[[TracNav(NuwaNav)]] [[PageOutline]] = Testing Quickstart = == Overview == The automated testing system uses the '''Bitten''' extension to Trac which provides a '''slave''' and '''master''' system : || slave || any machine capable of running !NuWa, with '''nosebit''' installed || || master || dybsvn Trac instance http://dayabay.ihep.ac.cn/tracs/dybsvn || = '''nosebit''' = '''nosebit''' denotes a collection of packages : || [http://www.somethingaboutorange.com/mrl/projects/nose/ nose] || test discovery/running, orchestration with coverage and profilers || || [http://peak.telecommunity.com/DevCenter/setuptools setuptools] || needed to install nose plugins, also provides [http://peak.telecommunity.com/DevCenter/EasyInstall easy_install] tool || || xmlnose || nose plugin to provide test results in the xml format needed by the bitten master || || bitten-slave from [http://bitten.edgewall.org/ bitten] || automated build/test runner, pure python || Which provide command line tools: || nosetests || test running entry point || || easy_install || install python packages into NuWa python || || bitten-slave || communicates with bitten-master for instructions on tests (or builds) to be performed || == Installation of '''nosebit''' into Nuwa python == Since r4360, '''nosebit''' is included with the dybinst externals, so the below installation should have been done automatically by '''dybinst''', (if you find otherwise check ticket #19 ). If '''which nosetests''' draws a blank when you are in your CMT environment then you(or your administrator) will need to rerun [db:Offline_Software_Installation dybinst] with commands like : {{{ ./dybinst trunk checkout ./dybinst trunk external nosebit }}} to get uptodate and install the '''nosebit''' external. == Check the '''nosebit''' installation == Check your installation by getting into the CMT controlled environment of any package that uses python, and trying these tools: {{{ dyb__ ## see below for details which nosetests ## also check easy_install and bitten-slave }}} The path returned should be beneath the '''external/Python''' directory of your !NuWa installation. Verify that the list of plugins includes '''xml-output''' (used by automated testing system) : {{{ nosetests --plugins | grep xml-output Plugin xml-output }}} = Utility dyb!__* functions = These utility functions are used by the automated build and test system, so to investigate failures it is best to use these functions first to reproduce the failures, then proceed with using '''nosetests''' directly as you zero in on the failing tests. Define the dyb!__* functions in your environment with something like the below called from your $HOME/.bash_profile {{{ . $NUWA_HOME/../installation/trunk/dybtest/scripts/dyb__.sh }}} Use tab-completion in your bash shell to see the functions available : {{{ dyb__ }}} Check your bash , if nothing is returned by the below function then your bash does not need the workaround of setting environment variable NUWA_HOME {{{ dyb__old_bash }}} Customize the defaults by overriding the '''dyb!__buildpath''' function to feature your favourite repository path, for example by putting the below into your $HOME/.bash_profile. See the below section on bash functions if they are new to you. {{{ dyb__buildpath(){ echo ${BUILD_PATH:-dybgaudi/trunk/Simulation/GenTools} ; } }}} OR : {{{ dyb__buildpath(){ echo ${BUILD_PATH:-dybgaudi/trunk/DybRelease} ; } }}} * use BUILD_PATH if defined, otherwise the default path provided * CAUTION: you must provide a repository path (with the '''trunk''' ) not a working copy path == dyb!__usage == The '''dyb!__usage''' function provides brief help on the most important functions : {{{ dyb__usage Top level functions provided : dyb__ [siteroot-relative-path] path defaults to dybgaudi/Simulation/GenTools jump into CMT controlled environment and wc directory of a siteroot relative path, the relative path must either end with "cmt" or with a directory that contains the "cmt" directory eg dyb__ lcgcmt/LCG_Interfaces/ROOT/cmt dyb__ lcgcmt/LCG_Interfaces/ROOT dyb__ dybgaudi/DybRelease dyb__update uses dybinst to svn update and rebuild dyb__checkout : ./dybinst trunk checkout dyb__rebuild : ./dybinst -c trunk projects dyb__test [options-passed-to-nosetests] uses dyb__context to setup the environment and directory then invokes nosetests with the options passed }}} = Nose test running = Get into the CMT managed environment of your default build path and run '''nosetests''' with the function : {{{ dyb__test [arguments-are-passed-directly-to-nosetests] }}} The automated tests are run from the package directory, that is the parent directory of the cmt directory. Currently a simple '''nosetests''' invocation is performed, changing this simplest approach to avoid issues with test isolation may be necessary in future. If you are already in the appropriate environment you can run tests with '''nosetests''' directly. == nosetests basic usage == Search for tests using the default test finding approach in the current directory, with command : {{{ nosetests }}} For your tests to be found, * collect them in the '''tests''' folder of your project folder * name the python modules test_*.py * name the test functions test_* See the examples of tests in * i:source:dybgaudi/trunk/Simulation/GenTools/tests * i:source:dybgaudi/trunk/RootIO/RootIOTest/tests You can also run the tests from specific directories or modules with eg {{{ nosetests tests/test_look.py }}} == nosetests options == Nosetests has a large number of options, see them listed with : {{{ nosetests --help }}} Some of the most useful ones are : || -v / -vv / -vvv || verbosity control, default is very terse just a "." for a successful test || || -s / --no-capture || stdout/stderr for failing tests is usually captured and output at the end of the test run, use this to output immediately || == nose documentation == '''nosetests''' is the command line tool that exposes the functionality of the '''nose''' python package. Access the '''pydoc''' for the '''nose''' package with : {{{ pydoc nose }}} Or see it online at * http://www.somethingaboutorange.com/mrl/projects/nose/ = Interactive Test Running = Note the '''trunk''' in the {{{BUILD_PATH}}}, as it is a repository path : {{{ export BUILD_PATH=dybgaudi/trunk/RootIO/RootIOTest dyb__test -v }}} * the {{{-v}}} is a verbosity option passed to nosetests == Example of running RootIO tests == {{{ [dayabaysoft@grid1 dayabaysoft]$ export BUILD_PATH=dybgaudi/trunk/RootIO/RootIOTest [dayabaysoft@grid1 dayabaysoft]$ dyb__test -v === dyb__test : invoking context... [-v] from /home/dayabaysoft ------------------------------------------ Configuring environment for standalone package. CMT version v1r20p20070720. System is Linux-i686 ------------------------------------------ Creating setup scripts. Creating cleanup scripts. BUILD_PATH=dybgaudi/trunk/RootIO/RootIOTest NUWA_HOME=/disk/d3/dayabay/local/dyb/trunk_dbg/NuWa-trunk === dyb__test : invoking clean... [-v] from /disk/d3/dayabay/local/dyb/trunk_dbg/NuWa-trunk/dybgaudi/RootIO/RootIOTest === dyb__test : invoking nosetests... [-v] from /disk/d3/dayabay/local/dyb/trunk_dbg/NuWa-trunk/dybgaudi/RootIO/RootIOTest test_io.test_genio ... FAIL test_io.test_rootio ... ok test_io.test_simio ... FAIL test_io.test_dybio ... ok ====================================================================== FAIL: test_io.test_genio ---------------------------------------------------------------------- Traceback (most recent call last): File "/disk/d3/dayabay/local/dyb/trunk_dbg/external/Python/2.5.2/slc3_i686_gcc323/lib/python2.5/site-packages/nose-0.10.3-py2.5.egg/nose/case.py", line 182, in runTest self.test(*self.arg) File "/disk/d3/dayabay/local/dyb/trunk_dbg/NuWa-trunk/dybgaudi/RootIO/RootIOTest/tests/test_io.py", line 18, in test_genio Run( "python share/geniotest.py output" , parser=m , opts=opts )().assert_() File "/disk/d3/dayabay/local/dyb/trunk_dbg/installation/trunk/dybtest/python/dybtest/run.py", line 48, in assert_ assert self.prc == 0 , self AssertionError: " opts:{'maxtime': 300, 'timeout': -1.0, 'verbose': True} prc:1 parser: > -------------------- >> begin captured stdout << --------------------- forking " opts:{'maxtime': 300, 'timeout': -1.0, 'verbose': True} prc:0 parser: > [1] XmlCnvSvc ERROR Expression evaluation error: UNKNOWN_VARIABLE [1] XmlCnvSvc ERROR [ADoavHeight/2.+ReflectorOffset] [1] XmlCnvSvc ERROR Expression evaluation error: UNKNOWN_VARIABLE [1] XmlCnvSvc ERROR [-ADoavHeight/2.-ReflectorOffset] [1] XmlCnvSvc ERROR ^ subprocess returned ... completed " opts:{'maxtime': 300, 'timeout': -1.0, 'verbose': True} prc:1 parser: > }}} = Automated Build/Test Running = The results of automated testing are reported by the Bitten Trac plugin at * i:build summary of all configurations * i:build/dybinst details for the '''dybinst''' configuration Some documentation on test triggering criteria are given on the above pages. == Adding a script to automated testing == === Create the test === * Create a '''tests''' directory as sibling to the cmt directory of the project * Add a interface script at path {{{tests/test_myscript.py}}} * NB the directory must be called '''tests''' and the filename must be of form '''test_*.py''' Example of {{{tests/test_myscript.py}}} : {{{ #!py from dybtest import Matcher, Run """ Example of interfacing : "python share/myscript.py myarg1 myarg2" into the automated testing system, without modifcation to the script. The script is run in a subprocess and the stdout/stderr is piped out and examined by the matcher using python regular expressions that are matched against every line of output providing line return codes when a match is found. The maximum return code from all the lines of output is the matcher return code, which if greater than zero causes the test to fail If the running time of subprocess script exceeds the configured maxtime (in seconds), the subprocess is killed. """ checks = { '.*FATAL':2, '.*ERROR':1, '.*\*\*\* Break \*\*\* segmentation violation':3, '^\#\d':None } m = Matcher( checks, verbose=False ) opts = { 'maxtime':300 } def test_myscript(): Run( "python share/myscript.py myarg1 myarg2" , parser=m , opts=opts )().assert_() if __name__=='__main__': test_myscript() }}} This uses functionality provided in i:source:installation/trunk/dybtest/python/dybtest which is made globally available via '''nosebit_dybtest'''. === Introduce the test to the automated testing system === * Add a '''step''' element to the relevant recipes : * i:source:installation/trunk/dybtest/recipes/dybinst.xml {{{ #!xml }}} Note that two variables must be exported : * BUILD_TEST : name of test that must match that used in the '''python:unittest''' element * BUILD_PATH : repository path (including the trunk) of your project To follow what is happening examine the entity definitions at the top of the recipe. After committing the updated recipe, all the slaves should being to perform your additional tests. == Bitten recipes == The Bitten master manages XML '''recipes''' for automated building and test running. Recipes are associated with repository paths, to form the '''builds'''. Following svn checkins within the paths, builds are assigned "pending" status. An example of a recipe : * i:source:installation/trunk/dybtest/recipes/dybinst.xml {{{ #!xml ]> }}} A running Bitten slave polls the master (using HTTP) to see if there are any pending builds that it can perform. If there are it GETs the corresponding recipe and configuration parameters such as the BUILD_PATH from the master and follows the steps of the recipe reporting progress to the master after each step. == Setup/configure a bitten slave == Define some functions for configuration/control of the slave {{{ . $NUWA_HOME/../installation/trunk/dybtest/scripts/slave.bash }}} {{{ slave-usage }}} The slave is configured using two files, one for the credentials/url with which to connect to the master $HOME/.slaverc : {{{ # # generated on : Thu Sep 11 17:39:04 CST 2008 # by function : slave-demorc # from script : /data/env/local/dyb/trunk_dbg/installation/trunk/dybtest/scripts/slave.bash # # # name used for logfile and tmp directory identification and identification of the # slave on the server ... convention is to use the NEWCMTCONFIG string # local name=i686-slc46-gcc346 # # "builds" url of the master trac instance and credentials with which to connect # #local url=http://dayabay.phys.ntu.edu.tw/tracs/dybsvn/builds local url=http://dayabay.ihep.ac.cn/tracs/dybsvn/builds local user=slave local pass=youknowit # # absolute path to directory containing dybinst exported script # local home=/data/env/local/dyb/trunk_dbg # # absolute path to slave config file # local cfg=$home/installation/trunk/dybtest/recipes/cms01.cfg }}} And a second defining the characteristics of the !NuWa installation * i:source:installation/trunk/dybtest/recipes/cms01.cfg {{{ # # configuration for a bitten slave # # the master deals in repository paths hence have to strip # the "trunk" to get to working copy paths # [nuwa] home = /data/env/local/dyb/trunk_dbg/NuWa-trunk version = trunk script = ../installation/trunk/dybtest/scripts/dyb__.sh }}} The quantites defined are accessible within the recipe context as eg: {{{ ${nuwa.home} }}} == slave running == The slave will poll the master looking for pending builds that can be performed by the slave, based on match criteria configured in the master. When a pending build is found that matches the slave, the steps of the build are done and reported back to the master. Test outcomes in XML are reported to the the master, which parses them and places into the Trac database ready for presentation. To start the slave: {{{ slave-start [options-passed-to-slave] }}} This function invokes the '''bitten-slave''' command which does the setup of working directories and configuration file access. Options to the function are passed to the command Useful options for initial debugging : || -s, --single || exit after completing a single build || || -n, --dry-run || do not report results back to master || || -i SECONDS, --interval=SECONDS || time to wait between requesting builds, poll interval (default 300 s) || For long term slave running, a detached '''screen''' can be used, started with : {{{ slave-screen-start }}} = Bash Functions Primer = Define the function : {{{ demo-func(){ echo $FUNCNAME hello [$BASH_SOURCE] } }}} Invoke it : {{{ demo-func demo-func hello [] }}} Show the definition : {{{ type demo-func demo-func is a function demo-func () { echo $FUNCNAME hello [$BASH_SOURCE] } }}}