This also
* bumps cargo to the latest in rust-lang/cargo.
* adds 0BSD to allowed list of licenses
Co-authored-by: Scott Schafer <schaferjscott@gmail.com>
Co-authored-by: Eric Huss <eric@huss.org>
Distribute libntdll.a with windows-gnu toolchains
This allows the OS loader to load essential functions (e.g. read/write file) at load time instead of lazily doing so at runtime.
r? libs
Add a new config flag, dist.include-mingw-linker.
The flag controls whether to copy the linker, DLLs, and various libraries from MinGW into the rustc toolchain.
It applies only when the host or target is pc-windows-gnu.
The flag is true by default to preserve existing behavior.
The flag controls whether to copy the linker, DLLs, and various
libraries from MinGW into the rustc toolchain.
It applies only when the host or target is pc-windows-gnu.
The flag is true by default to preserve existing behavior.
Most tests involving save-analysis were removed, but I kept a few where
the `-Zsave-analysis` was an add-on to the main thing being tested,
rather than the main thing being tested.
For `x.py install`, the `rust-analysis` target has been removed.
For `x.py dist`, the `rust-analysis` target has been kept in a
degenerate form: it just produces a single file `reduced.json`
indicating that save-analysis has been removed. This is necessary for
rustup to keep working.
Closes#43606.
Make stage2 rustdoc and proc-macro-srv disableable in x.py install
Rustdoc will build if `[build] tools = ["rustdoc"]` is set, and rust-analyzer-proc-macro-srv will build if `[build] tools = ["rust-analyzer"]` is set.
On my machine skipping these tools speeds up `x.py install` from 7m15s to 6m08s (0m43s for rustdoc and 0m24s for rust-analyzer-proc-macro-srv). This is a significant speedup, since I never use rust-analyzer-proc-macro-srv, and I practically never need to use a custom build of rustdoc.
LLVM_CONFIG_PATH is no longer supported as of LLVM 16, switch to
using the cmake module instead.
We separately return the llvm-config and cmake directory paths,
because llvm-config always refers to the host binary, while
the cmake directory is for the target triple.
We don't distribute a miri build for beta/stable so it needs to be kept
optional. In the future it likely makes sense to switch the miri
*artifacts* to always be built, but the rustup component to not be
included -- this will avoid some of this pain.
Don't set `is_preview` for clippy and rustfmt
These have been shipped on stable for many years now and it would be very disruptive to ever remove them.
Remove the `-preview` suffix from their dist components.
Based on https://github.com/rust-lang/rust/pull/102565.
These have been shipped on stable for many years now and it would be very disruptive to ever remove them.
Remove the `-preview` suffix from their dist components.
If clang isn't the C compiler used for the UEFI targets, or if the wrong
`--target` is passed to clang, we will get ELF objects in some
rlibs. This will cause problems at link time when trying to compile a
UEFI program that uses any of those objects. Add a check to the dist
step for UEFI targets that reads each rlib with the `object` crate and
fails with an error if any non-COFF objects are found.
This reverts commit 3acb505ee5
(PR #101833).
The changes in this commit caused several bugs or at least
incompatibilies. For now we're reverting this commit and will re-land it
alongside fixes for those bugs.
Use BOLT in CI to optimize LLVM
This PR adds an optimization step in the Linux `dist` CI pipeline that uses [BOLT](https://github.com/llvm/llvm-project/tree/main/bolt) to optimize the `libLLVM.so` library built by boostrap.
Steps:
- [x] Use LLVM 15 as a bootstrap compiler and use it to build BOLT
- [x] Compile LLVM with support for relocations (`-DCMAKE_SHARED_LINKER_FLAGS="-Wl,-q"`)
- [x] Gather profile data using instrumented LLVM
- [x] Apply profile to LLVM that has already been PGOfied
- [x] Run with BOLT profiling on more benchmarks
- [x] Decide on the order of optimization (PGO -> BOLT?)
- [x] Decide how we should get `bolt` (currently we use the host `bolt`)
- [x] Clean up
The latest perf results can be found [here](https://github.com/rust-lang/rust/pull/94381#issuecomment-1258269440). The current CI build time with BOLT applied is around 1h 55 minutes.
Package `rust-docs-json` into nightly components (take 3)
`dist` creates a `rust-docs-json.tar.xz` tarfile. But build-manifest expected it to be named `rust-docs-json-preview.tar.xz`. Change build-manifest to allow the name without the `-preview` suffix.
I haven't actually tested this :( build-manifest is a pain to run locally.
rust-lang/rust#100557 removed the `git-commit-hash` file and replaced it
with `git-commit-info`. However, build-manifest relies on the
`git-commit-hash` file being present, so this adds it back.
fix: use git-commit-info for version information
Fixes#33286.
Fixes#86587.
This PR changes the current `git-commit-hash` file that `./x.py` dist puts in the `rustc-{version}-src.tar.{x,g}z` to contain the hash, the short hash, and the commit date from which the tarball was created, assuming git was available when it was. It uses this for reading the version so that rustc has all the appropriate metadata.
# Testing
Testing this is kind of a pain. I did it with something like
```sh
./x.py dist # ensure that `ignore-git` is `false` in config.toml
cp ./build/dist/rustc-1.65.0-dev-src.tar.gz ../rustc-1.65.0-dev-src.tar.gz
cd .. && tar -xzf rustc-1.65.0-dev-src && cd rustc-1.65.0-dev-src
./x.py build
```
Then, the output of `rustc -vV` with the stage1 compiler should have the `commit-hash` and `commit-date` fields filled, rather than be `unknown`. To be completely sure, you can use `rustc --sysroot` with the stdlib that the original `./x.py dist` made, which will require that the metadata matches.
`dist` creates a `rust-docs-json.tar.xz` tarfile. But build-manifest expected it to be named
`rust-docs-json-preview.tar.xz`. Change build-manifest to allow the name without the `-preview` suffix.
This also adds `rust-docs-json` to the `rust` component. I'm not quite sure why it exists,
but rustup uses it to determine which components are available.
Make the `c` feature for `compiler-builtins` an explicit opt-in
Its build script doesn't support cross-compilation. I tried fixing it, but the cc crate itself doesn't appear to support cross-compiling to windows either unless you use the -gnu toolchain:
```
error occurred: Failed to find tool. Is `lib.exe` installed?
```
Fixes https://github.com/rust-lang/rust/issues/101172.
The build script for `compiler_builtins` doesn't support cross-compilation. I tried fixing it, but the cc crate itself
doesn't appear to support cross-compiling to windows either unless you use the -gnu toolchain:
```
error occurred: Failed to find tool. Is `lib.exe` installed?
```
Rather than trying to fix it or special-case the platforms without bugs,
make it opt-in instead of automatic.
Distribute bootstrap in CI
This pre-compiles bootstrap from source and adds it to the existing `rust-dev` component. There are two main goals here:
1. Make it faster to build rust from source, both the first time and incrementally
2. Make it easier to add non-python entrypoints, since they can call out to bootstrap directly rather than having to figure out the right flags to pre-compile it. This second part is still in a bit of flux, see the tracking issue below for more information.
There are also several changes to make bootstrap able to run on a machine other than the one it was built (particularly around `config.src` and `config.out` detection). I (`@jyn514)` am slightly concerned these will regress unless tested - maybe we should add an automated test that runs bootstrap in a chroot or something? Unclear whether the effort is worth the test coverage.
Helps with https://github.com/rust-lang/rust/issues/94829.
