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I have a custom LLVM backend and would like to cross compile Rust for that custom (nostd) target. I'd like to compile Rust programs in two steps:

  1. Using rustc to generate LLVM IR.
  2. Use my own opt and llc to transform LLVM IR into machine code.

I tried using cargo rustc -- --emit=llvm-ir. I get .ll files, and then use llc to get .o files. Then I cross compile libcore in the same way. When I try to link all the objects together, it tells me about an undefined reference. I was using the same commit of libcore and rustc. This seems a problem with LLVM versions but I'm not sure.

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  • Can you give details about the undefined references you are getting?
    – rodrigo
    Commented Oct 22, 2018 at 9:15
  • This question is borderline for SO; it's too low in concrete details such as what references are undefined. But I can guess what the answer will be. LLVM allows some measure of target independence, but it doesn't require each frontend to be 100% portable to new targets. When a frontend is less than 100% portable, you'll often see undefined references for each instance of platform dependence. Some easily fixable, some very, very hard.
    – arnt
    Commented Oct 22, 2018 at 9:54
  • @rodrigo Technically it's _ZN4core9panicking5panic17he3feabc16d430735E (expected by my project) and _ZN4core9panicking5panic17ha8afdce0157d83a3E (provided in libcore). Only the hash part is different so I suspect that to be some versioning problem.
    – Hoblovski
    Commented Oct 22, 2018 at 12:38
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    Oh, I had a similar problem once, and I workarounded with -C panic=abort or [profile] panic = 'abort' in Cargo.toml. Maybe it helps, although I don't know why it fails in the first place.
    – rodrigo
    Commented Oct 22, 2018 at 12:51

1 Answer 1

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There's a couple things you should be aware of. Most importantly, the version of LLVM that rustc uses by default if you get it from rustup or a distro package manager is /not/ an actual release of LLVM, and may not actually be bitcode-compatible with a particular llvm release. We solved this issue in my project by building rust from source with the --llvm-root flag to configure. You can then use rustup toolchain link to link your built rustc into a custom rustup toolchain.

Second, you can make rustc emit .rlib files that contain llvm bitcode instead of machine code if you use at least rustc 1.34 and pass the -C linker-plugin-lto flag to rustc. I also wrote the following script that can unpack an rlib file containing object code and pack it back up as an rlib file containing llvm bitcode, if the above approach does not work for you.

#!/bin/bash
dir="$(mktemp -d)"
trap "rm -rf $dir" INT TERM EXIT
archive=$(realpath -m $1)
cd "$dir"
ar x "$archive"
rm ./*.rcgu.o
for file in *.bc.z; do
len=`od -An -t u4 -j 15 -N4 $file`
blen=`od -An -t u8 -j $((len+19)) -N8 $file`
tail -c+$((len+28)) $file | head -c $blen > $file.bc.gz
printf "\x1f\x8b\x08\x00\x00\x00\x00\x00\x00\x00" |cat - $file.bc.gz |gzip -dc > ${file%.bc.z}.o
done
rm *.bc.z
rm *.gz
rm "$archive"
llvm-ar rs "${archive}" ./*

Once you have the rlib files, you can use any llvm toolchain tool on them the same way you could with a .a file containing llvm bitcode.

In terms of performing the final link, there are a few things to bear in mind. First, rustc automatically generates the symbols __rust_alloc, __rust_alloc_zeroed, __rust_dealloc, and __rust_realloc and points them to either __rg_alloc (and similar __rg_ symbols respectively), which is the GlobalAlloc implementation that uses jemalloc by default, or __rdl_alloc (and similar __rdl_ symbols respectively), which is the system allocator powered by libc malloc. You will have to implement these symbols yourself if you are not using rustc to do the final link.

Second, libstd and libcore depend on some other libraries that you will also probably have to link against. Depending on what segment of the standard library you are using, you may find that different sets of libraries are required, so I can't help you without a specific error message there, but I can tell you that the list of libraries that my application ended up requiring was, in order: std, core, alloc, unwind, compiler_builtins, panic_abort, backtrace_sys, rustc_demangle. If you are using panic=unwind, you will obviously have to use that instead. If you find you still have missing symbols, I would suggest using nm to look for the library containing the missing symbol and figure out where it belongs in the linker order with trial and error.

Hope this helps, as I've spent a fair amount of effort engineering a solution to this exact problem (although not for the purposes of cross compilation).

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