1fe3ce1c42
This renames wasm32-unknown-wasi to wasm32-wasi, omitting the vendor component. This follows aarch64-linux-android, x86_64-fuchsia, and others in omitting the vendor field, which has the advantage of aligning with the [multiarch tuple](https://wiki.debian.org/Multiarch/Tuples), and of being less noisy.
528 lines
21 KiB
Text
528 lines
21 KiB
Text
# Sample TOML configuration file for building Rust.
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#
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# To configure rustbuild, copy this file to the directory from which you will be
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# running the build, and name it config.toml.
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#
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# All options are commented out by default in this file, and they're commented
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# out with their default values. The build system by default looks for
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# `config.toml` in the current directory of a build for build configuration, but
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# a custom configuration file can also be specified with `--config` to the build
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# system.
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# =============================================================================
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# Tweaking how LLVM is compiled
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# =============================================================================
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[llvm]
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# Indicates whether the LLVM build is a Release or Debug build
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#optimize = true
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# Indicates whether LLVM should be built with ThinLTO. Note that this will
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# only succeed if you use clang, lld, llvm-ar, and llvm-ranlib in your C/C++
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# toolchain (see the `cc`, `cxx`, `linker`, `ar`, and `ranlib` options below).
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# More info at: https://clang.llvm.org/docs/ThinLTO.html#clang-bootstrap
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#thin-lto = false
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# Indicates whether an LLVM Release build should include debug info
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#release-debuginfo = false
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# Indicates whether the LLVM assertions are enabled or not
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#assertions = false
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# Indicates whether ccache is used when building LLVM
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#ccache = false
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# or alternatively ...
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#ccache = "/path/to/ccache"
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# If an external LLVM root is specified, we automatically check the version by
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# default to make sure it's within the range that we're expecting, but setting
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# this flag will indicate that this version check should not be done.
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#version-check = true
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# Link libstdc++ statically into the librustc_llvm instead of relying on a
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# dynamic version to be available.
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#static-libstdcpp = false
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# Tell the LLVM build system to use Ninja instead of the platform default for
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# the generated build system. This can sometimes be faster than make, for
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# example.
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#ninja = false
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# LLVM targets to build support for.
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# Note: this is NOT related to Rust compilation targets. However, as Rust is
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# dependent on LLVM for code generation, turning targets off here WILL lead to
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# the resulting rustc being unable to compile for the disabled architectures.
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# Also worth pointing out is that, in case support for new targets are added to
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# LLVM, enabling them here doesn't mean Rust is automatically gaining said
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# support. You'll need to write a target specification at least, and most
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# likely, teach rustc about the C ABI of the target. Get in touch with the
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# Rust team and file an issue if you need assistance in porting!
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#targets = "X86;ARM;AArch64;Mips;PowerPC;SystemZ;MSP430;Sparc;NVPTX;Hexagon"
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# LLVM experimental targets to build support for. These targets are specified in
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# the same format as above, but since these targets are experimental, they are
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# not built by default and the experimental Rust compilation targets that depend
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# on them will not work unless the user opts in to building them. By default the
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# `WebAssembly` and `RISCV` targets are enabled when compiling LLVM from scratch.
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#experimental-targets = "WebAssembly;RISCV"
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# Cap the number of parallel linker invocations when compiling LLVM.
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# This can be useful when building LLVM with debug info, which significantly
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# increases the size of binaries and consequently the memory required by
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# each linker process.
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# If absent or 0, linker invocations are treated like any other job and
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# controlled by rustbuild's -j parameter.
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#link-jobs = 0
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# When invoking `llvm-config` this configures whether the `--shared` argument is
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# passed to prefer linking to shared libraries.
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#link-shared = false
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# When building llvm, this configures what is being appended to the version.
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# If absent, we let the version as-is.
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#version-suffix = "-rust"
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# On MSVC you can compile LLVM with clang-cl, but the test suite doesn't pass
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# with clang-cl, so this is special in that it only compiles LLVM with clang-cl
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#clang-cl = '/path/to/clang-cl.exe'
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# Pass extra compiler and linker flags to the LLVM CMake build.
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#cflags = "-fextra-flag"
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#cxxflags = "-fextra-flag"
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#ldflags = "-Wl,extra-flag"
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# Use libc++ when building LLVM instead of libstdc++. This is the default on
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# platforms already use libc++ as the default C++ library, but this option
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# allows you to use libc++ even on platforms when it's not. You need to ensure
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# that your host compiler ships with libc++.
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#use-libcxx = true
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# The value specified here will be passed as `-DLLVM_USE_LINKER` to CMake.
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#use-linker = "lld"
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# Whether or not to specify `-DLLVM_TEMPORARILY_ALLOW_OLD_TOOLCHAIN=YES`
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#allow-old-toolchain = false
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# =============================================================================
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# General build configuration options
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# =============================================================================
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[build]
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# Build triple for the original snapshot compiler. This must be a compiler that
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# nightlies are already produced for. The current platform must be able to run
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# binaries of this build triple and the nightly will be used to bootstrap the
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# first compiler.
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#build = "x86_64-unknown-linux-gnu" # defaults to your host platform
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# In addition to the build triple, other triples to produce full compiler
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# toolchains for. Each of these triples will be bootstrapped from the build
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# triple and then will continue to bootstrap themselves. This platform must
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# currently be able to run all of the triples provided here.
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#host = ["x86_64-unknown-linux-gnu"] # defaults to just the build triple
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# In addition to all host triples, other triples to produce the standard library
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# for. Each host triple will be used to produce a copy of the standard library
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# for each target triple.
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#target = ["x86_64-unknown-linux-gnu"] # defaults to just the build triple
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# Instead of downloading the src/stage0.txt version of Cargo specified, use
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# this Cargo binary instead to build all Rust code
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#cargo = "/path/to/bin/cargo"
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# Instead of downloading the src/stage0.txt version of the compiler
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# specified, use this rustc binary instead as the stage0 snapshot compiler.
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#rustc = "/path/to/bin/rustc"
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# Flag to specify whether any documentation is built. If false, rustdoc and
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# friends will still be compiled but they will not be used to generate any
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# documentation.
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#docs = true
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# Indicate whether the compiler should be documented in addition to the standard
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# library and facade crates.
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#compiler-docs = false
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# Indicate whether submodules are managed and updated automatically.
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#submodules = true
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# Update submodules only when the checked out commit in the submodules differs
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# from what is committed in the main rustc repo.
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#fast-submodules = true
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# The path to (or name of) the GDB executable to use. This is only used for
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# executing the debuginfo test suite.
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#gdb = "gdb"
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# The node.js executable to use. Note that this is only used for the emscripten
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# target when running tests, otherwise this can be omitted.
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#nodejs = "node"
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# Python interpreter to use for various tasks throughout the build, notably
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# rustdoc tests, the lldb python interpreter, and some dist bits and pieces.
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# Note that Python 2 is currently required.
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#
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# Defaults to python2.7, then python2. If neither executable can be found, then
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# it defaults to the Python interpreter used to execute x.py.
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#python = "python2.7"
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# Force Cargo to check that Cargo.lock describes the precise dependency
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# set that all the Cargo.toml files create, instead of updating it.
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#locked-deps = false
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# Indicate whether the vendored sources are used for Rust dependencies or not
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#vendor = false
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# Typically the build system will build the rust compiler twice. The second
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# compiler, however, will simply use its own libraries to link against. If you
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# would rather to perform a full bootstrap, compiling the compiler three times,
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# then you can set this option to true. You shouldn't ever need to set this
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# option to true.
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#full-bootstrap = false
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# Enable a build of the extended rust tool set which is not only the compiler
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# but also tools such as Cargo. This will also produce "combined installers"
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# which are used to install Rust and Cargo together. This is disabled by
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# default.
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#extended = false
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# Installs chosen set of extended tools if enables. By default builds all.
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# If chosen tool failed to build the installation fails.
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#tools = ["cargo", "rls", "clippy", "rustfmt", "analysis", "src"]
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# Verbosity level: 0 == not verbose, 1 == verbose, 2 == very verbose
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#verbose = 0
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# Build the sanitizer runtimes
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#sanitizers = false
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# Build the profiler runtime
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#profiler = false
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# Indicates whether the native libraries linked into Cargo will be statically
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# linked or not.
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#cargo-native-static = false
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# Run the build with low priority, by setting the process group's "nice" value
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# to +10 on Unix platforms, and by using a "low priority" job object on Windows.
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#low-priority = false
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# Arguments passed to the `./configure` script, used during distcheck. You
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# probably won't fill this in but rather it's filled in by the `./configure`
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# script.
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#configure-args = []
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# Indicates that a local rebuild is occurring instead of a full bootstrap,
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# essentially skipping stage0 as the local compiler is recompiling itself again.
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#local-rebuild = false
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# Print out how long each rustbuild step took (mostly intended for CI and
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# tracking over time)
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#print-step-timings = false
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# =============================================================================
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# General install configuration options
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# =============================================================================
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[install]
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# Instead of installing to /usr/local, install to this path instead.
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#prefix = "/usr/local"
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# Where to install system configuration files
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# If this is a relative path, it will get installed in `prefix` above
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#sysconfdir = "/etc"
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# Where to install documentation in `prefix` above
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#docdir = "share/doc/rust"
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# Where to install binaries in `prefix` above
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#bindir = "bin"
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# Where to install libraries in `prefix` above
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#libdir = "lib"
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# Where to install man pages in `prefix` above
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#mandir = "share/man"
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# Where to install data in `prefix` above (currently unused)
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#datadir = "share"
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# Where to install additional info in `prefix` above (currently unused)
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#infodir = "share/info"
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# Where to install local state (currently unused)
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# If this is a relative path, it will get installed in `prefix` above
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#localstatedir = "/var/lib"
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# =============================================================================
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# Options for compiling Rust code itself
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# =============================================================================
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[rust]
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# Whether or not to optimize the compiler and standard library.
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#
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# Note: the slowness of the non optimized compiler compiling itself usually
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# outweighs the time gains in not doing optimizations, therefore a
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# full bootstrap takes much more time with `optimize` set to false.
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#optimize = true
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# Indicates that the build should be configured for debugging Rust. A
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# `debug`-enabled compiler and standard library will be somewhat
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# slower (due to e.g. checking of debug assertions) but should remain
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# usable.
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#
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# Note: If this value is set to `true`, it will affect a number of
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# configuration options below as well, if they have been left
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# unconfigured in this file.
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#
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# Note: changes to the `debug` setting do *not* affect `optimize`
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# above. In theory, a "maximally debuggable" environment would
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# set `optimize` to `false` above to assist the introspection
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# facilities of debuggers like lldb and gdb. To recreate such an
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# environment, explicitly set `optimize` to `false` and `debug`
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# to `true`. In practice, everyone leaves `optimize` set to
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# `true`, because an unoptimized rustc with debugging
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# enabled becomes *unusably slow* (e.g. rust-lang/rust#24840
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# reported a 25x slowdown) and bootstrapping the supposed
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# "maximally debuggable" environment (notably libstd) takes
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# hours to build.
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#
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#debug = false
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# Number of codegen units to use for each compiler invocation. A value of 0
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# means "the number of cores on this machine", and 1+ is passed through to the
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# compiler.
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#codegen-units = 1
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# Sets the number of codegen units to build the standard library with,
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# regardless of what the codegen-unit setting for the rest of the compiler is.
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#codegen-units-std = 1
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# Whether or not debug assertions are enabled for the compiler and standard
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# library.
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#debug-assertions = false
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# Whether or not debuginfo is emitted
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#debuginfo = false
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# Whether or not line number debug information is emitted
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#debuginfo-lines = false
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# Whether or not to only build debuginfo for the standard library if enabled.
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# If enabled, this will not compile the compiler with debuginfo, just the
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# standard library.
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#debuginfo-only-std = false
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# Enable debuginfo for the extended tools: cargo, rls, rustfmt
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# Adding debuginfo makes them several times larger.
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#debuginfo-tools = false
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# Whether or not `panic!`s generate backtraces (RUST_BACKTRACE)
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#backtrace = true
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# Whether to always use incremental compilation when building rustc
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#incremental = false
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# Build a multi-threaded rustc
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#parallel-compiler = false
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# The default linker that will be hard-coded into the generated compiler for
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# targets that don't specify linker explicitly in their target specifications.
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# Note that this is not the linker used to link said compiler.
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#default-linker = "cc"
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# The "channel" for the Rust build to produce. The stable/beta channels only
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# allow using stable features, whereas the nightly and dev channels allow using
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# nightly features
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#channel = "dev"
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# By default the `rustc` executable is built with `-Wl,-rpath` flags on Unix
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# platforms to ensure that the compiler is usable by default from the build
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# directory (as it links to a number of dynamic libraries). This may not be
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# desired in distributions, for example.
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#rpath = true
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# Emits extraneous output from tests to ensure that failures of the test
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# harness are debuggable just from logfiles.
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#verbose-tests = false
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# Flag indicating whether tests are compiled with optimizations (the -O flag) or
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# with debuginfo (the -g flag)
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#optimize-tests = true
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#debuginfo-tests = true
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# Flag indicating whether codegen tests will be run or not. If you get an error
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# saying that the FileCheck executable is missing, you may want to disable this.
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# Also see the target's llvm-filecheck option.
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#codegen-tests = true
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# Flag indicating whether git info will be retrieved from .git automatically.
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# Having the git information can cause a lot of rebuilds during development.
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# Note: If this attribute is not explicitly set (e.g. if left commented out) it
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# will default to true if channel = "dev", but will default to false otherwise.
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#ignore-git = true
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# When creating source tarballs whether or not to create a source tarball.
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#dist-src = false
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# Whether to also run the Miri tests suite when running tests.
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# As a side-effect also generates MIR for all libraries.
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#test-miri = false
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# After building or testing extended tools (e.g. clippy and rustfmt), append the
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# result (broken, compiling, testing) into this JSON file.
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#save-toolstates = "/path/to/toolstates.json"
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# This is an array of the codegen backends that will be compiled for the rustc
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# that's being compiled. The default is to only build the LLVM codegen backend,
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# but you can also optionally enable the "emscripten" backend for asm.js or
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# make this an empty array (but that probably won't get too far in the
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# bootstrap)
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#codegen-backends = ["llvm"]
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# This is the name of the directory in which codegen backends will get installed
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#codegen-backends-dir = "codegen-backends"
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# Flag indicating whether `libstd` calls an imported function to handle basic IO
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# when targeting WebAssembly. Enable this to debug tests for the `wasm32-unknown-unknown`
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# target, as without this option the test output will not be captured.
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#wasm-syscall = false
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# Indicates whether LLD will be compiled and made available in the sysroot for
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# rustc to execute.
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#lld = false
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# Indicates whether some LLVM tools, like llvm-objdump, will be made available in the
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# sysroot.
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#llvm-tools = false
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# Indicates whether LLDB will be made available in the sysroot.
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# This is only built if LLVM is also being built.
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#lldb = false
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# Whether to deny warnings in crates
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#deny-warnings = true
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# Print backtrace on internal compiler errors during bootstrap
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#backtrace-on-ice = false
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# Whether to verify generated LLVM IR
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#verify-llvm-ir = false
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# Map all debuginfo paths for libstd and crates to `/rust/$sha/$crate/...`,
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# generally only set for releases
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#remap-debuginfo = false
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# Link the compiler against `jemalloc`, where on Linux and OSX it should
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# override the default allocator for rustc and LLVM.
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#jemalloc = false
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# Run tests in various test suites with the "nll compare mode" in addition to
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# running the tests in normal mode. Largely only used on CI and during local
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# development of NLL
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#test-compare-mode = false
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# Use LLVM libunwind as the implementation for Rust's unwinder.
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#llvm-libunwind = false
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# =============================================================================
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# Options for specific targets
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#
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# Each of the following options is scoped to the specific target triple in
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# question and is used for determining how to compile each target.
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# =============================================================================
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[target.x86_64-unknown-linux-gnu]
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# C compiler to be used to compiler C code. Note that the
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# default value is platform specific, and if not specified it may also depend on
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# what platform is crossing to what platform.
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#cc = "cc"
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# C++ compiler to be used to compiler C++ code (e.g. LLVM and our LLVM shims).
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# This is only used for host targets.
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#cxx = "c++"
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# Archiver to be used to assemble static libraries compiled from C/C++ code.
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# Note: an absolute path should be used, otherwise LLVM build will break.
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#ar = "ar"
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# Ranlib to be used to assemble static libraries compiled from C/C++ code.
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# Note: an absolute path should be used, otherwise LLVM build will break.
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#ranlib = "ranlib"
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# Linker to be used to link Rust code. Note that the
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# default value is platform specific, and if not specified it may also depend on
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# what platform is crossing to what platform.
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#linker = "cc"
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# Path to the `llvm-config` binary of the installation of a custom LLVM to link
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# against. Note that if this is specified we don't compile LLVM at all for this
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# target.
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#llvm-config = "../path/to/llvm/root/bin/llvm-config"
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# Normally the build system can find LLVM's FileCheck utility, but if
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# not, you can specify an explicit file name for it.
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#llvm-filecheck = "/path/to/FileCheck"
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# If this target is for Android, this option will be required to specify where
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# the NDK for the target lives. This is used to find the C compiler to link and
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# build native code.
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#android-ndk = "/path/to/ndk"
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# Force static or dynamic linkage of the standard library for this target. If
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# this target is a host for rustc, this will also affect the linkage of the
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# compiler itself. This is useful for building rustc on targets that normally
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# only use static libraries. If unset, the target's default linkage is used.
|
|
#crt-static = false
|
|
|
|
# The root location of the MUSL installation directory. The library directory
|
|
# will also need to contain libunwind.a for an unwinding implementation. Note
|
|
# that this option only makes sense for MUSL targets that produce statically
|
|
# linked binaries
|
|
#musl-root = "..."
|
|
|
|
# The root location of the `wasm32-wasi` sysroot.
|
|
#wasi-root = "..."
|
|
|
|
# Used in testing for configuring where the QEMU images are located, you
|
|
# probably don't want to use this.
|
|
#qemu-rootfs = "..."
|
|
|
|
# =============================================================================
|
|
# Distribution options
|
|
#
|
|
# These options are related to distribution, mostly for the Rust project itself.
|
|
# You probably won't need to concern yourself with any of these options
|
|
# =============================================================================
|
|
[dist]
|
|
|
|
# This is the folder of artifacts that the build system will sign. All files in
|
|
# this directory will be signed with the default gpg key using the system `gpg`
|
|
# binary. The `asc` and `sha256` files will all be output into the standard dist
|
|
# output folder (currently `build/dist`)
|
|
#
|
|
# This folder should be populated ahead of time before the build system is
|
|
# invoked.
|
|
#sign-folder = "path/to/folder/to/sign"
|
|
|
|
# This is a file which contains the password of the default gpg key. This will
|
|
# be passed to `gpg` down the road when signing all files in `sign-folder`
|
|
# above. This should be stored in plaintext.
|
|
#gpg-password-file = "path/to/gpg/password"
|
|
|
|
# The remote address that all artifacts will eventually be uploaded to. The
|
|
# build system generates manifests which will point to these urls, and for the
|
|
# manifests to be correct they'll have to have the right URLs encoded.
|
|
#
|
|
# Note that this address should not contain a trailing slash as file names will
|
|
# be appended to it.
|
|
#upload-addr = "https://example.com/folder"
|
|
|
|
# Whether to build a plain source tarball to upload
|
|
# We disable that on Windows not to override the one already uploaded on S3
|
|
# as the one built on Windows will contain backslashes in paths causing problems
|
|
# on linux
|
|
#src-tarball = true
|
|
#
|
|
|
|
# Whether to allow failures when building tools
|
|
#missing-tools = false
|