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2024-08-28Implement RFC 3525.Luca Versari-0/+37
2024-08-27Rollup merge of #129536 - beetrees:f16-f128-inline-asm-aarch64, r=AmanieuTrevor Gross-5/+111
Add `f16` and `f128` inline ASM support for `aarch64` Adds `f16` and `f128` inline ASM support for `aarch64`. SIMD vector types are taken from [the ARM intrinsics list](https://developer.arm.com/architectures/instruction-sets/intrinsics/#f:`@navigationhierarchiesreturnbasetype=[float]&f:@navigationhierarchieselementbitsize=[16]&f:@navigationhierarchiesarchitectures=[A64]).` Based on the work of `@lengrongfu` in #127043. Relevant issue: #125398 Tracking issue: #116909 `@rustbot` label +F-f16_and_f128 try-job: aarch64-gnu try-job: aarch64-apple
2024-08-25Add `f16` and `f128` inline ASM support for `aarch64`beetrees-27/+106
2024-08-24Enable f16 in assembly on aarch64 platforms that support itrongfu.leng-1/+28
Signed-off-by: rongfu.leng <lenronfu@gmail.com>
2024-08-23Add Trusty OS as tier 3 targetNicole LeGare-0/+6
2024-08-22llvm 20: adapt integer comparison testsKrasimir Georgiev-14/+28
The LLVM commit https://github.com/llvm/llvm-project/commit/abf69a167bbc99054871e3f9cc8810bbebcb6747 changed the IR in a few comparison tests: https://buildkite.com/llvm-project/rust-llvm-integrate-prototype/builds/30500#01917017-26fe-4a4d-956b-725a2903e5a8 Adapted accordingly.
2024-08-15Rollup merge of #127905 - BKPepe:powerpc-muslspe, r=wesleywiserMatthias Krüger-0/+3
Add powerpc-unknown-linux-muslspe compile target This is almost identical to already existing targets: - powerpc_unknown_linux_musl.rs - powerpc_unknown_linux_gnuspe.rs It has support for PowerPC SPE (muslspe), which can be used with GCC version up to 8. It is useful for Freescale or IBM cores like e500. This was verified to be working with OpenWrt build system for CZ.NIC's Turris 1.x routers, which are using Freescale P2020, e500v2, so add it as a Tier 3 target. Follow-up of https://github.com/rust-lang/rust/pull/100860
2024-08-13stabilize `asm_const`Folkert-2/+1
2024-08-13Rollup merge of #128643 - beetrees:ppc64-abi-fix, r=bjorn3Matthias Krüger-0/+132
Refactor `powerpc64` call ABI handling As the [specification](https://openpowerfoundation.org/specifications/64bitelfabi/) for the ELFv2 ABI states that returned aggregates are returned like arguments as long as they are at most two doublewords, I've merged the `classify_arg` and `classify_ret` functions to reduce code duplication. The only functional change is to fix #128579: the `classify_ret` function was incorrectly handling aggregates where `bits > 64 && bits < 128`. I've used the aggregate handling implementation from `classify_arg` which doesn't have this issue. `@awilfox` could you test this on `powerpc64-unknown-linux-musl`? I'm only able to cross-test on `powerpc64-unknown-linux-gnu` and `powerpc64le-unknown-linux-gnu` locally at the moment, and as a tier 3 target `powerpc64-unknown-linux-musl` has zero CI coverage. Fixes: #128579
2024-08-11Refactor `powerpc64` call ABI handlingbeetrees-0/+132
2024-08-07Disallow setting built-in cfgs via set the command-lineUrgau-27/+27
2024-07-30Match LLVM ABI in `extern "C"` functions for `f128` on Windowsbeetrees-0/+39
2024-07-29Reformat `use` declarations.Nicholas Nethercote-1/+2
The previous commit updated `rustfmt.toml` appropriately. This commit is the outcome of running `x fmt --all` with the new formatting options.
2024-07-26Auto merge of #128165 - saethlin:optimize-clone-shims, r=compiler-errorsbors-0/+2
Let InstCombine remove Clone shims inside Clone shims The Clone shims that we generate tend to recurse into other Clone shims, which gets very silly very quickly. Here's our current state: https://godbolt.org/z/E69YeY8eq So I've added InstSimplify to the shims optimization passes, and improved `is_trivially_pure_clone_copy` so that it can delete those calls inside the shim. This makes the shim way smaller because most of its size is the required ceremony for unwinding. This change also completely breaks the UI test added for https://github.com/rust-lang/rust/issues/104870. With this PR, that program ICEs in MIR type checking because `is_trivially_pure_clone_copy` and the trait solver disagree on whether `*mut u8` is `Copy`. And adding the requisite `Copy` impl to make them agree makes the test not generate any diagnostics. Considering that I spent most of my time on this PR fixing `#![no_core]` tests, I would prefer to just delete this one. The maintenance burden of `#![no_core]` is uniquely high because when they break they tend to break in very confusing ways. try-job: x86_64-mingw
2024-07-25Let InstCombine remove Clone shims inside Clone shimsBen Kimock-0/+2
Co-authored-by: scottmcm <scottmcm@users.noreply.github.com>
2024-07-19Add NuttX based targets for RISC-V and ARMHuang Qi-0/+36
Apache NuttX is a real-time operating system (RTOS) with an emphasis on standards compliance and small footprint. It is scalable from 8-bit to 64-bit microcontroller environments. The primary governing standards in NuttX are POSIX and ANSI standards. NuttX adopts additional standard APIs from Unix and other common RTOSs, such as VxWorks. These APIs are used for functionality not available under the POSIX and ANSI standards. However, some APIs, like fork(), are not appropriate for deeply-embedded environments and are not implemented in NuttX. For brevity, many parts of the documentation will refer to Apache NuttX as simply NuttX. I'll be adding libstd support for NuttX in the future, but for now I'll just add the targets. Tier 3 policy: > A tier 3 target must have a designated developer or developers (the "target > maintainers") on record to be CCed when issues arise regarding the target. > (The mechanism to track and CC such developers may evolve over time.) I will be the target maintainer for this target on matters that pertain to the NuttX part of the triple. For matters pertaining to the riscv or arm part of the triple, there should be no difference from all other targets. If there are issues, I will address issues regarding the target. > Targets must use naming consistent with any existing targets; for instance, a > target for the same CPU or OS as an existing Rust target should use the same > name for that CPU or OS. Targets should normally use the same names and > naming conventions as used elsewhere in the broader ecosystem beyond Rust > (such as in other toolchains), unless they have a very good reason to > diverge. Changing the name of a target can be highly disruptive, especially > once the target reaches a higher tier, so getting the name right is important > even for a tier 3 target. This is a new supported OS, so I have taken the origin target like `riscv32imac-unknown-none-elf` or `thumbv7m-none-eabi` and changed the `os` section to `nuttx`. > Target names should not introduce undue confusion or ambiguity unless > absolutely necessary to maintain ecosystem compatibility. For example, if > the name of the target makes people extremely likely to form incorrect > beliefs about what it targets, the name should be changed or augmented to > disambiguate it. I feel that the target name does not introduce any ambiguity. > Tier 3 targets may have unusual requirements to build or use, but must not > create legal issues or impose onerous legal terms for the Rust project or for > Rust developers or users. The only unusual requirement for building the compiler-builtins crate is a standard RISC-V or ARM C compiler supported by cc-rs, and using this target does not require any additional software beyond what is shipped by rustup. > The target must not introduce license incompatibilities. All of the additional code will use Apache-2.0. > Anything added to the Rust repository must be under the standard Rust > license (`MIT OR Apache-2.0`). Agreed, and there is no problem here. > The target must not cause the Rust tools or libraries built for any other > host (even when supporting cross-compilation to the target) to depend > on any new dependency less permissive than the Rust licensing policy. This > applies whether the dependency is a Rust crate that would require adding > new license exceptions (as specified by the `tidy` tool in the > rust-lang/rust repository), or whether the dependency is a native library > or binary. In other words, the introduction of the target must not cause a > user installing or running a version of Rust or the Rust tools to be > subject to any new license requirements. No new dependencies are added. > Compiling, linking, and emitting functional binaries, libraries, or other > code for the target (whether hosted on the target itself or cross-compiling > from another target) must not depend on proprietary (non-FOSS) libraries. > Host tools built for the target itself may depend on the ordinary runtime > libraries supplied by the platform and commonly used by other applications > built for the target, but those libraries must not be required for code > generation for the target; cross-compilation to the target must not require > such libraries at all. For instance, `rustc` built for the target may > depend on a common proprietary C runtime library or console output library, > but must not depend on a proprietary code generation library or code > optimization library. Rust's license permits such combinations, but the > Rust project has no interest in maintaining such combinations within the > scope of Rust itself, even at tier 3. Linking is performed by rust-lld > "onerous" here is an intentionally subjective term. At a minimum, "onerous" > legal/licensing terms include but are *not* limited to: non-disclosure > requirements, non-compete requirements, contributor license agreements > (CLAs) or equivalent, "non-commercial"/"research-only"/etc terms, > requirements conditional on the employer or employment of any particular > Rust developers, revocable terms, any requirements that create liability > for the Rust project or its developers or users, or any requirements that > adversely affect the livelihood or prospects of the Rust project or its > developers or users. There are no terms. NuttX is distributed under the Apache 2.0 license. > Neither this policy nor any decisions made regarding targets shall create any > binding agreement or estoppel by any party. If any member of an approving > Rust team serves as one of the maintainers of a target, or has any legal or > employment requirement (explicit or implicit) that might affect their > decisions regarding a target, they must recuse themselves from any approval > decisions regarding the target's tier status, though they may otherwise > participate in discussions. I'm not the reviewer here. > This requirement does not prevent part or all of this policy from being > cited in an explicit contract or work agreement (e.g. to implement or > maintain support for a target). This requirement exists to ensure that a > developer or team responsible for reviewing and approving a target does not > face any legal threats or obligations that would prevent them from freely > exercising their judgment in such approval, even if such judgment involves > subjective matters or goes beyond the letter of these requirements. Again I'm not the reviewer here. > Tier 3 targets should attempt to implement as much of the standard libraries > as possible and appropriate (`core` for most targets, `alloc` for targets > that can support dynamic memory allocation, `std` for targets with an > operating system or equivalent layer of system-provided functionality), but > may leave some code unimplemented (either unavailable or stubbed out as > appropriate), whether because the target makes it impossible to implement or > challenging to implement. The authors of pull requests are not obligated to > avoid calling any portions of the standard library on the basis of a tier 3 > target not implementing those portions. > The target must provide documentation for the Rust community explaining how > to build for the target, using cross-compilation if possible. If the target > supports running binaries, or running tests (even if they do not pass), the > documentation must explain how to run such binaries or tests for the target, > using emulation if possible or dedicated hardware if necessary. Building is described in platform support doc, but libstd is not supported now, I'll implement it later. > Tier 3 targets must not impose burden on the authors of pull requests, or > other developers in the community, to maintain the target. In particular, > do not post comments (automated or manual) on a PR that derail or suggest a > block on the PR based on a tier 3 target. Do not send automated messages or > notifications (via any medium, including via `@`) to a PR author or others > involved with a PR regarding a tier 3 target, unless they have opted into > such messages. Understood. > Backlinks such as those generated by the issue/PR tracker when linking to > an issue or PR are not considered a violation of this policy, within > reason. However, such messages (even on a separate repository) must not > generate notifications to anyone involved with a PR who has not requested > such notifications. Understood. > Patches adding or updating tier 3 targets must not break any existing tier 2 > or tier 1 target, and must not knowingly break another tier 3 target without > approval of either the compiler team or the maintainers of the other tier 3 > target. I believe I didn't break any other target. > In particular, this may come up when working on closely related targets, > such as variations of the same architecture with different features. Avoid > introducing unconditional uses of features that another variation of the > target may not have; use conditional compilation or runtime detection, as > appropriate, to let each target run code supported by that target. I think there are no such problems in this PR. > Tier 3 targets must be able to produce assembly using at least one of > rustc's supported backends from any host target. (Having support in a fork > of the backend is not sufficient, it must be upstream.) Yes, it use standard RISCV or ARM backend to generate assembly. Signed-off-by: Huang Qi <huangqi3@xiaomi.com>
2024-07-18Add powerpc-unknown-linux-muslspe compile targetJosef Schlehofer-0/+3
This is almost identical to already existing targets: - powerpc_unknown_linux_musl.rs - powerpc_unknown_linux_gnuspe.rs It has support for PowerPC SPE (muslspe), which can be used with GCC version up to 8. It is useful for Freescale or IBM cores like e500. This was verified to be working with OpenWrt build system for CZ.NIC's Turris 1.x routers, which are using Freescale P2020, e500v2, so add it as a Tier 3 target.
2024-07-12Auto merge of #123351 - beetrees:x86-ret-snan-rust, r=nikic,workingjubileebors-0/+328
Ensure floats are returned losslessly by the Rust ABI on 32-bit x86 Solves #115567 for the (default) `"Rust"` ABI. When compiling for 32-bit x86, this PR changes the `"Rust"` ABI to return floats indirectly instead of in x87 registers (with the exception of single `f32`s, which this PR returns in general purpose registers as they are small enough to fit in one). No change is made to the `"C"` ABI as that ABI requires x87 register usage and therefore will need a different solution.
2024-07-02Always preserve user-written comments in assemblyTrevor Gross-0/+12
2024-07-01Ensure tests don't fail on i586 in CIbeetrees-0/+5
2024-06-22Rollup merge of #126555 - beetrees:f16-inline-asm-arm, r=AmanieuGuillaume Gomez-178/+319
Add `f16` inline ASM support for 32-bit ARM Adds `f16` inline ASM support for 32-bit ARM. SIMD vector types are taken from [here](https://developer.arm.com/architectures/instruction-sets/intrinsics/#f:`@navigationhierarchiesreturnbasetype=[float]&f:@navigationhierarchieselementbitsize=[16]&f:@navigationhierarchiesarchitectures=[A32]).` Relevant issue: #125398 Tracking issue: #116909 `@rustbot` label +F-f16_and_f128
2024-06-21Rollup merge of #126530 - beetrees:f16-inline-asm-riscv, r=AmanieuJubilee-2/+53
Add `f16` inline ASM support for RISC-V This PR adds `f16` inline ASM support for RISC-V. A `FIXME` is left for `f128` support as LLVM does not support the required `Q` (Quad-Precision Floating-Point) extension yet. Relevant issue: #125398 Tracking issue: #116909 `@rustbot` label +F-f16_and_f128
2024-06-21Add `f16` inline ASM support for RISC-Vbeetrees-2/+53
2024-06-21Add `f16` inline ASM support for 32-bit ARMbeetrees-178/+319
2024-06-20Auto merge of #126736 - matthiaskrgr:rollup-rb20oe3, r=matthiaskrgrbors-0/+9
Rollup of 7 pull requests Successful merges: - #126380 (Add std Xtensa targets support) - #126636 (Resolve Clippy `f16` and `f128` `unimplemented!`/`FIXME`s ) - #126659 (More status-quo tests for the `#[coverage(..)]` attribute) - #126711 (Make Option::as_[mut_]slice const) - #126717 (Clean up some comments near `use` declarations) - #126719 (Fix assertion failure for some `Expect` diagnostics.) - #126730 (Add opaque type corner case test) r? `@ghost` `@rustbot` modify labels: rollup
2024-06-20Rollup merge of #126380 - SergioGasquez:feat/std-xtensa, r=davidtwcoMatthias Krüger-0/+9
Add std Xtensa targets support Adds std Xtensa targets. This enables using Rust on ESP32, ESP32-S2 and ESP32-S3 chips. Tier 3 policy: > A tier 3 target must have a designated developer or developers (the "target maintainers") on record to be CCed when issues arise regarding the target. (The mechanism to track and CC such developers may evolve over time.) `@MabezDev,` `@ivmarkov` and I (`@SergioGasquez)` will maintain the targets. > Targets must use naming consistent with any existing targets; for instance, a target for the same CPU or OS as an existing Rust target should use the same name for that CPU or OS. Targets should normally use the same names and naming conventions as used elsewhere in the broader ecosystem beyond Rust (such as in other toolchains), unless they have a very good reason to diverge. Changing the name of a target can be highly disruptive, especially once the target reaches a higher tier, so getting the name right is important even for a tier 3 target. The target triple is consistent with other targets. > Target names should not introduce undue confusion or ambiguity unless absolutely necessary to maintain ecosystem compatibility. For example, if the name of the target makes people extremely likely to form incorrect beliefs about what it targets, the name should be changed or augmented to disambiguate it. > If possible, use only letters, numbers, dashes and underscores for the name. Periods (.) are known to cause issues in Cargo. We follow the same naming convention as other targets. > Tier 3 targets may have unusual requirements to build or use, but must not create legal issues or impose onerous legal terms for the Rust project or for Rust developers or users. The target does not introduce any legal issues. > The target must not introduce license incompatibilities. There are no license incompatibilities > Anything added to the Rust repository must be under the standard Rust license (MIT OR Apache-2.0). Everything added is under that licenses > The target must not cause the Rust tools or libraries built for any other host (even when supporting cross-compilation to the target) to depend on any new dependency less permissive than the Rust licensing policy. This applies whether the dependency is a Rust crate that would require adding new license exceptions (as specified by the tidy tool in the rust-lang/rust repository), or whether the dependency is a native library or binary. In other words, the introduction of the target must not cause a user installing or running a version of Rust or the Rust tools to be subject to any new license requirements. Requirements are not changed for any other target. > Compiling, linking, and emitting functional binaries, libraries, or other code for the target (whether hosted on the target itself or cross-compiling from another target) must not depend on proprietary (non-FOSS) libraries. Host tools built for the target itself may depend on the ordinary runtime libraries supplied by the platform and commonly used by other applications built for the target, but those libraries must not be required for code generation for the target; cross-compilation to the target must not require such libraries at all. For instance, rustc built for the target may depend on a common proprietary C runtime library or console output library, but must not depend on a proprietary code generation library or code optimization library. Rust's license permits such combinations, but the Rust project has no interest in maintaining such combinations within the scope of Rust itself, even at tier 3. The linker used by the targets is the GCC linker from the GCC toolchain cross-compiled for Xtensa. GNU GPL. > "onerous" here is an intentionally subjective term. At a minimum, "onerous" legal/licensing terms include but are not limited to: non-disclosure requirements, non-compete requirements, contributor license agreements (CLAs) or equivalent, "non-commercial"/"research-only"/etc terms, requirements conditional on the employer or employment of any particular Rust developers, revocable terms, any requirements that create liability for the Rust project or its developers or users, or any requirements that adversely affect the livelihood or prospects of the Rust project or its developers or users. No such terms exist for this target > Neither this policy nor any decisions made regarding targets shall create any binding agreement or estoppel by any party. If any member of an approving Rust team serves as one of the maintainers of a target, or has any legal or employment requirement (explicit or implicit) that might affect their decisions regarding a target, they must recuse themselves from any approval decisions regarding the target's tier status, though they may otherwise participate in discussions. > This requirement does not prevent part or all of this policy from being cited in an explicit contract or work agreement (e.g. to implement or maintain support for a target). This requirement exists to ensure that a developer or team responsible for reviewing and approving a target does not face any legal threats or obligations that would prevent them from freely exercising their judgment in such approval, even if such judgment involves subjective matters or goes beyond the letter of these requirements. Understood > Tier 3 targets should attempt to implement as much of the standard libraries as possible and appropriate (core for most targets, alloc for targets that can support dynamic memory allocation, std for targets with an operating system or equivalent layer of system-provided functionality), but may leave some code unimplemented (either unavailable or stubbed out as appropriate), whether because the target makes it impossible to implement or challenging to implement. The authors of pull requests are not obligated to avoid calling any portions of the standard library on the basis of a tier 3 target not implementing those portions. The targets implement libStd almost in its entirety, except for the missing support for process, as this is a bare metal platform. The process `sys\unix` module is currently stubbed to return "not implemented" errors. > The target must provide documentation for the Rust community explaining how to build for the target, using cross-compilation if possible. If the target supports running binaries, or running tests (even if they do not pass), the documentation must explain how to run such binaries or tests for the target, using emulation if possible or dedicated hardware if necessary. Here is how to build for the target https://docs.esp-rs.org/book/installation/riscv-and-xtensa.html and it also covers how to run binaries on the target. > Tier 3 targets must not impose burden on the authors of pull requests, or other developers in the community, to maintain the target. In particular, do not post comments (automated or manual) on a PR that derail or suggest a block on the PR based on a tier 3 target. Do not send automated messages or notifications (via any medium, including via `@)` to a PR author or others involved with a PR regarding a tier 3 target, unless they have opted into such messages. > Backlinks such as those generated by the issue/PR tracker when linking to an issue or PR are not considered a violation of this policy, within reason. However, such messages (even on a separate repository) must not generate notifications to anyone involved with a PR who has not requested such notifications. Understood > Patches adding or updating tier 3 targets must not break any existing tier 2 or tier 1 target, and must not knowingly break another tier 3 target without approval of either the compiler team or the maintainers of the other tier 3 target. > In particular, this may come up when working on closely related targets, such as variations of the same architecture with different features. Avoid introducing unconditional uses of features that another variation of the target may not have; use conditional compilation or runtime detection, as appropriate, to let each target run code supported by that target. No other targets should be affected > Tier 3 targets must be able to produce assembly using at least one of rustc's supported backends from any host target. It can produce assembly, but it requires a custom LLVM with Xtensa support (https://github.com/espressif/llvm-project/). The patches are trying to be upstreamed (https://github.com/espressif/llvm-project/issues/4)
2024-06-19Fix wasm_exceptions testGary Guo-3/+3
2024-06-19Remove c_unwind from tests and fix testsGary Guo-10/+10
2024-06-16Add i686-unknown-redox targetbjorn3-0/+3
Co-Authored-By: Jeremy Soller <jackpot51@gmail.com>
2024-06-15Rollup merge of #126417 - beetrees:f16-f128-inline-asm-x86, r=AmanieuMatthias Krüger-26/+218
Add `f16` and `f128` inline ASM support for `x86` and `x86-64` This PR adds `f16` and `f128` input and output support to inline ASM on `x86` and `x86-64`. `f16` vector sizes are taken from [here](https://www.intel.com/content/www/us/en/docs/intrinsics-guide/index.html). Relevant issue: #125398 Tracking issue: #116909 ``@rustbot`` label +F-f16_and_f128
2024-06-14Auto merge of #125347 - tesuji:needtests, r=nikicbors-0/+27
Add codegen tests for E-needs-test close #36010 close #68667 close #74938 close #83585 close #93036 close #109328 close #110797 close #111508 close #112509 close #113757 close #120440 close #118392 close #71096 r? nikic
2024-06-13Add `f16` and `f128` inline ASM support for `x86` and `x86-64`beetrees-26/+218
2024-06-13feat: Add std Xtensa targets supportSergio Gasquez-0/+9
2024-06-12Auto merge of #125141 - SergioGasquez:feat/no_std-xtensa, r=davidtwcobors-1/+12
Add no_std Xtensa targets support Adds no_std Xtensa targets. This enables using Rust on ESP32, ESP32-S2 and ESP32-S3 chips. Tier 3 policy: > A tier 3 target must have a designated developer or developers (the "target maintainers") on record to be CCed when issues arise regarding the target. (The mechanism to track and CC such developers may evolve over time.) `@MabezDev` and I (`@SergioGasquez)` will maintain the targets. > Targets must use naming consistent with any existing targets; for instance, a target for the same CPU or OS as an existing Rust target should use the same name for that CPU or OS. Targets should normally use the same names and naming conventions as used elsewhere in the broader ecosystem beyond Rust (such as in other toolchains), unless they have a very good reason to diverge. Changing the name of a target can be highly disruptive, especially once the target reaches a higher tier, so getting the name right is important even for a tier 3 target. The target triple is consistent with other targets. > Target names should not introduce undue confusion or ambiguity unless absolutely necessary to maintain ecosystem compatibility. For example, if the name of the target makes people extremely likely to form incorrect beliefs about what it targets, the name should be changed or augmented to disambiguate it. > If possible, use only letters, numbers, dashes and underscores for the name. Periods (.) are known to cause issues in Cargo. We follow the same naming convention as other targets. > Tier 3 targets may have unusual requirements to build or use, but must not create legal issues or impose onerous legal terms for the Rust project or for Rust developers or users. The target does not introduce any legal issues. > The target must not introduce license incompatibilities. There are no license incompatibilities > Anything added to the Rust repository must be under the standard Rust license (MIT OR Apache-2.0). Everything added is under that licenses > The target must not cause the Rust tools or libraries built for any other host (even when supporting cross-compilation to the target) to depend on any new dependency less permissive than the Rust licensing policy. This applies whether the dependency is a Rust crate that would require adding new license exceptions (as specified by the tidy tool in the rust-lang/rust repository), or whether the dependency is a native library or binary. In other words, the introduction of the target must not cause a user installing or running a version of Rust or the Rust tools to be subject to any new license requirements. Requirements are not changed for any other target. > Compiling, linking, and emitting functional binaries, libraries, or other code for the target (whether hosted on the target itself or cross-compiling from another target) must not depend on proprietary (non-FOSS) libraries. Host tools built for the target itself may depend on the ordinary runtime libraries supplied by the platform and commonly used by other applications built for the target, but those libraries must not be required for code generation for the target; cross-compilation to the target must not require such libraries at all. For instance, rustc built for the target may depend on a common proprietary C runtime library or console output library, but must not depend on a proprietary code generation library or code optimization library. Rust's license permits such combinations, but the Rust project has no interest in maintaining such combinations within the scope of Rust itself, even at tier 3. The linker used by the targets is the GCC linker from the GCC toolchain cross-compiled for Xtensa. GNU GPL. > "onerous" here is an intentionally subjective term. At a minimum, "onerous" legal/licensing terms include but are not limited to: non-disclosure requirements, non-compete requirements, contributor license agreements (CLAs) or equivalent, "non-commercial"/"research-only"/etc terms, requirements conditional on the employer or employment of any particular Rust developers, revocable terms, any requirements that create liability for the Rust project or its developers or users, or any requirements that adversely affect the livelihood or prospects of the Rust project or its developers or users. No such terms exist for this target > Neither this policy nor any decisions made regarding targets shall create any binding agreement or estoppel by any party. If any member of an approving Rust team serves as one of the maintainers of a target, or has any legal or employment requirement (explicit or implicit) that might affect their decisions regarding a target, they must recuse themselves from any approval decisions regarding the target's tier status, though they may otherwise participate in discussions. > This requirement does not prevent part or all of this policy from being cited in an explicit contract or work agreement (e.g. to implement or maintain support for a target). This requirement exists to ensure that a developer or team responsible for reviewing and approving a target does not face any legal threats or obligations that would prevent them from freely exercising their judgment in such approval, even if such judgment involves subjective matters or goes beyond the letter of these requirements. Understood > Tier 3 targets should attempt to implement as much of the standard libraries as possible and appropriate (core for most targets, alloc for targets that can support dynamic memory allocation, std for targets with an operating system or equivalent layer of system-provided functionality), but may leave some code unimplemented (either unavailable or stubbed out as appropriate), whether because the target makes it impossible to implement or challenging to implement. The authors of pull requests are not obligated to avoid calling any portions of the standard library on the basis of a tier 3 target not implementing those portions. The target already implements core. > The target must provide documentation for the Rust community explaining how to build for the target, using cross-compilation if possible. If the target supports running binaries, or running tests (even if they do not pass), the documentation must explain how to run such binaries or tests for the target, using emulation if possible or dedicated hardware if necessary. Here is how to build for the target https://docs.esp-rs.org/book/installation/riscv-and-xtensa.html and it also covers how to run binaries on the target. > Tier 3 targets must not impose burden on the authors of pull requests, or other developers in the community, to maintain the target. In particular, do not post comments (automated or manual) on a PR that derail or suggest a block on the PR based on a tier 3 target. Do not send automated messages or notifications (via any medium, including via `@)` to a PR author or others involved with a PR regarding a tier 3 target, unless they have opted into such messages. > Backlinks such as those generated by the issue/PR tracker when linking to an issue or PR are not considered a violation of this policy, within reason. However, such messages (even on a separate repository) must not generate notifications to anyone involved with a PR who has not requested such notifications. Understood > Patches adding or updating tier 3 targets must not break any existing tier 2 or tier 1 target, and must not knowingly break another tier 3 target without approval of either the compiler team or the maintainers of the other tier 3 target. > In particular, this may come up when working on closely related targets, such as variations of the same architecture with different features. Avoid introducing unconditional uses of features that another variation of the target may not have; use conditional compilation or runtime detection, as appropriate, to let each target run code supported by that target. No other targets should be affected > Tier 3 targets must be able to produce assembly using at least one of rustc's supported backends from any host target. It can produce assembly, but it requires a custom LLVM with Xtensa support (https://github.com/espressif/llvm-project/). The patches are trying to be upstreamed (https://github.com/espressif/llvm-project/issues/4)
2024-06-12Rollup merge of #125980 - kjetilkjeka:nvptx_remove_direct_passmode, r=davidtwcoJubilee-1/+31
Nvptx remove direct passmode This PR does what should have been done in #117671. That is fully avoid using the `PassMode::Direct` for `extern "C" fn` for `nvptx64-nvidia-cuda` and enable the compatibility test. `@RalfJung` [pointed me in the right direction](https://github.com/rust-lang/rust/issues/117480#issuecomment-2137712501) for solving this issue. There are still some ABI bugs after this PR is merged. These ABI tests are created based on what is actually correct, and since they continue passing with even more of them enabled things are improving. I don't have the time to tackle all the remaining issues right now, but I think getting these improvements merged is very valuable in themselves and plan to tackle more of them long term. This also doesn't remove the use of `PassMode::Direct` for `extern "ptx-kernel" fn`. This was also not trivial to make work. And since the ABI is hidden behind an unstable feature it's less urgent. I don't know if it's correct to request `@RalfJung` as a reviewer (due to team structures), but he helped me a lot to figure out this stuff. If that's not appropriate then `@davidtwco` would be a good candidate since he know about this topic from #117671 r​? `@RalfJung`
2024-06-11Fix tests for 32 bits targetsLzu Tao-7/+6
2024-06-09Apply suggestions from code reviewLzu Tao-6/+4
Co-authored-by: Nikita Popov <github@npopov.com>
2024-06-09add assembly test for #83585Lzu Tao-0/+30
2024-06-04Use FileCheck to parameterize codegen tests over hashesJubilee Young-2/+2
When things like our internal hashing or representations change, it is inappropriate for these tests to suddenly fail for no reason. The chance of error is reduced if we instead pattern-match.
2024-06-01Ensure floats are returned losslessly by the Rust ABI on 32-bit x86beetrees-0/+323
2024-05-31NVPTX:_Especially add the DoubleI32 struct as a nvptx abi test case since it ↵Kjetil Kjeka-0/+31
was used as an example when discussing possible problems
2024-05-31NVPTX: Avoid PassMode::Direct for C ABIKjetil Kjeka-1/+0
2024-05-30Run rustfmt on `tests/assembly/`.Nicholas Nethercote-84/+52
2024-05-29Add no_std Xtensa targets supportSergio Gasquez-1/+12
2024-05-29Rollup merge of #125226 - madsmtm:fix-mac-catalyst-tests, r=workingjubilee许杰友 Jieyou Xu (Joe)-6/+3
Make more of the test suite run on Mac Catalyst Combined with https://github.com/rust-lang/rust/pull/125225, the only failing parts of the test suite are in `tests/rustdoc-js`, `tests/rustdoc-js-std` and `tests/debuginfo`. Tested with: ```console ./x test --target=aarch64-apple-ios-macabi library/std ./x test --target=aarch64-apple-ios-macabi --skip=tests/rustdoc-js --skip=tests/rustdoc-js-std --skip=tests/debuginfo tests ``` Will probably put up a PR later to enable _running_ on (not just compiling for) Mac Catalyst in CI, though not sure where exactly I should do so? `src/ci/github-actions/jobs.yml`? Note that I've deliberately _not_ enabled stack overflow handlers on iOS/tvOS/watchOS/visionOS (see https://github.com/rust-lang/rust/issues/25872), but rather just skipped those tests, as it uses quite a few APIs that I'd be weary about getting rejected by the App Store (note that Swift doesn't do it on those platforms either). r? ``@workingjubilee`` CC ``@thomcc`` ``@rustbot`` label O-ios O-apple
2024-05-28Rollup merge of #117671 - kjetilkjeka:nvptx_c_abi_avoid_direct, r=davidtwcoMatthias Krüger-0/+436
NVPTX: Avoid PassMode::Direct for args in C abi Fixes #117480 I must admit that I'm confused about `PassMode` altogether, is there a good sum-up threads for this anywhere? I'm especially confused about how "indirect" and "byval" goes together. To me it seems like "indirect" basically means "use a indirection through a pointer", while "byval" basically means "do not use indirection through a pointer". The return used to keep `PassMode::Direct` for small aggregates. It turns out that `make_indirect` messes up the tests and one way to fix it is to keep `PassMode::Direct` for all aggregates. I have mostly seen this PassMode mentioned for args. Is it also a problem for returns? When experimenting with `byval` as an alternative i ran into [this assert](https://github.com/rust-lang/rust/blob/61a3eea8043cc1c7a09c2adda884e27ffa8a1172/compiler/rustc_codegen_llvm/src/abi.rs#L463C22-L463C22) I have added tests for the same kind of types that is already tested for the "ptx-kernel" abi. The tests cannot be enabled until something like #117458 is completed and merged. CC: ``@RalfJung`` since you seem to be the expert on this and have already helped me out tremendously CC: ``@RDambrosio016`` in case this influence your work on `rustc_codegen_nvvm` ``@rustbot`` label +O-NVPTX
2024-05-28Make more of the test suite run on Mac CatalystMads Marquart-6/+3
This adds the `only-apple`/`ignore-apple` compiletest directive, and uses that basically everywhere instead of `only-macos`/`ignore-macos`. Some of the updates in `run-make` are a bit redundant, as they use `ignore-cross-compile` and won't run on iOS - but using Apple in these is still more correct, so I've made that change anyhow.
2024-05-12test: Add assembly tests for x86_64-unknown-linux-none targetFederico Maria Morrone-0/+3
2024-05-10NVPTX: Avoid PassMode::Direct for args in C abiKjetil Kjeka-0/+436
2024-05-01Add inline comments why we're forcing the target cpuJosh Stone-0/+2