**
-
- - *Performance tests efficiency* - Qemu build/install optimizations,
- warmup phase handling, vpp restart handling. Resulted in improved
- stability and reduced total execution time by 30% for single pkt
- size e.g. 64B/78B.
-
- - *General code housekeeping* - ongoing RF keywords optimizations,
- removal of redundant RF keywords.
-
-Performance Changes
--------------------
-
-Relative performance changes in measured packet throughput in CSIT
-|release| are calculated against the results from CSIT |release-1|
-report. Listed mean and standard deviation values are computed based on
-a series of the same tests executed against respective VPP releases to
-verify test results repeatibility, with percentage change calculated for
-mean values. Note that the standard deviation is quite high for a small
-number of packet throughput tests, what indicates poor test results
-repeatability and makes the relative change of mean throughput value not
-fully representative for these tests. The root causes behind poor
-results repeatibility vary between the test cases.
-
-NDR Changes
-~~~~~~~~~~~
-
-NDR small packet throughput changes between releases are available in a
-CSV and pretty ASCII formats:
-
- - `csv format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.csv>`_,
- - `csv format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.csv>`_,
- - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.txt>`_,
- - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.txt>`_.
-
-.. note::
-
- Test results have been generated by
- `FD.io test executor vpp performance jobs`_ with Robot Framework result
- files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_.
-
-PDR Changes
-~~~~~~~~~~~
-
-NDR small packet throughput changes between releases are available in a
-CSV and pretty ASCII formats:
-
- - `csv format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.csv>`_,
- - `csv format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.csv>`_,
- - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.txt>`_,
- - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.txt>`_.
-
-.. note::
-
- Test results have been generated by
- `FD.io test executor vpp performance jobs`_ with Robot Framework result
- files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_.
-
-MRR Changes
-~~~~~~~~~~~
-
-MRR small packet throughput changes between releases are available in a
-CSV and pretty ASCII formats:
-
- - `csv format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.csv>`_,
- - `csv format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.csv>`_,
- - `csv format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.csv>`_,
- - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.txt>`_,
- - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.txt>`_,
- - `pretty ASCII format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.txt>`_.
-
-.. note::
-
- Test results have been generated by
- `FD.io test executor vpp mrr jobs <https://jenkins.fd.io/view/csit/job/csit-vpp-perf-mrr-daily-master/>`_
- with Robot Framework result files csit-vpp-perf-mrr-daily-master__*__output.xml.gz
- `archived here <https://docs.fd.io/csit/master/trending/_static/archive/>`_.
-
-Throughput Trending
--------------------
-
-In addition to reporting throughput changes between VPP releases, CSIT
-provides continuous performance trending for VPP master branch:
-
-#. `VPP Performance Dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_
- - per VPP test case throughput trend, trend compliance and summary of
- detected anomalies.
-
-#. `Trending Methodology <https://docs.fd.io/csit/master/trending/methodology/index.html>`_
- - throughput test metrics, trend calculations and anomaly
- classification (progression, regression, outlier).
-
-#. `Trendline Graphs <https://docs.fd.io/csit/master/trending/trending/index.html>`_
- - per VPP build MRR throughput measurements against the trendline
- with anomaly highlights, with associated CSIT test jobs.
-
-Known Issues
-------------
-
-List of known issues in CSIT |release| for VPP performance tests:
-
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+
-| # | Issue | Jira ID | Description |
-+===+=================================================+============+=================================================================+
-| 1 | Sporadic (1 in 200) NDR discovery test failures | CSIT-570 | DPDK reporting rx-errors, indicating L1 issue. Suspected issue |
-| | on x520. | | with HW combination of X710-X520 in LF testbeds. Not observed |
-| | | | outside of LF testbeds. |
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+
-| 2 | Lower than expected NDR throughput of DPDK | CSIT-571 | Suspected NIC firmware or DPDK driver issue affecting NDR and |
-| | testpmd and VPP L2 path NDR throughput with | | PDR throughput on XL710 and X710 NICs. |
-| | xl710 and x710 NICs, compared to x520 NICs. | | |
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+
-| 3 | Tagged Ethernet dot1q and dot1ad L2 path | CSIT-1066 | Tagged Ethernet dot1q and dot1ad L2 path throughput regression: |
-| | throughput regression. | | NDR -2%..-5%, PDR -2%..-6%, MRR. Affects l2xc and l2bd |
-| | | | performance tests. |
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+
-| 4 | IPSec (software, no QAT HW) throughput | CSIT-1064 | IPSec throughput regression: NDR -3%..-8%, PDR -2%..-8%, MRR |
-| | regression. | | -3%..-7%. Affects IPSec SW tests, QAT HW tests not affected. |
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+
-| 5 | High failure rate of creating working container | CSIT-1065 | About 20% of orchestrated container topology tests failing data |
-| | topologies with K8s/Ligato orchestration. | | plane verification indicating configuration issue. Suspected |
-| | | | issue with Ligato vpp-agent. |
-+---+-------------------------------------------------+------------+-----------------------------------------------------------------+
+CSIT Release Notes +================== + +Changes in CSIT |release| +------------------------- + +#. **VPP performance tests** + + - *MRR tests* - New Maximum Receive Rate tests measure the packet + forwarding rate under the maximum load offered by traffic + generator over a set trial duration, regardless of packet loss. + MRR tests are used for continuous performance trending and for + comparison between releases. + + - *Service Chaining with SRv6* - New SRv6 (Segment Routing IPv6) proxy + tests measure performance of SRv6 Endpoint fronting SR-unaware + appliance via masquerading (End.AM), dynamic proxy (End.AD) or + static proxy (End.AS) SR functions. + +#. **Presentation and Analytics Layer** + + - *Performance trending* - Added continuous performance trending and + analysis. New Performance Trending and Performance Analysis jobs + executed regular throughput tests, with results being subsequently + analysed and trend and anomalies summarized and presented in VPP + Performance Dashboard and trendline graphs. + +#. **Test Framework Optimizations** + + - *Performance tests efficiency* - Qemu build/install optimizations, + warmup phase handling, vpp restart handling. Resulted in improved + stability and reduced total execution time by 30% for single pkt + size e.g. 64B/78B. + + - *General code housekeeping* - ongoing RF keywords optimizations, + removal of redundant RF keywords. + +Performance Changes +------------------- + +Relative performance changes in measured packet throughput in CSIT +|release| are calculated against the results from CSIT |release-1| +report. Listed mean and standard deviation values are computed based on +a series of the same tests executed against respective VPP releases to +verify test results repeatibility, with percentage change calculated for +mean values. Note that the standard deviation is quite high for a small +number of packet throughput tests, what indicates poor test results +repeatability and makes the relative change of mean throughput value not +fully representative for these tests. The root causes behind poor +results repeatibility vary between the test cases. + +NDR Changes +~~~~~~~~~~~ + +NDR small packet throughput changes between releases are available in a +CSV and pretty ASCII formats: + + - `csv format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.csv>`_, + - `csv format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.csv>`_, + - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.txt>`_, + - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.txt>`_. + +.. note:: + + Test results have been generated by + `FD.io test executor vpp performance jobs`_ with Robot Framework result + files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_. + +PDR Changes +~~~~~~~~~~~ + +NDR small packet throughput changes between releases are available in a +CSV and pretty ASCII formats: + + - `csv format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.csv>`_, + - `csv format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.csv>`_, + - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.txt>`_, + - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.txt>`_. + +.. note:: + + Test results have been generated by + `FD.io test executor vpp performance jobs`_ with Robot Framework result + files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_. + +MRR Changes +~~~~~~~~~~~ + +MRR small packet throughput changes between releases are available in a +CSV and pretty ASCII formats: + + - `csv format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.csv>`_, + - `csv format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.csv>`_, + - `csv format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.csv>`_, + - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.txt>`_, + - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.txt>`_, + - `pretty ASCII format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.txt>`_. + +.. note:: + + Test results have been generated by + `FD.io test executor vpp mrr jobs <https://jenkins.fd.io/view/csit/job/csit-vpp-perf-mrr-daily-master/>`_ + with Robot Framework result files csit-vpp-perf-mrr-daily-master__*__output.xml.gz + `archived here <https://docs.fd.io/csit/master/trending/_static/archive/>`_. + +Throughput Trending +------------------- + +In addition to reporting throughput changes between VPP releases, CSIT +provides continuous performance trending for VPP master branch: + +#. `VPP Performance Dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_ + - per VPP test case throughput trend, trend compliance and summary of + detected anomalies. + +#. `Trending Methodology <https://docs.fd.io/csit/master/trending/methodology/index.html>`_ + - throughput test metrics, trend calculations and anomaly + classification (progression, regression, outlier). + +#. `Trendline Graphs <https://docs.fd.io/csit/master/trending/trending/index.html>`_ + - per VPP build MRR throughput measurements against the trendline + with anomaly highlights, with associated CSIT test jobs. + +Known Issues +------------ + +List of known issues in CSIT |release| for VPP performance tests: + ++---+-------------------------------------------------+------------+-----------------------------------------------------------------+ +| # | Issue | Jira ID | Description | ++===+=================================================+============+=================================================================+ +| 1 | Sporadic (1 in 200) NDR discovery test failures | CSIT-570 | DPDK reporting rx-errors, indicating L1 issue. Suspected issue | +| | on x520. | | with HW combination of X710-X520 in LF testbeds. Not observed | +| | | | outside of LF testbeds. | ++---+-------------------------------------------------+------------+-----------------------------------------------------------------+ +| 2 | Lower than expected NDR throughput of DPDK | CSIT-571 | Suspected NIC firmware or DPDK driver issue affecting NDR and | +| | testpmd and VPP L2 path NDR throughput with | | PDR throughput on XL710 and X710 NICs. | +| | xl710 and x710 NICs, compared to x520 NICs. | | | ++---+-------------------------------------------------+------------+-----------------------------------------------------------------+ +| 3 | Tagged Ethernet dot1q and dot1ad L2 path | CSIT-1066 | Tagged Ethernet dot1q and dot1ad L2 path throughput regression: | +| | throughput regression. | | NDR -2%..-5%, PDR -2%..-6%, MRR. Affects l2xc and l2bd | +| | | | performance tests. | ++---+-------------------------------------------------+------------+-----------------------------------------------------------------+ +| 4 | IPSec (software, no QAT HW) throughput | CSIT-1064 | IPSec throughput regression: NDR -3%..-8%, PDR -2%..-8%, MRR | +| | regression. | | -3%..-7%. Affects IPSec SW tests, QAT HW tests not affected. | ++---+-------------------------------------------------+------------+-----------------------------------------------------------------+ +| 5 | High failure rate of creating working container | CSIT-1065 | About 20% of orchestrated container topology tests failing data | +| | topologies with K8s/Ligato orchestration. | | plane verification indicating configuration issue. Suspected | +| | | | issue with Ligato vpp-agent. | ++---+-------------------------------------------------+------------+-----------------------------------------------------------------+ diff --git a/docs/report/vpp_performance_tests/test_environment.rst b/docs/report/vpp_performance_tests/test_environment.rst index 77fe3216e4..91ca3bcc07 100644 --- a/docs/report/vpp_performance_tests/test_environment.rst +++ b/docs/report/vpp_performance_tests/test_environment.rst @@ -1,186 +1,186 @@ -.. include:: test_environment_intro.rst
-
-.. include:: test_environment_sut_conf_1.rst
-
-.. include:: test_environment_sut_conf_2.rst
-
-.. include:: test_environment_sut_conf_3.rst
-
-
-DUT Configuration - VPP
------------------------
-
-**VPP Version**
-
-|vpp-release|
-
-**VPP Compile Parameters**
-
-`FD.io VPP compile job`_
-
-**VPP Install Parameters**
-
-::
-
- $ dpkg -i --force-all vpp*
-
-**VPP Startup Configuration**
-
-VPP startup configuration changes per test case with different settings for CPU
-cores, rx-queues and no-multi-seg parameter. Startup config is aligned with
-applied test case tag:
-
-Tagged by **1T1C**
-
-::
-
- ip
- {
- heap-size 4G
- }
- unix
- {
- cli-listen localhost:5002
- log /tmp/vpe.log
- nodaemon
- }
- ip6
- {
- heap-size 4G
- hash-buckets 2000000
- }
- heapsize 4G
- plugins
- {
- plugin default
- {
- disable
- }
- plugin dpdk_plugin.so
- {
- enable
- }
- }
- cpu
- {
- corelist-workers 2
- main-core 1
- }
- dpdk
- {
- dev 0000:0a:00.0
- dev 0000:0a:00.1
- no-multi-seg
- uio-driver uio_pci_generic
- log-level debug
- dev default
- {
- num-rx-queues 1
- }
- socket-mem 1024,1024
- no-tx-checksum-offload
- }
-
-Tagged by **2T2C**
-
-::
-
- ip
- {
- heap-size 4G
- }
- unix
- {
- cli-listen localhost:5002
- log /tmp/vpe.log
- nodaemon
- }
- ip6
- {
- heap-size 4G
- hash-buckets 2000000
- }
- heapsize 4G
- plugins
- {
- plugin default
- {
- disable
- }
- plugin dpdk_plugin.so
- {
- enable
- }
- }
- cpu
- {
- corelist-workers 2,3
- main-core 1
- }
- dpdk
- {
- dev 0000:0a:00.0
- dev 0000:0a:00.1
- no-multi-seg
- uio-driver uio_pci_generic
- log-level debug
- dev default
- {
- num-rx-queues 1
- }
- socket-mem 1024,1024
- no-tx-checksum-offload
- }
-
-Tagged by **4T4C**
-
-::
-
- ip
- {
- heap-size 4G
- }
- unix
- {
- cli-listen localhost:5002
- log /tmp/vpe.log
- nodaemon
- }
- ip6
- {
- heap-size 4G
- hash-buckets 2000000
- }
- heapsize 4G
- plugins
- {
- plugin default
- {
- disable
- }
- plugin dpdk_plugin.so
- {
- enable
- }
- }
- cpu
- {
- corelist-workers 2,3,4,5
- main-core 1
- }
- dpdk
- {
- dev 0000:0a:00.0
- dev 0000:0a:00.1
- no-multi-seg
- uio-driver uio_pci_generic
- log-level debug
- dev default
- {
- num-rx-queues 1
- }
- socket-mem 1024,1024
- no-tx-checksum-offload
- }
-
-.. include:: test_environment_tg.rst
+.. include:: test_environment_intro.rst + +.. include:: test_environment_sut_conf_1.rst + +.. include:: test_environment_sut_conf_2.rst + +.. include:: test_environment_sut_conf_3.rst + + +DUT Configuration - VPP +----------------------- + +**VPP Version** + +|vpp-release| + +**VPP Compile Parameters** + +`FD.io VPP compile job`_ + +**VPP Install Parameters** + +:: + + $ dpkg -i --force-all vpp* + +**VPP Startup Configuration** + +VPP startup configuration changes per test case with different settings for CPU +cores, rx-queues and no-multi-seg parameter. Startup config is aligned with +applied test case tag: + +Tagged by **1T1C** + +:: + + ip + { + heap-size 4G + } + unix + { + cli-listen localhost:5002 + log /tmp/vpe.log + nodaemon + } + ip6 + { + heap-size 4G + hash-buckets 2000000 + } + heapsize 4G + plugins + { + plugin default + { + disable + } + plugin dpdk_plugin.so + { + enable + } + } + cpu + { + corelist-workers 2 + main-core 1 + } + dpdk + { + dev 0000:0a:00.0 + dev 0000:0a:00.1 + no-multi-seg + uio-driver uio_pci_generic + log-level debug + dev default + { + num-rx-queues 1 + } + socket-mem 1024,1024 + no-tx-checksum-offload + } + +Tagged by **2T2C** + +:: + + ip + { + heap-size 4G + } + unix + { + cli-listen localhost:5002 + log /tmp/vpe.log + nodaemon + } + ip6 + { + heap-size 4G + hash-buckets 2000000 + } + heapsize 4G + plugins + { + plugin default + { + disable + } + plugin dpdk_plugin.so + { + enable + } + } + cpu + { + corelist-workers 2,3 + main-core 1 + } + dpdk + { + dev 0000:0a:00.0 + dev 0000:0a:00.1 + no-multi-seg + uio-driver uio_pci_generic + log-level debug + dev default + { + num-rx-queues 1 + } + socket-mem 1024,1024 + no-tx-checksum-offload + } + +Tagged by **4T4C** + +:: + + ip + { + heap-size 4G + } + unix + { + cli-listen localhost:5002 + log /tmp/vpe.log + nodaemon + } + ip6 + { + heap-size 4G + hash-buckets 2000000 + } + heapsize 4G + plugins + { + plugin default + { + disable + } + plugin dpdk_plugin.so + { + enable + } + } + cpu + { + corelist-workers 2,3,4,5 + main-core 1 + } + dpdk + { + dev 0000:0a:00.0 + dev 0000:0a:00.1 + no-multi-seg + uio-driver uio_pci_generic + log-level debug + dev default + { + num-rx-queues 1 + } + socket-mem 1024,1024 + no-tx-checksum-offload + } + +.. include:: test_environment_tg.rst diff --git a/docs/report/vpp_unit_tests/documentation.rst b/docs/report/vpp_unit_tests/documentation.rst index 304db1121b..b6bc0272a8 100644 --- a/docs/report/vpp_unit_tests/documentation.rst +++ b/docs/report/vpp_unit_tests/documentation.rst @@ -1,6 +1,6 @@ -Documentation
-=============
-
-For complete description of the VPP Test Framework including anatomy of a test
-case and detailed documentation of existing VPP unit test cases please refer
-to the `VPP test framework documentation`_.
+Documentation +============= + +For complete description of the VPP Test Framework including anatomy of a test +case and detailed documentation of existing VPP unit test cases please refer +to the `VPP test framework documentation`_. diff --git a/docs/report/vpp_unit_tests/overview.rst b/docs/report/vpp_unit_tests/overview.rst index 9472680aa5..6165c71c50 100644 --- a/docs/report/vpp_unit_tests/overview.rst +++ b/docs/report/vpp_unit_tests/overview.rst @@ -1,87 +1,87 @@ -Overview
-========
-
-.. note::
-
- This section includes an abbreviated version of the VPP Test Framework
- overview maintained within the VPP project. Complete overview can be found
- in `VPP test framework documentation`_.
-
-VPP Unit Test Framework
------------------------
-
-VPP Test Framework is used to ease writing, running and debugging unit tests
-for the VPP. It is based on python as a high level language to allow rapid
-test development. scapy\_ is used as a tool for creating and dissecting
-packets.
-
-VPP Test Framework does not send any packets to VPP directly. Traffic is
-instead injected using VPP packet-generator interfaces. Packets are written
-into a temporary .pcap file, which is then read by the VPP code with packets
-getting injected into the VPP processing nodes.
-
-Similarly, VPP does not send any packets to VPP Test Framework directly.
-Instead, VPP packet capture feature is used to capture and write packets to a
-temporary .pcap file, which is then read and analyzed by the VPP Test
-Framework.
-
-For complete description of the VPP Test Framework including anatomy of a test
-case and detailed documentation of existing VPP unit test cases please refer
-to the `VPP test framework documentation`_
-
-Unit Tests Coverage
--------------------
-
-Following VPP functional test areas are covered in VPP unit test code included
-in VPP rls1710 with results listed in this report:
-
-- ACL Security - stateful and stateless security-groups access-control-lists.
-- APIs - VAPI, VOM, PAPI, JVPP.
-- ARP - ARP, proxy ARP, static arp.
-- BFD - API, Authentication, Authentication Change, CLI.
-- BFD IPv4 - sessions operation.
-- BFD IPv6 - sessions operation.
-- BIER - Bit Indexed Explicit Replication.
-- Classifier - classification with IP ACL, MAC ACL, IP PBR.
-- Container Integration - IPv4, IPv6 local-spoof connectivity tests.
-- CRUD Loopback - create, read, update, delete Loopback interfaces.
-- DHCP - DHCPv4/v6 Client and Proxy.
-- Distributed Virtual Router.
-- DS-Lite Softwire - softwire termination.
-- FIB - baseline and scale tests.
-- Flowprobe.
-- Geneve Tunnels.
-- GRE Tunnels - GRE IPv4/IPv6 tunnel, L2, VRF tests.
-- GTPU Tunnels - baseline GTPU tests.
-- IP Multicast Routing - IPv4/IPv6 multicast replication, connected source check.
-- IPSec - baseline IPSec sanity tests.
-- IPv4 FIB CRUD - add/update/delete IPv4 routes.
-- IPv4 Routing.
-- IP4 VRF Multi-instance - create, read, update, delete and verify IPv4 VRFs.
-- IPv6 Routing - baseline FIB operations, NS/RS exception handling.
-- IP6 VRF Multi-instance - create, read, update, delete and verify IPv6 VRFs.
-- IRB Integrated Routing-Bridging.
-- Kube-proxy - data plane NAT tests.
-- L2 FIB CRUD - add/update/delete L2 MAC entries.
-- L2BD Multi-instance.
-- L2BD Switching - L2 Bridge-Domain baseline tests incl. single- and dual-loop.
-- L2XC Multi-instance - L2 cross-connect multi-instance tests.
-- L2XC Switching - L2 cross-connect baseline tests incl. single- and dual-loop.
-- LISP Tunnels - basic LISP tests.
-- Load Balancer - IP4 GRE4, IP4 GRE6, IP6 GRE4, IP6 GRE6.
-- MACIP Access Control - ingress access control for IPv4, IPv6 with L2BDP and IP routing.
-- MAP Softwires - softwire termination.
-- MFIB Multicast FIB.
-- MPLS Switching - MPLS baseline, prefix independent convergence for MPLS PE.
-- NAT44 - NAT44 tests, IPFIX logging, VRF awareness, deterministic CGNAT.
-- NAT64 - NAT64 static and dynamic translation tests.
-- P2P Ethernet Subinterface.
-- PPPoE Encapsulation.
-- SPAN Switch Port Analyzer - packet mirroring.
-- SRv6 Routing - Segment Routing IPv6 tests.
-- TCP/IP Stack - unit tests, builtin client/server transfers.
-- UDP Stack - unit tests.
-- VTR VLAN Tag Rewrites - VLAN tag rewrite tests.
-- VXLAN Tunnels - baseline VXLAN tests including multicast.
-- VXLAN-GPE Tunnels - baseline VXLAN-GPE tunneling including multicast.
-- Other Tests - ping, session, template verification, timer tests.
+Overview +======== + +.. note:: + + This section includes an abbreviated version of the VPP Test Framework + overview maintained within the VPP project. Complete overview can be found + in `VPP test framework documentation`_. + +VPP Unit Test Framework +----------------------- + +VPP Test Framework is used to ease writing, running and debugging unit tests +for the VPP. It is based on python as a high level language to allow rapid +test development. scapy\_ is used as a tool for creating and dissecting +packets. + +VPP Test Framework does not send any packets to VPP directly. Traffic is +instead injected using VPP packet-generator interfaces. Packets are written +into a temporary .pcap file, which is then read by the VPP code with packets +getting injected into the VPP processing nodes. + +Similarly, VPP does not send any packets to VPP Test Framework directly. +Instead, VPP packet capture feature is used to capture and write packets to a +temporary .pcap file, which is then read and analyzed by the VPP Test +Framework. + +For complete description of the VPP Test Framework including anatomy of a test +case and detailed documentation of existing VPP unit test cases please refer +to the `VPP test framework documentation`_ + +Unit Tests Coverage +------------------- + +Following VPP functional test areas are covered in VPP unit test code included +in VPP rls1710 with results listed in this report: + +- ACL Security - stateful and stateless security-groups access-control-lists. +- APIs - VAPI, VOM, PAPI, JVPP. +- ARP - ARP, proxy ARP, static arp. +- BFD - API, Authentication, Authentication Change, CLI. +- BFD IPv4 - sessions operation. +- BFD IPv6 - sessions operation. +- BIER - Bit Indexed Explicit Replication. +- Classifier - classification with IP ACL, MAC ACL, IP PBR. +- Container Integration - IPv4, IPv6 local-spoof connectivity tests. +- CRUD Loopback - create, read, update, delete Loopback interfaces. +- DHCP - DHCPv4/v6 Client and Proxy. +- Distributed Virtual Router. +- DS-Lite Softwire - softwire termination. +- FIB - baseline and scale tests. +- Flowprobe. +- Geneve Tunnels. +- GRE Tunnels - GRE IPv4/IPv6 tunnel, L2, VRF tests. +- GTPU Tunnels - baseline GTPU tests. +- IP Multicast Routing - IPv4/IPv6 multicast replication, connected source check. +- IPSec - baseline IPSec sanity tests. +- IPv4 FIB CRUD - add/update/delete IPv4 routes. +- IPv4 Routing. +- IP4 VRF Multi-instance - create, read, update, delete and verify IPv4 VRFs. +- IPv6 Routing - baseline FIB operations, NS/RS exception handling. +- IP6 VRF Multi-instance - create, read, update, delete and verify IPv6 VRFs. +- IRB Integrated Routing-Bridging. +- Kube-proxy - data plane NAT tests. +- L2 FIB CRUD - add/update/delete L2 MAC entries. +- L2BD Multi-instance. +- L2BD Switching - L2 Bridge-Domain baseline tests incl. single- and dual-loop. +- L2XC Multi-instance - L2 cross-connect multi-instance tests. +- L2XC Switching - L2 cross-connect baseline tests incl. single- and dual-loop. +- LISP Tunnels - basic LISP tests. +- Load Balancer - IP4 GRE4, IP4 GRE6, IP6 GRE4, IP6 GRE6. +- MACIP Access Control - ingress access control for IPv4, IPv6 with L2BDP and IP routing. +- MAP Softwires - softwire termination. +- MFIB Multicast FIB. +- MPLS Switching - MPLS baseline, prefix independent convergence for MPLS PE. +- NAT44 - NAT44 tests, IPFIX logging, VRF awareness, deterministic CGNAT. +- NAT64 - NAT64 static and dynamic translation tests. +- P2P Ethernet Subinterface. +- PPPoE Encapsulation. +- SPAN Switch Port Analyzer - packet mirroring. +- SRv6 Routing - Segment Routing IPv6 tests. +- TCP/IP Stack - unit tests, builtin client/server transfers. +- UDP Stack - unit tests. +- VTR VLAN Tag Rewrites - VLAN tag rewrite tests. +- VXLAN Tunnels - baseline VXLAN tests including multicast. +- VXLAN-GPE Tunnels - baseline VXLAN-GPE tunneling including multicast. +- Other Tests - ping, session, template verification, timer tests. |