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Self contained, fully static llvm tools & libs

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llvmbox is a highly "portable" distribution of the LLVM tools and development libraries, without external dependencies.

Simply unpack the tar file and you have a fully-functional compiler toolchain that is fully self-contained (on Linux, it does not need libc or even a dynamic linker to be present on the target system.)

Features:

  • Self-contained; install with wget/curl
  • Runs on any Linux system ("Linux-distro less" — there's no "gnu", "musl" or "ulibc" variants; all it needs is linux syscall)
  • Contains its own sysroot
    • Does not need libc nor libc++ headers to be installed on your system
    • On Linux, does not need linux headers to be installed on your system
    • On macOS, does not need Xcode or Command Line Developer Tools
  • LLVM development libraries in separate installable archive
    • Separate distribution reduces file size for when you just need the toolchain.
    • Includes ThinLTO libraries in lib-lto in addition to precompiled target code libraries, enabling you to build 100% LTOd products. This includes libc and libc++, not just LLVM libs.
    • Includes libraries for building your own custom clang and lld tools
    • Includes a development time-optimized library liball_llvm_clang_lld.a which contains all llvm libs, clang libs, lld libs and dependencies. It allows building your own clang or lld with link speeds in the 100s of milliseconds.

Supported systems:

  • Linux: x86_64, aarch64
  • macOS: x86_64, aarch64/arm64 (macOS 10.15 and up with x86_64, 11.0 and up with arm64)

Hoping to support in the future: (contributions welcome!)

  • Windows
  • FreeBSD

Currently the toolchain is not cross-compilation capable but that is something I'd like to enable in the future by including sysroots and sources, compiling them as needed for requested targets.

Usage

Find the URL for the release suitable for your system in (latest release), then

# download & install in current directory
wget -qO- https://github.com/rsms/llvmbox/.../llvmbox-VERSION.tar.xz | tar xJ

# create example C++ source
cat << EXAMPLE > hello.cc
#include <iostream>
int main(int argc, const char** argv) {
  std::cout << "hello from " << argv[0] << "\n";
  return 0;
}
EXAMPLE

# compile
[ $(uname -s) = Linux ] && LDFLAGS=-static
./llvmbox-VERSION/bin/clang++ $LDFLAGS hello.cc -o hello

# run example
./hello

Using LLVM libraries

LLVM libraries are distributed in a separate archive "llvmbox-dev." Its directory tree can either be merged into the toolchain ("llvmbox") tree, or placed anywhere, given appropriate compiler and linker flags are used.

# download & install in current directory
wget -qO- https://github.com/rsms/llvmbox/.../llvmbox-dev-VERSION.tar.xz | tar xJ

# fetch example program
wget https://github.com/rsms/llvmbox/blob/954ee63a9c82c4f2dca2dd319496f1cfa5d7d06d/test/hello-llvm.c

# compile
./llvmbox-VERSION/bin/clang $CFLAGS \
  $(./llvmbox-dev-VERSION/bin/llvm-config --cflags) \
  -c hello-llvm.c -o hello-llvm.o

# link
LDFLAGS="$LDFLAGS -Lllvmbox-dev-VERSION/lib"
[ $(uname -s) = Linux ] && LDFLAGS="$LDFLAGS -static"
./llvmbox-VERSION/bin/clang++ $LDFLAGS \
  $(./llvmbox-dev-VERSION/bin/llvm-config --ldflags --system-libs --libs core native) \
  hello-llvm.o -o hello-llvm

# run example
./hello-llvm

If you are interested in building your own C/C++ compiler based on clang & lld, have a look at the myclang example.

To merge the two distributions toghether, use tar --strip-components and extract the "dev" package after extracting the base package:

mkdir llvmbox
cd llvmbox
tar --strip-components 1 -xf ../llvmbox-15.0.7+1-x86_64-linux.tar.xz
tar --strip-components 1 -xf ../llvmbox-dev-15.0.7+1-x86_64-linux.tar.xz

Building with LTO libs

ThinLTO performs whole-program optimization during the linker stage. This can in some cases greatly improve performance and often leads to slightly smaller binaries. The cost is longer link times. llvmbox ships with both regular machine code libraries as well as ThinLTO libraries. During development you can link with regular libraries with millisecond-fast link times and for production builds you can link with LTO for improved runtime performance.

Continuing off of our "hello-llvm" example above, let's change compiler and linker flags. -flto=thin enables creation of LTO objects. We need to set library search path to the location of the LTO libraries: lib-lto. (The lib directory of llvmbox contains "regular" libraries with machine code.)

CFLAGS="$CFLAGS -flto=thin"
LDFLAGS="$LDFLAGS -Lllvmbox-dev-VERSION/lib-lto"

./llvmbox-VERSION/bin/clang \
  $(./llvmbox-dev-VERSION/bin/llvm-config --cflags) \
  -flto=thin \
  -c hello-llvm.c -o hello-llvm.o

./llvmbox-VERSION/bin/clang++ $LDFLAGS \
  $(./llvmbox-dev-VERSION/bin/llvm-config --system-libs --libs core native) \
  hello-llvm.o -o hello-llvm

Turn on ThinLTO cache to enable fast incremental compilation:

mkdir -p lto-cache
case "$(uname -s)" in
  Linux)  LDFLAGS="$LDFLAGS -Wl,--thinlto-cache-dir=$PWD/lto-cache" ;;
  Darwin) LDFLAGS="$LDFLAGS -Wl,-cache_path_lto,$PWD/lto-cache" ;;
esac

Now, recompiling after making a small change to a source file is much faster.

LLVM targets

Support for the following target architectures are included in the LLVM libraries: (from clang --print-targets)

  • aarch64 - AArch64 (little endian)
  • aarch64_32 - AArch64 (little endian ILP32)
  • aarch64_be - AArch64 (big endian)
  • arm - ARM
  • arm64 - ARM64 (little endian)
  • arm64_32 - ARM64 (little endian ILP32)
  • armeb - ARM (big endian)
  • riscv32 - 32-bit RISC-V
  • riscv64 - 64-bit RISC-V
  • thumb - Thumb
  • thumbeb - Thumb (big endian)
  • wasm32 - WebAssembly 32-bit
  • wasm64 - WebAssembly 64-bit
  • x86 - 32-bit X86: Pentium-Pro and above
  • x86-64 - 64-bit X86: EM64T and AMD64

Motivation

llvmbox is both a necessity for some of my personal projects, like hobby OSes without anything but Linux syscalls, but also a reaction to the brutal complexity of contemporary software culture. Entangled messes of shared libraries and dynamic linkers, all with various version constraints makes it harder to develop software than it needs to be. By "collapsing the stack" we can isolate the complexities of certain inherently-complex systems, like llvm.

I also enjoy making hobby languages and compilers. Some of them uses llvm as the "backend" and it is always a huge hassle getting llvm building, causing directories full of patches and shell scripts to litter these hobby projects. For some projects, like Compis, I embed clang & lld (Zig also does this) to allow compiling C & C++, but this brings a big burden: now Compis needs to be linked with the exact C++ lib that the llvm which libs it links with was built with. It gets messier, but basically, it's too complex.

The Zig project is a great example of doing something about the complexity. They have put in a tremendous effort into building a C & C++ compatible compiler that is truly portable, which even has first-class "cross compilation." Zig is an inspiration for this project and a breath of fresh air when it comes to software portability and simplicity.