use std::{env, ffi::OsString, path::Path, process::Command}; use hashbrown::HashMap; #[cfg(all(target_arch = "x86_64", target_os = "linux"))] use portable_pty::{native_pty_system, Child, CommandBuilder, MasterPty, PtySize}; pub fn abs_path(path: &str) -> OsString { let path = Path::new(path); if path.exists() { path.canonicalize().unwrap().into_os_string() } else { // We are going to trust that the path given is valid... path.to_owned().into_os_string() } } /// Returns a QEMU runner target given an architecture. fn get_qemu_target(arch: &str) -> &str { match arch { "armv7" => "arm", "i686" => "i386", "powerpc" => "ppc", "powerpc64le" => "ppc64le", _ => arch, } } /// This is required since running binary tests via cross can cause be tricky! /// We need to basically "magically" grab the correct runner in some cases, /// which can be done by inspecting env variables that should only show up while /// using cross. /// /// Originally inspired by [ripgrep's test files](https://cs.github.com/BurntSushi/ripgrep/blob/9f0e88bcb14e02da1b88872435b17d74786640b5/tests/util.rs#L470), /// but adapted to work more generally with the architectures supported by /// bottom after looking through cross' [linux-runner](https://github.com/cross-rs/cross/blob/main/docker/linux-runner) file. fn cross_runner() -> Option { const TARGET_RUNNER: &str = "CARGO_TARGET_RUNNER"; const CROSS_RUNNER: &str = "CROSS_RUNNER"; let env_mapping = env::vars_os() .filter_map(|(k, v)| { let (k, v) = (k.to_string_lossy(), v.to_string_lossy()); if k.starts_with("CARGO_TARGET_") && k.ends_with("_RUNNER") && !v.is_empty() { Some((TARGET_RUNNER.to_string(), v.to_string())) } else if k == CROSS_RUNNER && !v.is_empty() { Some((k.to_string(), v.to_string())) } else { None } }) .collect::>(); if let Some(cross_runner) = env_mapping.get(CROSS_RUNNER) { if cross_runner == "qemu-user" { env_mapping.get(TARGET_RUNNER).map(|target_runner| { format!( "qemu-{}", get_qemu_target(target_runner.split_ascii_whitespace().last().unwrap()) ) }) } else { None } } else { env_mapping.get(TARGET_RUNNER).cloned() } } const BTM_EXE_PATH: &str = env!("CARGO_BIN_EXE_btm"); const RUNNER_ENV_VARS: [(&str, &str); 1] = [("NO_COLOR", "1")]; const DEFAULT_CFG: [&str; 2] = ["-C", "./tests/valid_configs/empty_config.toml"]; /// Returns the [`Command`] of a binary invocation of bottom, alongside /// any required env variables. pub fn btm_command(args: &[&str]) -> Command { let mut cmd = match cross_runner() { None => Command::new(BTM_EXE_PATH), Some(runner) => { let mut cmd = Command::new(runner); cmd.envs(RUNNER_ENV_VARS); cmd.arg(BTM_EXE_PATH); cmd } }; let mut prev = ""; for arg in args.iter() { if prev == "-C" { // This is the config file; make sure we set it to absolute path! cmd.arg(abs_path(arg)); } else { cmd.arg(arg); } prev = arg; } cmd } /// Returns the [`Command`] of a binary invocation of bottom, alongside /// any required env variables, and with the default, empty config file. pub fn no_cfg_btm_command() -> Command { btm_command(&DEFAULT_CFG) } /// Spawns `btm` in a pty, returning the pair alongside a handle to the child. #[cfg(all(target_arch = "x86_64", target_os = "linux"))] pub fn spawn_btm_in_pty(args: &[&str]) -> (Box, Box) { let native_pty = native_pty_system(); let pair = native_pty .openpty(PtySize { rows: 100, cols: 100, pixel_width: 1, pixel_height: 1, }) .unwrap(); let btm_exe = BTM_EXE_PATH; let mut cmd = match cross_runner() { None => CommandBuilder::new(btm_exe), Some(runner) => { let mut cmd = CommandBuilder::new(runner); for (env, val) in RUNNER_ENV_VARS { cmd.env(env, val); } cmd.arg(BTM_EXE_PATH); cmd } }; let args = if args.is_empty() { &DEFAULT_CFG } else { args }; let mut prev = ""; for arg in args.iter() { if prev == "-C" { // This is the config file; make sure we set it to absolute path! cmd.arg(abs_path(arg)); } else { cmd.arg(arg); } prev = arg; } (pair.master, pair.slave.spawn_command(cmd).unwrap()) }