# Tips The following shows how to do different random small things we encountered and thought could be useful. ### How to send arguments to the GCC linker ``` CG_RUSTFLAGS="-Clink-args=-save-temps -v" ../y.sh cargo build ``` ### How to see the personality functions in the asm dump ``` CG_RUSTFLAGS="-Clink-arg=-save-temps -v -Clink-arg=-dA" ../y.sh cargo build ``` ### How to see the LLVM IR for a sysroot crate ``` cargo build -v --target x86_64-unknown-linux-gnu -Zbuild-std # Take the command from the output and add --emit=llvm-ir ``` ### To prevent the linker from unmangling symbols Run with: ``` COLLECT_NO_DEMANGLE=1 ``` ### How to use a custom-build rustc * Build the stage2 compiler (`rustup toolchain link debug-current build/x86_64-unknown-linux-gnu/stage2`). * Clean and rebuild the codegen with `debug-current` in the file `rust-toolchain`. ### How to use a custom sysroot source path If you wish to build a custom sysroot, pass the path of your sysroot source to `--sysroot-source` during the `prepare` step, like so: ``` ./y.sh prepare --sysroot-source /path/to/custom/source ``` ### How to use [mem-trace](https://github.com/antoyo/mem-trace) `rustc` needs to be built without `jemalloc` so that `mem-trace` can overload `malloc` since `jemalloc` is linked statically, so a `LD_PRELOAD`-ed library won't a chance to intercept the calls to `malloc`. ### How to generate GIMPLE If you need to check what gccjit is generating (GIMPLE), then take a look at how to generate it in [gimple.md](./doc/gimple.md). ### How to build a cross-compiling libgccjit #### Building libgccjit * Follow the instructions on [this repo](https://github.com/cross-cg-gcc-tools/cross-gcc). #### Configuring rustc_codegen_gcc * Run `./y.sh prepare --cross` so that the sysroot is patched for the cross-compiling case. * Set the path to the cross-compiling libgccjit in `gcc-path` (in `config.toml`). * Make sure you have the linker for your target (for instance `m68k-unknown-linux-gnu-gcc`) in your `$PATH`. Currently, the linker name is hardcoded as being `$TARGET-gcc`. Specify the target when building the sysroot: `./y.sh build --sysroot --target-triple m68k-unknown-linux-gnu`. * Build your project by specifying the target: `OVERWRITE_TARGET_TRIPLE=m68k-unknown-linux-gnu ../y.sh cargo build --target m68k-unknown-linux-gnu`. If the target is not yet supported by the Rust compiler, create a [target specification file](https://docs.rust-embedded.org/embedonomicon/custom-target.html) (note that the `arch` specified in this file must be supported by the rust compiler). Then, you can use it the following way: * Add the target specification file using `--target` as an **absolute** path to build the sysroot: `./y.sh build --sysroot --target-triple m68k-unknown-linux-gnu --target $(pwd)/m68k-unknown-linux-gnu.json` * Build your project by specifying the target specification file: `OVERWRITE_TARGET_TRIPLE=m68k-unknown-linux-gnu ../y.sh cargo build --target path/to/m68k-unknown-linux-gnu.json`. If you get the following error: ``` /usr/bin/ld: unrecognised emulation mode: m68kelf ``` Make sure you set `gcc-path` (in `config.toml`) to the install directory.