2ddbc71e2b
Replace the XDummy script with Xephyr. This is done because of some changes in the Xorg server that make XDummy difficult to use. Rename library internal variables and function names to replace "xdummy" with "xserver" to show this change (except for renaming the package and lib file for better git history). Rename the switch `--keep-xdummy-output` to `--keep-xserver-output`. This switch should now be rarely used because Xephyr requires less set up. Replace "xdummy" with "xephyr" in comments and utility help information. Update docs to show the new dependency. fixes #1367
595 lines
24 KiB
Plaintext
595 lines
24 KiB
Plaintext
i3 testsuite
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============
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Michael Stapelberg <michael@i3wm.org>
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September 2012
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This document explains how the i3 testsuite works, how to use it and extend it.
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It is targeted at developers who not necessarily have been doing testing before
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or have not been testing in Perl before. In general, the testsuite is not of
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interest for end users.
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== Introduction
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The i3 testsuite is a collection of files which contain testcases for various
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i3 features. Some of them test if a certain workflow works correctly (moving
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windows, focus behaviour, …). Others are regression tests and contain code
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which previously made i3 crash or lead to unexpected behaviour. They then check
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if i3 still runs (meaning it did not crash) and if it handled everything
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correctly.
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The goal of having these tests is to automatically find problems and to
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automatically get a feel for whether a change in the source code breaks any
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existing feature. After every modification of the i3 sourcecode, the developer
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should run the full testsuite. If one of the tests fails, the corresponding
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problem should be fixed (or, in some cases, the testcase has to be modified).
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For every bugreport, a testcase should be written to test the correct
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behaviour. Initially, it will fail, but after fixing the bug, it will pass.
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This ensures (or increases the chance) that bugs which have been fixed once
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will never be found again.
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Also, when implementing a new feature, a testcase might be a good way to be
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able to easily test if the feature is working correctly. Many developers will
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test manually if everything works. Having a testcase not only helps you with
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that, but it will also be useful for every future change.
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== Relevant documentation
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Apart from this document, you should also have a look at:
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1. The "Modern Perl" book, which can be found at
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http://onyxneon.com/books/modern_perl/modern_perl_a4.pdf
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2. The latest Perl documentation of the "i3test" (general testcase setup) and
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"i3test::Test" (additional test instructions) modules:
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http://build.i3wm.org/docs/lib-i3test.html respectively
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http://build.i3wm.org/docs/lib-i3test-test.html
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3. The latest documentation on i3’s IPC interface:
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http://build.i3wm.org/docs/ipc.html
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== Implementation
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For several reasons, the i3 testsuite has been implemented in Perl:
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1. Perl has a long tradition of testing. Every popular/bigger Perl module which
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you can find on CPAN will not only come with documentation, but also with
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tests. Therefore, the available infrastructure for tests is comprehensive.
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See for example the excellent http://search.cpan.org/perldoc?Test::More
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and the referenced http://search.cpan.org/perldoc?Test::Tutorial.
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2. Perl is widely available and has a well-working package infrastructure.
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3. The author is familiar with Perl :).
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4. It is a good idea to use a different language for the tests than the
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implementation itself.
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Please do not start programming language flamewars at this point.
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=== Installing the dependencies
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As usual with Perl programs, the testsuite ships with a +Makefile.PL+.
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This file specifies which Perl modules the testsuite depends on and can be used
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to install all of them.
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Perl modules are distributed via CPAN, and there is the official, standard CPAN
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client, simply called +cpan+. It comes with every Perl installation and can be
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used to install the testsuite. Many users prefer to use the more modern
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+cpanminus+ instead, though (because it asks no questions and just works):
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The tests additionally require +Xephyr(1)+ to run a nested X server. Install
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+xserver-xephyr+ on Debian or +xorg-xserver-xephyr+ on Arch Linux.
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.Installing testsuite dependencies using cpanminus (preferred)
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--------------------------------------------------------------------------------
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$ cd ~/i3/testcases
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$ sudo apt-get install cpanminus
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$ sudo cpanm .
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--------------------------------------------------------------------------------
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If you don’t want to use cpanminus for some reason, the same works with cpan:
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.Installing testsuite dependencies using cpan
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--------------------------------------------------------------------------------
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$ cd ~/i3/testcases
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$ sudo cpan .
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--------------------------------------------------------------------------------
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In case you don’t have root permissions, you can also install into your home
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directory, see http://michael.stapelberg.de/cpan/
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=== Mechanisms
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==== Script: complete-run
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The testcases are run by a script called +complete-run.pl+. It runs all
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testcases by default, but you can be more specific and let it only run one or
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more testcases. Also, it takes care of starting up a separate instance of i3
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with an appropriate configuration file and creates a folder for each run
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containing the appropriate i3 logfile for each testcase. The latest folder can
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always be found under the symlink +latest/+. Unless told differently, it will
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run the tests on a separate X server instance (using Xephyr).
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.Example invocation of complete-run.pl+
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---------------------------------------
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$ cd ~/i3/testcases
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$ ./complete-run.pl
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# output omitted because it is very long
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All tests successful.
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Files=78, Tests=734, 27 wallclock secs ( 0.38 usr 0.48 sys + 17.65 cusr 3.21 csys = 21.72 CPU)
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Result: PASS
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$ ./complete-run.pl t/04-floating.t
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[:3] i3 startup: took 0.07s, status = 1
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[:3] Running t/04-floating.t with logfile testsuite-2011-09-24-16-06-04-4.0.2-226-g1eb011a/i3-log-for-04-floating.t
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[:3] t/04-floating.t finished
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[:3] killing i3
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output for t/04-floating.t:
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ok 1 - use X11::XCB::Window;
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ok 2 - The object isa X11::XCB::Window
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ok 3 - Window is mapped
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ok 4 - i3 raised the width to 75
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ok 5 - i3 raised the height to 50
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ok 6 - i3 did not map it to (0x0)
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ok 7 - The object isa X11::XCB::Window
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ok 8 - i3 let the width at 80
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ok 9 - i3 let the height at 90
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ok 10 - i3 mapped it to x=1
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ok 11 - i3 mapped it to y=18
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ok 12 - The object isa X11::XCB::Window
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ok 13 - i3 let the width at 80
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ok 14 - i3 let the height at 90
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1..14
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All tests successful.
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Files=1, Tests=14, 0 wallclock secs ( 0.01 usr 0.00 sys + 0.19 cusr 0.03 csys = 0.23 CPU)
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Result: PASS
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$ less latest/i3-log-for-04-floating.t
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----------------------------------------
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If your attempt to run the tests with a bare call to ./complete-run.pl fails, try this:
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---------------------------------------------------
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$ ./complete-run.pl --parallel=1 --keep-xserver-output
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---------------------------------------------------
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This will show the output of Xephyr, which is the X server implementation we
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use for testing.
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==== IPC interface
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The testsuite makes extensive use of the IPC (Inter-Process Communication)
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interface which i3 provides. It is used for the startup process of i3, for
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terminating it cleanly and (most importantly) for modifying and getting the
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current state (layout tree).
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See [http://i3wm.org/docs/ipc.html] for documentation on the IPC interface.
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==== X11::XCB
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In order to open new windows, change attributes, get events, etc., the
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testsuite uses X11::XCB, a new (and quite specific to i3 at the moment) Perl
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module which uses the XCB protocol description to generate Perl bindings to
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X11. They work in a very similar way to libxcb (which i3 uses) and provide
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relatively high-level interfaces (objects such as +X11::XCB::Window+) aswell as
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access to the low-level interface, which is very useful when testing a window
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manager.
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=== Filesystem structure
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In the git root of i3, the testcases live in the folder +testcases+. This
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folder contains the +complete-run.pl+ and a base configuration file which will
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be used for the tests. The different testcases (their file extension is .t, not
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.pl) themselves can be found in the conventionally named subfolder +t+:
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.Filesystem structure
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--------------------------------------------
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├── testcases
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│ ├── complete-run.pl
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│ ├── i3-test.config
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│ ├── lib
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│ │ ├── i3test.pm
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│ │ ├── SocketActivation.pm
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│ │ └── StartXDummy.pm
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│ ├── t
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│ │ ├── 00-load.t
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│ │ ├── 01-tile.t
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│ │ ├── 02-fullscreen.t
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│ │ ├── ...
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│ │ ├── omitted for brevity
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│ │ ├── ...
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│ │ └── 74-regress-focus-toggle.t
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--------------------------------------------
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== Anatomy of a testcase
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Learning by example is definitely a good strategy when you are wondering how to
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write a testcase. Let's take +t/11-goto.t+ as an easy example and go through it
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step by step:
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.t/11-goto.t: Boilerplate
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----------------------
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#!perl
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# vim:ts=4:sw=4:expandtab
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use i3test;
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use File::Temp;
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my $x = X11::XCB::Connection->new;
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-----------------------
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This is what we call boilerplate. It exists at the top of every test file (to
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some extent). The first line is the shebang, which specifies that this file is
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a Perl script. The second line contains VIM specific settings on how to
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edit/format this file (use spaces instead of tabs, indent using 4 spaces).
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Afterwards, the +i3test+ module is used. This module contains i3 testsuite
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specific functions which you are strongly encouraged to use. They make writing
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testcases a lot easier and will make it easier for other people to read your
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tests.
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The next line uses the +File::Temp+ module. This is specific to this testcase,
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because it needs to generate a temporary name during the test. Many testcases
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use only the +i3test+ module.
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The last line opens a connection to X11. You might or might not need this in
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your testcase, depending on whether you are going to open windows (etc.) or
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only use i3 commands.
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.t/11-goto.t: Setup
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----------------------
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my $tmp = fresh_workspace;
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cmd 'split h';
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----------------------
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The first line calls i3test's +fresh_workspace+ function which looks for a
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currently unused workspace, switches to it, and returns its name. The variable
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+$tmp+ will end up having a value such as +"/tmp/87kBVcHbA9"+. Note that this
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is not (necessarily) a valid path, it's just a random workspace name.
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So, now that we are on a new workspace, we ensure that the workspace uses
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horizontal orientation by issuing the +split h+ command (see the i3 User's
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Guide for a list of commands). This is not strictly necessary, but good style.
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In general, the +cmd+ function executes the specified i3 command by using the
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IPC interface and returns once i3 acknowledged the command.
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.t/11-goto.t: Setup
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----------------------
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#####################################################################
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# Create two windows and make sure focus switching works
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#####################################################################
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my $top = open_window($x);
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my $mid = open_window($x);
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my $bottom = open_window($x);
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----------------------
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In every major section of a testcase, you should put a comment like the one
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above. This makes it immediately clear how the file is structured.
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The +open_window+ function opens a standard window, which will then be put into
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tiling mode by i3. If you want a floating window, use the
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+open_floating_window+ function. These functions accept the same parameters as
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+X11::XCB::Window->new+, see the i3test documentation at TODO.
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.t/11-goto.t: Helper function
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----------------------
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#
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# Returns the input focus after sending the given command to i3 via IPC
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# and syncing with i3
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#
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sub focus_after {
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my $msg = shift;
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cmd $msg;
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sync_with_i3 $x;
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return $x->input_focus;
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}
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----------------------
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This section defines a helper function which will be used over and over in this
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testcase. If you have code which gets executed more than once or twice
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(depending on the length of your test, use your best judgement), please put it
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in a function. Tests should be short, concise and clear.
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The +focus_after+ function executes a command and returns the X11 focus after
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the command was executed. The +sync_with_i3+ command makes sure that i3 could
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push its state to X11. See <<i3_sync>> to learn how this works exactly.
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.t/11-goto.t: Test assumptions
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----------------------
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$focus = $x->input_focus;
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is($focus, $bottom->id, "Latest window focused");
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$focus = focus_after('focus left');
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is($focus, $mid->id, "Middle window focused");
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----------------------
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Now, we run the first two real tests. They use +Test::More+'s +is+ function,
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which compares two values and prints the differences if they are not the same.
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After the arguments, we supply a short comment to indicate what we are testing
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here. This makes it vastly more easy for the developer to spot which testcase
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is the problem in case one fails.
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The first test checks that the most recently opened window is focused.
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Afterwards, the command +focus left+ is issued and it is verified that the
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middle window now has focus.
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Note that this is not a comprehensive test of the +focus+ command -- we would
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have to test wrapping, focus when using a more complex layout, focusing the
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parent/child containers, etc. But that is not the point of this testcase.
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Instead, we just want to know if +$x->input_focus+ corresponds with what we are
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expecting. If not, something is completely wrong with the test environment and
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this trivial test will fail.
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.t/11-goto.t: Test that the feature does not work (yet)
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----------------------
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#####################################################################
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# Now goto a mark which does not exist
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#####################################################################
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my $random_mark = mktemp('mark.XXXXXX');
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$focus = focus_after(qq|[con_mark="$random_mark"] focus|);
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is($focus, $mid->id, "focus unchanged");
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----------------------
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Syntax hint: The qq keyword is the interpolating quote operator. It lets you
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chose a quote character (in this case the +|+ character, a pipe). This makes
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having double quotes in our string easy.
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In this new major section, a random mark (mark is an identifier for a window,
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see "VIM-like marks" in the i3 User’s Guide) will be generated. Afterwards, we
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test that trying to focus that mark will not do anything. This is important: Do
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not only test that using a feature has the expected outcome, but also test that
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using it without properly initializing it does no harm. This command could for
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example have changed focus anyways (a bug) or crash i3 (obviously a bug).
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.t/11-goto.t: Test that the feature does work
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----------------------
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cmd "mark $random_mark";
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$focus = focus_after('focus left');
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is($focus, $top->id, "Top window focused");
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$focus = focus_after(qq|[con_mark="$random_mark"] focus|);
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is($focus, $mid->id, "goto worked");
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----------------------
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Remember: Focus was on the middle window (we verified that earlier in "Test
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assumptions"). We now mark the middle window with our randomly generated mark.
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Afterwards, we switch focus away from the middle window to be able to tell if
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focusing it via its mark will work. If the test works, the goto command seems
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to be working.
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.t/11-goto.t: Test corner case
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----------------------
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# check that we can specify multiple criteria
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$focus = focus_after('focus left');
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is($focus, $top->id, "Top window focused");
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$focus = focus_after(qq|[con_mark="$random_mark" con_mark="$random_mark"] focus|);
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is($focus, $mid->id, "goto worked");
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----------------------
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Now we test the same feature, but specifying the mark twice in the command.
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This should have no effect, but let’s be sure: test it and see if things go
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wrong.
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.t/11-goto.t: Test second code path
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----------------------
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#####################################################################
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# Check whether the focus command will switch to a different
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# workspace if necessary
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#####################################################################
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my $tmp2 = fresh_workspace;
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is(focused_ws(), $tmp2, 'tmp2 now focused');
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cmd qq|[con_mark="$random_mark"] focus|;
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is(focused_ws(), $tmp, 'tmp now focused');
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----------------------
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This part of the test checks that focusing windows by mark works across
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workspaces. It uses i3test's +focused_ws+ function to get the current
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workspace.
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.t/11-goto.t: Test second code path
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----------------------
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done_testing;
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----------------------
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The end of every testcase has to contain the +done_testing+ line. This tells
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+complete-run.pl+ that the test was finished successfully. If it does not
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occur, the test might have crashed during execution -- some of the reasons why
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that could happen are bugs in the used modules, bugs in the testcase itself or
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an i3 crash resulting in the testcase being unable to communicate with i3 via
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IPC anymore.
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[[i3_sync]]
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== Appendix A: The i3 sync protocol
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Consider the following situation: You open two windows in your testcase, then
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you use +focus left+ and want to verify that the X11 focus has been updated
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properly. Sounds simple, right? Let’s assume you use this straight-forward
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implementation:
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.Racey focus testcase
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-----------
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my $left = open_window($x);
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my $right = open_window($x);
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cmd 'focus left';
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is($x->input_focus, $left->id, 'left window focused');
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----------
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However, the test fails. Sometimes. Apparantly, there is a race condition in
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your test. If you think about it, this is because you are using two different
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pieces of software: You tell i3 to update focus, i3 confirms that, and then you
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ask X11 to give you the current focus. There is a certain time i3 needs to
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update the X11 state. If the testcase gets CPU time before X11 processed i3's
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requests, the test will fail.
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image::i3-sync.png["Diagram of the race condition", title="Diagram of the race condition"]
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One way to "solve" this would be to add +sleep 0.5;+ after the +cmd+ call.
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After 0.5 seconds it should be safe to assume that focus has been updated,
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right?
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In practice, this usually works. However, it has several problems:
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1. This is obviously not a clean solution, but a workaround. Ugly.
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2. On very slow machines, this might not work. Unlikely, but in different
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situations (a delay to wait for i3 to startup) the necessary time is much
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harder to guess, even for fast machines.
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3. This *wastes a lot of time*. Usually, your computer is much faster than 0.5s
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to update the status. However, sometimes, it might take 0.4s, so we can’t
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make it +sleep 0.1+.
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To illustrate how grave the problem with wasting time actually is: Before
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removing all sleeps from the testsuite, a typical run using 4 separate X
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servers took around 50 seconds on my machine. After removing all the sleeps,
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we achieved times of about 25 seconds. This is very significant and influences
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the way you think about tests -- the faster they are, the more likely you are
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to check whether everything still works quite often (which you should).
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What I am trying to say is: Delays adds up quickly and make the test suite
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less robust.
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The real solution for this problem is a mechanism which I call "the i3 sync
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protocol". The idea is to send a request (which does not modify state) via X11
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to i3 which will then be answered. Due to the request's position in the event
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queue (*after* all previous events), you can be sure that by the time you
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receive the reply, all other events have been dealt with by i3 (and, more
|
||
importantly, X11).
|
||
|
||
image::i3-sync-working.png["Diagram of the i3 sync solution", title="Diagram of the i3 sync solution"]
|
||
|
||
=== Implementation details
|
||
|
||
The client which wants to sync with i3 initiates the protocol by sending a
|
||
ClientMessage to the X11 root window:
|
||
|
||
.Send ClientMessage
|
||
-------------------
|
||
# Generate a ClientMessage, see xcb_client_message_t
|
||
my $msg = pack "CCSLLLLLLL",
|
||
CLIENT_MESSAGE, # response_type
|
||
32, # format
|
||
0, # sequence
|
||
$root, # destination window
|
||
$x->atom(name => 'I3_SYNC')->id,
|
||
|
||
$_sync_window->id, # data[0]: our own window id
|
||
$myrnd, # data[1]: a random value to identify the request
|
||
0,
|
||
0,
|
||
0;
|
||
|
||
# Send it to the root window -- since i3 uses the SubstructureRedirect
|
||
# event mask, it will get the ClientMessage.
|
||
$x->send_event(0, $root, EVENT_MASK_SUBSTRUCTURE_REDIRECT, $msg);
|
||
-------------------
|
||
|
||
i3 will then reply with the same ClientMessage, sent to the window specified in
|
||
+data[0]+. In the reply, +data[0]+ and +data[1]+ are exactly the same as in the
|
||
request. You should use a random value in +data[1]+ and check that you received
|
||
the same one when getting the reply.
|
||
|
||
== Appendix B: Socket activation
|
||
|
||
Socket activation is a mechanism which was made popular by systemd, an init
|
||
replacement. It basically describes creating a listening socket before starting
|
||
a program. systemd will invoke the program only when an actual connection to
|
||
the socket is made, hence the term socket activation.
|
||
|
||
The interesting part of this (in the i3 context) is that you can very precisely
|
||
detect when the program is ready (finished its initialization).
|
||
|
||
=== Preparing the listening socket
|
||
|
||
+complete-run.pl+ will create a listening UNIX socket which it will then pass
|
||
to i3. This socket will be used by i3 as an additional IPC socket, just like
|
||
the one it will create on its own. Passing the socket happens implicitly
|
||
because children will inherit the parent’s sockets when fork()ing and sockets
|
||
will continue to exist after an exec() call (unless CLOEXEC is set of course).
|
||
|
||
The only explicit things +complete-run.pl+ has to do is setting the +LISTEN_FDS+
|
||
environment variable to the number of sockets which exist (1 in our case) and
|
||
setting the +LISTEN_PID+ environment variable to the current process ID. Both
|
||
variables are necessary so that the program (i3) knows how many sockets it
|
||
should use and if the environment variable is actually intended for it. i3 will
|
||
then start looking for sockets at file descriptor 3 (since 0, 1 and 2 are used
|
||
for stdin, stdout and stderr, respectively).
|
||
|
||
The actual Perl code which sets up the socket, fork()s, makes sure the socket
|
||
has file descriptor 3 and sets up the environment variables follows (shortened
|
||
a bit):
|
||
|
||
|
||
.Setup socket and environment
|
||
-----------------------------
|
||
my $socket = IO::Socket::UNIX->new(
|
||
Listen => 1,
|
||
Local => $args{unix_socket_path},
|
||
);
|
||
|
||
my $pid = fork;
|
||
if ($pid == 0) {
|
||
$ENV{LISTEN_PID} = $$;
|
||
$ENV{LISTEN_FDS} = 1;
|
||
|
||
# Only pass file descriptors 0 (stdin), 1 (stdout),
|
||
# 2 (stderr) and 3 (socket) to the child.
|
||
$^F = 3;
|
||
|
||
# If the socket does not use file descriptor 3 by chance
|
||
# already, we close fd 3 and dup2() the socket to 3.
|
||
if (fileno($socket) != 3) {
|
||
POSIX::close(3);
|
||
POSIX::dup2(fileno($socket), 3);
|
||
}
|
||
|
||
exec "/usr/bin/i3";
|
||
}
|
||
-----------------------------
|
||
|
||
=== Waiting for a reply
|
||
|
||
In the parent process, we want to know when i3 is ready to answer our IPC
|
||
requests and handle our windows. Therefore, after forking, we immediately close
|
||
the listening socket (i3 will handle this side of the socket) and connect to it
|
||
(remember, we are talking about a named UNIX socket) as a client. This connect
|
||
call will immediately succeed because the kernel buffers it. Then, we send a
|
||
request (of type GET_TREE, but that is not really relevant). Writing data to
|
||
the socket will also succeed immediately because, again, the kernel buffers it
|
||
(only up to a certain amount of data of course).
|
||
|
||
Afterwards, we just blockingly wait until we get an answer. In the child
|
||
process, i3 will setup the listening socket in its event loop. Immediately
|
||
after actually starting the event loop, it will notice a new client connecting
|
||
(the parent process) and handle its request. Since all initialization has been
|
||
completed successfully by the time the event loop is entered, we can now assume
|
||
that i3 is ready.
|
||
|
||
=== Timing and conclusion
|
||
|
||
A beautiful feature of this mechanism is that it does not depend on timing. It
|
||
does not matter when the child process gets CPU time or when the parent process
|
||
gets CPU time. On heavily loaded machines (or machines with multiple CPUs,
|
||
cores or unreliable schedulers), this makes waiting for i3 much more robust.
|
||
|
||
Before using socket activation, we typically used a +sleep(1)+ and hoped that
|
||
i3 was initialized by that time. Of course, this breaks on some (slow)
|
||
computers and wastes a lot of time on faster computers. By using socket
|
||
activation, we decreased the total amount of time necessary to run all tests
|
||
(72 files at the time of writing) from > 100 seconds to 16 seconds. This makes
|
||
it significantly more attractive to run the test suite more often (or at all)
|
||
during development.
|
||
|
||
An alternative approach to using socket activation is polling for the existance
|
||
of the IPC socket and connecting to it. While this might be slightly easier to
|
||
implement, it wastes CPU time and is considerably uglier than this solution
|
||
:). After all, +lib/SocketActivation.pm+ contains only 54 SLOC.
|