added draft for rust_embedded_unit_testing
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content/posts/rustEmbeddedUnitTesting.adoc
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content/posts/rustEmbeddedUnitTesting.adoc
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title = "Rust Embedded Unit Testing"
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date = 2023-10-28T18:41:37-05:00
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draft = false
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:caution-caption: pass:[<span style="font-size: 2em">☠</span>]
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:important-caption: pass:[<span style="font-size: 2em">❗</span>]
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:note-caption: pass:[<span style="font-size: 2em">✏️</span>]
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:tip-caption: pass:[<span style="font-size: 2em">💡</span>]
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:warning-caption: pass:[<span style="font-size: 2em">⚠</span>]
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:toc:
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:toclevels: 6
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Ive been messing around with embedded rust recently, using the BBC micro:bit as a learning platform.
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Its really cool to see a high level language achieving the same results as low level c.
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However, one of my favorite features of rust, the ease of unit testing, is a bit less straightforward to do in cross-compiled, no-std projects.
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Obviously we cant run tests on our local machine that rely on hardware only found on the target board,
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but most of a project is going to be logic independent of the hardware its running on.
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What we really want to do is be able to unit test those independent blocks of logic on our local dev machine.
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== The Root Problem
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The root of the problem is that our entire project is setup to depend on our target architecture and its hardware features.
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(you are using cargo embed, right?)
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As long as there is no compiler separation between our logic and our hardware interaction, we cant compile only one for our local machine while leaving out the rest.
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Fortunately, that realization leads us directly to...
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== The Solution
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In Rust, the minimum unit of compilation is the crate.
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This means that if we want to separate our logic from our hardware interaction, we have to put them in separate crates.
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Thankfully, Rust has a feature called https://doc.rust-lang.org/cargo/reference/workspaces.html[workspaces] dedicated to managing several crates in a single project/repo.
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So, what we will do is make a https://doc.rust-lang.org/cargo/reference/workspaces.html[virtual workspace] at the top level of our repo,
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containing 2 or more crates: one (or more, if it makes sense) for our main hardware layer that is set up for cross compilation and flashing using cargo-embed,
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one `#![no-std]` crate containing only hardware independent logic that can be used on any architecture, and do not have cross-compilation explicitly setup.
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The latter set of crate(s) are the ones that we will be able to put unit tests in.
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== Implementation
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Our `main_hardware` crate will depend on the `independent_logic` crate, and our `independent_logic` crate cannot depend on any crate that is hardware specific, such as any HALs or BSPs in use.
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Lets say that we have a project that looks something like this:
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{{<highlight console "linenos=false">}}
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.
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├── .cargo
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│ └── config
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├── .gitignore
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├── Cargo.toml
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├── Embed.toml
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├── LICENCE
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├── README.md
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├── build.rs
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├── memory.x
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└── src
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├── calibration.rs
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├── heading_drawing.rs
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├── led.rs
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├── line_drawing.rs
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├── main.rs
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└── tilt_compensation.rs
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{{</highlight>}}
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=== Separating the crates
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`calibration.rs` and `main.rs` are the only modules that depend on hardware features, so they will be the modules going into `hardware_main`.
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The rest will be going into `independent_logic`.
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First we create the two new crates, with `hardware_main` being a binary crate and `independent_logic` being a library one, and we move the files to their respective crate.
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Then, we move the existing `Cargo.toml`, `Embed.toml`, `build.rs`, `memory.x`, and `.cargo/config` into the `hardware_main`.
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Then, we create a new `Cargo.toml` at the top level, with the only section being a `[workspace]` section,
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including both of the crates in the workspace.
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We edit the `Cargo.toml` of `hardware_main` to point to `independent_logic` as a https://doc.rust-lang.org/cargo/reference/specifying-dependencies.html#specifying-path-dependencies[path dependency], and remove any dependencies that are no longer used.
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We edit the `Cargo.toml` of `independent_logic` to add any packages that our code depends on.
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We edit `lib.rs` to declare all the modules in `independent_logic` (and declare the crate as `#![no_std]`),
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and remove those declarations from `main.rs`.
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Finally, in the `hardware_main` crate, we start running `cargo check` and fix all the imports that went from being `crate::` imports to `independent_logic::` imports.
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In the end, our file tree should look something like this:
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{{<highlight console "linenos=false">}}
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.
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├── .gitignore
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├── Cargo.toml
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├── LICENCE
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├── README.md
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├── hardware_main
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│ ├── .cargo
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│ │ └── config
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│ ├── Cargo.toml
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│ ├── Embed.toml
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│ ├── build.rs
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│ ├── memory.x
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│ └── src
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│ ├── calibration.rs
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│ ├── led.rs
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│ └── main.rs
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└── independent_logic
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├── Cargo.toml
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└── src
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├── heading_drawing.rs
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├── lib.rs
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├── line_drawing.rs
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└── tilt_compensation.rs
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{{</highlight>}}
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=== Adding tests
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Now that we have separated the crates from each other, we are free to add unit tests to `independent_logic` the same way we would for any 'normal' rust project.
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However, we must keep in mind that we will only be able to run `cargo test` from inside the `independent_logic` crate.
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Likewise, we will not be able to run `cargo build/check/embed` from the top level workspace, but must run it from the `hardware_main` crate, as that crate is bound to a specific target.
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Cargo commands will generally also not work in the root workspace, as it will try to compile `hardware_main` for our local architecture, inevitably failing.
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@ -13,6 +13,13 @@ showToc = true
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== Work Experience
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=== John Deere
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Embedded Linux Engineer::
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August 2023--current
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* Develop Linux distributions for embedded systems with Yocto
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* Develop Linux hardware drivers for embedded system
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* Use Git to collaborate across teams
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=== Appareo
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Embedded Systems Intern::
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Summer 2023
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