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Rollup merge of rust-lang#119102 - chrisnc:arm-none-eabi-docs, r=wesl…
…eywiser Add arm-none-eabi and armv7r-none-eabi platform-support documentation. Mostly collecting existing information that's common to all arm-none-eabi targets and putting it in one file and adding a new file with specific details about armv7r, which I have made minor fixes to before and use myself.
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| # `{arm,thumb}*-none-eabi(hf)?` | ||
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| **Tier: 2** | ||
| - [arm(eb)?v7r-none-eabi(hf)?](armv7r-none-eabi.md) | ||
| - armv7a-none-eabi | ||
| - thumbv6m-none-eabi | ||
| - thumbv7m-none-eabi | ||
| - thumbv7em-none-eabi(hf)? | ||
| - thumbv8m.base-none-eabi | ||
| - thumbv8m.main-none-eabi(hf)? | ||
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| **Tier: 3** | ||
| - [{arm,thumb}v4t-none-eabi](armv4t-none-eabi.md) | ||
| - [{arm,thumb}v5te-none-eabi](armv5te-none-eabi.md) | ||
| - armv7a-none-eabihf | ||
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| Bare-metal target for 32-bit ARM CPUs. | ||
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| If a target has a `*hf` variant, that variant uses the hardware floating-point | ||
| ABI and enables some minimum set of floating-point features based on the FPU(s) | ||
| available in that processor family. | ||
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| ## Requirements | ||
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| These targets are cross-compiled and use static linking. | ||
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| By default, the `lld` linker included with Rust will be used; however, you may | ||
| want to use the GNU linker instead. This can be obtained for Windows/Mac/Linux | ||
| from the [Arm Developer Website][arm-gnu-toolchain], or possibly from your OS's | ||
| package manager. To use it, add the following to your `.cargo/config.toml`: | ||
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| ```toml | ||
| [target.<your-target>] | ||
| linker = "arm-none-eabi-ld" | ||
| ``` | ||
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| The GNU linker can also be used by specifying `arm-none-eabi-gcc` as the | ||
| linker. This is needed when using GCC's link time optimization. | ||
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| [arm-gnu-toolchain]: https://developer.arm.com/Tools%20and%20Software/GNU%20Toolchain | ||
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| These targets don't provide a linker script, so you'll need to bring your own | ||
| according to the specific device you are using. Pass | ||
| `-Clink-arg=-Tyour_script.ld` as a rustc argument to make the linker use | ||
| `your_script.ld` during linking. | ||
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| Targets named `thumb*` instead of `arm*` | ||
| generate Thumb-mode code by default. M-profile processors (`thumbv*m*-*` | ||
| targets) only support Thumb-mode code. | ||
| For the `arm*` targets, Thumb-mode code generation can be enabled by using | ||
| `-C target-feature=+thumb-mode`. Using the unstable | ||
| `#![feature(arm_target_feature)]`, the attribute | ||
| `#[target_feature(enable = "thumb-mode")]` can be applied to individual | ||
| `unsafe` functions to cause those functions to be compiled to Thumb-mode code. | ||
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| ## Building Rust Programs | ||
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| For the Tier 3 targets in this family, rust does not ship pre-compiled | ||
| artifacts. | ||
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| Just use the `build-std` nightly cargo feature to build the `core` library. You | ||
| can pass this as a command line argument to cargo, or your `.cargo/config.toml` | ||
| file might include the following lines: | ||
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| ```toml | ||
| [unstable] | ||
| build-std = ["core"] | ||
| ``` | ||
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| Most of `core` should work as expected, with the following notes: | ||
| * If the target is not `*hf`, then floating-point operations are emulated in | ||
| software. | ||
| * Integer division is also emulated in software on some targets, depending on | ||
| the CPU. | ||
| * Architectures prior to ARMv7 don't have atomic instructions. | ||
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| `alloc` is also supported, as long as you provide your own global allocator. | ||
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| Rust programs are output as ELF files. | ||
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| ## Testing | ||
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| This is a cross-compiled target that you will need to emulate during testing. | ||
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| The exact emulator that you'll need depends on the specific device you want to | ||
| run your code on. | ||
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| ## Cross-compilation toolchains and C code | ||
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| The target supports C code compiled with the `arm-none-eabi` target triple and | ||
| a suitable `-march` or `-mcpu` flag. | ||
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| `gcc` or `clang` can be used, but note that `gcc` uses `-fshort-enums` by | ||
| default for `arm-none*` targets, while `clang` does not. `rustc` matches the | ||
| `gcc` behavior, i.e., the size of a `#[repr(C)] enum` in Rust can be as little | ||
| as 1 byte, rather than 4, as they are on `arm-linux` targets. |
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| Original file line number | Diff line number | Diff line change |
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| # `arm(eb)?v7r-none-eabi(hf)?` | ||
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| **Tier: 2** | ||
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| Bare-metal target for CPUs in the ARMv7-R architecture family, supporting | ||
| dual ARM/Thumb mode, with ARM mode as the default. | ||
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| Processors in this family include the [Arm Cortex-R4, 5, 7, and 8][cortex-r]. | ||
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| The `eb` versions of this target generate code for big-endian processors. | ||
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| See [`arm-none-eabi`](arm-none-eabi.md) for information applicable to all | ||
| `arm-none-eabi` targets. | ||
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| [cortex-r]: https://en.wikipedia.org/wiki/ARM_Cortex-R | ||
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| ## Target maintainers | ||
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| - [Chris Copeland](https://github.com/chrisnc), `chris@chrisnc.net` | ||
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| ## Requirements | ||
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| When using the big-endian version of this target, note that some variants of | ||
| the Cortex-R have both big-endian instructions and data. This configuration is | ||
| known as BE-32, while data-only big-endianness is known as BE-8. To build | ||
| programs for BE-32 processors, the GNU linker must be used with the `-mbe32` | ||
| option. See [ARM Cortex-R Series Programmer's Guide: Endianness][endianness] | ||
| for more details about different endian modes. | ||
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| When using the hardfloat targets, the minimum floating-point features assumed | ||
| are those of the `vfpv3-d16`, which includes single- and double-precision, with | ||
| 16 double-precision registers. This floating-point unit appears in Cortex-R4F | ||
| and Cortex-R5F processors. See [VFP in the Cortex-R processors][vfp] | ||
| for more details on the possible FPU variants. | ||
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| If your processor supports a different set of floating-point features than the | ||
| default expectations of `vfpv3-d16`, then these should also be enabled or | ||
| disabled as needed with `-C target-feature=(+/-)`. | ||
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| [endianness]: https://developer.arm.com/documentation/den0042/a/Coding-for-Cortex-R-Processors/Endianness | ||
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| [vfp]: https://developer.arm.com/documentation/den0042/a/Floating-Point/Floating-point-basics-and-the-IEEE-754-standard/VFP-in-the-Cortex-R-processors | ||
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| ## Cross-compilation toolchains and C code | ||
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| This target supports C code compiled with the `arm-none-eabi` target triple and | ||
| `-march=armv7-r` or a suitable `-mcpu` flag. |