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Alois Mahdal hace 8 años
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      utils/tfkit/README.md
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      utils/tfkit/README.testing.md

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-TFKIT
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-=====
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-
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-A simple portable (or rather "movable") test framework.
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-
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- 1. Copy (or `git submodule`) *test* sub-folder to your place
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-    where you want to run tests.
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-
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- 2. Run your framework by `./tfkit/runtests`.
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-
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- 3. Don't be surprised--you haven't added any tests yet :)
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-
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- 4. Read tfkit/README.testing.md
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-
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- 5. Start adding tests to `tests` folder

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-Tests
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-=====
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-
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-Running tests is handled by tfkit/runtests:
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-
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-    $ tfkit/runtest [filter]
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-
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-*filter* is a regular expression to be applied to sub-test name, running
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-only the matching ones.  See below for details.
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-
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-
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-Writing tests
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--------------
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-
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-Tests can be written in any scripting language, although the built-in
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-framework, written in Bash, provides some useful features for writing
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-certain kind of relatively simple tests.
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-
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-The harness, though, assumes that:
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-
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- *  Any direct sub-directory of `$TF_SUITE` directory ("tests" by default)
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-    that contains at least *TF_RUN* executable becomes a test,
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-
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- *  basename of this directory becomes the name of the test,
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-
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- *  and return code from running the executable is reported
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-    as result of the test, according to "Exit status" chapter below.
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-
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-
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-Naming
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-------
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-
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-Test name should start with name of the module that is tested and
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-underscore.  If module name contains dots, they should be replaced with
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-underscores as well.
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-
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-    core_sanity
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-    mod_submod_function
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-    ini_iniread
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-
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-are valid test names.
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-
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-
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-Data
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-----
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-
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-Should the test need any data, just leave it around in the test directory
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-along with *TF_RUN*.
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-
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-Note that before running, the whole test directory is automatically
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-copied to a temporary location (one per test), and should the test fail,
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-copied back as a debugging artifact.  For this reason, *do not store
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-huge amounts of data here*.  If you really need huge data, consider
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-obtaining it (and throwing it away) within runtime of *TF_RUN*.
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-
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-
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-Exit status
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------------
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-
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-We try hard to follow this semantic:
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-
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- *  *Zero* means *OK* -- test has been run and passed.
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-
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- *  *One* means *Failure* -- test has been run but failed (e.g. found
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-     a bug).
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-
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- *  *Two* means *Bailout* --  test has decided not to run at all.
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-
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- *  *Three* means *Error* -- there was error detected during execution,
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-     but script was able to clean up properly.
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-
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- *  *Four* means *Panic* -- there was other error but script *was not*
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-     able to clean up properly.
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-
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- *  Anything else should indicate other uncaught errors, including those
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-    outside control of the program such as segfaults in the test code
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-    or test being SIGKILLed.
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-
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-Notice that the higher the value is, the worse situation it indicates.
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-Thus, if a test is composed of several sub-tests, you need to make sure
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-to always **exit with the highest value** (subtest.sh does take care
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-of this).
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-
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-See *common.sh* for functions and variables to help with handling exit
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-statuses with this semantic.
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-
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-Also see Notes section for more details on exit statuses, including
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-cheat sheet and dscussuion.
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-
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-
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-Framework
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----------
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-
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-
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-### harness.sh ###
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-
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-This part is not intended to be used in tests, but rather contains
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-functions that help govern test discovery, preparation and execution as
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-is described in previous chapters.  Feel free to poke around, of course.
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-
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-
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-### subtest.sh ###
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-
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-As name suggests, this file defines few functions to handle subtests
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-in *TF_RUN*.
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-
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-In order to make use of the subtests functionality, you will need to
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-define two functions yourself:  `tf_enum_subtests` to enumerate names of
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-tests you want to run, and `tf_name2cmd` to translate each name an actual
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-command that would perform it and return with the the correct exit status.
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-
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-The minimal *TF_RUN* with two subtests could look like this:
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-
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-    #!/bin/bash
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-
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-    . $TF_DIR/include/subtest.sh
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-
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-    tf_enum_subtests() {
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-        echo test1
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-        echo test2
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-        something && echo test3
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-    }
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-
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-    tf_name2cmd() {
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-        case $1 in
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-            test1)  echo myprog foo ;;
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-            test2)  echo myprog bar ;;
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-        esac
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-    }
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-
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-    tf_do_subtests
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-
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-At the end, `tf_do_subtests` acts as a launcher of the actual test.
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-In short, it will
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-
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- *  take each enumerated subtest from `tf_enum_subtests`,
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- *  source *TF_SETUP*, if such file is found,
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- *  translate te subtest name to a command,
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- *  launch the command,
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- *  source *TF_CLEANUP*, if such file is found,
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- *  and report "worst" exit status encountered.
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-
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-All but the first and last step is done by `tf_do_subtest`, so in some
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-cases you may want to re-define this one as well.
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-
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-Note that subtest names need to be single words (`[a-zA-Z0-9_]`).
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-
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-
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-### tools.sh ###
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-
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-This file contains various tools and utilities to help with testing.
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-
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-Curently there is only one function, `tf_testflt` designed to help write
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-tests for simple unix filters.
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-
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-
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-#### tf_testflt ####
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-
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-The idea is that tester specifies
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-
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- *  test name,
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- *  command to launch the system under test,
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- *  a data stream to use as STDIN,
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- *  and expected STDOUT, STDERR, and exit status.
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-
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-and tf_testflt launches the command, collects tha data and evaluates
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-and reports the result using unified diff.
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-
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-In its simplest form:
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-
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-    tf_testflt -n foo my_command arg
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-
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-the function will run `my_command arg` (not piping anything to it),
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-and will expect it to finish with exit status 0 and empty both STDERR
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-and STDOUT.
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-
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-Example of full form,
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-
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-    tf_testflt -n foo -i foo.in -O foo.stdout -E foo.stderr -S 2 myprog
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-
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-will pipe foo.in into `myprog`, expecting exit status of 2, and STDOUT and
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-STDERR as above.  Notice that parameters specifying expected values are
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-uppercase, and those specifying input values are lowercase.
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-
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-Specifying name is mandatory, because it's used in reporting messages,
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-and as a basis for naming temporary result files: these are saved in
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-*results* subdirectory and kept for further reference.
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-
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-
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-### common.sh ###
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-
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-This includes simple functions and variables shared between both mentioned
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-libraries.
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-
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-First group is designed to help support the exit status semantic:
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-
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- *  The functions are `tf_exit_pass`, `tf_exit_fail`, `tf_exit_bailout`,
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-    `tf_exit_error` and `tf_exit_panic` and each take any number of
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-    parameters that are printed on stderr.
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-
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- *  The variables are `TF_ES_OK`, `TF_ES_FAIL`, `TF_ES_BAILOUT`,
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-    `TF_ES_ERROR` and `TF_ES_PANIC` and are supposed to be used with
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-    `return` builtin, e.g. to return from `tf_exit_error`.
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-
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-Second group is useful to better control output:  functions `tf_warn`,
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-`tf_debug` and `tf_think` are used to print stuff on STDERR.  Use of
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-`tf_warn` is apparent, just as `tf_debug`, the latter being muted if
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-`TF_DEBUG` is set to `false` (set it to `true` to turn on debugging).
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-
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-`tf_think` is used for progress info, and is muted unless `TF_VERBOSE`
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-is set to `true`, which is by default.
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-
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-
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-### Setup and cleanup ###
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-
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-Special files *TF_SETUP* and *TF_CLEANUP* (one of them or both) can be
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-added along with *TF_RUN*.  These will be sourced before (*TF_SETUP*)
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-and after every subtest (*TF_CLEANUP*).
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-
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-First, if any of these files are missing, it is considered as if the
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-respective phase succeeded.  Second, if setup phase fails, test will
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-be skipped and subtest exit status will be *TF_ES_BAILOUT*.   Last,
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-if cleanup fails (no matter result of setup), subtests aborts with
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-*TF_ES_PANIC* returned.  Be aware that in this case the actual test
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-status, albeit useful, is lost.
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-
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-When coming from other test frameworks, this may feel harsh, but note
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-that this has been designed with the idea that if a cleanup fails,
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-it may render all further tests are automatically unsafe, because the
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-environment is not as expected.
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-
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-To cope with this behavior, try to bear in mind following advice:
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-
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- 1. Make sure you write setup/cleanup procedures with extreme care and
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-    test them well.
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-
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- 2. Do not do complicated and risky things in the setup/cleanup phases.
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-
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- 3. If you need to do such things, consider doing them in the *TF_RUN*
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-    instead of doing them for all subtests.
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-
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- 4. You don't need to clean up everything, the contents of the testing dir
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-    will be moved out from the test system.
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-
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- 5. If there are scenarios you can safely fix or ignore, handle them in
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-    a robust manner.
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-
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-
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-Notes
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------
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-
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-
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-### bailout vs. `tf_enum_subtests` ###
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-
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-One more note to claify relation of bailout and `tf_enum_subtests`.
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-As you may have noticed, there are two ways how to skip a test:
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-return prematurely with `TF_ES_BAILOUT`, or suppress enumeration in
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-`tf_enum_subtests`.  The problem is that the latter does not do anything
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-to inform upper in the stack that a test has been skipped, which seems to
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-break the principle described in the previous chapters.
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-
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-Don't confuse these mechanisms, though. Each is supposed to be used
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-for distinct purpose.  Compare: by using the `tf_enum_subtests` you are
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-saying that you actually **did not even want** to run the test in the
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-first place.  By using `TF_ES_BAILOUT`, you are saying that you **wanted**
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-to run the test but could not.
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-
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-A few common cases if that helps you:
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-
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- *  If during the test you find out that for some reason it can't be
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-    carried out (e.g. an external resource is not available, or
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-    something outside the SUT is broken), use `TF_ES_BAILOUT`.
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-
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- *  If you want to disable the test because for some long-term condition,
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-    e.g. a known bug outside SUT but preventing execution of the test
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-    is not fixed, use `tf_enum_subtests`.
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-
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- *  If you want to filter out some sub-tests to only for some platforms,
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-    e.g. 64-bit architecture, (IOW, you can safely check that a
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-    sub-test would be totally pointless if run on this box), use
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-    `tf_enum_subtests`.
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-
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- *  If you want to disable (comment out test) that you might not have
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-    implemented yet or is broken (and for some reason you still want
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-    it to haunt the test code), use `tf_enum_subtests` and properly
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-    comment the reasons in code.
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-
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- *  If in doubt, use `TF_ES_BAILOUT`.
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-
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-
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-### On exit statuses: three and above ###
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-
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-The difference in *error*, *panic* and higher values is subtle but
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-important.  Follow me as I try to explain:
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-
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- 1. If script has changed something on the system outside the working
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-    directory, it is apparently expected to revert that change.
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-
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- 2. Now if an error occurs, but the code responsible for cleaning up is
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-    safely run, you can say there was *error but we have recovered*.
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-
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- 3. But if the change can't be reverted safely, we know that we have
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-    broken something and latter code may lead to weird results (including
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-    masking bugs(!)), it's time to *panic* (in the code, not in real
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-    life ;))
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-
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- 4. And then there are corner cases like a bug in the script, OOM kill
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-    or timeout when the status will be different and not really controlled
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-    by the script.  Such cases will have to be treated the same way as
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-    the "panic" case, but...
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-
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- 5. the use of *panic* adds hint that the status has been set consciously
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-    by the script, albeit exiting "in a hurry"--without proper clean up.
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-
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-Unfortunately there will be cases like above but with the error code less
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-than four.   Example is a bash script syntax error, which returns 2, or
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-Python exception which returns 1.  Yes, in such cases the information
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-conveyed by the exit status is wrong and you should do everything to
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-avoid it.
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-
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-Possibilities like "test has passed but then something blew up" exist,
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-but conveying this information is responsibility of the test output.
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-
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-Following table can be used as a cheat-sheet:
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-
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-    .---------------------------------------------------------------.
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-    | e |    state of         |                                     |
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-    | s |---------------------| script says                         |
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-    |   | SUT   | environment |                                     |
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-    |---|-------|-------------|-------------------------------------|
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-    | 0 | OK    | safe        | test passed, everything worked fine |
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-    | 1 | buggy | safe        | test failed, everything worked fine |
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-    | 2 | ???   | safe        | I decided not to run the test       |
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-    | 3 | ???   | safe        | Something blew up but I managed to  |
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-    |   |       |             | clean up (I promise!)               |
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-    | 4 | ???   | broken      | Something blew up and I rushed out  |
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-    |   |       |             | in panic                            |
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-    | * | ???   | broken      | ...nothing (is dead)                |
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-    '---------------------------------------------------------------'
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-
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-As you can see, following this semantic allows us to see both the state
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-of the system under test (SUT) *and* the environment.
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-
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-Following table illustrates how different statuses map to different
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-scenarios with regard to test result as well as state of the environment:
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-
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-    .--------------------------------------------------.
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-    | environment |  test result   |  test result      |
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-    |             | pass fail unkn | pass fail unkn    |
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-    |-------------|----------------|-------------------|
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-    | clean(ed)   |  0    1    3   |  OK  FAIL ERROR   |
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-    | untouched   |  ~    ~    2   |  ~    ~   BAILOUT |
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-    | mess        |  ~    ~    4   |  ~    ~   PANIC   |
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-    | ?! (trap)   |  ~    ~    5   |  ~    ~   ~       |
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-    | ?! (sig 9)  |  ~    ~    137 |  ~    ~   ~       |
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-    | ?! (aliens) |  ~    ~    ?   |  ~    ~   ~       |
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-    '-------------|----------------|-------------------|
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-                  |  exit status   |  human-readable   |
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-                  |                |  name (TF_ES_*)   |
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-                  '------------------------------------'