From 36c84854cb801ba025fd3b43d9cf998da451eca7 Mon Sep 17 00:00:00 2001 From: Jelmer Vernooij Date: Wed, 31 Mar 2010 04:24:04 +0200 Subject: subunit: Include remainder of bindings and metadata. --- lib/subunit/README | 217 +++++++++++++++++++++++++++++++++++++++++++++++++++-- 1 file changed, 211 insertions(+), 6 deletions(-) (limited to 'lib/subunit/README') diff --git a/lib/subunit/README b/lib/subunit/README index c657992c7a..9740d013a5 100644 --- a/lib/subunit/README +++ b/lib/subunit/README @@ -1,7 +1,212 @@ -This directory contains some helper code for the Subunit protocol. It is -a partial import of the code from the upstream subunit project, which can -be found at https://launchpad.net/subunit. -To update the snapshot, run update.sh in this directory. When making changes -here, please also submit them upstream - otherwise they'll be gone by the -next time we import subunit. + subunit: A streaming protocol for test results + Copyright (C) 2005-2009 Robert Collins + + Licensed under either the Apache License, Version 2.0 or the BSD 3-clause + license at the users choice. A copy of both licenses are available in the + project source as Apache-2.0 and BSD. You may not use this file except in + compliance with one of these two licences. + + Unless required by applicable law or agreed to in writing, software + distributed under these licenses is distributed on an "AS IS" BASIS, WITHOUT + WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the + license you chose for the specific language governing permissions and + limitations under that license. + + See the COPYING file for full details on the licensing of Subunit. + + subunit reuses iso8601 by Michael Twomey, distributed under an MIT style + licence - see python/iso8601/LICENSE for details. + +Subunit +------- + +Subunit is a streaming protocol for test results. The protocol is human +readable and easily generated and parsed. By design all the components of +the protocol conceptually fit into the xUnit TestCase->TestResult interaction. + +Subunit comes with command line filters to process a subunit stream and +language bindings for python, C, C++ and shell. Bindings are easy to write +for other languages. + +A number of useful things can be done easily with subunit: + * Test aggregation: Tests run separately can be combined and then + reported/displayed together. For instance, tests from different languages + can be shown as a seamless whole. + * Test archiving: A test run may be recorded and replayed later. + * Test isolation: Tests that may crash or otherwise interact badly with each + other can be run seperately and then aggregated, rather than interfering + with each other. + * Grid testing: subunit can act as the necessary serialisation and + deserialiation to get test runs on distributed machines to be reported in + real time. + +Subunit supplies the following filters: + * tap2subunit - convert perl's TestAnythingProtocol to subunit. + * subunit2pyunit - convert a subunit stream to pyunit test results. + * subunit2gtk - show a subunit stream in GTK. + * subunit2junitxml - convert a subunit stream to JUnit's XML format. + * subunit-diff - compare two subunit streams. + * subunit-filter - filter out tests from a subunit stream. + * subunit-ls - list info about tests present in a subunit stream. + * subunit-stats - generate a summary of a subunit stream. + * subunit-tags - add or remove tags from a stream. + +Integration with other tools +---------------------------- + +Subunit's language bindings act as integration with various test runners like +'check', 'cppunit', Python's 'unittest'. Beyond that a small amount of glue +(typically a few lines) will allow Subunit to be used in more sophisticated +ways. + +Python +====== + +Subunit has excellent Python support: most of the filters and tools are written +in python and there are facilities for using Subunit to increase test isolation +seamlessly within a test suite. + +One simple way to run an existing python test suite and have it output subunit +is the module ``subunit.run``:: + + $ python -m subunit.run mypackage.tests.test_suite + +For more information on the Python support Subunit offers , please see +``pydoc subunit``, or the source in ``python/subunit/__init__.py`` + +C += + +Subunit has C bindings to emit the protocol, and comes with a patch for 'check' +which has been nominally accepted by the 'check' developers. See 'c/README' for +more details. + +C++ +=== + +The C library is includable and usable directly from C++. A TestListener for +CPPUnit is included in the Subunit distribution. See 'c++/README' for details. + +shell +===== + +Similar to C, the shell bindings consist of simple functions to output protocol +elements, and a patch for adding subunit output to the 'ShUnit' shell test +runner. See 'shell/README' for details. + +Filter recipes +-------------- + +To ignore some failing tests whose root cause is already known:: + + subunit-filter --without 'AttributeError.*flavor' + + +The protocol +------------ + +Sample subunit wire contents +---------------------------- + +The following:: + test: test foo works + success: test foo works. + test: tar a file. + failure: tar a file. [ + .. + ].. space is eaten. + foo.c:34 WARNING foo is not defined. + ] + a writeln to stdout + +When run through subunit2pyunit:: + .F + a writeln to stdout + + ======================== + FAILURE: tar a file. + ------------------- + .. + ].. space is eaten. + foo.c:34 WARNING foo is not defined. + + +Subunit protocol description +============================ + +This description is being ported to an EBNF style. Currently its only partly in +that style, but should be fairly clear all the same. When in doubt, refer the +source (and ideally help fix up the description!). Generally the protocol is +line orientated and consists of either directives and their parameters, or +when outside a DETAILS region unexpected lines which are not interpreted by +the parser - they should be forwarded unaltered. + +test|testing|test:|testing: test label +success|success:|successful|successful: test label +success|success:|successful|successful: test label DETAILS +failure: test label +failure: test label DETAILS +error: test label +error: test label DETAILS +skip[:] test label +skip[:] test label DETAILS +xfail[:] test label +xfail[:] test label DETAILS +progress: [+|-]X +progress: push +progress: pop +tags: [-]TAG ... +time: YYYY-MM-DD HH:MM:SSZ + +DETAILS ::= BRACKETED | MULTIPART +BRACKETED ::= '[' CR lines ']' CR +MULTIPART ::= '[ multipart' CR PART* ']' CR +PART ::= PART_TYPE CR NAME CR PART_BYTES CR +PART_TYPE ::= Content-Type: type/sub-type(;parameter=value,parameter=value) +PART_BYTES ::= (DIGITS CR LF BYTE{DIGITS})* '0' CR LF + +unexpected output on stdout -> stdout. +exit w/0 or last test completing -> error + +Tags given outside a test are applied to all following tests +Tags given after a test: line and before the result line for the same test +apply only to that test, and inherit the current global tags. +A '-' before a tag is used to remove tags - e.g. to prevent a global tag +applying to a single test, or to cancel a global tag. + +The progress directive is used to provide progress information about a stream +so that stream consumer can provide completion estimates, progress bars and so +on. Stream generators that know how many tests will be present in the stream +should output "progress: COUNT". Stream filters that add tests should output +"progress: +COUNT", and those that remove tests should output +"progress: -COUNT". An absolute count should reset the progress indicators in +use - it indicates that two separate streams from different generators have +been trivially concatenated together, and there is no knowledge of how many +more complete streams are incoming. Smart concatenation could scan each stream +for their count and sum them, or alternatively translate absolute counts into +relative counts inline. It is recommended that outputters avoid absolute counts +unless necessary. The push and pop directives are used to provide local regions +for progress reporting. This fits with hierarchically operating test +environments - such as those that organise tests into suites - the top-most +runner can report on the number of suites, and each suite surround its output +with a (push, pop) pair. Interpreters should interpret a pop as also advancing +the progress of the restored level by one step. Encountering progress +directives between the start and end of a test pair indicates that a previous +test was interrupted and did not cleanly terminate: it should be implicitly +closed with an error (the same as when a stream ends with no closing test +directive for the most recently started test). + +The time directive acts as a clock event - it sets the time for all future +events. The value should be a valid ISO8601 time. + +The skip result is used to indicate a test that was found by the runner but not +fully executed due to some policy or dependency issue. This is represented in +python using the addSkip interface that testtools +(https://edge.launchpad.net/testtools) defines. When communicating with a non +skip aware test result, the test is reported as an error. +The xfail result is used to indicate a test that was expected to fail failing +in the expected manner. As this is a normal condition for such tests it is +represented as a successful test in Python. +In future, skip and xfail results will be represented semantically in Python, +but some discussion is underway on the right way to do this. -- cgit