use async_trait::async_trait;
use clap::{CommandFactory, Parser};
#[cfg(unix)]
use crate::ast::Value;
use crate::interpreter::ExecResult;
#[cfg(unix)]
use crate::scheduler::JobId;
use crate::tools::{schema_from_clap, ExecContext, ToolCtx, GlobalFlags, Tool, ToolArgs, ToolSchema};
pub struct Fg;
#[derive(Parser, Debug)]
#[command(name = "fg", about = "Resume a stopped job in the foreground")]
struct FgArgs {
#[command(flatten)]
global: GlobalFlags,
job: Vec<String>,
}
#[async_trait]
impl Tool for Fg {
fn name(&self) -> &str {
"fg"
}
fn schema(&self) -> ToolSchema {
schema_from_clap(
&FgArgs::command(),
"fg",
"Resume a stopped job in the foreground",
[
("Resume last stopped job", "fg"),
("Resume specific job", "fg 2"),
],
)
}
async fn execute(&self, args: ToolArgs, ctx: &mut dyn ToolCtx) -> ExecResult {
let Some(ctx) = ctx.as_any_mut().downcast_mut::<ExecContext>() else {
return ExecResult::failure(1, "internal error: kernel builtin requires ExecContext");
};
let parsed = match FgArgs::try_parse_from(
std::iter::once("fg".to_string()).chain(args.to_argv()),
) {
Ok(p) => p,
Err(e) => return ExecResult::failure(2, format!("fg: {e}")),
};
parsed.global.apply(ctx);
#[cfg(not(unix))]
{
let _ = args;
return ExecResult::failure(1, "fg: job control not supported on this platform");
}
#[cfg(unix)]
{
let manager = match &ctx.job_manager {
Some(m) => m.clone(),
None => return ExecResult::failure(1, "fg: no job manager"),
};
let term = match &ctx.terminal_state {
Some(t) => t.clone(),
None => return ExecResult::failure(1, "fg: not an interactive terminal"),
};
let job_id = if let Some(val) = args.get_positional(0) {
match val {
Value::Int(i) => JobId(*i as u64),
Value::String(s) => match s.parse::<u64>() {
Ok(i) => JobId(i),
Err(_) => return ExecResult::failure(1, format!("fg: invalid job id: {}", s)),
},
_ => return ExecResult::failure(1, "fg: job id must be a number"),
}
} else {
match manager.last_stopped().await {
Some(id) => id,
None => return ExecResult::failure(1, "fg: no stopped jobs"),
}
};
let (pid_raw, pgid_raw) = match manager.get_process_info(job_id).await {
Some(info) => info,
None => return ExecResult::failure(1, format!("fg: job {} not found or not stopped", job_id)),
};
let cmd = manager.get_command(job_id).await.unwrap_or_default();
let pid = nix::unistd::Pid::from_raw(pid_raw as i32);
let pgid = nix::unistd::Pid::from_raw(pgid_raw as i32);
if let Err(e) = term.give_terminal_to(pgid) {
return ExecResult::failure(1, format!("fg: failed to give terminal: {}", e));
}
manager.resume_job(job_id).await;
if let Err(e) = nix::sys::signal::killpg(pgid, nix::sys::signal::Signal::SIGCONT) {
let _ = term.reclaim_terminal();
return ExecResult::failure(1, format!("fg: failed to continue job: {}", e));
}
eprintln!("{}", cmd);
let jobs = manager.clone();
let term_clone = term.clone();
let code = tokio::task::block_in_place(move || {
let result = term_clone.wait_for_foreground(pid);
if let Err(e) = term_clone.reclaim_terminal() {
tracing::warn!("failed to reclaim terminal: {}", e);
}
match result {
crate::terminal::WaitResult::Exited(code) => {
let rt = tokio::runtime::Handle::current();
rt.block_on(jobs.remove(job_id));
code as i64
}
crate::terminal::WaitResult::Signaled(sig) => {
let rt = tokio::runtime::Handle::current();
rt.block_on(jobs.remove(job_id));
128 + sig as i64
}
crate::terminal::WaitResult::Stopped(_sig) => {
let rt = tokio::runtime::Handle::current();
rt.block_on(jobs.stop_job(job_id, pid_raw, pgid_raw));
eprintln!("\n[{}]+ Stopped\t{}", job_id, cmd);
148
}
}
});
ExecResult::from_output(code, String::new(), String::new())
}
}
}