2020-03-28 00:05:18 +01:00
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# Unit testing coreboot
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## Preface
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First part of this document, Introduction, comprises disambiguation for what
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unit testing is and what is not. This definition will be a basis for the whole
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paper.
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Next, Rationale, explains why to use unit testing and how coreboot specifically
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may benefit from it.
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This is followed by evaluation of different available free C unit test
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frameworks. Firstly, collection of requirements is provided. Secondly, there is
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a description of a few selected candidates. Finally, requirements are applied to
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candidates to see if they might be a good fit.
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Fourth part is a summary of evaluation, with proposal of unit test framework
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for coreboot to be used.
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Finally, Implementation proposal paragraph touches how build system and coreboot
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codebase in general should be organized, in order to support unit testing. This
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comprises couple of design considerations which need to be addressed.
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## Introduction
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A unit test is supposed to test a single unit of code in isolation. In C
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language (in contrary to OOP) unit usually means a function. One may also
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consider unit under test to be a single compilation unit which exposes some
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API (set of functions). A function, talking to some external component can be
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tested if this component can be mocked out.
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In other words (looking from C compilation angle), there should be no extra
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dependencies (executables) required beside unit under test and test harness in
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order to compile unit test binary. Test harness, beside code examining a
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routines, may comprise test framework implementation.
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It is hard to apply this strict definition of unit test to firmware code in
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practice, mostly due to constraints on speed of execution and size of final
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executable. coreboot codebase often cannot be adjusted to be testable. Because
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of this, coreboot unit testing subsystem should allow to include some additional
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source object files beside unit under test. That being said, the default and
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goal wherever possible, should be to isolate unit under test from other parts.
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Unit testing is not an integration testing and it doesn't replace it. First of
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all, integration tests cover larger set of components and interactions between
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them. Positive integration test result gives more confidence than a positive
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unit test does. Furthermore, unit tests are running on the build machine, while
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integration tests usually are executed on the target (or simulator).
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## Rationale
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Considering above, what is the benefit of unit testing, especially keeping in
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mind that coreboot is low-level firmware? Unit tests should be quick, thus may
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be executed frequently during development process. It is much easier to build
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and run a unit test on a build machine, than any integration test. This in turn
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may be used by dev to gather extra confidence early during code development
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process. Actually developer may even write unit tests earlier than the code -
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see [TDD](https://en.wikipedia.org/wiki/Test-driven_development) concept.
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That being said, unit testing embedded C code is a difficult task, due to
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significant amount of dependencies on underlying hardware. Mocking can handle
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some hardware dependencies. However, complex mocks make the unit test
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susceptible to failing and can require significant development effort.
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Writing unit tests for a code (both new and currently existing) may be favorable
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for the code quality. It is not only about finding bugs, but in general - easily
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testable code is a good code.
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coreboot benefits the most from testing common libraries (lib/, commonlib/,
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payloads/libpayload) and coreboot infrastructure (console/, device/, security/).
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## Evaluation of unit testing frameworks
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### Requirements
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Requirements for unit testing frameworks:
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* Easy to use
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* Few dependencies
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Standard C library is all we should need
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* Isolation between tests
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* Support for mocking
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* Support for some machine parsable output
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* Compiler similarity
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Compiler for the host _must_ support the same language standards as the target
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compiler. Ideally the same toolchain should be used for building firmware
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executables and test binaries, however the host compiler will be used to build
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unit tests, whereas the coreboot toolchain will be used for building the
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firmware executables. For some targets, the host compiler and the target
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compiler could be the same, but this is not a requirement.
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* Same language for tests and code
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Unit tests will be written in C, because coreboot code is also written in C
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### Desirables
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* Easy to integrate with build system/build tools
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Ideally JUnit-like XML output format for Jenkins
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* Popularity is a plus
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We want a larger community for a couple of reasons. Firstly, easier access to
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people with knowledge and tutorials. Secondly, bug fixes for the top of tree
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are more frequent and known issues are usually shorter in the pending state.
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Last but not least, larger reviewer pool means better and easier upstream
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improvements that we would like to submit.
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* Extra features may be a plus
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* Compatible license
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This should not be a blocker, since test binaries are not distributed.
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However ideally compatible with GPL.
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* IDE integration
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### Candidates
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There is a lot of frameworks which allow unit testing C code
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([list](https://en.wikipedia.org/wiki/List_of_unit_testing_frameworks#C) from
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Wikipedia). While not all of them were evaluated, because that would take an
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excessive amount of time, couple of them were selected based on the good
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opinions among C devs, popularity and fitting above criteria.
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* [SputUnit](https://www.use-strict.de/sput-unit-testing/)
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* [GoogleTest](https://github.com/google/googletest)
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* [Cmocka](https://cmocka.org/)
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* [Unity](http://www.throwtheswitch.org/unity) (CMock, Ceedling)
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We looked at several other test frameworks, but decided not to do a full evaluation
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for various reasons such as functionality, size of the developer community, or
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compatibility.
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### Evaluation
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* [SputUnit](https://www.use-strict.de/sput-unit-testing/)
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* Pros
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* No dependencies, one header file to include - that’s all
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* Pure C
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* Very easy to use
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* BSD license
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* Cons
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* Main repo doesn’t have support for generating JUnit XML reports for
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Jenkins to consume - this feature is available only on the fork from
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SputUnit called “Sput_report”. It makes it niche in a niche, so there are
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some reservations whether support for this will be satisfactory
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* No support for mocks
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* Not too popular
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* No automatic test registration
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* [GoogleTest](https://github.com/google/googletest)
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* Pros
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* Automatic test registration
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* Support for different output formats (including XML for Jenkins)
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* Good support, widely used, the biggest and the most active community out
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of all frameworks that were investigated
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* Available as a package in the most common distributions
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* Test fixtures easily available
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* Well documented
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* Easy to integrate with an IDE
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* BSD license
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* Cons
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* Requires C++11 compiler
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* To make most out of it (use GMock) C++ knowledge is required
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* [Cmocka](https://cmocka.org/)
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* Pros
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* Self-contained, autonomous framework
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* Pure C
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* API is well documented
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* Multiple output formats (including XML for Jenkins)
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* Available as a package in the most common distributions
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* Used in some popular open source projects (libssh, OpenVPN, Samba)
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* Test fixtures available
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* Support for exception handling
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* Cons
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* No automatic test registration
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* It will require some effort to make it work from within an IDE
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* Apache 2.0 license (not compatible with GPLv2)
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* [Unity](http://www.throwtheswitch.org/unity) (CMock, Ceedling)
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* Pros
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* Pure C (Unity testing framework itself, not test runner)
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* Support for different output formats (including XML for Jenkins)
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* There are some (rather easy) hints how to use this from an IDE (e.g. Eclipse)
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* MIT license
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* Cons
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* Test runner (Ceedling) is not written in C - uses Ruby
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* Mocking/Exception handling functionalities are actually separate tools
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* No automatic test registration
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* Not too popular
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### Summary & framework proposal
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After research, we propose using the Cmocka unit test framework. Cmocka fulfills
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all stated evaluation criteria. It is rather easy to use, doesn’t have extra
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dependencies, written fully in C, allows for tests fixtures and some popular
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open source projects already are using it. Cmocka also includes support for
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mocks.
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Cmocka's limitations, such as the lack of automatic test registration, are
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considered minor issues that will require only minimal additional work from a
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developer. At the same time, it may be worth to propose improvement to Cmocka
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community or simply apply some extra wrapper with demanded functionality.
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## Implementation
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### Framework as a submodule or external package
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Unit test frameworks may be either compiled from source (from a git submodule
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under 3rdparty/) or pre-compiled as a package. The second option seems to be
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easier to maintain, while at the same time may bring some unwanted consequences
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(different version across distributions, frequent changes in API). It makes sense
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to initially experiment with packages and check how it works. If this will
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cause any issues, then it is always possible to switch to submodule approach.
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### Integration with build system
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To get the most out of unit testing framework, it should be integrated with
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Jenkins automation server. Verification of all unit tests for new changes may
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improve code reliability to some extent.
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### Build configuration (Kconfig)
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While building unit under test object file, it is necessary to apply some
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configuration (config) just like when building usual firmware. For simplicity,
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there will be one default tests .config `qemu_x86_i440fx` for all unit tests. At
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the same time, some tests may require running with different values of particular
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config. This should be handled by adding extra header, included after config.h.
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This header will comprise #undef of old CONFIG values and #define of the
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required value. When unit testing will be integrated with Jenkins, it may be
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preferred to use every available config for periodic builds.
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### Directory structure
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Tests should be kept separate from the code, while at the same time it must be
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easy to match code with test harness.
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We create new directory for test files ($(toplevel)/tests/) and mimic the
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structure of src/ directory.
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Test object files (test harness, unit under tests and any additional executables
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are stored under build/tests/<test_name> directory.
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Below example shows how directory structure is organized for the two test cases:
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tests/lib/string-test and tests/device/i2c-test:
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```bash
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├── src
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│ ├── lib
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│ │ ├── string.c <- unit under test
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│ │
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│ ├── device
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│ ├── i2c.c
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│
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├── tests
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│ ├── include
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│ │ ├── mocks <- mock headers, which replace original headers
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│ │
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│ ├── Makefile.mk <- top Makefile for unit tests subsystem
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│ ├── lib
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│ │ ├── Makefile.mk
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│ │ ├── string-test.c <- test code for src/lib/string.c
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│ │ │
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│ ├── device
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│ │ ├── Makefile.mk
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│ ├── i2c-test.c
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│
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├── build
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│ ├── tests <-all test-related executables
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├── config.h <- default config used for tests builds
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├── lib
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│ ├── string-test <- all string-test executables
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│ │ ├── run <- final test binary
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│ │ ├── tests <- all test harness executables
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│ │ ├── lib
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│ │ ├── string-test.o <-test harness executable
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│ │ ├── src <- unit under test and other src executables
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│ │ ├── lib
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│ │ ├── string.o <- unit under test executable
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├── device
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├── i2c-test
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├── run
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├── tests
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│ ├── device
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│ ├── i2c-test.o
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├── src
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├── device
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├── i2c.o
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```
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### Writing new tests
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Our tutorial series has [detailed guidelines](../tutorial/part3.md) for writing
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unit tests.
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