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103 lines
5.9 KiB
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103 lines
5.9 KiB
Plaintext
---
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slug: 2019/02/understanding-allocations-in-rust
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title: "Allocations in Rust: Foreword"
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date: 2019-02-04 12:00:00
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authors: [bspeice]
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tags: []
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---
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There's an alchemy of distilling complex technical topics into articles and videos that change the
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way programmers see the tools they interact with on a regular basis. I knew what a linker was, but
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there's a staggering amount of complexity in between
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[the OS and `main()`](https://www.youtube.com/watch?v=dOfucXtyEsU). Rust programmers use the
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[`Box`](https://doc.rust-lang.org/stable/std/boxed/struct.Box.html) type all the time, but there's a
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rich history of the Rust language itself wrapped up in
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[how special it is](https://manishearth.github.io/blog/2017/01/10/rust-tidbits-box-is-special/).
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In a similar vein, this series attempts to look at code and understand how memory is used; the
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complex choreography of operating system, compiler, and program that frees you to focus on
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functionality far-flung from frivolous book-keeping. The Rust compiler relieves a great deal of the
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cognitive burden associated with memory management, but we're going to step into its world for a
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while.
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Let's learn a bit about memory in Rust.
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<!-- truncate -->
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---
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Rust's three defining features of
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[Performance, Reliability, and Productivity](https://www.rust-lang.org/) are all driven to a great
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degree by the how the Rust compiler understands memory usage. Unlike managed memory languages (Java,
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Python), Rust
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[doesn't really](https://words.steveklabnik.com/borrow-checking-escape-analysis-and-the-generational-hypothesis)
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garbage collect; instead, it uses an
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[ownership](https://doc.rust-lang.org/book/ch04-01-what-is-ownership.html) system to reason about
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how long objects will last in your program. In some cases, if the life of an object is fairly
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transient, Rust can make use of a very fast region called the "stack." When that's not possible,
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Rust uses
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[dynamic (heap) memory](https://en.wikipedia.org/wiki/Memory_management#Dynamic_memory_allocation)
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and the ownership system to ensure you can't accidentally corrupt memory. It's not as fast, but it
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is important to have available.
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That said, there are specific situations in Rust where you'd never need to worry about the
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stack/heap distinction! If you:
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1. Never use `unsafe`
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2. Never use `#![feature(alloc)]` or the [`alloc` crate](https://doc.rust-lang.org/alloc/index.html)
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...then it's not possible for you to use dynamic memory!
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For some uses of Rust, typically embedded devices, these constraints are OK. They have very limited
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memory, and the program binary size itself may significantly affect what's available! There's no
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operating system able to manage this
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["virtual memory"](https://en.wikipedia.org/wiki/Virtual_memory) thing, but that's not an issue
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because there's only one running application. The
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[embedonomicon](https://docs.rust-embedded.org/embedonomicon/preface.html) is ever in mind, and
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interacting with the "real world" through extra peripherals is accomplished by reading and writing
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to [specific memory addresses](https://bob.cs.sonoma.edu/IntroCompOrg-RPi/sec-gpio-mem.html).
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Most Rust programs find these requirements overly burdensome though. C++ developers would struggle
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without access to [`std::vector`](https://en.cppreference.com/w/cpp/container/vector) (except those
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hardcore no-STL people), and Rust developers would struggle without
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[`std::vec`](https://doc.rust-lang.org/std/vec/struct.Vec.html). But with the constraints above,
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`std::vec` is actually a part of the
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[`alloc` crate](https://doc.rust-lang.org/alloc/vec/struct.Vec.html), and thus off-limits. `Box`,
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`Rc`, etc., are also unusable for the same reason.
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Whether writing code for embedded devices or not, the important thing in both situations is how much
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you know _before your application starts_ about what its memory usage will look like. In embedded
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devices, there's a small, fixed amount of memory to use. In a browser, you have no idea how large
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[google.com](https://www.google.com)'s home page is until you start trying to download it. The
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compiler uses this knowledge (or lack thereof) to optimize how memory is used; put simply, your code
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runs faster when the compiler can guarantee exactly how much memory your program needs while it's
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running. This series is all about understanding how the compiler reasons about your program, with an
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emphasis on the implications for performance.
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Now let's address some conditions and caveats before going much further:
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- We'll focus on "safe" Rust only; `unsafe` lets you use platform-specific allocation API's
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([`malloc`](https://www.tutorialspoint.com/c_standard_library/c_function_malloc.htm)) that we'll
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ignore.
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- We'll assume a "debug" build of Rust code (what you get with `cargo run` and `cargo test`) and
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address (pun intended) release mode at the end (`cargo run --release` and `cargo test --release`).
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- All content will be run using Rust 1.32, as that's the highest currently supported in the
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[Compiler Exporer](https://godbolt.org/). As such, we'll avoid upcoming innovations like
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[compile-time evaluation of `static`](https://github.com/rust-lang/rfcs/blob/master/text/0911-const-fn.md)
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that are available in nightly.
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- Because of the nature of the content, being able to read assembly is helpful. We'll keep it
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simple, but I [found](https://stackoverflow.com/a/4584131/1454178) a
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[refresher](https://stackoverflow.com/a/26026278/1454178) on the `push` and `pop`
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[instructions](http://www.cs.virginia.edu/~evans/cs216/guides/x86.html) was helpful while writing
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this.
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- I've tried to be precise in saying only what I can prove using the tools (ASM, docs) that are
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available, but if there's something said in error it will be corrected expeditiously. Please let
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me know at [bradlee@speice.io](mailto:bradlee@speice.io)
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Finally, I'll do what I can to flag potential future changes but the Rust docs have a notice worth
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repeating:
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> Rust does not currently have a rigorously and formally defined memory model.
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>
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> -- [the docs](https://doc.rust-lang.org/std/ptr/fn.read_volatile.html)
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