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Ceph is a distributed object, block, and file storage platform
39e22e4c0a
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teuthology | ||
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TODO.org |
================================================== `Teuthology` -- The Ceph integration test runner ================================================== The Ceph project needs automated tests. Because Ceph is a highly distributed system, and has active kernel development, its testing requirements are quite different from e.g. typical LAMP web applications. Nothing out there seemed to handle our requirements, so we wrote our own framework, called `Teuthology`. Overview ======== Teuthology runs a given set of Python functions (`tasks`), with an SSH connection to every host participating in the test. The SSH connection uses `Paramiko <http://www.lag.net/paramiko/>`__, a native Python client for the SSH2 protocol, and this allows us to e.g. run multiple commands inside a single SSH connection, to speed up test execution. Tests can use `gevent <http://www.gevent.org/>`__ to perform actions concurrently or in the background. Build ===== Teuthology uses several Python packages that are not in the standard library. To make the dependencies easier to get right, we use a `virtualenv` to manage them. To get started, ensure you have the ``virtualenv`` and ``pip`` programs installed; e.g. on Debian/Ubuntu:: sudo apt-get install python-virtualenv python-pip libevent-dev and then run:: ./bootstrap You can run Teuthology's (and Orchestra's) internal unit tests with:: ./virtualenv/bin/nosetests orchestra teuthology Test configuration ================== An integration test run takes three items of configuration: - ``targets``: what hosts to run on; this is a dictionary mapping hosts to ssh host keys, like: "username@hostname.example.com: ssh-rsa long_hostkey_here" - ``roles``: how to use the hosts; this is a list of lists, where each entry lists all the roles to be run on a single host; for example, a single entry might say ``[mon.1, osd.1]`` - ``tasks``: how to set up the cluster and what tests to run on it; see below for examples The format for this configuration is `YAML <http://yaml.org/>`__, a structured data format that is still human-readable and editable. For example, a full config for a test run that sets up a three-machine cluster, mounts Ceph via ``cfuse``, and leaves you at an interactive Python prompt for manual exploration (and enabling you to SSH in to the nodes & use the live cluster ad hoc), might look like this:: roles: - [mon.0, mds.0, osd.0] - [mon.1, osd.1] - [mon.2, client.0] targets: ubuntu@host07.example.com: ssh-rsa long_key_here ubuntu@host08.example.com: ssh-rsa other_key ubuntu@host09.example.com: ssh-rsa third_key tasks: - ceph: - cfuse: [client.0] - interactive: The number of entries under ``roles`` and ``targets`` must match. Note the colon after every task name in the ``tasks`` section. You need to be able to SSH in to the listed targets without passphrases, and the remote user needs to have passphraseless `sudo` access. If you'd save the above file as ``example.yaml``, you could run teuthology on it by saying:: ./virtualenv/bin/teuthology example.yaml You can also pass the ``-v`` option, for more verbose execution. See ``teuthology --help`` for more. Multiple config files --------------------- You can pass multiple files as arguments to ``teuthology``. Each one will be read as a config file, and their contents will be merged. This allows you to e.g. share definitions of what a "simple 3 node cluster" is. The source tree comes with ``roles/3-simple.yaml``, so we could skip the ``roles`` section in the above ``example.yaml`` and then run:: ./virtualenv/bin/teuthology roles/3-simple.yaml example.yaml Reserving target machines ------------------------- Before locking machines will work, you must create a .teuthology.yaml file in your home directory that sets a lock_server, i.e.:: lock_server: http://host.example.com:8080/lock Teuthology automatically locks nodes for you if you specify the ``--lock`` option. Without this option, you must specify machines to run on in a ``targets.yaml`` file, and lock them using teuthology-lock. Note that the default owner of a machine is ``USER@HOST``. You can override this with the ``--owner`` option when running teuthology or teuthology-lock. With teuthology-lock, you can also add a description, so you can remember which tests you were running on them. This can be done when locking or unlocking machines, or as a separate action with the ``--update`` option. To lock 3 machines and set a description, run:: ./virtualenv/bin/teuthology-lock --lock-many 3 --desc 'test foo' If machines become unusable for some reason, you can mark them down:: ./virtualenv/bin/teuthology-lock --update --status down machine1 machine2 To see the status of all machines, use the ``--list`` option. This can be restricted to particular machines as well:: ./virtualenv/bin/teuthology-lock --list machine1 machine2 Tasks ===== A task is a Python module in the ``teuthology.task`` package, with a callable named ``task``. It gets the following arguments: - ``ctx``: a context that is available through the lifetime of the test run, and has useful attributes such as ``cluster``, letting the task access the remote hosts. Tasks can also store their internal state here. (TODO beware namespace collisions.) - ``config``: the data structure after the colon in the config file, e.g. for the above ``cfuse`` example, it would be a list like ``["client.0"]``. Tasks can be simple functions, called once in the order they are listed in ``tasks``. But sometimes, it makes sense for a task to be able to clean up after itself; for example, unmounting the filesystem after a test run. A task callable that returns a Python `context manager <http://docs.python.org/library/stdtypes.html#typecontextmanager>`__ will have the manager added to a stack, and the stack will be unwound at the end of the run. This means the cleanup actions are run in reverse order, both on success and failure. A nice way of writing context managers is the ``contextlib.contextmanager`` decorator; look for that string in the existing tasks to see examples, and note where they use ``yield``. Troubleshooting =============== Sometimes when a bug triggers, instead of automatic cleanup, you want to explore the system as is. Adding a top-level:: interactive-on-error: true as a config file for ``teuthology`` will make that possible. With that option, any *task* that fails, will have the ``interactive`` task called after it. This means that before any cleanup happens, you get a change to inspect the system -- both through Teuthology and via extra SSH connections -- and the cleanup completes only when you choose so. Just exit the interactive Python session to continue the cleanup. TODO: this only catches exceptions *between* the tasks. If a task calls multiple subtasks, e.g. with ``contextutil.nested``, those cleanups *will* be performed. Later on, we can let tasks communicate the subtasks they wish to invoke to the top-level runner, avoiding this issue.