Expand `str_as_str` to more types
Tracking issue: rust-lang/rust#130366
ACP: https://github.com/rust-lang/libs-team/issues/643
This PR expands `str_from_str` feature and adds analogous methods to more types. Namely:
- `&CStr`
- `&[T]`, `&mut [T]`
- `&OsStr`
- `&Path`
- `&ByteStr`, `&mut ByteStr` (tracking issue: rust-lang/rust#134915) (technically was not part of ACP)
This caused several performance regressions because of existing code
which uses `Read::read` and therefore requires full buffer
initialization. This is particularly a problem when the same buffer is
re-used for multiple read calls since this means it needs to be fully
re-initialized each time.
There is still some benefit to landing the API changes, but we will have
to add private APIs so that the existing infrastructure can
track and avoid redundant initialization.
std: io: error: Add comment for UEFI unpacked repr use
The following commit adds the comment explaining the rational why UEFI uses unpacked representation on 64-bit platforms as opposed to bit-packed representation used in all other 64-bit platforms.
r? `@bjorn3`
The following commit adds the comment explaining the rational why UEFI
uses unpacked representation on 64-bit platforms as opposed to bit-packed
representation used in all other 64-bit platforms.
Signed-off-by: Ayush Singh <ayush@beagleboard.org>
document that mpmc channels deliver an item to (at most) one receiver
Tiny documentation change related to mpmc (tracking issue rust-lang/rust#126840).
This PR is meant to supersede rust-lang/rust#140158 due to it's inactivity. It is essentially the same addition structured a little differently.
std: small `sys` refactor
Part of rust-lang/rust#117276
The large number of files changed just results from the need to update a lot of imports. Actually this PR only:
* combines the two definitions of `RawOsError` in `sys::pal` into one in `sys::io`
* moves `FULL_BACKTRACE_DEFAULT` from `sys::pal` to `sys::backtrace`
* moves the `FromInner`/`IntoInner`/... traits into `sys` (in preparation for removing `sys_common` entirely)
Link POSIX instead of Linux manual for Instant
This commit changes the links in the source code that link to a platform specific implementation of the POSIX interface of `clock_gettime`, despite the respective areas in the code being specifically UNIX system agnostic, thereby making it more reasonable to link the POSIX specific document.
std: Don't use `linkat` on the `wasm32-wasi*` targets
This commit is a follow-up to rust-lang/rust#147572 and the issue reported at the end of that PR where the `std::fs::hard_link` function is broken after that PR landed. The true culprit and bug here is fixed in WebAssembly/wasi-libc#690 but until that's released in a wasi-sdk version it should be reasonable, on WASI, to skip the `linkat` function.
std: reorganize pipe implementations
Currently, there are two distinct types called `AnonPipe` in `std`:
* The one used to implement `io::pipe` (in `sys::anonymous_pipe`)
* The one used to implement `Stdin`/`Stdout`/`Stderr` (in `sys::pal::pipe`)
On Windows, these actually have different semantics, as one of the handles returned by the `sys::pal::pipe` version is opened for asynchronous operation in order to support `read2`, whereas the `sys::anonymous_pipe` version does not do so. Thus the naming is extremely confusing.
To fix this, this PR renames the `sys::anonymous_pipe` version of `AnonPipe` to simply `Pipe`, whereas the `sys::pal::pipe` version is now called `ChildPipe`. Additionally,
* `sys::anonymous_pipe` is now also just called `sys::pipe`.
* On Windows, `sys::pal::pipe` has been moved to `sys::process` and is now called `sys::process::child_pipe`.
* On non-Windows platforms, pipe creation is now exclusively handled by `sys::pipe` and `ChildPipe` is defined as a type alias to `Pipe` within `sys::process`.
And lastly, the `read2` function (originally in `sys::pal::pipe`) is now called `read_output` and defined by `sys::process`, as (at least on Windows) it is only usable with `ChildPipe`.
Includes rust-lang/rust#146639 for convenience.
This commit changes the links in the source code that link to a platform
specific implementation of the POSIX interface of `clock_gettime`,
despite the respective areas in the code being specifically UNIX system
agnostic, thereby making it more reasonable to link the POSIX specific
document.
Add SystemTime::{MIN, MAX}
Accepted ACP: <https://github.com/rust-lang/libs-team/issues/692>
Tracking Issue: <https://github.com/rust-lang/rust/issues/149067>
---
This merge request introduces two new constants to `SystemTime`: `MIN` and `MAX`, whose values represent the maximum values for the respective data type, depending upon the platform.
Technically, this value is already obtainable during runtime with the following algorithm:
Use `SystemTime::UNIX_EPOCH` and call `checked_add` (or `checked_sub`) repeatedly with `Duration::new(0, 1)` on it, until it returns None.
Mathematically speaking, this algorithm will terminate after a finite amount of steps, yet it is impractical to run it, as it takes practically forever.
Besides, this commit also adds a unit test to verify those values represent the respective minimum and maximum, by letting a `checked_add` and `checked_sub` on it fail.
In the future, the hope of the authors lies within the creation of a `SystemTime::saturating_add` and `SystemTime::saturating_sub`, similar to the functions already present in `std::time::Duration`.
However, for those, these constants are crucially required, thereby this should be seen as the initial step towards this direction.
With this change, implementing these functions oneself outside the standard library becomes feasible in a portable manner for the first time.
This feature (and a related saturating version of `checked_{add, sub}` has been requested multiple times over the course of the past few years, most notably:
* rust-lang/rust#100141
* rust-lang/rust#133525
* rust-lang/rust#105762
* rust-lang/rust#71224
* rust-lang/rust#45448
* rust-lang/rust#52555
The Windows implementation of `SystemTime::checked_sub` contains a bug,
namely that it does not return `None` on values below 1601.
This bug stems from the fact that internally, the time gets converted to
an i64, with zero representing the anchor in 1601. Of course,
performing checked subtraction on a signed integer generally works fine.
However, the resulting value delivers undefined behavior on Windows
systems.
To mitigate this issue, we try to convert the resulting i64 to an u64
because a negative value should obviously fail there.
There is a slight edge case when adding and subtracting a `Duration`
from a `SystemTime`, namely when the duration itself is finer/smaller
than the time precision on the operating systems.
On most (if not all non-Windows) operating systems, the precision of
`Duration` aligns with the `SystemTime`, both being one nanosecond.
However, on Windows, this time precision is 100ns, meaning that adding
or subtracting a `Duration` whose value is `< Duration::new(0, 100)`
will result in that method behaving like an addition/subtracting of
`Duration::ZERO`, due to the `Duration` getting rounded-down to the zero
value.
This commit introduces two new constants to SystemTime: `MIN` and `MAX`,
whose value represent the maximum values for the respective data type,
depending upon the platform.
Technically, this value is already obtainable during runtime with the
following algorithm: Use `SystemTime::UNIX_EPOCH` and call `checked_add`
(or `checked_sub`) repeatedly with `Duration::new(0, 1)` on it, until it
returns None. Mathematically speaking, this algorithm will terminate
after a finite amount of steps, yet it is impractical to run it, as it
takes practically forever.
Besides, this commit also adds a unit test. Concrete implementation
depending upon the platform is done in later commits.
In the future, the hope of the authors lies within the creation of a
`SystemTime::saturating_add` and `SystemTime::saturating_sub`, similar
to the functions already present in `std::time::Duration`. However, for
those, these constants are crucially required, thereby this should be
seen as the initial step towards this direction.
Below are platform specifc notes:
# Hermit
The HermitOS implementation is more or less identitcal to the Unix one.
# sgx
The implementation uses a `Duration` to store the Unix time, thereby
implying `Duration::ZERO` and `Duration::MAX` as the limits.
# solid
The implementation uses a `time_t` to store the system time within a
single value (i.e. no dual secs/nanosecs handling), thereby implying its
`::MIN` and `::MAX` values as the respective boundaries.
# UEFI
UEFI has a weird way to store times, i.e. a very complicated struct.
The standard proclaims "1900-01-01T00:00:00+0000" to be the lowest
possible value and `MAX_UEFI_TIME` is already present for the upper
limit.
# Windows
Windows is weird. The Win32 documentation makes no statement on a
maximum value here. Next to this, there are two conflicting types:
`SYSTEMTIME` and `FILETIME`. Rust's Standard Library uses `FILETIME`,
whose limit will (probably) be `i64::MAX` packed into two integers.
However, `SYSTEMTIME` has a lower-limit.
# xous
It is similar to sgx in the sense of using a `Duration`.
# unsupported
Unsupported platforms store a `SystemTime` in a `Duration`, just like
sgx, thereby implying `Duration::ZERO` and `Duration::MAX` as the
respective limits.
Port `doc` attributes to new attribute API
Part of https://github.com/rust-lang/rust/issues/131229.
This PR ports the `doc` attributes to the new attribute API. However, there are things that will need to be fixed in a follow-up:
* Some part of `cfg_old.rs` are likely unused now, so they should be removed.
* Not all error/lints are emitted at the same time anymore, making them kinda less useful considering that you need to run and fix rustc/rustdoc multiple times to get through all of them.
* For coherency with the other attribute errors, I didn't modify the default output too much, meaning that we have some new messages now. I'll likely come back to that to check if the previous ones were better in a case-by-case approach.
* `doc(test(attr(...)))` is handled in a horrifying manner currently. Until we can handle it correctly with the `Attribute` system, it'll remain that thing we're all very ashamed of. 😈
* A type in rustdoc got its size increased, I'll check the impact on performance. But in any case, I plan to improve it in a follow-up so should be "ok".
* Because of error reporting, some fields of `Doc` are suboptimal, like `inline` which instead of being an `Option` is a `ThinVec` because we report the error later on. Part of the things I'm not super happy about but can be postponed to future me.
* In `src/librustdoc/clean/cfg.rs`, the `pub(crate) fn parse(cfg: &MetaItemInner) -> Result<Cfg, InvalidCfgError> {` function should be removed once `cfg_trace` has been ported to new `cfg` API.
* Size of type `DocFragment` went from 32 to 48. Would be nice to get it back to 32.
* ``malformed `doc` attribute input`` wasn't meant for so many candidates, should be improved.
* See how many of the checks in `check_attr` we can move to attribute parsing
* Port target checking to be in the attribute parser completely
* Fix target checking for `doc(alias)` on fields & patterns
And finally, once this PR is merged, I plan to finally stabilize `doc_cfg` feature. :)
cc `@jdonszelmann`
r? `@JonathanBrouwer`
This commit is a follow-up to 147572 and the issue reported at the end
of that PR where the `std::fs::hard_link` function is broken after that
PR landed. The true culprit and bug here is fixed in
WebAssembly/wasi-libc/690 but until that's released in a wasi-sdk
version it should be reasonable, on WASI, to skip the `linkat`
function.
Rollup of 7 pull requests
Successful merges:
- rust-lang/rust#148052 (Stabilize `const_mul_add`)
- rust-lang/rust#149386 (Display funding link in the github overview)
- rust-lang/rust#149489 (Experimentally add *heterogeneous* `try` blocks)
- rust-lang/rust#149764 (Make `--print=backend-has-zstd` work by default on any backend)
- rust-lang/rust#149838 (Build auxiliary in pretty tests)
- rust-lang/rust#149839 (Use `PointeeSized` bound for `TrivialClone` impls)
- rust-lang/rust#149846 (Statically require links to an issue or the edition guide for all FCWs)
r? `@ghost`
`@rustbot` modify labels: rollup
Remove -Zoom=panic
There are major questions remaining about the reentrancy that this allows. It doesn't have any users on github outside of a single project that uses it in a panic=abort project to show backtraces. It can still be emulated through `#[alloc_error_handler]` or `set_alloc_error_hook` depending on if you use the standard library or not. And finally it makes it harder to do various improvements to the allocator shim.
With this PR the sole remaining symbol in the allocator shim that is not effectively emulating weak symbols is the symbol that prevents skipping the allocator shim on stable even when it would otherwise be empty because libstd + `#[global_allocator]` is used.
Closes https://github.com/rust-lang/rust/issues/43596
Fixes https://github.com/rust-lang/rust/issues/126683
Enable `outline-atomics` by default on more AArch64 platforms
The baseline Armv8.0 ISA doesn't have atomics instructions, but in
practice most hardware is at least Armv8.1-A (2014), which includes
single-instruction atomics as part of the LSE feature. As a performance
optimization for these cases, GCC and LLVM have the `-moutline-atomics` flag
to turn atomic operations into calls to symbols like `__aarch64_cas1_acq`.
These can do runtime feature detection and use the LSE instructions if
available, falling back to more portable load-exclusive/store-exclusive
loops.
Since the recent 3b50253b57 ("compiler-builtins: plumb LSE support
for aarch64 on linux") our builtins support this LSE optimization, and
since 6936bb975a ("Dynamically enable LSE for aarch64 rust provided
intrinsics"), std will set the flag as part of its startup code. The first
commit in this PR configures this to work on all platforms built with
`outline-atomics`, not just Linux.
Thus, enable `outline-atomics` by default on Android, OpenBSD, Windows,
and Fuchsia platforms that don't have LSE in the baseline. The feature is
already enabled on Linux. Platform-specific details are included in each
commit message.
The current implementation can still be accessed by setting
`-Ctarget-feature=-outline-atomics`. Setting `-Ctarget-feature=+lse` or
a relevant CPU will use the single-instruction atomics without the call
overhead. https://rust.godbolt.org/z/dsdrzszoe
Link: https://learn.arm.com/learning-paths/servers-and-cloud-computing/lse/intro/
Original Clang outline-atomics benchmarks: https://reviews.llvm.org/D91157#2435844
try-job: aarch64-msvc-*
try-job: arm-android
try-job: dist-android
try-job: dist-aarch64-llvm-mingw
try-job: dist-aarch64-msvc
try-job: dist-various-*
try-job: test-various
Rollup of 11 pull requests
Successful merges:
- rust-lang/rust#147585 (Suppress the error for private fields with non_exhaustive attribute)
- rust-lang/rust#149215 (Emit `check-cfg` lints during attribute parsing rather than evaluation)
- rust-lang/rust#149652 (Add release notes for 1.92.0)
- rust-lang/rust#149720 (rustdoc book: mention inner doc attribute)
- rust-lang/rust#149730 (lint: emit proper diagnostic for unsafe binders in improper_ctypes instead of ICE)
- rust-lang/rust#149754 (Retire `opt_str2` from compiletest cli parsing)
- rust-lang/rust#149755 (bootstrap: Use a `CompiletestMode` enum instead of bare strings)
- rust-lang/rust#149763 (Add inline attribute to generated delegation function if needed)
- rust-lang/rust#149772 (test: Add a test for 146133)
- rust-lang/rust#149779 (Fix typo "an" → "and")
- rust-lang/rust#149782 (Remove `[no-mentions]` handler in the triagebot config)
Failed merges:
- rust-lang/rust#148491 ( Correctly provide suggestions when encountering `async fn` with a `dyn Trait` return type)
r? `@ghost`
`@rustbot` modify labels: rollup
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::thread::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.
`c_variadic`: make `VaList` abi-compatible with C
tracking issue: https://github.com/rust-lang/rust/issues/44930
related PR: rust-lang/rust#144529
On some platforms, the C `va_list` type is actually a single-element array of a struct (on other platforms it is just a pointer). In C, arrays passed as function arguments expirience array-to-pointer decay, which means that C will pass a pointer to the array in the caller instead of the array itself, and modifications to the array in the callee will be visible to the caller (this does not match Rust by-value semantics). However, for `va_list`, the C standard explicitly states that it is undefined behaviour to use a `va_list` after it has been passed by value to a function (in Rust parlance, the `va_list` is moved, not copied). This matches Rust's pass-by-value semantics, meaning that when the C `va_list` type is a single-element array of a struct, the ABI will match C as long as the Rust type is always be passed indirectly.
In the old implementation, this ABI was achieved by having two separate types: `VaList` was the type that needed to be used when passing a `VaList` as a function parameter, whereas `VaListImpl` was the actual `va_list` type that was correct everywhere else. This however is quite confusing, as there are lots of footguns: it is easy to cause bugs by mixing them up (e.g. the C function `void foo(va_list va)` was equivalent to the Rust `fn foo(va: VaList)` whereas the C function `void bar(va_list* va)` was equivalent to the Rust `fn foo(va: *mut VaListImpl)`, not `fn foo(va: *mut VaList)` as might be expected); also converting from `VaListImpl` to `VaList` with `as_va_list()` had platform specific behaviour: on single-element array of a struct platforms it would return a `VaList` referencing the original `VaListImpl`, whereas on other platforms it would return a cioy,
In this PR, there is now just a single `VaList` type (renamed from `VaListImpl`) which represents the C `va_list` type and will just work in all positions. Instead of having a separate type just to make the ABI work, rust-lang/rust#144529 adds a `#[rustc_pass_indirectly_in_non_rustic_abis]` attribute, which when applied to a struct will force the struct to be passed indirectly by non-Rustic calling conventions. This PR then implements the `VaList` rework, making use of the new attribute on all platforms where the C `va_list` type is a single-element array of a struct.
Cleanup of the `VaList` API and implementation is also included in this PR: since it was decided it was OK to experiment with Rust requiring that not calling `va_end` is not undefined behaviour (https://github.com/rust-lang/rust/issues/141524#issuecomment-3028383594), I've removed the `with_copy` method as it was redundant to the `Clone` impl (the `Drop` impl of `VaList` is a no-op as `va_end` is a no-op on all known platforms).
Previous discussion: rust-lang/rust#141524 and [t-compiler > c_variadic API and ABI](https://rust-lang.zulipchat.com/#narrow/channel/131828-t-compiler/topic/c_variadic.20API.20and.20ABI)
Tracking issue: https://github.com/rust-lang/rust/issues/44930
r? `@joshtriplett`
Rollup of 9 pull requests
Successful merges:
- rust-lang/rust#147224 (Emscripten: Turn wasm-eh on by default)
- rust-lang/rust#149405 (Recover on misspelled item keyword)
- rust-lang/rust#149443 (Tidying up UI tests [6/N])
- rust-lang/rust#149524 (Move attribute safety checking to attribute parsing)
- rust-lang/rust#149593 (powf, powi: point out SNaN non-determinism)
- rust-lang/rust#149605 (Use branch name instead of HEAD when unshallowing)
- rust-lang/rust#149612 (Apply the `bors` environment also to the `outcome` job)
- rust-lang/rust#149623 (Don't require a normal tool build of clippy/rustfmt when running their test steps)
- rust-lang/rust#149627 (Point to the item that is incorrectly annotated with `#[diagnostic::on_const]`)
r? `@ghost`
`@rustbot` modify labels: rollup
powf, powi: point out SNaN non-determinism
The non-determinism has two sources:
- LLVM reserves the right to treat signaling NaNs as-if they were quiet, so it may fold `powf(x, 0)` to `1` even if `x` might be a signaling NaN.
- Some libm `pow` implementations (e.g. the one in musl) don't implement the signaling NaN special-case. See https://rust.godbolt.org/z/chsbv5v4d.
Cc `@tgross35` `@Amanieu`
Change the gating and link sections to enable this for any platforms
that enable `outline-atomics`, rather than only Linux. Additionally, no
longer run this if LSE is available, since in this case the outline
versions will never be called.
Jonathan Brouwer