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authorMaros Ondrejicka <maros.ondrejicka@pantheon.tech>2022-11-08 08:00:51 +0100
committerFlorin Coras <florin.coras@gmail.com>2022-11-26 01:51:25 +0000
commit7943c90b2e341e6e064538f31746e326cd7c4e42 (patch)
treedbac7f0589a2f65dc3fc7cc9d11c4984c53285cd /extras
parent530c5ee1fe178895e718ea752d2addc7b21c01ba (diff)
hs-test: document host stack test framework
Type: docs Signed-off-by: Maros Ondrejicka <maros.ondrejicka@pantheon.tech> Change-Id: I47d2794283a85a644448e60538f543644a0edfdc
Diffstat (limited to 'extras')
-rwxr-xr-xextras/hs-test/README9
-rwxr-xr-xextras/hs-test/README.rst240
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diff --git a/extras/hs-test/README b/extras/hs-test/README
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-Host stack test framework
--------------------------
-
-For building docker image run `make` first and `./test` to run all the tests.
-`./test` script is basically a wrapper for `go test` and accepts its parameters,
-for example following runs a specific test: `./test -run Veth/EchoBuilt`.
-
-Root privileges is required to run tests as it uses linux `ip` command for
-configuring topology.
diff --git a/extras/hs-test/README.rst b/extras/hs-test/README.rst
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+Host stack test framework
+=========================
+
+Overview
+--------
+
+The goal of the Host stack test framework (**hs-test**) is to ease writing and running end-to-end tests for VPP's Host Stack.
+End-to-end tests often want multiple VPP instances, network namespaces, different types of interfaces
+and to execute external tools or commands. With such requirements the existing VPP test framework is not sufficient.
+For this, ``Go`` was chosen as a high level language, allowing rapid development, with ``Docker`` and ``ip`` being the tools for creating required topology.
+
+Go's package `testing`_ together with `go test`_ command form the base framework upon which the *hs-test* is built and run.
+
+Anatomy of a test case
+----------------------
+
+**Prerequisites**:
+
+* Tests use *hs-test*'s own docker image, so building it before starting tests is a prerequisite. Run ``sudo make`` to do so
+* Docker has to be installed and Go has to be in path of both the running user and root
+* Root privileges are required to run tests as it uses Linux ``ip`` command for configuring topology
+
+**Action flow when running a test case**:
+
+#. It starts with running ``./test``. This script is basically a wrapper for ``go test`` and accepts its parameters,
+ for example following runs a specific test: ``./test -run TestNs/TestHttpTps``
+#. ``go test`` compiles package ``main`` along with any files with names matching the file pattern ``*_test.go``
+ and then runs the resulting test binaries
+#. The go test framework runs each function matching :ref:`naming convention<test-convention>`. Each of these corresponds to a `test suite`_
+#. Testify toolkit's ``suite.Run(t *testing.T, suite TestingSuite)`` function runs the suite and does the following:
+
+ #. Suite is initialized. The topology is loaded and configured in this step
+ #. Test suite runs all the tests attached to it
+ #. Execute tear-down functions, which currently consists of stopping running containers
+ and clean-up of test topology
+
+Adding a test case
+------------------
+
+This describes adding a new test case to an existing suite.
+For adding a new suite, please see `Modifying the framework`_ below.
+
+#. To write a new test case, create a file whose name ends with ``_test.go`` or pick one that already exists
+#. Declare method whose name starts with ``Test`` and specifies its receiver as a pointer to the suite's struct (defined in ``framework_test.go``)
+#. Implement test behaviour inside the test method. This typically includes the following:
+
+ #. Start docker container(s) as needed. Function ``dockerRun(instance, args string)``
+ from ``utils.go`` serves this purpose. Alternatively use suite struct's ``NewContainer(name string)`` method
+ #. Execute *hs-test* action(s) inside any of the running containers.
+ Function ``hstExec`` from ``utils.go`` does this by using ``docker exec`` command to run ``hs-test`` executable.
+ For starting an VPP instance inside a container, the ``Vpp`` struct can be used as a forward-looking alternative
+ #. Run arbitrary commands inside the containers with ``dockerExec(cmd string, instance string)``
+ #. Run other external tool with one of the preexisting functions in the ``utils.go`` file.
+ For example, use ``wget`` with ``startWget(..)`` function
+ #. Use ``exechelper`` or just plain ``exec`` packages to run whatever else
+ #. ``defer func() { exechelper.Run("docker stop <container-name>) }()`` inside the method body,
+ to stop the running container(s). It's not necessary to do this if containers were created
+ with suite's ``NewContainer(..)`` method
+
+**Example test case**
+
+Two docker containers, each with its own VPP instance running. One VPP then pings the other.
+This can be put in file ``extras/hs-test/my_test.go`` and run with command ``./test -run TestMySuite``.
+
+::
+
+ package main
+
+ import (
+ "fmt"
+ "github.com/edwarnicke/exechelper"
+ )
+
+ func (s *MySuite) TestMyCase() {
+ t := s.T()
+
+ vpp1Instance := "vpp-1"
+ vpp2Instance := "vpp-2"
+
+ err := dockerRun(vpp1Instance, "")
+ if err != nil {
+ t.Errorf("%v", err)
+ return
+ }
+ defer func() { exechelper.Run("docker stop " + vpp1Instance) }()
+
+ err = dockerRun(vpp2Instance, "")
+ if err != nil {
+ t.Errorf("%v", err)
+ return
+ }
+ defer func() { exechelper.Run("docker stop " + vpp2Instance) }()
+
+ _, err = hstExec("Configure2Veths srv", vpp1Instance)
+ if err != nil {
+ t.Errorf("%v", err)
+ return
+ }
+
+ _, err = hstExec("Configure2Veths cln", vpp2Instance)
+ if err != nil {
+ t.Errorf("%v", err)
+ return
+ }
+
+ // ping one VPP from the other
+ //
+ // not using dockerExec because it executes in detached mode
+ // and we want to capture output from ping and show it
+ command := "docker exec --detach=false vpp-1 vppctl -s /tmp/2veths/var/run/vpp/cli.sock ping 10.10.10.2"
+ output, err := exechelper.CombinedOutput(command)
+ if err != nil {
+ t.Errorf("ping failed: %v", err)
+ }
+ fmt.Println(string(output))
+ }
+
+Modifying the framework
+-----------------------
+
+**Adding a test suite**
+
+.. _test-convention:
+
+#. Adding a new suite takes place in ``framework_test.go``
+
+#. Make a ``struct`` with at least ``HstSuite`` struct and a ``teardownSuite`` function as its members.
+ HstSuite provides functionality that can be shared for all suites, like starting containers
+
+ ::
+
+ type MySuite struct {
+ HstSuite
+ teardownSuite func()
+ }
+
+#. Implement SetupSuite method which testify runs before running the tests.
+ It's important here to call ``setupSuite(s *suite.Suite, topologyName string)`` and assign its result to the suite's ``teardownSuite`` member.
+ Pass the topology name to the function in the form of file name of one of the *yaml* files in ``topo`` folder.
+ Without the extension. In this example, *myTopology* corresponds to file ``extras/hs-test/topo/myTopology.yaml``
+
+ ::
+
+ func (s *MySuite) SetupSuite() {
+ // Add custom setup code here
+
+ s.teardownSuite = setupSuite(&s.Suite, "myTopology")
+ }
+
+#. Implement TearDownSuite method which testify runs after the tests, to clean-up.
+ It's good idea to add at least the suite's own ``teardownSuite()``
+ and HstSuite upper suite's ``stopContainers()`` methods
+
+ ::
+
+ func (s *MySuite) TearDownSuite() {
+ s.teardownSuite()
+ s.StopContainers()
+ }
+
+#. In order for ``go test`` to run this suite, we need to create a normal test function and pass our suite to ``suite.Run``
+
+ ::
+
+ func TestMySuite(t *testing.T) {
+ var m MySuite
+ suite.Run(t, &m)
+ }
+
+#. Next step is to add test cases to the suite. For that, see section `Adding a test case`_ above
+
+**Adding a topology element**
+
+Topology configuration exists as ``yaml`` files in the ``extras/hs-test/topo`` folder.
+Processing of a file for a particular test suite is started by the ``setupSuite`` function depending on which file's name is passed to it.
+Specified file is loaded by ``LoadTopology()`` function and converted into internal data structures which represent various elements of the topology.
+After parsing the configuration, ``Configure()`` method loops over array of topology elements and configures them one by one.
+
+These are currently supported types of elements.
+
+* ``netns`` - network namespace
+* ``veth`` - veth network interface, optionally with target network namespace or IPv4 address
+* ``bridge`` - ethernet bridge to connect created interfaces, optionally with target network namespace
+* ``tap`` - tap network interface with IP address
+
+Supporting a new type of topology element requires adding code to recognize the new element type during loading.
+And adding code to set up the element in the host system with some Linux tool, such as *ip*. This should be implemented in ``netconfig.go``.
+
+**Communicating between containers**
+
+When two VPP instances or other applications, each in its own Docker container,
+want to communicate there are typically two ways this can be done within *hs-test*.
+
+* Network interfaces. Containers are being created with ``-d --network host`` options,
+ so they are connected with interfaces created in host system
+* Shared folders. Containers are being created with ``-v`` option to create shared `volumes`_ between host system and containers
+ or just between containers
+
+**Adding a hs-test action**
+
+Executing more complex or long running jobs is made easier by *hs-test* actions.
+These are functions that compartmentalize configuration and execution together for a specific task.
+For example, starting up VPP or running VCL echo client.
+
+The actions are located in ``extras/hs-test/actions.go``. To add one, create a new method that has its receiver as a pointer to ``Actions`` struct.
+
+Run it from test case with ``hstExec(args, instance)`` where ``args`` is the action method's name and ``instance`` is target Docker container's name.
+This then executes the ``hs-test`` binary inside of the container and it then runs selected action.
+Action is specified by its name as first argument for the binary.
+
+*Note*: When ``hstExec(..)`` runs some action from a test case, the execution of ``hs-test`` inside the container
+is asynchronous. The action might take many seconds to finish, while the test case execution context continues to run.
+To mitigate this, ``hstExec(..)`` waits pre-defined arbitrary number of seconds for a *sync file* to be written by ``hs-test``
+at the end of its run. The test case context and container use Docker volume to share the file.
+
+**Adding an external tool**
+
+If an external program should be executed as part of a test case, it might be useful to wrap its execution in its own function.
+These types of functions are placed in the ``utils.go`` file. If the external program is not available by default in Docker image,
+add its installation to ``extras/hs-test/Dockerfile.vpp`` in ``apt-get install`` command.
+Alternatively copy the executable from host system to the Docker image, similarly how the VPP executables and libraries are being copied.
+
+**Eternal dependencies**
+
+* Linux tools ``ip``, ``brctl``
+* Standalone programs ``wget``, ``iperf3`` - since these are downloaded when Docker image is made,
+ they are reasonably up-to-date automatically
+* Programs in Docker images - see ``envoyproxy/envoy-contrib`` in ``utils.go``
+* ``http_server`` - homegrown application that listens on specified address and sends a test file in response
+* Non-standard Go libraries - see ``extras/hs-test/go.mod``
+
+Generally, these will be updated on a per-need basis, for example when a bug is discovered
+or a new version incompatibility issue occurs.
+
+
+.. _testing: https://pkg.go.dev/testing
+.. _go test: https://pkg.go.dev/cmd/go#hdr-Test_packages
+.. _test suite: https://github.com/stretchr/testify#suite-package
+.. _volumes: https://docs.docker.com/storage/volumes/
+