Commit Graph

2237 Commits

Author SHA1 Message Date
Stuart Cook
3a48d80155
Rollup merge of #132590 - Zalathar:z-timings-stats, r=jieyouxu
Simplify FFI calls for `-Ztime-llvm-passes` and `-Zprint-codegen-stats`

The existing code for these unstable LLVM-infodump flags was jumping through hoops to pass an allocated C string across the FFI boundary, when it's much simpler to just write to a `&RustString` instead.
2024-11-08 18:51:30 +11:00
Stuart Cook
758a904764
Rollup merge of #132452 - Zalathar:llvm-cov-wrappers, r=jieyouxu
coverage: Extract safe FFI wrapper functions to `llvm_cov`

This PR takes all of the inline `unsafe` calls in coverage codegen, and all the safe wrapper functions in `coverageinfo/mod.rs`, and moves them to a new `llvm_cov` submodule that is dedicated to safe FFI wrapper functions. This reduces the mixing of abstraction levels in the rest of coverage codegen.

As a follow-up, this PR also tidies up the names and signatures of several of the coverage FFI functions.
2024-11-08 18:51:29 +11:00
Jubilee
97dbab9124
Rollup merge of #132741 - zmodem:mips_data_layout, r=nikic
Update mips64 data layout to match LLVM 20 change

LLVM changed the data layout in https://github.com/llvm/llvm-project/pull/112084
2024-11-07 18:48:26 -08:00
Jubilee
60e8ab6ba8
Rollup merge of #130586 - dpaoliello:fixrawdylib, r=wesleywiser
Set "symbol name" in raw-dylib import libraries to the decorated name

`windows-rs` received a bug report that mixing raw-dylib generated and the Windows SDK import libraries was causing linker failures: <https://github.com/microsoft/windows-rs/issues/3285>

The root cause turned out to be #124958, that is we are not including the decorated name in the import library and so the import name type is also not being correctly set.

This change modifies the generation of import libraries to set the "symbol name" to the fully decorated name and correctly marks the import as being data vs function.

Note that this also required some changes to how the symbol is named within Rust: for MSVC we now need to use the decorated name but for MinGW we still need to use partially decorated (or undecorated) name.

Fixes #124958

Passing i686 MSVC and MinGW build: <https://github.com/rust-lang/rust/actions/runs/11000433888?pr=130586>

r? `@ChrisDenton`
2024-11-07 18:48:20 -08:00
Hans Wennborg
eb7d95bafd remove the extra specification for llvm versions < 20 2024-11-07 20:59:50 +01:00
Taiki Endo
241f82ad91 Basic inline assembly support for SPARC and SPARC64 2024-11-07 21:19:03 +09:00
bors
a69df72bdc Auto merge of #132664 - matthiaskrgr:rollup-i27nr7i, r=matthiaskrgr
Rollup of 5 pull requests

Successful merges:

 - #131261 (Stabilize `UnsafeCell::from_mut`)
 - #131405 (bootstrap/codegen_ssa: ship llvm-strip and use it for -Cstrip)
 - #132077 (Add a new `wide-arithmetic` feature for WebAssembly)
 - #132562 (Remove the `wasm32-wasi` target from rustc)
 - #132660 (Remove unused errs.rs file)

Failed merges:

 - #131721 (Add new unstable feature `const_eq_ignore_ascii_case`)

r? `@ghost`
`@rustbot` modify labels: rollup
2024-11-06 01:21:42 +00:00
Matthias Krüger
088e698835
Rollup merge of #132077 - alexcrichton:wide-arithmetic, r=jieyouxu
Add a new `wide-arithmetic` feature for WebAssembly

This commit adds a new rustc target feature named `wide-arithmetic` for WebAssembly targets. This corresponds to the [wide-arithmetic] proposal for WebAssembly which adds new instructions catered towards accelerating integer arithmetic larger than 64-bits. This proposal to WebAssembly is not standard yet so this new feature is flagged as an unstable target feature. Additionally Rust's LLVM version doesn't support this new feature yet since support will first be added in LLVM 20, so the feature filtering logic for LLVM is updated to handle this.

I'll also note that I'm not currently planning to add wasm-specific intrinsics to `std::arch::wasm32` at this time. The currently proposed instructions are all accessible through `i128` or `u128`-based operations which Rust already supports, so intrinsic shouldn't be necessary to get access to these new instructions.

[wide-arithmetic]: https://github.com/WebAssembly/wide-arithmetic
2024-11-05 23:43:57 +01:00
Matthias Krüger
c8247c0a19
Rollup merge of #132259 - mrkajetanp:branch-protection-pauth-lr, r=davidtwco
rustc_codegen_llvm: Add a new 'pc' option to branch-protection

Add a new 'pc' option to -Z branch-protection for aarch64 that enables the use of PC as a diversifier in PAC branch protection code.

When the pauth-lr target feature is enabled in combination with -Z branch-protection=pac-ret,pc, the new 9.5-a instructions (pacibsppc, retaasppc, etc) will be generated.
2024-11-05 20:10:49 +01:00
bors
e8c698bb3b Auto merge of #129884 - RalfJung:forbidden-target-features, r=workingjubilee
mark some target features as 'forbidden' so they cannot be (un)set with -Ctarget-feature

The context for this is https://github.com/rust-lang/rust/issues/116344: some target features change the way floats are passed between functions. Changing those target features is unsound as code compiled for the same target may now use different ABIs.

So this introduces a new concept of "forbidden" target features (on top of the existing "stable " and "unstable" categories), and makes it a hard error to (un)set such a target feature. For now, the x86 and ARM feature `soft-float` is on that list. We'll have to make some effort to collect more relevant features, and similar features from other targets, but that can happen after the basic infrastructure for this landed. (These features are being collected in https://github.com/rust-lang/rust/issues/131799.)

I've made this a warning for now to give people some time to speak up if this would break something.

MCP: https://github.com/rust-lang/compiler-team/issues/780
2024-11-05 16:25:45 +00:00
Zalathar
19d5dc0ed1 coverage: Tidy up coverage-specific FFI functions 2024-11-05 15:32:36 +11:00
Zalathar
b790e4473c coverage: Extract safe FFI wrapper functions to llvm_cov 2024-11-05 15:32:34 +11:00
bors
96477c55bc Auto merge of #131341 - taiki-e:ppc-clobber-abi, r=bzEq,workingjubilee
Support clobber_abi and vector registers (clobber-only) in PowerPC inline assembly

This supports `clobber_abi` which is one of the requirements of stabilization mentioned in #93335.

This basically does a similar thing I did in https://github.com/rust-lang/rust/pull/130630 to implement `clobber_abi` for s390x, but for powerpc/powerpc64/powerpc64le.
- This also supports vector registers (as `vreg`) as clobber-only, which need to support clobbering of them to implement `clobber_abi`.
- `vreg` should be able to accept `#[repr(simd)]` types as input/output if the unstable `altivec` target feature is enabled, but `core::arch::{powerpc,powerpc64}` vector types, `#[repr(simd)]`, and `core::simd` are all unstable, so the fact that this is currently a clobber-only should not be considered a blocker of clobber_abi implementation or stabilization. So I have not implemented it in this PR.
  - See https://github.com/rust-lang/rust/pull/131551 (which is based on this PR) for a PR to implement this.
  - (I'm not sticking to whether that PR should be a separate PR or part of this PR, so I can merge that PR into this PR if needed.)

Refs:
- PPC32 SysV: Section "Function Calling Sequence" in [System V Application Binary Interface PowerPC Processor Supplement](https://refspecs.linuxfoundation.org/elf/elfspec_ppc.pdf)
- PPC64 ELFv1: Section 3.2 "Function Calling Sequence" in [64-bit PowerPC ELF Application Binary Interface Supplement](https://refspecs.linuxfoundation.org/ELF/ppc64/PPC-elf64abi.html#FUNC-CALL)
- PPC64 ELFv2: Section 2.2 "Function Calling Sequence" in [64-Bit ELF V2 ABI Specification](https://openpowerfoundation.org/specifications/64bitelfabi/)
- AIX: [Register usage and conventions](https://www.ibm.com/docs/en/aix/7.3?topic=overview-register-usage-conventions), [Special registers in the PowerPC®](https://www.ibm.com/docs/en/aix/7.3?topic=overview-special-registers-in-powerpc), [AIX vector programming](https://www.ibm.com/docs/en/aix/7.3?topic=concepts-aix-vector-programming)
- Register definition in LLVM: https://github.com/llvm/llvm-project/blob/llvmorg-19.1.0/llvm/lib/Target/PowerPC/PPCRegisterInfo.td#L189

If I understand the above four ABI documentations correctly, except for the PPC32 SysV's VR (Vector Registers) and 32-bit AIX (currently not supported by rustc)'s r13, there does not appear to be important differences in terms of implementing `clobber_abi`:
- The above four ABIs are consistent about FPR (0-13: volatile, 14-31: nonvolatile), CR (0-1,5-7: volatile, 2-4: nonvolatile), XER (volatile), and CTR (volatile).
- As for GPR, only the registers we are treating as reserved are slightly different
  - r0, r3-r12 are volatile
  - r1(sp, reserved), r14-31 are nonvolatile
  - r2(reserved) is TOC pointer in PPC64 ELF/AIX, system-reserved register in PPC32 SysV (AFAIK used as thread pointer in Linux/BSDs)
  - r13(reserved for non-32-bit-AIX) is thread pointer in PPC64 ELF, small data area pointer register in PPC32 SysV, "reserved under 64-bit environment; not restored across system calls[^r13]" in AIX)
- As for FPSCR, volatile in PPC64 ELFv1/AIX, some fields are volatile only in certain situations (rest are volatile) in PPC32 SysV/PPC64 ELFv2.
- As for VR (Vector Registers), it is not mentioned in PPC32 SysV, v0-v19 are volatile in both in PPC64 ELF/AIX, v20-v31 are nonvolatile in PPC64 ELF, reserved or nonvolatile depending on the ABI ([vec-extabi vs vec-default in LLVM](https://reviews.llvm.org/D89684), we are [using vec-extabi](https://github.com/rust-lang/rust/pull/131341#discussion_r1797693299)) in AIX:
  > When the default Vector enabled mode is used, these registers are reserved and must not be used.
  > In the extended ABI vector enabled mode, these registers are nonvolatile and their values are preserved across function calls

  I left [FIXME comment about PPC32 SysV](https://github.com/rust-lang/rust/pull/131341#discussion_r1790496095) and added ABI check for AIX.
- As for VRSAVE, it is not mentioned in PPC32 SysV, nonvolatile in PPC64 ELFv1, reserved in PPC64 ELFv2/AIX
- As for VSCR, it is not mentioned in PPC32 SysV/PPC64 ELFv1, some fields are volatile only in certain situations (rest are volatile) in PPC64 ELFv2, volatile in AIX

We are currently treating r1-r2, r13 (non-32-bit-AIX), r29-r31, LR, CTR, and VRSAVE as reserved.
We are currently not processing anything about FPSCR and VSCR, but I feel those are things that should be processed by `preserves_flags` rather than `clobber_abi` if we need to do something about them. (However, PPCRegisterInfo.td in LLVM does not seem to define anything about them.)

Replaces #111335 and #124279

cc `@ecnelises` `@bzEq` `@lu-zero`

r? `@Amanieu`

`@rustbot` label +O-PowerPC +A-inline-assembly

[^r13]: callee-saved, according to [LLVM](6a6af0246b/llvm/lib/Target/PowerPC/PPCCallingConv.td (L322)) and [GCC](a9173a50e7/gcc/config/rs6000/rs6000.h (L859)).
2024-11-05 03:13:47 +00:00
Ralf Jung
ffad9aac27 mark some target features as 'forbidden' so they cannot be (un)set
For now, this is just a warning, but should become a hard error in the future
2024-11-04 22:56:47 +01:00
Zalathar
5bfa0b106e Simplify FFI calls for -Ztime-llvm-passes and -Zprint-codegen-stats 2024-11-04 20:31:16 +11:00
Jubilee
7155c65d68
Rollup merge of #132565 - bjorn3:less_target_name_dependence, r=workingjubilee
Reduce dependence on the target name

The target name can be anything with custom target specs. Matching on fields inside the target spec is much more robust than matching on the target name.

Also remove the unused is_builtin target spec field.
2024-11-03 20:08:14 -08:00
Jubilee Young
b895bf4fdc compiler: Directly use rustc_abi in codegen 2024-11-03 12:30:32 -08:00
bjorn3
9e6d2da83d Reduce dependence on the target name
The target name can be anything with custom target specs. Matching on
fields inside the target spec is much more robust than matching on the
target name.
2024-11-03 18:29:01 +00:00
bors
59ae5eba7e Auto merge of #132514 - Zalathar:print-target-cpus, r=jieyouxu
Port most of `--print=target-cpus` to Rust

The logic and formatting needed by `--print=target-cpus` has historically been carried out in C++ code. Originally it used `printf` to write directly to the console, but later it switched over to writing to a `std::ostringstream` and then passing its buffer to a callback function pointer.

This PR replaces that C++ code with a very simple function that writes a list of CPU names to a `&RustString`, with the rest of the logic and formatting being handled by ordinary safe Rust code.
2024-11-03 11:09:38 +00:00
Noratrieb
a26450cf81 Rename target triple to target tuple in many places in the compiler
This changes the naming to the new naming, used by `--print
target-tuple`.
It does not change all locations, but many.
2024-11-02 21:29:59 +01:00
Zalathar
90f2075b66 Port most of LLVMRustPrintTargetCPUs to Rust 2024-11-02 23:39:29 +11:00
Zalathar
0fa86f9660 Use a dedicated safe wrapper for LLVMRustGetHostCPUName 2024-11-02 23:39:29 +11:00
Taiki Endo
d19517dcd0 Support clobber_abi and vector registers (clobber-only) in PowerPC inline assembly 2024-11-02 20:26:08 +09:00
Matthias Krüger
bb544f863f
Rollup merge of #131037 - madsmtm:move-llvm-target-versioning, r=petrochenkov
Move versioned Apple LLVM targets from `rustc_target` to `rustc_codegen_ssa`

Fully specified LLVM targets contain the OS version on macOS/iOS/tvOS/watchOS/visionOS, and this version depends on the deployment target environment variables like `MACOSX_DEPLOYMENT_TARGET`, `IPHONEOS_DEPLOYMENT_TARGET` etc.

We would like to move this to later in the compilation pipeline, both because it feels impure to access environment variables when fetching target information, but mostly because we need access to more information from https://github.com/rust-lang/rust/pull/130883 to do https://github.com/rust-lang/rust/issues/118204. See also https://github.com/rust-lang/rust/pull/129342#issuecomment-2335156119 for some discussion.

The first and second commit does the actual refactor, it should be a non-functional change, the third commit adds diagnostics for invalid deployment targets, which are now possible to do because we have access to the session.

Tested with the same commands as in https://github.com/rust-lang/rust/pull/130435.

r? ``````@petrochenkov``````
2024-11-02 08:33:10 +01:00
Guillaume Gomez
526c67f37b
Rollup merge of #131829 - Zalathar:goodbye-zprofile, r=chenyukang
Remove support for `-Zprofile` (gcov-style coverage instrumentation)

Tracking issue: #42524

MCP: https://github.com/rust-lang/compiler-team/issues/798

---

This PR removes the unstable `-Zprofile` flag, which enables ”gcov-style” coverage instrumentation, along with its associated `-Zprofile-emit` configuration flag.

(The profile flag predates and is almost entirely separate from the stable `-Cinstrument-coverage` flag.)

Notably, the `-Zprofile` flag:
- Is largely untested in-tree, having only one run-make test that does not check whether its output is correct or useful.
- Has no known maintainer.
- Has seen no push towards stabilization.
- Has at least one severe regression reported in 2022 that apparently remains unaddressed.
  - #100125
- Is confusingly named, since it appears to be more about coverage than performance profiling, and has nothing to do with PGO.
- Is fundamentally limited by relying on counters auto-inserted by LLVM, with no knowledge of Rust beyond debuginfo.
2024-11-02 03:08:49 +08:00
Mads Marquart
e1233153ac Move versioned LLVM target creation to rustc_codegen_ssa
The OS version depends on the deployment target environment variables,
the access of which we want to move to later in the compilation pipeline
that has access to more information, for example `env_depinfo`.
2024-11-01 17:07:18 +01:00
Matthew Maurer
9caced7bad llvm: Match new LLVM 128-bit integer alignment on sparc
LLVM continues to align more 128-bit integers to 128-bits in the data
layout rather than relying on the high level language to do it. Update
SPARC target files to match and add a backcompat replacement for current
LLVMs.

See llvm/llvm-project#106951 for details
2024-10-31 20:37:54 +00:00
Kajetan Puchalski
10edeea4b4 rustc_codegen_llvm: Add a new 'pc' option to branch-protection
Add a new 'pc' option to -Z branch-protection for aarch64 that
enables the use of PC as a diversifier in PAC branch protection code.

When the pauth-lr target feature is enabled in combination
with -Z branch-protection=pac-ret,pc, the new 9.5-a instructions
(pacibsppc, retaasppc, etc) will be generated.
2024-10-31 11:59:17 +00:00
Zalathar
8dddd1ae60 coverage: Avoid ICE when coverage_cx is unexpectedly unavailable 2024-10-31 21:25:43 +11:00
Zalathar
ce3e14a448 Remove support for -Zprofile (gcov-style coverage instrumentation) 2024-10-31 09:09:25 +11:00
Jubilee
847b6fe6b0
Rollup merge of #132246 - workingjubilee:campaign-on-irform, r=compiler-errors
Rename `rustc_abi::Abi` to `BackendRepr`

Remove the confabulation of `rustc_abi::Abi` with what "ABI" actually means by renaming it to `BackendRepr`, and rename `Abi::Aggregate` to `BackendRepr::Memory`. The type never actually represented how things are passed, as that has to have `PassMode` considered, at minimum, but rather it just is how we represented some things to the backend. This conflation arose because LLVM, the primary backend at the time, would lower certain IR forms using certain ABIs. Even that only somewhat was true, as it broke down when one ventured significantly afield of what is described by the System V AMD64 ABI either by using different architectures, ABI-modifying IR annotations, the same architecture **with different ISA extensions enabled**, or other... unexpected delights.

Unfortunately both names are still somewhat of a misnomer right now, as people have written code for years based on this misunderstanding. Still, their original names are even moreso, and for better or worse, this backend code hasn't received as much maintenance as the rest of the compiler, lately. Actually arriving at a correct end-state will simply require us to disentangle a lot of code in order to fix, much of it pointlessly repeated in several places. Thus this is not an "actual fix", just a way to deflect further misunderstandings.
2024-10-30 14:01:37 -07:00
Matthias Krüger
879c4d5ccc
Rollup merge of #132342 - Zalathar:operand-bundle, r=workingjubilee
cg_llvm: Clean up FFI calls for operand bundles

All of these FFI functions have equivalents in the stable LLVM-C API, though `LLVMBuildCallBr` requires a temporary polyfill on LLVM 18.

This PR also creates a clear split between `OperandBundleOwned` and `OperandBundle`, and updates the internals of the owner to be a little less terrifying.
2024-10-30 06:40:38 +01:00
Zalathar
c3071590ab Clean up FFI calls for operand bundles 2024-10-30 13:26:24 +11:00
Zalathar
65ff2a6ad7 Consistently use safe wrapper function set_section 2024-10-30 11:38:20 +11:00
Jubilee Young
7086dd83cc compiler: rustc_abi::Abi => BackendRepr
The initial naming of "Abi" was an awful mistake, conveying wrong ideas
about how psABIs worked and even more about what the enum meant.
It was only meant to represent the way the value would be described to
a codegen backend as it was lowered to that intermediate representation.
It was never meant to mean anything about the actual psABI handling!
The conflation is because LLVM typically will associate a certain form
with a certain ABI, but even that does not hold when the special cases
that actually exist arise, plus the IR annotations that modify the ABI.

Reframe `rustc_abi::Abi` as the `BackendRepr` of the type, and rename
`BackendRepr::Aggregate` as `BackendRepr::Memory`. Unfortunately, due to
the persistent misunderstandings, this too is now incorrect:
- Scattered ABI-relevant code is entangled with BackendRepr
- We do not always pre-compute a correct BackendRepr that reflects how
  we "actually" want this value to be handled, so we leave the backend
  interface to also inject various special-cases here
- In some cases `BackendRepr::Memory` is a "real" aggregate, but in
  others it is in fact using memory, and in some cases it is a scalar!

Our rustc-to-backend lowering code handles this sort of thing right now.
That will eventually be addressed by lifting duplicated lowering code
to either rustc_codegen_ssa or rustc_target as appropriate.
2024-10-29 14:56:00 -07:00
Matthias Krüger
2707cd670c
Rollup merge of #132319 - Zalathar:add-module-flag, r=jieyouxu
cg_llvm: Clean up FFI calls for setting module flags

This is a combination of several inter-related changes to how module flags are set:

- Remove some unnecessary code for setting an `"LTOPostLink"` flag, which has been obsolete since LLVM 17.
- Define our own enum instead of relying on enum values defined by LLVM's unstable C++ API.
- Use safe wrapper functions to set module flags, instead of direct `unsafe` calls.
- Consistently pass pointer/length strings instead of C strings.
- Remove or shrink some `unsafe` blocks.
2024-10-29 18:38:59 +01:00
Zalathar
8d2ed4f0f3 Clean up FFI calls for setting module flags
- Don't rely on enum values defined by LLVM's C++ API
- Use safe wrapper functions instead of direct `unsafe` calls
- Consistently pass pointer/length strings instead of C strings
2024-10-29 21:40:34 +11:00
Zalathar
ba81dbf3c6 Don't set unnecessary module flag "LTOPostLink"
This module flag was an internal detail of LLVM's optimization passes, and all
code involving it was removed in LLVM 17.

<200cc952a2>
2024-10-29 21:17:13 +11:00
Jubilee
a70b90b822
Rollup merge of #132216 - klensy:c_uint, r=cuviper
correct LLVMRustCreateThinLTOData arg types

`LLVMRustCreateThinLTOData` defined in rust as
```rust
    pub fn LLVMRustCreateThinLTOData(
        Modules: *const ThinLTOModule,
        NumModules: c_uint,
        PreservedSymbols: *const *const c_char,
        PreservedSymbolsLen: c_uint,
    ) -> Option<&'static mut ThinLTOData>;
```
but in cpp as
```cpp
extern "C" LLVMRustThinLTOData *
LLVMRustCreateThinLTOData(LLVMRustThinLTOModule *modules, int num_modules,
                          const char **preserved_symbols, int num_symbols) {
```

(note `c_unit` vs `int` types). Let it be actually `size_t`.

Also fixes return type of `LLVMRustDIBuilderCreateOpLLVMFragment` to uint64_t as other similar functions around, which should be correct, i assume.
2024-10-29 03:11:42 -07:00
Jubilee
5d0f52efa4
Rollup merge of #131375 - klensy:clone_on_ref_ptr, r=cjgillot
compiler: apply clippy::clone_on_ref_ptr for CI

Apply lint https://rust-lang.github.io/rust-clippy/master/index.html#/clone_on_ref_ptr for compiler, also see https://github.com/rust-lang/rust/pull/131225#discussion_r1790109443.

Some Arc's can be misplaced with Lrc's, sorry.

https://rust-lang.zulipchat.com/#narrow/channel/131828-t-compiler/topic/enable.20more.20clippy.20lints.20for.20compiler.20.28and.5Cor.20std.29
2024-10-29 03:11:39 -07:00
klensy
17636374de correct LLVMRustCreateThinLTOData arg types 2024-10-29 00:47:20 +03:00
Jubilee
6fd4a76d3b
Rollup merge of #132261 - ChrisCho-H:refactor/cleaner-check-none, r=compiler-errors
refactor: cleaner check to return None

It's very nit change. Refactor to shorten verbose check when returning None for `backend_feature_name`.
2024-10-28 10:18:52 -07:00
Jubilee
bd43f8e9fd
Rollup merge of #132260 - Zalathar:type-safe-cast, r=compiler-errors
cg_llvm: Use a type-safe helper to cast `&str` and `&[u8]` to `*const c_char`

In `rustc_codegen_llvm` there are many uses of `.as_ptr().cast()` to convert a string or byte-slice to `*const c_char`, which then gets passed through FFI.

This works, but is fragile, because there's nothing constraining the pointer cast to actually be from `u8` to `c_char`. If the original value changes to something else that has an `as_ptr` method, or the context changes to expect something other than `c_char`, the cast will silently do the wrong thing.

By making the cast more explicit via a helper method, we can be sure that it will either perform the intended cast, or fail at compile time.
2024-10-28 10:18:52 -07:00
Jubilee Young
88a9edc091 compiler: Add is_uninhabited and use LayoutS accessors
This reduces the need of the compiler to peek on the fields of LayoutS.
2024-10-28 09:58:30 -07:00
Alex Crichton
f534974037 Add a new wide-arithmetic feature for WebAssembly
This commit adds a new rustc target feature named `wide-arithmetic` for
WebAssembly targets. This corresponds to the [wide-arithmetic] proposal
for WebAssembly which adds new instructions catered towards accelerating
integer arithmetic larger than 64-bits. This proposal to WebAssembly is
not standard yet so this new feature is flagged as an unstable target
feature. Additionally Rust's LLVM version doesn't support this new
feature yet since support will first be added in LLVM 20, so the
feature filtering logic for LLVM is updated to handle this.

I'll also note that I'm not currently planning to add wasm-specific
intrinsics to `std::arch::wasm32` at this time. The currently proposed
instructions are all accessible through `i128` or `u128`-based
operations which Rust already supports, so intrinsic shouldn't be
necessary to get access to these new instructions.

[wide-arithmetic]: https://github.com/WebAssembly/wide-arithmetic
2024-10-28 08:11:47 -07:00
klensy
746b675c5a fix clippy::clone_on_ref_ptr for compiler 2024-10-28 18:05:08 +03:00
ChrisCho-H
82bfe05309 refactor: cleaner check to return None 2024-10-28 20:16:35 +09:00
Zalathar
4bd84b23a8 Use a type-safe helper to cast &str and &[u8] to *const c_char 2024-10-28 21:31:32 +11:00
bors
be33e4f3d6 Auto merge of #132167 - Zalathar:llvm-wrappers, r=jieyouxu
Replace some LLVMRust wrappers with calls to the LLVM C API

This PR removes the LLVMRust wrapper functions for getting/setting linkage and visibility, and replaces them with direct calls to the corresponding functions in LLVM's C API.

To make this convenient and sound, two pieces of supporting code have also been added:
- A simple proc-macro that derives `TryFrom<u32>` for fieldless enums
- A wrapper type for C enum values returned by LLVM functions, to ensure soundness if LLVM returns an enum value we don't know about

In a few places, the use of safe wrapper functions means that an `unsafe` block is no longer needed, so the affected code has changed its indentation level.
2024-10-27 03:24:54 +00:00
bors
f7cf41c973 Auto merge of #131900 - mrkajetanp:target-feature-pauth-lr, r=Amanieu
rustc_target: Add pauth-lr aarch64 target feature

Add the pauth-lr target feature, corresponding to aarch64 FEAT_PAuth_LR. This feature has been added in LLVM 19.
It is currently not supported by the Linux hwcap and so we cannot add runtime feature detection for it at this time.

r? `@Amanieu`
2024-10-27 00:09:49 +00:00