# Name Outthentic - Multipurpose scenarios framework. # Synopsis Multipurpose scenarios framework. # Build status [![Build Status](https://travis-ci.org/melezhik/outthentic.svg)](https://travis-ci.org/melezhik/outthentic) # Install $ cpanm Outthentic # Introduction This is an outthentic tutorial. # Scenarios Scenario is just a script that you **run** and that yields something into **stdout**. Perl scenario example: $ nano story.pl print "I am OK\n"; print "I am outthentic\n"; Bash scenario example: $ nano story.bash echo I am OK echo I am outthentic Python scenario example: $ nano story.py print "I am OK" print "I am outthentic" Ruby scenario example: $ nano story.rb puts "I am OK" puts "I am outthentic" Outthentic scenarios could be written in one of the four languages: * Perl * Bash * Python * Ruby Choose you favorite language ;) ! Outthentic relies on file names convention to determine scenario language. This table describes `file name -> language` mapping for scenarios: +-----------+--------------+ | Language | File | +-----------+--------------+ | Perl | story.pl | | Bash | story.bash | | Python | story.py | | Ruby | story.rb | +-----------+--------------+ # Check files Check files contain rules to **verify** stdout produced by scenarios. Here we require that scenario should produce `I am OK` and `I am outthentic` lines in stdout: $ nano story.check I am OK I am outthentic NOTE: Check files are optional, if one doesn't need any checks, then don't create check files. In this case it's only ensured that a scenario succeeds ( exit code 0 ). # Stories Outthentic story is an abstraction for scenario and check file. When outthentic story gets run: * scenario is executed and the output is saved into a file. * the output is verified against check file See also [story runner](#story-runner). # Suites and projects Outthentic suites are a bunch of related stories. You may also call suites (outthentic) projects. Obviously project may contain more than one story. Stories are mapped into directories inside the project root directory. Here is an example: # Perl $ mkdir perl-story $ nano perl-story/story.pl print "hello from perl" $ nano perl-story/story.check hello from perl # Bash $ mkdir bash-story $ nano bash-story/story.bash echo hello from bash $ nano bash-story/story.check hello from bash # Python $ mkdir python-story $ nano python-story/story.py print "hello from python" $ nano python-story/story.check hello from python # Ruby $ mkdir ruby-story $ nano ruby-story/story.rb puts "hello from ruby" $ nano ruby-story/story.check hello from ruby To execute different stories launch story runner command called [strun](#story-runner): $ strun --story perl-story $ strun --story bash-story # so on ... # The project root directory resolution and story paths If `--root` parameter is not set the project root directory is the current working directory. By default, if `--story` parameter is not given, strun looks for the file named story.(pl|rb|bash) at the project root directory and run it. Here is an example: $ nano story.bash echo 'hello world' $ strun # will run story.bash It's always possible to pass the project root directory explicitly: $ strun --root /path/to/project/root/ To run the certain story use `--story` parameter: $ strun --story story1 `--story` parameter should point a directory _relative_ to the project root directory. Summary: * Stories are just a directories with scenarios and check files inside. * Strun - a [S]tory [R]unner - a console tool to execute stories. * Outthentic suites or projects are bunches of _related_ stories. # Check files Checks files contain rules to test scenario's output. Every scenario **might be accompanied by** its check file. Check file should be placed at the same directory as scenario and be named as `story.check`. Here is an example: $ nano story.bash sudo service nginx status $ nano story.check running # Story runner Story runner is a console tool to run stories. It is called `strun`. When executing stories strun consequentially goes through several phases: # Compilation phase Stories are compiled into Perl files and saved into cache directory. # Execution phase Compiled Perl files are executed and results are dumped out to console. # Hooks Story hooks are story runner's extension points. Hook features: * Hooks like scenarios are scripts written on different languages (Perl,Bash,Ruby,Python) * Hooks always _binds to some story_, to create a hook you should place hook's script into story directory. * Hooks are are executed _before_ scenarios Here is an example of hook: $ nano perl/hook.pl print "this is a story hook!"; This table describes file name -> language mapping for scenarios: +-----------+--------------+ | Language | File | +-----------+--------------+ | Perl | hook.pl | | Bash | hook.bash | | Python | hook.py | | Ruby | hook.rb | +-----------+--------------+ Reasons why you might need hooks: * Execute some *initialization code* before running a scenario * Simulate scenario's output * Call another stories # Simulate scenario output Sometimes you want to override story output at hook level. This is for example might be useful if you want to _test_ the rules in check files without running real script. In QA methodology it's called Mock objects: $ nano hook.bash set_stdout 'running' $ nano story.check running It's important to say that if overriding happens story executor never try to run scenario even if it presents: $ nano hook.bash set_stdout 'running' $ nano story.bash sudo service nginx status # this command won't be executed You may call `set_stdout` function more then once: $ nano hook.pl set_stdout("HELLO WORLD"); set_stdout("HELLO WORLD2"); It will "produce" two line of a story output: HELLO WORLD HELLO WORLD2 This table describes how `set_stdout()` function is called in various languages: +-----------+-----------------------+ | Language | signature | +-----------+-----------------------+ | Perl | set_stdout(SCALAR) | | Bash | set_stdout(STRING) | | Python(*) | set_stdout(STRING) | | Ruby | set_stdout(STRING) | +-----------+-----------------------+ (*) You need to `from outthentic import *` in Python to import set_stdout function. # Run stories from other stories Hooks allow you to call one story from other one. Here is an example: $ nano modules/knock-the-door/story.rb # this is a downstream story # to make story downstream # simply create story files # in modules/ directory puts 'knock-knock!'" $ nano modules/knock-the-door/story.check knock-knock! $ nano open-the-door/hook.rb # this is a upstream story # to run downstream story # call run_story function # inside hook # run_story accepts parameter - story path, # notice that you have to omit 'modules/' part run_story( 'knock-the-door' ); $ nano open-the-door/story.rb puts 'opening ...' $ nano open-the-door/story.check opening $ strun --story open-the-door/ /modules/knock-the-door/ started knock-knock! OK scenario succeeded OK output match 'knock-knock!' /open-the-door/ started opening ... OK scenario succeeded OK output match 'opening' --- STATUS SUCCEED Stories that run other stories are called _upstream stories_. Stories being called from other ones are _downstream story_. Summary: * To create downstream story place a story data in `modules/` directory inside the project root directory. * To run downstream story call `run_story(story_path)` function inside the upstream story's hook. * Downstream story is always gets executed before upstream story. * You can call as many downstream stories as you wish. * Downstream stories may call other downstream stories. Here is more sophisticated examples of downstream stories: $ nano modules/up/story.pl print "UP!" $ nano modules/down/story.pl print "DOWN!" $ nano two-jumps/hook.pl run_story( 'up' ); run_story( 'down' ); run_story( 'up' ); run_story( 'down' ); # Story variables Variables might be passed to downstream story by the second argument of `run_story()` function. For example, in Perl: $ nano hook.pl run_story( 'greeting', { name => 'Alexey' , message => 'hello' } ); Or in Ruby: $ nano hook.rb run_story 'greeting', { 'name' => 'Alexey' , 'message' => 'hello' } Or in Python: $ nano hook.rb from outthentic import * run_story('greeting', { 'name' : 'Alexey' , 'message' : 'hello' }) Or in Bash: $ nano hook.bash run_story greeting name Alexey message hello This table describes how `run_story()` function is called in various languages: +------------+----------------------------------------------+ | Language | signature | +------------+----------------------------------------------+ | Perl | run_story(SCALAR,HASHREF) | | Bash | run_story STORY_NAME NAME VAL NAME2 VAL2 ... | | Python(**) | run_story(STRING,DICT) | | Ruby | run_story(STRING,HASH) | +------------+----------------------------------------------+ (*) Story variables are accessible(*) in downstream story by `story_var()` function. (**) You need to `from outthentic import *` in Python to import set_stdout function. Examples: In Perl: $ nano modules/greeting/story.pl print story_var('name'), 'say ', story_var('message'); In Python: $ nano modules/greeting/story.py from outthentic import * print story_var('name') + 'say ' + story_var('message') In Ruby: $ nano modules/greeting/story.rb puts "#{story_var('name')} say #{story_var('message')}" In Bash: $ nano modules/greeting/story.bash echo $name say $message In Bash (alternative way): $ nano modules/greeting/story.bash echo $(story_var name) say $(story_var message) (*) Story variables are accessible inside check files as well. This table describes how `story_story()` function is called in various languages: +------------------+---------------------------------------------+ | Language | signature | +------------------+---------------------------------------------+ | Perl | story_var(SCALAR) | | Python(*) | story_var(STRING) | | Ruby | story_var(STRING) | | Bash (1-st way) | $foo $bar ... | | Bash (2-nd way) | $(story_var foo.bar) | +------------------+---------------------------------------------+ (*) You need to `from outthentic import *` in Python to import story_var() function. # Stories without scenarios The minimal set of files should be present in outthentic story is either scenario file or hook script, the last option is story without scenario. Examples: # Story with scenario only $ nano story.pl # Story with hook only $ nano hook.pl # Story helper functions Here is the list of function one can use _inside hooks_: * `project_root_dir()` - the project root directory. * `cache_root_dir()` - the cache root directory ( see [strun](#story-runner) ). * `cache_dir()` - storie's cache directory ( containing story's compiled files ) * `story_dir()` - the directory containing story data. * `config()` - returns suite configuration hash object. See also [suite configuration](#suite-configuration). * os() - return a mnemonic ID of operation system where story is executed. (*) You need to `from outthentic import *` in Python to import os() function. (**) in Bash these functions are represented by variables, e.g. $project_root_dir, $os, so on. # Recognizable OS list * alpine * amazon * archlinux * centos5 * centos6 * centos7 * debian * fedora * minoca * ubuntu * funtoo * darwin # Story meta headers Story meta headers are just plain text files with some useful description. The content of the meta headers will be shown when story is executed. Example: $ nano meta.txt The beginning of the story ... # Ignore scenario failures If scenario fails ( the exit code is not equal to zero ), the story executor marks such a story as unsuccessful and this results in overall failure. To suppress any story errors use `ignore_story_err()` function. Examples: # Python $ nano hook.py from outthentic import * ignore_story_err(1) # Ruby $ nano hook.rb ignore_story_err 1 # Perl $ nano hook.pl ignore_story_err(1) # Bash $ nano hook.bash ignore_story_err 1 # Story libraries Story libraries are files to make your libraries' code _automatically required_ into the story scenarios, hooks and check files context: Here are some examples: Bash: $ nano my-story/common.bash function hello_bash { echo 'hello bash' } $ nano my-story/story.bash echo hello_bash $ nano my-story/story.check generator: < language` mapping for story libraries: +-----------+-----------------+--------------------------------+ | Language | file | locations | +-----------+-----------------+--------------------------------+ | Bash | common.bash | $project_root_dir/common.bash | | | | $story_dir/common.bash | +-----------+-----------------+--------------------------------+ | Ruby | common.rb | $project_root_dir/common.rb | | | | $story_dir/common.bash | +-----------+-----------------+--------------------------------+ If you put story library file into project root directory it will be required by _any_ story: $ nano common.bash function hello_bash { echo 'hello bash' } ***NOTE!*** Story libraries are not supported for Python and Perl # PERL5LIB $project\_root\_directory/lib path is added to $PERL5LIB variable. This make it easy to place custom Perl modules under project root directory: $ nano my-app/lib/Foo/Bar/Baz.pm package Foo::Bar::Baz; 1; $ nano common.pm use Foo::Bar::Baz; # Story runner console tool $ strun # Options * `--root` The project root directory. Default value is the current working directory. * `--cwd` Sets working directory when strun executes stories. * `--debug` Enable/disable debug mode: * Increasing debug value results in more low level information appeared at output. * Default value is 0, which means no debugging. * Possible values: 0,1,2,3. * `--format` Sets reports format. Available formats are: `concise|production|default`. Default value is `default`. In concise format strun shrinks output to only STDOUT/STDERR comes from scenarios. It's useful when you want to parse stories output by external commands. Production format omits debug information. * `--purge-cache` Purge strun cache directory upon exit. By default `--purge-cache` is disabled. * `--match_l` Truncate matching strings. When matching lines are appeared in a report they are truncated to $match_l bytes. Default value is 200. * `--story` Run only a single story. This should be path _relative_ to the project root directory. Examples: # Project with 3 stories foo/story.pl foo/bar/story.rb bar/story.pl # Run various stories --story foo # runs foo/ stories --story foo/story # runs foo/story.pl --story foo/bar/ # runs foo/bar/ stories * `--ini` Configuration file path. See [suite configuration](#suite-configuration) section for details. * `--yaml` YAML configuration file path. See [suite configuration](#suite-configuration) section for details. * `--json` JSON configuration file path. See [suite configuration](#suite-configuration) section for details. * `--nocolor` Disable colors in reports. By default reports are color. * `--dump-config` Dumps suite configuration and exit. See also suite configuration section. # Suite configuration Outthentic projects are configurable. Configuration data is passed via configuration files. There are three type of configuration files are supported: * Config::General format (aka ini files) * YAML format * JSON format Config::General style configuration files are passed by `--ini` parameter: $ strun --ini /etc/suites/foo.ini $ nano /etc/suites/foo.ini
foo 1 bar 2
There is no special magic behind ini files, except this should be [Config::General](https://metacpan.org/pod/Config::General) compliant configuration file. Or you can choose YAML format for suite configuration by using `--yaml` parameter: $ strun --yaml /etc/suites/foo.yaml $ nano /etc/suites/foo.yaml main : foo : 1 bar : 2 Unless user sets path to the configuration file explicitly either by `--ini` or `--yaml` or `--json` story runner looks for the files named suite.ini and _then_ ( if suite.ini is not found ) for suite.yaml, suite.json at the current working directory. If configuration file is passed and read, the configuration data is accessible in a story hook file via config() function: $ nano hook.pl my $foo = config()->{main}->{foo}; my $bar = config()->{main}->{bar}; Examples for other languages: Bash: $ nano hook.bash foo=$(config main.foo ) bar=$(config main.bar ) Python: $ nano hook.py from outthentic import * foo = config()['main']['foo'] bar = config()['main']['bar'] Ruby: $ nano hook.rb foo = config['main']['foo'] bar = config['main']['bar'] # Runtime configuration Runtime configuration parameters override ones in suite configuration. Consider this example: $ nano suite.yaml foo : bar : 10 $ strun --param foo.bar=20 # will override foo.bar parameter to 20 # Free style command line parameters Alternative way to pass input parameters into outthentic scripts is a _free style_ command line arguments: $ strun -- Consider a simple example. We want to create a wrapper for some external script which accepts the following command line arguments: script {flags} {named parameters} {value} Where flags are: --verbose --debug Named parameters are: --foo foo-value --var bar-value And value is just a string: foo-value It's quite demanding to map external script parameters into Outthentic configuration. More over some parameters of external scripts are optional. Here is free style command line arguments to the rescue: $ nano story.bash script $(args_cli) That's all. Now we are safe to run our story-wrapper with command line arguments _in terms of_ external script: $ strun -- --foo foo-value --debug the-value # Auto coercion of configuration data into free style command line parameters Moreover it's possible declare external script parameters in suite configuration: $ nano suite.yaml --- args: - foo: foo-value - - debug - verbose - the-value $ strun This is end up in running story with following command line arguments for external script: --foo foo-value --debug --verbose the-value # Auto coercion rules * Args should be array which elements are processed in order, for every elements rules are applied depending on element's type * Scalars are turned into scalars: `the-value ---> the-value` * Arrays are turned into scalars with double dashes perpended: `(debug, verbose) ---> --debug --verbose`. This is useful for declaring boolean flags * Hashes are turned into named parameters: `foo: foo-value ---> --foo foo-value` # Auto coercion, using single dashes instead of double dashes Double dashes are default behavior of how named parameters and flags converted. If you need single dashes, prepend parameters in configuration file with `~` : $ nano suite.yaml --- args: - '~foo': foo-value - - ~debug - ~verbose # Environment variables * `OUTTHENTIC_MATCH` - overrides default value for `--match_l` parameter of story runner. * `SPARROW_ROOT` - sets the prefix for the path to the cache directory with compiled story files, see also [story runner](#story-runner). * `SPARROW_NO_COLOR` - disable color output, see `--nocolor` option of story runner. * `OUTTHENTIC_CWD` - sets working directory for strun, see `--cwd` parameter of story runner * `OUTTHENTIC_FORMAT` - overrides default value for `--format` parameter of story runner. Cache directory resolution: +---------------------+----------------------+ | The Cache Directory | SPARROW_ROOT Is Set? | +---------------------+----------------------+ | ~/.outthentic/tmp/ | No | | $SPARROW_ROOT/tmp/ | Yes | +---------------------+----------------------+ # Examples An example stories can be found in examples/ directory, to run them: $ strun --root examples/ --story $story-name Where `$story-name` is any top level directory inside examples/. # Check files syntax * Brief introduction of check file syntax could be found here - [https://github.com/melezhik/outthentic/blob/master/check-files-syntax.md](https://github.com/melezhik/outthentic/blob/master/check-files-syntax.md) * For the full detailed explanation follow Outthentic::DSL doc pages at [https://github.com/melezhik/outthentic-dsl](https://github.com/melezhik/outthentic-dsl) # AUTHOR [Aleksei Melezhik](mailto:melezhik@gmail.com) # Home Page [https://github.com/melezhik/outthentic](https://github.com/melezhik/outthentic) # See also * [Sparrow](https://github.com/melezhik/sparrow) - Multipurposes scenarios manager. * [Outthentic::DSL](https://github.com/melezhik/outthentic-dsl) - Outthentic::DSL specification. * [Swat](https://github.com/melezhik/swat) - Web testing framework. # Thanks To God as the One Who inspires me in my life!