compiler-builtins: Remove the no-f16-f128 feature
This option was used to gate `f16` and `f128` when support across backends and targets was inconsistent. We now have the rustc builtin cfg `target_has_reliable{f16,f128}` which has taken over this usecase. Remove no-f16-f128 since it is now unused and redundant.
This option was used to gate `f16` and `f128` when support across
backends and targets was inconsistent. We now have the rustc builtin cfg
`target_has_reliable{f16,f128}` which has taken over this usecase.
Remove no-f16-f128 since it is now unused and redundant.
They were introduced back when std_detect was a standalone crate
published to crates.io. The motivation for std_detect_dlsym_getauxval
was to allow using getauxval without dlopen when statically linking
musl, which we now unconditionally do for musl. And for
std_detect_file_io to allow no_std usage, which std_detect now supports
even with that feature enabled as it directly uses libc. This also
prevents accidentally disabling runtime feature detection when using
cargo build -Zbuild-std -Zbuild-std-features=
This commit is a large change to the implementation of filesystem and
other system-related operations on WASI targets. Previously the standard
library explicitly used the `wasi` crate at the 0.11.x version track
which means that it used WASIp1 APIs directly. This meant that `std` was
hard-coded to use WASIp1 syscalls and there was no separate
implementation for the WASIp{2,3} targets, for example. The high-level
goal of this commit is to decouple this interaction and avoid the use of
the `wasi` crate on the WASIp2 target.
Historically when WASIp1 was originally added to Rust the wasi-libc
library was in a much different position than it is today. Nowadays Rust
already depends on wasi-libc on WASI targets for things like memory
allocation and environment variable management. As a libc library it
also has all the functions necessary to implement all filesystem
operations Rust wants. Recently wasi-libc additionally was updated to
use WASIp2 APIs directly on the `wasm32-wasip2` target instead of using
`wasm32-wasip1` APIs. This commit is leveraging this work by enabling
Rust to completely sever the dependence on WASIp1 APIs when compiling
for `wasm32-wasip2`. This is also intended to make it easier to migrate
to `wasm32-wasip3` internally in the future where now only libc need be
updated and Rust doesn't need to explicitly change as well.
The overall premise of this commit is that there's no need for
WASI-specific implementation modules throughout the standard library.
Instead the libc-style bindings already implemented for Unix-like
targets are sufficient. This means that Rust will now be using
libc-style interfaces to interact with the filesystem, for example, and
wasi-libc is the one responsible for translating these POSIX-ish
functions into WASIp{1,2} calls.
Concrete changes here are:
* `std` for `wasm32-wasip2` no longer depends on `wasi 0.11.x`
* The implementation of `std::os::wasi::fs`, which was previously
unstable and still is, now has portions gated to only work on the
WASIp1 target which use the `wasi` crate directly. Traits have been
trimmed down in some cases, updated in others, or now present a
different API on WASIp1 and WASIp2. It's expected this'll get further
cleanup in the future.
* The `std::sys::fd::wasi` module is deleted and `unix` is used instead.
* The `std::sys::fs::wasi` module is deleted and `unix` is used instead.
* The `std::sys::io::io_slice::wasi` module is deleted and `unix` is used
instead.
* The `std::sys::pal::{wasip1,wasip2}` modules are now merged together
as their difference is much smaller than before.
* The `std::sys::pal::wasi::time` is deleted and the `unix` variant is
used directly instead.
* The `std::sys::stdio::wasip{1,2}` modules are deleted and the `unix`
variant is used instead.
* The `std::sys:🧵:wasip{1,2}` modules are deleted and the `unix`
variant is used instead.
Overall Rust's libstd is effectively more tightly bound to libc when
compiled to WASI targets. This is intended to mirror how it's expected
all other languages will also bind to WASI. This additionally has the
nice goal of drastically reducing the WASI-specific maintenance burden
in libstd (in theory) and the only real changes required here are extra
definitions being added to `libc` (done in separate PRs). This might be
required for more symbols in the future but for now everything should be
mostly complete.
std: Add Motor OS std library port
Motor OS was added as a no-std Tier-3 target in
[PR 146848](https://github.com/rust-lang/rust/pull/146848) as x86_64-unknown-motor.
This PR adds the std library for Motor OS.
While the PR may seem large, all it does is proxy
std pal calls to [moto-rt](https://crates.io/crates/moto-rt). Where there is some non-trivial
code (e.g. thread::spawn), it is quite similar, often
identical, to what other platforms do.
Motor OS was added as a no-std Tier-3 target in
https://github.com/rust-lang/rust/pull/146848
as x86_64-unknown-motor.
This patch/PR adds the std library for Motor OS.
While the patch may seem large, all it does is proxy
std pal calls to moto-rt. When there is some non-trivial
code (e.g. thread::spawn), it is quite similar, and often
identical, to what other platforms do.
This commit adds a new tier 3 target to rustc, `wasm32-wasip3`. This
follows in the footsteps of the previous `wasm32-wasip2` target and is
used to represent binding to the WASIp3 set of APIs managed by the WASI
subgroup to the WebAssembly Community Group.
As of now the WASIp3 set of APIs are not finalized nor standardized.
They're in the process of doing so and the current trajectory is to have
the APIs published in December of this year. The goal here is to get the
wheels turning in Rust to have the target in a
more-ready-than-nonexistent state by the time this happens in December.
For now the `wasm32-wasip3` target looks exactly the same as
`wasm32-wasip2` except that `target_env = "p3"` is specified. This
indicates to crates in the ecosystem that WASIp3 APIs should be used,
such as the [`wasip3` crate]. Over time this target will evolve as
implementation in guest toolchains progress, notably:
* The standard library will use WASIp3 APIs natively once they're
finalized in the WASI subgroup.
* Support through `wasi-libc` will be updated to use WASIp3 natively
which Rust will then transitively use.
* Longer-term, features such as cooperative multithreading will be added
to the WASIp3-track of targets to enable using `std::thread`, for
example, on this target.
These changes are all expected to be non-breaking changes for users of
this target. Runtimes supporting WASIp3, currently Wasmtime and Jco,
support WASIp2 APIs as well and will work with components whether or not
they import WASIp2, both WASIp2 and WASIp3, or just WASIp3 APIs. This
means that changing the internal implementation details of libstd over
time is expected to be a non-breaking change.
[`wasip3` crate]: https://crates.io/crates/wasip3
Add `std` support for `armv7a-vex-v5`
This PR adds standard library support for the VEX V5 Brain (`armv7a-vex-v5` target). It is more-or-less an updated version of the library-side work done in rust-lang/rust#131530.
This was a joint effort between me, `@lewisfm,` `@max-niederman,` `@Gavin-Niederman` and several other members of the [`vexide` project](https://github.com/vexide/).
## Background
VEXos is a fairly unconventional operating system, with user code running in a restricted enviornment with regards to I/O capabilities and whatnot. As such, several OS-dependent APIs are unsupported or have partial support (such as `std::net`, `std::process`, and most of `std::thread`). A more comprehensive list of what does or doesn't work is outlined in the [updated target documentation](https://github.com/vexide/rust/blob/vex-std/src/doc/rustc/src/platform-support/armv7a-vex-v5.md). Despite these limitations, we believe that `libstd` support on this target still has value to users, especially given the popular use of this hardware for educational purposes. For some previous discussion on this matter, see [this comment](https://github.com/rust-lang/rust/pull/131530#issuecomment-2432856841).
## SDK Linkage
VEXos doesn't really ship with an official `libc` or POSIX-style platform API (and though it does port newlib, these are stubbed on top of the underlying SDK). Instead, VEX provides their own SDK for calling platform APIs. Their official SDK is kept proprietary (with public headers), though open-source implementations exist. Following the precedent of the `armv6k-nintendo-3ds` team's work in rust-lang/rust#95897, we've opted not to directly link `libstd` to any SDK with the expectation that users will provide their own with one of the following options:
- [`vex-sdk-download`](https://github.com/vexide/vex-sdk/tree/main/packages/vex-sdk-download), which downloads an official proprietary SDK from VEX using a build script.
- [`vex-sdk-jumptable`](https://crates.io/crates/vex-sdk-jumptable), which is a compatible, open-source reimplementation of the SDK using firmware jumps.
- [`vex-sdk-pros`](https://github.com/vexide/vex-sdk/tree/main/packages/vex-sdk-pros), which uses the [PROS kernel](https://github.com/purduesigbots/pros) as a provider for SDK functions.
- Linking their own implementation or stubbing the functions required by libstd.
The `vex-sdk` crate used in the VEXos PAL provides `libc`-style FFI bindings for any compatible system library, so any of these options *should* work fine. A functional demo project using `vex-sdk-download` can be found [here](https://github.com/vexide/armv7a-vex-v5-demo/tree/main).
## Future Work
This PR implements virtually everything we are currently able to implement given the current capabilities of the platform. The exception to this is file directory enumeration, though the implementation of that is sufficiently [gross enough](c6c5bad11e/packages/vexide-core/src/fs/mod.rs (L987)) to drive us away from supporting this officially.
Additionally, I have a working branch implementing the `panic_unwind` runtime for this target, which is something that would be nice to see in the future, though given the volume of compiler changes i've deemed it out-of-scope for this PR.
The recent work on the WASIp2 target being integrated into the standard
library ended up causing a bug in nightly on the target. This has now
been fixed in the `wasi` crate so this commit pulls in the updated
version to ensure bindings work correctly.
This commit is the start of an effort to support WASIp2 natively in the
standard library. Before this commit the `wasm32-wasip2` target behaved
exactly like `wasm32-wasip1` target by importing APIs from the core wasm
module `wasi_snapshot_preview1`. These APIs are satisfied by the
`wasm-component-ld` target by using an [adapter] which implements WASIp1
in terms of WASIp2. This adapter comes at a cost, however, in terms of
runtime indirection and instantiation cost, so ideally the adapter would
be removed entirely. The purpose of this adapter was to provide a
smoother on-ramp from WASIp1 to WASIp2 when it was originally created.
The `wasm32-wasip2` target has been around for long enough now that it's
much more established. Additionally the only thing historically blocking
using WASIp2 directly was implementation effort. Work is now underway to
migrate wasi-libc itself to using WASIp2 directly and now seems as good
a time as any to migrate the Rust standard library too.
Implementation-wise the milestones here are:
* The `wasm32-wasip2` target now also depends on the `wasi` crate at
version 0.14.* in addition to the preexisting dependency of 0.11.*.
The 0.14.* release series binds WASIp2 APIs instead of WASIp1 APIs.
* Some preexisting naming around `mod wasi` or `wasi.rs` was renamed to
`wasip1` where appropriate. For example `std::sys::pal::wasi` is now
called `std::sys::pal::wasip1`.
* More platform-specific WASI modules are now split between WASIp1 and
WASIp2. For example getting the current time, randomness, and
process arguments now use WASIp2 APIs directly instead of using WASIp1
APIs that require an adapter.
It's worth pointing out that this PR does not migrate the entire
standard library away from using WASIp1 APIs on the `wasm32-wasip2`
target. Everything related to file descriptors and filesystem APIs is
still using WASIp1. Migrating that is left for a future PR. In the
meantime the goal of this change is to lay the groundwork necessary for
migrating in the future. Eventually the goal is to drop the `wasi`
0.11.* dependency on the `wasm32-wasip2` target (the `wasm32-wasip1`
target will continue to retain this dependency).
[adapter]: https://github.com/bytecodealliance/wasmtime/blob/main/crates/wasi-preview1-component-adapter/README.md
Migrate the standard library from using the external `cfg_if` crate to
using the now-built-in `cfg_select` macro.
This does not yet eliminate the dependency from
`library/std/Cargo.toml`, because while the standard library itself no
longer uses `cfg_if`, it also incorporates the `backtrace` crate, which
does.
Migration assisted by the following vim command (after selecting the
full `cfg_if!` invocation):
```
'<,'>s/\(cfg_if::\)\?cfg_if/cfg_select/ | '<,'>s/^\( *\)} else {/\1}\r\1_ => {/c | '<,'>s/^\( *\)} else if #\[cfg(\(.*\))\] /\1}\r\1\2 => /e | '<,'>s/if #\[cfg(\(.*\))\] {/\1 => {/e
```
This is imperfect, but substantially accelerated the process. This
prompts for confirmation on the `} else {` since that can also appear
inside one of the arms. This also requires manual intervention to handle
any multi-line conditions.
`compiler-builtins` is already in the crate graph via `alloc`, and all
features related to `compiler-builtins` goes through `alloc`. There
isn't any reason that `std` needs this direct dependency, so remove it.
Remove `compiler-builtins-{no-asm,mangled-names}`
Remove `compiler-builtins-no-asm`
This feature used to be for when Cranelift didn't support inline
assembly, but its last uses were removed in 52933e0bd2 ("Don't disable
inline asm usage in compiler-builtins when the cranelift backend is
enabled"). and cba05a7a14 ("Support naked functions").
This doesn't remove the feature from the `compiler-builtins` crate, that
will be done separately in the subtree repo.
---
Remove `compiler-builtins-mangled-names`
This config was added in 207de019dc ("libary: Forward
compiler-builtins "asm" and "mangled-names" feature") but it does not
appear this has ever been used. The PR adding it (rust-lang/rust#78472) says that
this was exposed to help with configuration and points at the [Hermit
Cargo config], but as far as I can tell, this feature name has never
been mentioned in that repository's git history.
Thus, clean up a seemingly unneeded feature.
[Hermit Cargo config]: ab2b830930/.cargo/config
Upgrade the `fortanix-sgx-abi` dependency
0.6.1 removes the `compiler-builtins` dependency, part of RUST-142265. The breaking change from 0.5 to 0.6 is for an update to the `insecure_time` API [1].
I validated that `./x c library --target x86_64-fortanix-unknown-sgx` completes successfully with this change.
Link: a34e9767f3 [1]
This config was added in 207de019dc ("libary: Forward
compiler-builtins "asm" and "mangled-names" feature") but it does not
appear this has ever been used. The PR adding it (RUST-78472) says that
this was exposed to help with configuration and points at the [Hermit
Cargo config], but as far as I can tell, this feature name has never
been mentioned in that repository's git history.
Thus, clean up a seemingly unneeded feature.
[Hermit Cargo config]: ab2b830930/.cargo/config
This feature used to be for when Cranelift didn't support inline
assembly, but its last uses were removed in 52933e0bd2 ("Don't disable
inline asm usage in compiler-builtins when the cranelift backend is
enabled"). and cba05a7a14 ("Support naked functions").
This doesn't remove the feature from the `compiler-builtins` crate, that
will be done separately in the subtree repo.
This primarily pulls in alexcrichton/dlmalloc-rs/55 and
alexcrichton/dlmalloc-rs/54 to address 144199. Notably the highest byte
in the wasm address space is no longer allocatable and additionally the
allocator internally uses `wrapping_add` instead of `add` on pointers
since on 32-bit platforms offsets might be larger than half the address
space.
Linting public reexport of private dependencies
Part of public/private dependencies rust-lang/rust#44663
Partially addresses rust-lang/rust#71043
I'm adding a warning for reexports of private dependencies into `rustc_resolve`. I get that this should not be a warning, but should instead be a lint to be controlled by the feature gate, but I did not figure out how exactly to do that at that point. I tried doing the same thing as is done in `rustc_privacy`, but the linting system is not ready yet as far as I understand the error I got, so I made a warning for now instead. Some guidance on how to emit lints with `dcx` would be appreciated.
This also sets the `std_detect` crate as a public dependency of `std` because some macros are reexported from there. I did not check closer, but the other option may be to allow the specific reexports instead.
0.6.1 removes the `compiler-builtins` dependency, part of RUST-142265.
The breaking change from 0.5 to 0.6 is for an update to the
`insecure_time` API [1].
I validated that `./x c library --target x86_64-fortanix-unknown-sgx`
completes successfully with this change.
Link: a34e9767f3 [1]
0.37.0 is a semver-breaking release but the only breakage is in
`elf::R_RISCV_GNU_*` and `pe::IMAGE_WEAK_EXTERN_*` constants, as well as
Mach-O dyld. This API is not used by `std`, so we should be fine to
upgrade.
This new version also includes functionality for parsing Wasm object
files that we may eventually like to make use of.
Also includes the minor bump from 0.37.0 to 0.37.1 to help [1].
Changelog: https://github.com/gimli-rs/object/blob/master/CHANGELOG.md#0370
[1]: https://github.com/rust-lang/rust/issues/142265
Many of `std`'s dependency have a dependency on the crates.io
`compiler-builtins` when used with the feature
`rustc-std-workspace-core`. Use a Cargo patch to select the in-tree
version instead.
`compiler-builtins` is also added as a dependency of
`rustc-std-workspace-core` so these crates can remove their crates.io
dependency in the future.
