use async_trait::async_trait;
use clap::{CommandFactory, Parser};
use crate::interpreter::{ExecResult, OutputData, OutputNode};
use crate::tools::{schema_from_clap, ExecContext, ToolCtx, GlobalFlags, Tool, ToolArgs, ToolSchema};
pub struct Jobs;
#[derive(Parser, Debug)]
#[command(name = "jobs", about = "List and manage background jobs")]
struct JobsArgs {
#[arg(long = "cleanup")]
cleanup: bool,
#[command(flatten)]
global: GlobalFlags,
}
#[async_trait]
impl Tool for Jobs {
fn name(&self) -> &str {
"jobs"
}
fn schema(&self) -> ToolSchema {
schema_from_clap(
&JobsArgs::command(),
"jobs",
"List and manage background jobs",
[
("List background jobs", "jobs"),
("Clean up completed jobs", "jobs --cleanup"),
],
)
}
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 JobsArgs::try_parse_from(
std::iter::once("jobs".to_string()).chain(args.to_argv()),
) {
Ok(p) => p,
Err(e) => return ExecResult::failure(2, format!("jobs: {e}")),
};
parsed.global.apply(ctx);
let manager = match &ctx.job_manager {
Some(m) => m,
None => return ExecResult::with_output(OutputData::text("(no job manager)")),
};
if parsed.cleanup {
let before = manager.list().await.len();
manager.cleanup().await;
let after = manager.list().await.len();
let removed = before - after;
return ExecResult::with_output(OutputData::text(format!("Cleaned up {} completed job(s)\n", removed)));
}
let jobs = manager.list().await;
if jobs.is_empty() {
return ExecResult::with_output(OutputData::text("(no jobs)\n"));
}
let nodes: Vec<OutputNode> = jobs.iter().map(|job| {
OutputNode::new(job.id.to_string())
.with_cells(vec![
job.status.to_string(),
job.command.clone(),
format!("/v/jobs/{}/", job.id),
])
}).collect();
let headers = vec![
"ID".to_string(),
"STATUS".to_string(),
"COMMAND".to_string(),
"PATH".to_string(),
];
let output = OutputData::table(headers, nodes);
let mut text = String::new();
for job in jobs {
text.push_str(&format!(
"[{}] {} {} /v/jobs/{}/\n",
job.id, job.status, job.command, job.id
));
}
ExecResult::with_output_and_text(output, text)
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::scheduler::JobManager;
use crate::vfs::{MemoryFs, VfsRouter};
use std::sync::Arc;
use std::time::Duration;
fn make_ctx() -> ExecContext {
let mut vfs = VfsRouter::new();
vfs.mount("/", MemoryFs::new());
ExecContext::new(Arc::new(vfs))
}
#[tokio::test]
async fn test_jobs_no_manager() {
let mut ctx = make_ctx();
let result = Jobs.execute(ToolArgs::new(), &mut ctx).await;
assert!(result.ok());
assert!(result.text_out().contains("no job manager"));
}
#[tokio::test]
async fn test_jobs_empty() {
let mut ctx = make_ctx();
ctx.set_job_manager(Arc::new(JobManager::new()));
let result = Jobs.execute(ToolArgs::new(), &mut ctx).await;
assert!(result.ok());
assert!(result.text_out().contains("no jobs"));
}
#[tokio::test]
async fn test_jobs_with_running() {
let mut ctx = make_ctx();
let manager = Arc::new(JobManager::new());
ctx.set_job_manager(manager.clone());
manager.spawn("test command".to_string(), async {
tokio::time::sleep(Duration::from_millis(100)).await;
ExecResult::success("")
});
tokio::time::sleep(Duration::from_millis(10)).await;
let result = Jobs.execute(ToolArgs::new(), &mut ctx).await;
assert!(result.ok());
assert!(result.text_out().contains("[1]"));
assert!(result.text_out().contains("test command"));
assert!(result.text_out().contains("Running"));
assert!(result.text_out().contains("/v/jobs/1/"));
}
#[tokio::test]
async fn test_jobs_cleanup() {
let mut ctx = make_ctx();
let manager = Arc::new(JobManager::new());
ctx.set_job_manager(manager.clone());
let id = manager.spawn("quick job".to_string(), async {
ExecResult::success("")
});
tokio::time::sleep(Duration::from_millis(10)).await;
let _ = manager.wait(id).await;
assert_eq!(manager.list().await.len(), 1);
let mut args = ToolArgs::new();
args.flags.insert("cleanup".to_string());
let result = Jobs.execute(args, &mut ctx).await;
assert!(result.ok());
assert!(result.text_out().contains("Cleaned up 1 completed job"));
assert_eq!(manager.list().await.len(), 0);
}
#[tokio::test]
async fn test_jobs_cleanup_preserves_running() {
let mut ctx = make_ctx();
let manager = Arc::new(JobManager::new());
ctx.set_job_manager(manager.clone());
manager.spawn("long job".to_string(), async {
tokio::time::sleep(Duration::from_secs(10)).await;
ExecResult::success("")
});
tokio::time::sleep(Duration::from_millis(10)).await;
let mut args = ToolArgs::new();
args.flags.insert("cleanup".to_string());
let result = Jobs.execute(args, &mut ctx).await;
assert!(result.ok());
assert!(result.text_out().contains("Cleaned up 0 completed job"));
assert_eq!(manager.list().await.len(), 1);
}
}