# Contributing
Feedback and contributions are very welcome!
Here's help on how to make contributions, divided into the following sections:
The quick-read part:
* general information,
* vulnerability reporting,
* documentation.
The long-read part:
* code changes,
* how to check proposed changes before submitting them,
* reuse of other libraries, frameworks etc.
## General information
For specific proposals, please provide them as
[pull requests](https://github.com/QMatrixClient/libQMatrixClient/pulls)
or
[issues](https://github.com/QMatrixClient/libqmatrxclient/issues)
For general discussion, feel free to use our Matrix room:
[#quaternion:matrix.org](https://matrix.to/#/#quaternion:matrix.org).
If you're new to the project (or FLOSS in general),
[issues tagged as simple](https://github.com/QMatrixClient/libQMatrixClient/labels/simple)
are smaller tasks that may typically take 1-3 days.
You are welcome aboard!
### Pull requests and different branches recommended
Pull requests are preferred, since they are specific.
See the GitHub Help [articles about pull requests](https://help.github.com/articles/using-pull-requests/)
to learn how to deal with them.
We recommend creating different branches for different (logical)
changes, and creating a pull request when you're done into the master branch.
See the GitHub documentation on
[creating branches](https://help.github.com/articles/creating-and-deleting-branches-within-your-repository/)
and
[using pull requests](https://help.github.com/articles/using-pull-requests/).
### How we handle proposals
We use GitHub to track all changes via its
[issue tracker](https://github.com/QMatrixClient/libQMatrixClient/issues) and
[pull requests](https://github.com/QMatrixClient/libQMatrixClient/pulls).
Specific changes are proposed using those mechanisms.
Issues are assigned to an individual who works on it and then marks it complete.
If there are questions or objections, the conversation area of that
issue or pull request is used to resolve it.
### License
Unless a contributor explicitly specifies otherwise, we assume that all
contributed code is released under [the same license as libQMatrixClient itself](./COPYING),
which is LGPL v2.1 as of the time of this writing.
Any components proposed for reuse should have a license that permits releasing
a derivative work under LGPL v2.1. Moreover, the license of a proposed component
should be approved by OSI, no exceptions.
## Vulnerability reporting (security issues)
If you find a significant vulnerability, or evidence of one,
use either of the following contacts:
* send an email to Kitsune Ral [Kitsune-Ral@users.sf.net](mailto:Kitsune-Ral@users.sf.net)
* reach out in Matrix to #kitsune:matrix.org (if you can, switch encryption **on**)
In any of these two options, _indicate that you have such information_
(do not share the information yet), and we'll tell you the next steps.
By default, we will give credit to anyone who reports a vulnerability so that
we can fix it. If you want to remain anonymous or pseudonymous instead, please
let us know that; we will gladly respect your wishes. If you provide a fix as
a PR, you have no way to remain anonymous but we still accept contributors with
pseudonyms.
## Documentation changes
Most of the documentation is in Markdown format. All Markdown files use the .md
filename extension. Any help on fixing/extending these is more than welcome.
Where reasonable, limit yourself to Markdown that will be accepted by different
markdown processors (e.g., what is specified by CommonMark or the original
Markdown). In practice, as long as libQMatrixClient is hosted at GitHub,
[GFM (GitHub-flavoured Markdown)](https://help.github.com/articles/github-flavored-markdown/)
is used to show those files in a browser, so it's fine to use its extensions.
In particular, you can mark code snippets with the programming language used;
blank lines separate paragraphs, newlines inside a paragraph do *not* force a line break.
Beware - this is *not* the same markdown algorithm used by GitHub when it
renders issue or pull comments; in those cases
[newlines in paragraph-like content are considered as real line breaks](https://help.github.com/articles/writing-on-github/);
unfortunately this other algorithm is *also* called GitHub-flavoured markdown.
(Yes, it'd be better if there were different names for different things.)
In your markdown, please don't use tab characters and avoid "bare" URLs.
In a hyperlink, the link text and URL should be on the same line.
While historically we didn't care about the line length in markdown texts
(and more often than not put the whole paragraph into one line), this is subject
to change anytime soon, with 80-character limit _recommendation_
(which is softer than the limit for C/C++ code) imposed on everything
_except hyperlinks_ (because wrapping hyperlinks breaks the rendering).
Do not use trailing two spaces for line breaks, since these cannot be seen
and may be silently removed by some tools. If, for whatever reason, a blank line
is not an option, use <br /> (an HTML break).
## End of TL;DR
If you don't plan/have substantial contributions, you can end reading here. Further sections are for those who's going to actively hack on the library code.
## Code changes
The code should strive to be DRY (don't repeat yourself), clear, and obviously correct. Some technical debt is inevitable, just don't bankrupt us with it. Refactoring is welcome.
### Generated C++ code for CS API
The code in lib/csapi, although it resides in Git, is actually generated from the official Matrix Swagger/OpenAPI definition files. If you're unhappy with something in that directory and want to improve the code, you have to understand the way these files are produced and setup some additional tooling. The shortest possible procedure resembling the below text can be found in .travis.yml (our Travis CI configuration actually regenerates those files upon every build). The generating sequence only works with CMake atm; patches to enable it with qmake are (you guessed it) very welcome.
#### Why generate the code at all?
Because before both original authors of libQMatrixClient had to do monkey business of writing boilerplate code, with the same patterns, types etc., literally, for every single API endpoint, and one of the authors got fed up with it at some point in time. By then about 15 job classes were written; the entire API counts about 100 endpoints. Besides, the existing jobs had to be updated according to changes in CS API that have been, and will keep coming. Other considerations can be found in [this talk about API description languages that briefly touches on GTAD](https://youtu.be/W5TmRozH-rg).
#### Prerequisites for CS API code generation
1. Get the source code of GTAD and its dependencies, e.g. using the command: `git clone --recursive https://github.com/KitsuneRal/gtad.git`
2. Build GTAD: in the source code directory, do `cmake . && cmake --build .` (you might need to pass `-DCMAKE_PREFIX_PATH=`, similar to libQMatrixClient itself).
3. Get the Matrix CS API definitions that are included in the matrix-doc repo: `git clone https://github.com/QMatrixClient/matrix-doc.git` (QMatrixClient/matrix-doc is a fork that's known to produce working code; you may want to use your own fork if you wish to alter something in the API).
#### Generating lib/csapi contents
1. Pass additional configuration to CMake when configuring libQMatrixClient, namely: `-DMATRIX_DOC_PATH= -DGTAD_PATH=`. If everything's right, these two CMake variables will be mentioned in CMake output and will trigger configuration of an additional build target, see the next step.
2. Generate the code: `cmake --build --target update-api`; if you use CMake with GNU Make, you can just do `make update-api` instead. Building this target will create (overwriting without warning) .h and .cpp files in lib/csapi directory for all YAML files it can find in `matrix-doc/api/client-server`.
3. Once you've done that, you can build the library as usual; rerunning CMake is recommended if the list of generated files has changed.
#### Changing things in lib/csapi
See the more detailed description of what GTAD is and how it works in the documentation on GTAD in its source repo. Only parts specific for libQMatrixClient are described here.
GTAD uses the following three kinds of sources:
1. OpenAPI files. Each file is treated as a separate source (because this is how GTAD works now).
2. A configuration file, in our case it's lib/csapi/gtad.yaml - this one is common for the whole API.
3. Source code template files: lib/csapi/{{base}}.*.mustache - also common.
The mustache files have a templated (not in C++ sense) definition of a network job, deriving from BaseJob; each job class is prepended, if necessary, with data structure definitions used by this job. The look of those files is hideous for a newcomer; the fact that there's no highlighter for the combination of Mustache (originally a web templating language) and C++ doesn't help things, either. To slightly simplify things some more or less generic constructs are defined in gtad.yaml (see its "mustache:" section). Adventurous souls that would like to figure what's going on in these files should speak up in the libQMatrixClient room - I (Kitsune) will be very glad to help you out.
The types map in gtad.yaml is the central switchboard when it comes to matching OpenAPI types with C++ (and Qt) ones. It uses the following type attributes aside from pretty obvious "imports:":
* `avoidCopy` - this attribute defines whether a const ref should be used instead of a value. For basic types like int this is obviously unnecessary; but compound types like `QVector` should rather be taken by reference when possible.
* `moveOnly` - some types are not copyable at all and must be moved instead (an obvious example is anything "tainted" with a member of type `std::unique_ptr<>`). The template will use `T&&` instead of `T` or `const T&` to pass such types around.
* `useOmittable` - wrap types that have no value with "null" semantics (i.e. number types and custom-defined data structures) into a special `Omittable<>` template defined in `converters.h` - a substitute for `std::optional` from C++17 (we're still at C++14 yet).
* `omittedValue` - an alternative for `useOmittable`, just provide a value used for an omitted parameter. This is used for bool parameters which normally are considered false if omitted (or they have an explicit default value, passed in the "official" GTAD's `defaultValue` variable).
* `initializer` - this is a _partial_ (see GTAD and Mustache documentation for explanations but basically it's a variable that is a Mustache template itself) that specifies how exactly a default value should be passed to the parameter. E.g., the default value for a `QString` parameter is enclosed into `QStringLiteral`.
Instead of relying on the event structure definition in the OpenAPI files, gtad.yaml uses pointers to libQMatrixClient's event structures: `EventPtr`, `RoomEventPtr` and `StateEventPtr`. Respectively, arrays of events, when encountered in OpenAPI definitions, are converted to `Events`, `RoomEvents` and `StateEvents` containers. When there's no way to figure the type from the definition, an opaque `QJsonObject` is used, leaving the conversion to the library and/or client code.
### Library API and doc-comments
Whenever you add a new call to the library API that you expect to be used from client code, you must supply a proper doc-comment along with the call. Doxygen (with backslashes) style is preferred. You can find that some parts of the code still use JavaDoc (with @'s) style; feel free to replace it with Doxygen backslashes if that bothers you. Some parts are not even documented; add doc-comments to them is highly encouraged.
Calls, data structures and other symbols not intended for use by clients should _not_ be exposed in (public) .h files, unless they are necessary to declare other public symbols. In particular, this involves private members (functions, typedefs, or variables) in public classes; use pimpl idiom to hide implementation details as much as possible.
Note: As of now, all header files of libQMatrixClient are considered public; this may change eventually.
### Qt-flavoured C++
This is our primary language. We don't have a particular code style _as of yet_ but some rules-of-thumb are below:
* 4-space indents, no tabs, no trailing spaces, no last empty lines. If you spot the code abusing these - we'll thank you for fixing it.
* Prefer keeping lines within 80 characters.
* Braces after if's, while's, do's, function signatures etc. take a separate line. Keeping the opening brace on the same line is still ok.
* A historical deviation from the usual Qt code format conventions is an extra indent inside _classes_ (access specifiers go at +4 spaces to the base, members at +8 spaces) but not _structs_ (members at +4 spaces). This may change in the future for something more conventional.
* Please don't make "hypocritical structs" with protected or private members. Just make them classes instead.
* For newly created classes, keep to [the rule of 3/5/0](http://en.cppreference.com/w/cpp/language/rule_of_three) - make sure to read about the rule of zero if you haven't before, it's not what you might think it is.
* Qt containers are generally preferred to STL containers; however, there are notable exceptions, and libQMatrixClient already uses them:
* `std::array` and `std::deque` have no direct counterparts in Qt.
* Because of COW semantics, Qt containers cannot hold uncopyable classes. Classes without a default constructor are a problem too. Examples of that are `SyncRoomData` and `EventsArray<>`. Use STL containers for those but see the next point and also consider if you can supply a reasonable copy/default constructor.
* STL containers can be freely used in code internal to a translation unit (i.e., in a certain .cpp file) _as long as that is not exposed in the API_. It's ok to use, e.g., `std::vector` instead of `QVector` to tighten up code where you don't need COW, or when dealing with uncopyable data structures (see the previous point). However, exposing STL containers in the API is not encouraged (except where absolutely necessary, e.g. we use `std::deque` for a timeline). Exposing STL containers or iterators in API intended for usage by QML code (e.g. in `Q_PROPERTY`) is unlikely to work and therefore unlikely to be accepted into `master`.
* Use `QVector` instead of `QList` where possible - see a [great article by Marc Mutz on Qt containers](https://marcmutz.wordpress.com/effective-qt/containers/) for details.
### Automated tests
There's no testing framework as of now; either Catch or Qt Test or both will be used eventually. However, as a stopgap measure, qmc-example is used for automated end-to-end testing.
Any significant addition to the library API should be accompanied by a respective test in qmc-example. To add a test you should:
- Add a new private slot to the `QMCTest` class.
- Add to the beginning of the slot the line `running.push_back("Test name");`.
- Add test logic to the slot, using `QMC_CHECK` macro to assert the test outcome. ALL (even failing) branches should conclude with a QMC_CHECK invocation, unless you intend to have a "DID NOT FINISH" message in the logs under certain conditions.
- Call the slot from `QMCTest::startTests()`.
`QMCTest` sets up some basic test fixture to help you with testing; notably by the moment `startTests()` is invoked you can rely on having a working connection in `c` member variable and a test room in `targetRoom` member variable. PRs to introduce a proper testing framework are very welcome (make sure to migrate tests from qmc-example though); shifting qmc-example to use Qt Test seems to be a particularly low-hanging fruit.
### Security, privacy, and performance
Pay attention to security, and work *with* (not against) the usual security hardening mechanisms (however few in C++).
`char *` and similar unchecked C-style read/write arrays are forbidden - use Qt containers or at the very least `std::array<>` instead. Where you see fit (usually with data structures), try to use smart pointers, especially `std::unique_ptr<>` or `QScopedPointer` instead of bare pointers. When dealing with `QObject`s, use the parent-child ownership semantics exercised by Qt (this is preferred to using smart pointers). Shared pointers are not used in the code so far; but if you find a particular use case where the strict semantic of unique pointers doesn't help and a shared pointer is necessary, feel free to step up with the working code and it will be considered for inclusion.
Exercise the [principle of least privilege](https://en.wikipedia.org/wiki/Principle_of_least_privilege) where reasonable and appropriate. Prefer less-coupled cohesive code.
Protect private information, in particular passwords and email addresses. Absolutely _don't_ spill around this information in logs - use `access_token` and similar opaque ids instead, and only display those in UI where needed. Do not forget about local access to data (in particular, be very careful when storing something in temporary files, let alone permanent configuration or state). Avoid mechanisms that could be used for tracking where possible (we do need to verify people are logged in but that's pretty much it), and ensure that third parties can't use interactions for tracking. Matrix protocols evolve towards decoupling the personally identifiable information from user activity entirely - follow this trend.
We want the software to have decent performance for typical users. At the same time we keep libQMatrixClient single-threaded as much as possible, to keep the code simple. That means being cautious about operation complexity (read about big-O notation if you need a kickstart on the topic). This especially refers to operations on the whole timeline and the list of users - each of these can have tens of thousands of elements so even operations with linear complexity, if heavy enough, can produce noticeable GUI freezing. When you don't see a way to reduce algorithmic complexity, embed occasional `processEvents()` invocations in heavy loops (see `Connection::saveState()` to get the idea).
Having said that, there's always a trade-off between various attributes; in particular, readability and maintainability of the code is more important than squeezing every bit out of that clumsy algorithm. Beware of premature optimization and have profiling data around before going into some hardcore optimization.
## How to check proposed changes before submitting them
Checking the code on at least one configuration is essential; if you only have
a hasty fix that doesn't even compile, better make an issue and put a link to
your commit into it (with an explanation what it is about and why).
### Standard checks
The following warnings configuration is applied with GCC and Clang when using CMake: `-W -Wall -Wextra -pedantic -Werror=return-type -Wno-unused-parameter -Wno-gnu-zero-variadic-macro-arguments` (the last one is to mute a warning triggered by Qt code for debug logging). We don't turn most of the warnings to errors but please treat them as such. In Qt Creator, the following line can be used with the Clang code model (before Qt Creator 4.7 you should explicitly enable the Clang code model plugin): `-Weverything -Werror=return-type -Wno-c++98-compat -Wno-c++98-compat-pedantic -Wno-unused-macros -Wno-newline-eof -Wno-exit-time-destructors -Wno-global-constructors -Wno-gnu-zero-variadic-macro-arguments -Wno-documentation -Wno-missing-prototypes -Wno-shadow-field-in-constructor -Wno-padded -Wno-weak-vtables`
### Continuous Integration
We use Travis CI to check buildability and smoke-testing on Linux (GCC, Clang) and MacOS (Clang), and AppVeyor CI to build on Windows (MSVC). Every PR will go through these, and you'll see the traffic lights from them on the PR page. Failure on any platform will most likely entail a request to you for a fix before merging a PR.
### Other tools
If you know how to use clang-tidy, here's a list of checks we do and do not use (a leading hyphen means a disabled check, an asterisk is a wildcard): `*,cert-env33-c,-cppcoreguidelines-pro-bounds-array-to-pointer-decay,-cppcoreguidelines-pro-bounds-constant-array-index,-cppcoreguidelines-pro-bounds-pointer-arithmetic,-cppcoreguidelines-pro-type-const-cast,-cppcoreguidelines-pro-type-union-access,-cppcoreguidelines-special-member-functions,-google-build-using-namespace,-google-readability-braces-around-statements,-hicpp-*,-llvm-*,-misc-unused-parameters,-misc-noexcept-moveconstructor,-modernize-use-using,-readability-braces-around-statements,readability-identifier-naming,-readability-implicit-bool-cast,-clang-diagnostic-*,-clang-analyzer-*`. If you're on CLion, you can simply copy-paste the above list into the Clang-Tidy inspection configuration. In Qt Creator 4.6 and newer, one can enable clang-tidy and clazy (clazy level 1 eats away CPU but produces some very relevant and unobvious notices, such as possible unintended copying of a Qt container, or unguarded null pointers).
## Git commit messages
When writing git commit messages, try to follow the guidelines in
[How to Write a Git Commit Message](https://chris.beams.io/posts/git-commit/):
1. Separate subject from body with a blank line
2. Be reasonable on the subject line length, because this is what we see in commit logs. Try to fit in 50 characters whenever possible.
3. Capitalize the subject line
4. Do not end the subject line with a period
5. Use the imperative mood in the subject line (*command* form)
(we don't always practice this ourselves but let's try).
6. Use the body to explain what and why vs. how
(git tracks how it was changed in detail, don't repeat that). Sometimes a quick overview of "how" is acceptable if a commit is huge - but maybe split a commit into smaller ones, to begin with?
## Reuse (libraries, frameworks, etc.)
C++ is unfortunately not very coherent about SDK/package management, and we try to keep building the library as easy as possible. Because of that we are very conservative about adding dependencies to libQMatrixClient. That relates to additional Qt components and even more to other libraries. Fortunately, even the Qt components now in use (Qt Core and Network) are very feature-rich and provide plenty of ready-made stuff.
Regardless of the above paragraph (and as mentioned earlier in the text), we're now looking at possible options for automated testing, so PRs onboarding a test framework will be considered with much gratitude.
Some cases need additional explanation:
* Before rolling out your own super-optimised container or algorithm written from scratch, take a good long look through documentation on Qt and C++ standard library. Please try to reuse the existing facilities as much as possible.
* You should have a good reason (or better several ones) to add a component from KDE Frameworks. We don't rule this out and there's no prejudice against KDE; it just so happened that KDE Frameworks is one of most obvious reuse candidates but so far none of these components survived as libQMatrixClient deps. So we are cautious.
* Never forget that libQMatrixClient is aimed to be a non-visual library; QtGui in dependencies is only driven by (entirely offscreen) dealing with QPixmaps. While there's a bunch of visual code (in C++ and QML) shared between libQMatrixClient-enabled _applications_, this is likely to end up in a separate (libQMatrixClient-enabled) library, rather than libQMatrixClient itself.
## Attribution
This text is largely based on CONTRIBUTING.md from CII Best Practices Badge project, which is a collective work of its contributors (many thanks!). The text itself is licensed under CC-BY-4.0.