80ff0f74b0
This commit adds a new target to the compiler: wasm32-unknown-unknown. This
target is a reimagining of what it looks like to generate WebAssembly code from
Rust. Instead of using Emscripten which can bring with it a weighty runtime this
instead is a target which uses only the LLVM backend for WebAssembly and a
"custom linker" for now which will hopefully one day be direct calls to lld.
Notable features of this target include:
* There is zero runtime footprint. The target assumes nothing exists other than
the wasm32 instruction set.
* There is zero toolchain footprint beyond adding the target. No custom linker
is needed, rustc contains everything.
* Very small wasm modules can be generated directly from Rust code using this
target.
* Most of the standard library is stubbed out to return an error, but anything
related to allocation works (aka `HashMap`, `Vec`, etc).
* Naturally, any `#[no_std]` crate should be 100% compatible with this new
target.
This target is currently somewhat janky due to how linking works. The "linking"
is currently unconditional whole program LTO (aka LLVM is being used as a
linker). Naturally that means compiling programs is pretty slow! Eventually
though this target should have a linker.
This target is also intended to be quite experimental. I'm hoping that this can
act as a catalyst for further experimentation in Rust with WebAssembly. Breaking
changes are very likely to land to this target, so it's not recommended to rely
on it in any critical capacity yet. We'll let you know when it's "production
ready".
---
Currently testing-wise this target is looking pretty good but isn't complete.
I've got almost the entire `run-pass` test suite working with this target (lots
of tests ignored, but many passing as well). The `core` test suite is still
getting LLVM bugs fixed to get that working and will take some time. Relatively
simple programs all seem to work though!
---
It's worth nothing that you may not immediately see the "smallest possible wasm
module" for the input you feed to rustc. For various reasons it's very difficult
to get rid of the final "bloat" in vanilla rustc (again, a real linker should
fix all this). For now what you'll have to do is:
cargo install --git https://github.com/alexcrichton/wasm-gc
wasm-gc foo.wasm bar.wasm
And then `bar.wasm` should be the smallest we can get it!
---
In any case for now I'd love feedback on this, particularly on the various
integration points if you've got better ideas of how to approach them!
134 lines
4.1 KiB
Rust
134 lines
4.1 KiB
Rust
// Copyright 2014 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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//! Platform-independent platform abstraction
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//!
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//! This is the platform-independent portion of the standard library's
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//! platform abstraction layer, whereas `std::sys` is the
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//! platform-specific portion.
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//!
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//! The relationship between `std::sys_common`, `std::sys` and the
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//! rest of `std` is complex, with dependencies going in all
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//! directions: `std` depending on `sys_common`, `sys_common`
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//! depending on `sys`, and `sys` depending on `sys_common` and `std`.
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//! Ideally `sys_common` would be split into two and the dependencies
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//! between them all would form a dag, facilitating the extraction of
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//! `std::sys` from the standard library.
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#![allow(missing_docs)]
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#![allow(missing_debug_implementations)]
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use sync::Once;
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use sys;
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pub mod at_exit_imp;
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#[cfg(feature = "backtrace")]
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pub mod backtrace;
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pub mod condvar;
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pub mod io;
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pub mod memchr;
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pub mod mutex;
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pub mod poison;
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pub mod remutex;
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pub mod rwlock;
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pub mod thread;
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pub mod thread_info;
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pub mod thread_local;
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pub mod util;
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pub mod wtf8;
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cfg_if! {
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if #[cfg(any(target_os = "redox", target_os = "l4re"))] {
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pub use sys::net;
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} else if #[cfg(all(target_arch = "wasm32", not(target_os = "emscripten")))] {
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pub use sys::net;
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} else {
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pub mod net;
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}
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}
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#[cfg(feature = "backtrace")]
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#[cfg(any(all(unix, not(target_os = "emscripten")),
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all(windows, target_env = "gnu"),
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target_os = "redox"))]
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pub mod gnu;
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// common error constructors
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/// A trait for viewing representations from std types
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#[doc(hidden)]
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pub trait AsInner<Inner: ?Sized> {
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fn as_inner(&self) -> &Inner;
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}
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/// A trait for viewing representations from std types
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#[doc(hidden)]
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pub trait AsInnerMut<Inner: ?Sized> {
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fn as_inner_mut(&mut self) -> &mut Inner;
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}
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/// A trait for extracting representations from std types
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#[doc(hidden)]
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pub trait IntoInner<Inner> {
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fn into_inner(self) -> Inner;
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}
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/// A trait for creating std types from internal representations
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#[doc(hidden)]
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pub trait FromInner<Inner> {
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fn from_inner(inner: Inner) -> Self;
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}
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/// Enqueues a procedure to run when the main thread exits.
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///
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/// Currently these closures are only run once the main *Rust* thread exits.
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/// Once the `at_exit` handlers begin running, more may be enqueued, but not
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/// infinitely so. Eventually a handler registration will be forced to fail.
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///
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/// Returns `Ok` if the handler was successfully registered, meaning that the
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/// closure will be run once the main thread exits. Returns `Err` to indicate
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/// that the closure could not be registered, meaning that it is not scheduled
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/// to be run.
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pub fn at_exit<F: FnOnce() + Send + 'static>(f: F) -> Result<(), ()> {
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if at_exit_imp::push(Box::new(f)) {Ok(())} else {Err(())}
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}
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macro_rules! rtabort {
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($($t:tt)*) => (::sys_common::util::abort(format_args!($($t)*)))
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}
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/// One-time runtime cleanup.
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pub fn cleanup() {
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static CLEANUP: Once = Once::new();
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CLEANUP.call_once(|| unsafe {
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sys::args::cleanup();
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sys::stack_overflow::cleanup();
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at_exit_imp::cleanup();
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});
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}
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// Computes (value*numer)/denom without overflow, as long as both
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// (numer*denom) and the overall result fit into i64 (which is the case
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// for our time conversions).
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#[allow(dead_code)] // not used on all platforms
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pub fn mul_div_u64(value: u64, numer: u64, denom: u64) -> u64 {
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let q = value / denom;
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let r = value % denom;
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// Decompose value as (value/denom*denom + value%denom),
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// substitute into (value*numer)/denom and simplify.
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// r < denom, so (denom*numer) is the upper bound of (r*numer)
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q * numer + r * numer / denom
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}
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#[test]
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fn test_muldiv() {
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assert_eq!(mul_div_u64( 1_000_000_000_001, 1_000_000_000, 1_000_000),
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1_000_000_000_001_000);
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}
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