#cli #cross #compilation #std

app xargo

The sysroot manager that lets you build and customize std

31 releases

0.3.12 Apr 8, 2018
0.3.11 Mar 9, 2018
0.3.10 Dec 28, 2017
0.3.9 Sep 6, 2017
0.1.3 Apr 25, 2016

#25 in Development tools

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PSA: Xargo is in maintenance mode

crates.io crates.io


The sysroot manager that lets you build and customize std

Cross compiling `std` for i686-unknown-linux-gnu
Cross compiling `std` for i686-unknown-linux-gnu

Xargo builds and manages "sysroots" (cf. rustc --print sysroot). Making it easy to cross compile Rust crates for targets that don't have binary releases of the standard crates, like the thumbv*m-none-eabi* targets. And it also lets you build a customized std crate, e.g. compiled with -C panic=abort, for your target.


  • The rust-src component, which you can install with rustup component add rust-src.

  • Rust and Cargo.


$ cargo install xargo

But we also have binary releases for the three major OSes.



xargo has the exact same CLI as cargo.

# This Just Works
$ xargo build --target thumbv6m-none-eabi
   Compiling core v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libcore)
    Finished release [optimized] target(s) in 11.61 secs
   Compiling lib v0.1.0 (file://$PWD)
    Finished debug [unoptimized + debuginfo] target(s) in 0.5 secs

xargo will cache the sysroot, in this case the core crate, so the next build command will be (very) fast.

$ xargo build --target thumbv6m-none-eabi
    Finished debug [unoptimized + debuginfo] target(s) in 0.0 secs

By default, xargo will only compile the core crate for the target. If you need a bigger subset of the standard crates, specify the dependencies in a Xargo.toml at the root of your Cargo project (right next to Cargo.toml).

$ cat Xargo.toml
# Alternatively you can use [build.dependencies]
# the syntax is the same as Cargo.toml's; you don't need to specify path or git
collections = {}

$ xargo build --target thumbv6m-none-eabi
   Compiling core v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libcore)
   Compiling alloc v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/liballoc)
   Compiling std_unicode v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libstd_unicode)
   Compiling collections v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libcollections)
    Finished release [optimized] target(s) in 15.26 secs
   Compiling lib v0.1.0 (file://$PWD)
    Finished debug [unoptimized + debuginfo] target(s) in 0.5 secs


You can compile a customized std crate as well, just specify which Cargo features to enable.

# Build `std` with `-C panic=abort` (default) and with jemalloc as the default
# allocator
$ cat Xargo.toml
features = ["jemalloc"]

# Needed to compile `std` with `-C panic=abort`
$ tail -n2 Cargo.toml
panic = "abort"

$ xargo run --target i686-unknown-linux-gnu --release
    Updating registry `https://github.com/rust-lang/crates.io-index`
   Compiling libc v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/rustc/libc_shim)
   Compiling core v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libcore)
   Compiling build_helper v0.1.0 (file://$SYSROOT/lib/rustlib/src/rust/src/build_helper)
   Compiling gcc v0.3.41
   Compiling unwind v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libunwind)
   Compiling std v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libstd)
   Compiling compiler_builtins v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libcompiler_builtins)
   Compiling alloc_jemalloc v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/liballoc_jemalloc)
   Compiling alloc v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/liballoc)
   Compiling rand v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/librand)
   Compiling std_unicode v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libstd_unicode)
   Compiling alloc_system v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/liballoc_system)
   Compiling panic_abort v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libpanic_abort)
   Compiling collections v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libcollections)
    Finished release [optimized] target(s) in 33.49 secs
   Compiling hello v0.1.0 (file://$PWD)
    Finished release [optimized] target(s) in 0.28 secs
     Running `target/i686-unknown-linux-gnu/release/hello`
Hello, world!

If you'd like to know what xargo is doing under the hood, pass the verbose, -v, flag to it.

$ xargo build --target thumbv6m-none-eabi -v
+ "rustc" "--print" "target-list"
+ "rustc" "--print" "sysroot"
+ "cargo" "build" "--release" "--manifest-path" "/tmp/xargo.lTBXKnaUGicV/Cargo.toml" "--target" "thumbv6m-none-eabi" "-v" "-p" "core"
   Compiling core v0.0.0 (file://$SYSROOT/lib/rustlib/src/rust/src/libcore)
     Running `rustc --crate-name core $SYSROOT/lib/rustlib/src/rust/src/libcore/lib.rs --crate-type lib -C opt-level=3 -C metadata=a5c596f87f7d486b -C extra-filename=-a5c596f87f7d486b --out-dir /tmp/xargo.lTBXKnaUGicV/target/thumbv6m-none-eabi/release/deps --emit=dep-info,link --target thumbv6m-none-eabi -L dependency=/tmp/xargo.lTBXKnaUGicV/target/thumbv6m-none-eabi/release/deps -L dependency=/tmp/xargo.lTBXKnaUGicV/target/release/deps`
    Finished release [optimized] target(s) in 11.50 secs
+ "cargo" "build" "--target" "thumbv6m-none-eabi" "-v"
   Compiling lib v0.1.0 (file://$PWD)
     Running `rustc --crate-name lib src/lib.rs --crate-type lib -g -C metadata=461fd0b398821543 -C extra-filename=-461fd0b398821543 --out-dir $PWD/target/thumbv6m-none-eabi/debug/deps --emit=dep-info,link --target thumbv6m-none-eabi -L dependency=$PWD/target/thumbv6m-none-eabi/debug/deps -L dependency=$PWD/lib/target/debug/deps --sysroot $HOME/.xargo`
    Finished debug [unoptimized + debuginfo] target(s) in 0.5 secs

Dev channel

Oh, and if you want to use xargo to compile std using a "dev" rustc, a rust compiled from source, you can use the XARGO_RUST_SRC environment variable to tell xargo where the Rust source is.

# The source of the `core` crate must be in `$XARGO_RUST_SRC/libcore`
$ export XARGO_RUST_SRC=/path/to/rust/src

$ xargo build --target msp430-none-elf

NOTE This also works with the nightly channel but it's not recommended as the Rust source may diverge from what your compiler is able to compile as it may make use of newer features that your compiler doesn't understand.

Compiling the sysroot with custom rustc flags

Xargo uses the same custom rustc flags that apply to the target Cargo project. So you can use either the RUSTFLAGS env variable or a .cargo/config configuration file to specify custom rustc flags.

# build the sysroot with debug information
$ RUSTFLAGS='-g' xargo build --target x86_64-unknown-linux-gnu

# Alternatively
$ edit .cargo/config && cat $_
rustflags = ["-g"]

# Then you can omit RUSTFLAGS
$ xargo build --target x86_64-unknown-linux-gnu

Compiling the sysroot for a custom target

At some point you may want to develop a program for a target that's not officially supported by rustc. Xargo's got your back! It supports custom targets via target specifications files, which are not really documented anywhere other than in the compiler source code. Luckily you don't need to write a specification file from scratch; you can start from an existing one.

For example, let's say that you want to cross compile a program for a PowerPC Linux systems that uses uclibc instead of glibc. There's a similarly looking target in the list of targets supported by the compiler -- see rustc --print target-list -- and that is powerpc-unknown-linux-gnu. So you can start by dumping the specification of that target into a file:

$ rustc -Z unstable-options --print target-spec-json --target powerpc-unknown-linux-gnu | tee powerpc-unknown-linux-uclibc.json
  "arch": "powerpc",
  "data-layout": "E-m:e-p:32:32-i64:64-n32",
  "dynamic-linking": true,
  "env": "gnu",
  "executables": true,
  "has-elf-tls": true,
  "has-rpath": true,
  "is-builtin": true,
  "linker-flavor": "gcc",
  "linker-is-gnu": true,
  "llvm-target": "powerpc-unknown-linux-gnu",
  "max-atomic-width": 32,
  "os": "linux",
  "position-independent-executables": true,
  "pre-link-args": {
    "gcc": [
  "target-endian": "big",
  "target-family": "unix",
  "target-pointer-width": "32",
  "vendor": "unknown"

One of the things you'll definitively want to do is drop the is-builtin field as that's reserved for targets that are defined in the compiler itself. Apart from that the only modification you would have to in this case is change the env field from gnu (glibc) to uclibc.

   "arch": "powerpc",
   "data-layout": "E-m:e-p:32:32-i64:64-n32",
   "dynamic-linking": true,
-  "env": "gnu",
+  "env": "uclibc",
   "executables": true,
   "has-elf-tls": true,
   "has-rpath": true,
-  "is-builtin": true,
   "linker-flavor": "gcc",
   "linker-is-gnu": true,
   "llvm-target": "powerpc-unknown-linux-gnu",

Once you have your target specification file you only have to call Xargo with the right target triple; make sure that the specification file is the same folder from where you invoke Xargo because that's where rustc expects it to be.

$ ls powerpc-unknown-linux-uclibc.json

$ xargo build --target powerpc-unknown-linux-uclibc

Your build may fail because if rustc doesn't support your target then it's likely that the standard library doesn't support it either. In that case you will have to modify the source of the standard library. Xargo helps with that too because you can make a copy of the original source -- see rustc --print sysroot, modify it and then point Xargo to it using the XARGO_RUST_SRC env variable.

Multi-stage builds

Some standard crates have implicit dependencies between them. For example, the test crate implicitly depends on the std. Implicit here means that the test crate Cargo.toml doesn't list std as its dependency. To compile a sysroot that contains such crates you can perform the build in stages by specifying which crates belong to each stage in the Xargo.toml file:

stage = 0

stage = 1

This will compile an intermediate sysroot, the stage 0 sysroot, containing the std crate, and then it will compile the test crate against that intermediate sysroot. The final sysroot, the stage 1 sysroot, will contain both the std and test crates, and their dependencies.

Creating a sysroot with custom crates

Xargo lets you create a sysroot with custom crates. You can virtually put any crate in the sysroot. However, this feature is mainly used to create alternative std facades, and to replace the test crate with one that supports no_std targets. To specify the contents of the sysroot simply list the dependencies in the Xargo.toml file as you would do with Cargo.toml:

collections = {}
rand = {}

features = ["mem"]
stage = 1

git = "https://github.com/japaric/steed"
stage = 2

Caveats / gotchas

  • Xargo won't build a sysroot when used with stable or beta Rust. This is because std and other standard crates depend on unstable features so it's not possible to build the sysroot with stable or beta.

  • std is built as rlib and dylib. The dylib needs a panic library and an allocator. If you do not specify the panic-unwind feature, you have to set panic = "abort" in Cargo.toml.

  • To build without the jemalloc feature include the following in Xargo.toml:

    features = ["force_alloc_system"]

    What this flag means is that every program compiled with this libstd can only use the system allocator. If your program tries to set its own allocator, compilation will fail because now two allocators are set (one by libstd, one by your program). For some further information on this issue, see rust-lang/rust#43637.

  • It's recommended that the --target option is always used for xargo. This is because it must be provided even when compiling for the host platform due to the way cargo handles compiler plugins (e.g. serde_derive) and build scripts (build.rs). This also applies to how all of the dependant crates get compiled that use compiler plugins or build scripts. You can determine your host's target triple with rustc -vV. On *nix, the following rune will extract the triple: rustc -vV | egrep '^host: ' | sed 's/^host: //'.

  • Remember that both core and std will get implicitly linked to your crate but all the other sysroot crates will not. This means that if your Xargo.toml contains a crate like compiler_builtins or alloc then you will have to add a extern crate compiler_builtins or extern crate alloc somewhere in your dependency graph (either in your current crate or in some of its dependencies).


Licensed under either of

at your option.


Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.

MIT OR Apache-2.0 license


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