checked with latest nightly

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ahgamut 2022-06-30 23:44:05 +05:30
parent 298b7453c2
commit 069ad60349
2 changed files with 8 additions and 29 deletions

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# Actually Portable Executables with Cosmopolitan Libc and Rust # Actually Portable Executables with Cosmopolitan Libc and Rust
This repository contains a simple `Hello world!` example in the [Rust][rust] This repository contains a simple `Hello world!` example in the [Rust][rust]
programming language, that builds with [Cosmopolitan Libc][cosmo]. programming language, that builds with [Cosmopolitan Libc][cosmo]. To build it
you need a recent version of `gcc` (9 or 10 ought to be good), a recent version
of `binutils` (`ld.bfd` and `objcopy`), and `bash` because I wrote a simple
filter script.
I created a [custom compilation target][custom-target] for Rust, called I created a [custom compilation target][custom-target] for Rust, called
`x86_64-unknown-linux-cosmo`, to provide a build process that uses the `x86_64-unknown-linux-cosmo`, to provide a build process that uses the
@ -43,6 +46,8 @@ For reference, this worked when I tried it for `nightly-x86_64-linux-gnu` and:
* the Rust binaries on June 22 2022 (5750a6aa2 2022-06-20) * the Rust binaries on June 22 2022 (5750a6aa2 2022-06-20)
* the Rust binaries on June 25 2022 (fdca237d5 2022-06-24) * the Rust binaries on June 25 2022 (fdca237d5 2022-06-24)
* the Rust binaries on June 26 2022 (20a6f3a8a 2022-06-25) * the Rust binaries on June 26 2022 (20a6f3a8a 2022-06-25)
* the Rust binaries on June 30 2022 (ddcbba036 2022-06-29)
* the Rust binaries on July 27 2022 (4d6d601c8 2022-07-26)
3. run `cargo build` to get the debug executable. This uses a bash script that 3. run `cargo build` to get the debug executable. This uses a bash script that
removes unnecessary linker arguments. A recent version of `gcc` and `ld.bfd` removes unnecessary linker arguments. A recent version of `gcc` and `ld.bfd`
@ -72,13 +77,14 @@ This program has absolutely no warranty.
4. run `objcopy` on the debug binary to obtain the APE: 4. run `objcopy` on the debug binary to obtain the APE:
```bash ```bash
# look at the built debug binaries
ls ./target/x86_64-unknown-linux-cosmo/debug/*.com.dbg
# objcopy is the same version as ld.bfd above # objcopy is the same version as ld.bfd above
objcopy -SO binary ./target/x86_64-unknown-linux-cosmo/debug/hello_world.com.dbg ./hello_world.com objcopy -SO binary ./target/x86_64-unknown-linux-cosmo/debug/hello_world.com.dbg ./hello_world.com
# run the APE # run the APE
./hello_world.com ./hello_world.com
# see syscalls made by the APE # see syscalls made by the APE
./hello_world.com --strace ./hello_world.com --strace
# ls ./target/x86_64-unknown-linux-cosmo/debug/*.com.dbg
``` ```
Now we have Actually Portable Executables built with Rust! I also built a few Now we have Actually Portable Executables built with Rust! I also built a few

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#![no_main]
#![no_std]
#![feature(rustc_private)]
extern crate libc;
extern "C" {
fn ShowCrashReports();
}
#[no_mangle]
pub extern "C" fn main(_argc: isize, _argv: *const *const u8) -> isize {
unsafe {
ShowCrashReports();
let mut buffer = libc::malloc(13);
const c_str: &'static str = "Hello\0";
libc::strcpy(buffer as *mut i8, c_str.as_ptr() as *const i8);
libc::free(buffer);
libc::printf(buffer as *const _);
}
0
}
#[panic_handler]
fn my_panic(_info: &core::panic::PanicInfo) -> ! {
loop {}
}