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diff --git a/docs/report/honeycomb_functional_tests/overview.rst b/docs/report/honeycomb_functional_tests/overview.rst new file mode 100644 index 0000000000..d93de132a9 --- /dev/null +++ b/docs/report/honeycomb_functional_tests/overview.rst @@ -0,0 +1,168 @@ +Overview
+========
+
+Tested Virtual Topologies
+-------------------------
+
+CSIT Honeycomb functional tests are executed on virtualized topologies created
+using Virtual Internet Routing Lab (VIRL) simulation platform contributed by
+Cisco. VIRL runs on physical baremetal servers hosted by LF FD.io project. All
+tests are executed in two node logical test topology - Traffic Generator (TG)
+node and Systems Under Test (SUT1) node connected in a loop. Logical test
+topology is shown in the figure below.
+
+::
+
+ +------------------------+
+ | |
+ | +------------------+ |
+ +---------------> <--------------+
+ | | | | | |
+ | |------------> DUT1 <-----------+ |
+ | | | +------------------+ | | |
+ | | | | | |
+ | | | SUT1 | | |
+ | | +------------------------+ | |
+ | | | |
+ | | | |
+ | | +-----------+ | |
+ | +---------------> <---------------+ |
+ | | TG | |
+ +------------------> <------------------+
+ +-----------+
+
+SUT1 is a VM (Ubuntu or Centos, depending on the test suite), TG is a Traffic
+Generator (TG, another Ubuntu VM). SUTs run Honeycomb and VPP SW applications
+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).
+
+Functional Tests Coverage
+-------------------------
+
+The following Honeycomb functional test areas are included in the CSIT |release|
+with results listed in this report:
+
+- **Basic interface management** - CRUD for interface state,
+ - ipv4/ipv6 address, ipv4 neighbor, MTU value.
+ - Test case count: 7
+- **L2BD** - CRUD for L2 Bridge-Domain, interface assignment.
+ - Create up to two bridge domains with all implemented functions turned on.
+ - (flooding, unknown-unicast flooding, forwarding, learning, arp-termination)
+ - Assign up to two physical interfaces to a single bridge domain.
+ - Remove interface assignments, remove bridge domains.
+ - Test case count: 5
+- **L2FIB** - CRD for L2-FIB entries.
+ - Create 4 FIB entries
+ - (one of each for filter/forward, static/dynamic combinations).
+ - Remove FIB entries.
+ - Test case count: 7
+- **VxLAN** - CRD for VxLAN tunnels.
+ - Create VxLAN interface.
+ - Disable VxLAN interface.
+ - Re-create a disabled VxLAN interface.
+ - Test case count: 6
+- **VxLAN-GPE** - CRD for VxLAN GPE tunnels.
+ - Create VxLAN GPE interface.
+ - Disable VxLAN interface.
+ - Re-create a disabled VxLAN interface.
+ - Test case count: 7
+- **Vhost-user** - CRUD for Vhost-user interfaces.
+ - Create, modify and delete Vhost-user interface, as client and server.
+ - Test case count: 8
+- **TAP** - CRUD for Tap interface management.
+ - Create, modify and delete TAP interface.
+ - Test case count: 3
+- **VLAN** - CRUD for VLAN sub-interface management.
+ - Create VLAN sub-interface over a physical interface.
+ - Toggle interface state separately for super-interface and sub-interface.
+ - Configure IP address and bridge domain assignment on sub-interface.
+ - Configure VLAN tag rewrite on sub-interface.
+ - Test case count: 17
+- **ACL** - CRD for low-level classifiers: table and session management,
+ - interface assignment.
+ - Configure up to 2 classify tables.
+ - Configure up to 2 classify sessions on one table.
+ - Assign classify session to a physical interface.
+ - Remove tables, sessions, interface assignments.
+ - Test case count: 9
+- **PBB** - CRD for provider backbone bridge sub-interface.
+ - Configure, modify and remove a PBB sub-interface over a physical interface.
+ - Test case count: 9
+- **NSH_SFC** - CRD for NSH maps and entries, using NSH_SFC plugin.
+ - Configure up to 2 NSH entries.
+ - Configure up to 2 NSH maps.
+ - Modify and delete NSH maps and entries.
+ - Test case count: 8
+- **LISP** - CRD for Lisp: mapping, locator set, adjacency, map resolver.
+ - Toggle Lisp feature status.
+ - Configure and delete Lisp mapping as local and remote.
+ - Configure and delete Lisp adjacency mapping
+ - Configure and delete Lisp map resolver, proxy ITR.
+ - Test case count: 11
+- **NAT** - CRD for NAT entries, interface assignment.
+ - Configure and delete up to two NAT entries.
+ - Assign NAT entries to a physical interface.
+ - Test case count: 6
+- **Port mirroring** - CRD for SPAN port mirroring, interface assignment.
+ - Configure SPAN port mirroring on a physical interface, mirroring
+ - up to 2 interfaces.
+ - Remove SPAN configuration from interfaces.
+ - Test case count: 3
+- **Honeycomb Infractructure** - configuration persistence,
+ - Netconf notifications for interface events,
+ - Netconf negative tests aimed at specific issues
+
+Total 111 Honeycomb tests in the CSIT |release|.
+
+Operational data in Honeycomb should mirror configuration data at all times.
+Because of this, test cases follow this general pattern:
+
+#. read operational data of the feature using restconf.
+#. read status of the feature using VPP API dump.
+#. modify configuration of the feature using restconf.
+#. verify changes to operational data using restconf.
+#. verify changes using VPP API dump.
+
+Test cases involving network interfaces utilize the first two interfaces on
+the DUT node.
+
+Functional Tests Naming
+-----------------------
+
+CSIT |release| introduced a common structured naming convention for all
+performance and functional tests. This change was driven by substantially
+growing number and type of CSIT test cases. Firstly, the original practice did
+not always follow any strict naming convention. Secondly test names did not
+always clearly capture tested packet encapsulations, and the actual type or
+content of the tests. Thirdly HW configurations in terms of NICs, ports and
+their locality were not captured either. These were but few reasons that drove
+the decision to change and define a new more complete and stricter test naming
+convention, and to apply this to all existing and new test cases.
+
+The new naming should be intuitive for majority of the tests. The complete
+description of CSIT test naming convention is provided on `CSIT test naming
+page <https://wiki.fd.io/view/CSIT/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.
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