use std::io::{BufRead, Cursor}; use std::process::Output; use tokio::process::Command; /// Compiled target triple, used as default for binary fetching pub const TARGET: &str = env!("TARGET"); /// Detect the targets supported at runtime, /// which might be different from `TARGET` which is detected /// at compile-time. /// /// Return targets supported in the order of preference. /// If target_os is linux and it support gnu, then it is preferred /// to musl. /// /// If target_os is mac and it is aarch64, then aarch64 is preferred /// to x86_64. /// /// Check [this issue](https://github.com/ryankurte/cargo-binstall/issues/155) /// for more information. pub async fn detect_targets() -> Vec { if let Some(target) = get_target_from_rustc().await { let mut v = vec![target]; #[cfg(target_os = "linux")] if v[0].contains("gnu") { v.push(v[0].replace("gnu", "musl")); } #[cfg(target_os = "macos")] if &*v[0] == macos::AARCH64 { v.push(macos::X86.into()); } v } else { #[cfg(target_os = "linux")] { linux::detect_targets_linux().await } #[cfg(target_os = "macos")] { macos::detect_targets_macos() } #[cfg(not(any(target_os = "linux", target_os = "macos")))] { vec![TARGET.into()] } } } /// Figure out what the host target is using `rustc`. /// If `rustc` is absent, then it would return `None`. async fn get_target_from_rustc() -> Option { let Output { status, stdout, .. } = Command::new("rustc").arg("-vV").output().await.ok()?; if !status.success() { return None; } Cursor::new(stdout) .lines() .filter_map(|line| line.ok()) .find_map(|line| line.strip_prefix("host: ").map(|host| host.to_owned())) } #[cfg(target_os = "linux")] mod linux { use super::{Command, Output, TARGET}; pub(super) async fn detect_targets_linux() -> Vec { let abi = parse_abi(); if let Ok(Output { status: _, stdout, stderr, }) = Command::new("ldd").arg("--version").output().await { let libc_version = if let Some(libc_version) = parse_libc_version_from_ldd_output(&stdout) { libc_version } else if let Some(libc_version) = parse_libc_version_from_ldd_output(&stderr) { libc_version } else { return vec![create_target_str("musl", abi)]; }; if libc_version == "gnu" { return vec![ create_target_str("gnu", abi), create_target_str("musl", abi), ]; } } // Fallback to using musl vec![create_target_str("musl", abi)] } fn parse_libc_version_from_ldd_output(output: &[u8]) -> Option<&'static str> { let s = String::from_utf8_lossy(output); if s.contains("musl libc") { Some("musl") } else if s.contains("GLIBC") { Some("gnu") } else { None } } fn parse_abi() -> &'static str { let last = TARGET.rsplit_once('-').unwrap().1; if let Some(libc_version) = last.strip_prefix("musl") { libc_version } else if let Some(libc_version) = last.strip_prefix("gnu") { libc_version } else { panic!("Unrecognized libc") } } fn create_target_str(libc_version: &str, abi: &str) -> String { let prefix = TARGET .rsplit_once('-') .expect("unwrap: TARGET always has a -") .0; format!("{prefix}{libc_version}{abi}") } } #[cfg(target_os = "macos")] mod macos { use guess_host_triple::guess_host_triple; pub(super) const AARCH64: &str = "aarch64-apple-darwin"; pub(super) const X86: &str = "x86_64-apple-darwin"; pub(super) fn detect_targets_macos() -> Vec { if guess_host_triple() == Some(AARCH64) { vec![AARCH64.into(), X86.into()] } else { vec![X86.into()] } } }