codex/codex-rs/core/tests/suite/timers.rs

use anyhow::Result;
use anyhow::anyhow;
use chrono::Utc;
use codex_core::injected_message::MessagePayload;
use codex_core::timers::TIMER_FIRED_BACKGROUND_EVENT_PREFIX;
use codex_core::timers::ThreadTimer;
use codex_core::timers::ThreadTimerTrigger;
use codex_core::timers::TimerDelivery;
use codex_features::Feature;
use codex_protocol::protocol::EventMsg;
use codex_protocol::protocol::Op;
use core_test_support::responses::ResponseMock;
use core_test_support::responses::ResponsesRequest;
use core_test_support::responses::ev_assistant_message;
use core_test_support::responses::ev_completed;
use core_test_support::responses::ev_response_created;
use core_test_support::responses::mount_sse_once;
use core_test_support::responses::mount_sse_sequence;
use core_test_support::responses::sse;
use core_test_support::responses::start_mock_server;
use core_test_support::test_codex::test_codex;
use core_test_support::wait_for_event;
use core_test_support::wait_for_event_with_timeout;
use pretty_assertions::assert_eq;
use std::time::Duration;

const TIMER_INTEGRATION_TIMEOUT: Duration = Duration::from_secs(60);

#[cfg_attr(
    target_os = "windows",
    ignore = "timer/message integration tests currently exceed the Windows Bazel job timeout"
)]
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn create_timer_emits_fired_background_event_when_timer_starts() -> Result<()> {
    assert_after_turn_timer_starts_and_emits_fired_event().await
}

#[cfg_attr(
    target_os = "windows",
    ignore = "timer/message integration tests currently exceed the Windows Bazel job timeout"
)]
#[tokio::test(flavor = "current_thread")]
async fn create_timer_starts_on_current_thread_runtime() -> Result<()> {
    assert_after_turn_timer_starts_and_emits_fired_event().await
}

async fn assert_after_turn_timer_starts_and_emits_fired_event() -> Result<()> {
    let server = start_mock_server().await;
    let mock = mount_sse_once(
        &server,
        sse(vec![
            ev_response_created("resp-1"),
            ev_assistant_message("msg-1", "timer ran"),
            ev_completed("resp-1"),
        ]),
    )
    .await;

    let mut builder = test_codex().with_config(|config| {
        config
            .features
            .enable(Feature::Timers)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
        config
            .features
            .enable(Feature::Sqlite)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
    });
    let test = builder.build(&server).await?;

    let created = test
        .codex
        .create_timer(
            ThreadTimerTrigger::Delay {
                seconds: 0,
                repeat: None,
            },
            MessagePayload {
                content: "run timer".to_string(),
                instructions: None,
                meta: Default::default(),
            },
            TimerDelivery::AfterTurn,
        )
        .await
        .map_err(|err| anyhow!("{err}"))?;

    let payload = wait_for_event_with_timeout(
        &test.codex,
        |event| match event {
            EventMsg::BackgroundEvent(event) => event
                .message
                .strip_prefix(TIMER_FIRED_BACKGROUND_EVENT_PREFIX)
                .is_some(),
            _ => false,
        },
        TIMER_INTEGRATION_TIMEOUT,
    )
    .await;
    let EventMsg::BackgroundEvent(event) = payload else {
        unreachable!("event predicate only matches timer fired background events");
    };
    let payload = event
        .message
        .strip_prefix(TIMER_FIRED_BACKGROUND_EVENT_PREFIX)
        .ok_or_else(|| anyhow!("timer fired event prefix missing"))?;
    let fired: ThreadTimer = serde_json::from_str(payload)?;
    assert_eq!(fired, created);

    wait_for_event_with_timeout(
        &test.codex,
        |event| matches!(event, EventMsg::TurnComplete(_)),
        TIMER_INTEGRATION_TIMEOUT,
    )
    .await;

    let user_messages = mock.single_request().message_input_texts("user");
    let timer_messages = user_messages
        .iter()
        .filter(|message| message.contains("<timer_message>"))
        .collect::<Vec<_>>();
    assert_eq!(timer_messages.len(), 1);
    let timer_message = timer_messages[0];
    assert!(timer_message.contains(&format!("<timer_id>{}</timer_id>", created.id)));
    assert!(timer_message.contains("<content>\nTimer fired: run timer\n</content>"));
    assert!(timer_message.contains("<instructions>\nrun timer\n\nThis one-shot timer"));

    Ok(())
}

#[cfg_attr(
    target_os = "windows",
    ignore = "timer/message integration tests currently exceed the Windows Bazel job timeout"
)]
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn create_timer_persists_source_and_client_metadata() -> Result<()> {
    let server = start_mock_server().await;
    let mut builder = test_codex().with_config(|config| {
        config
            .features
            .enable(Feature::Timers)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
        config
            .features
            .enable(Feature::Sqlite)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
    });
    let test = builder.build(&server).await?;

    let created = test
        .codex
        .create_timer(
            ThreadTimerTrigger::Delay {
                seconds: 60,
                repeat: Some(true),
            },
            MessagePayload {
                content: "run timer".to_string(),
                instructions: None,
                meta: Default::default(),
            },
            TimerDelivery::AfterTurn,
        )
        .await
        .map_err(|err| anyhow!("{err}"))?;

    let db = test.codex.state_db().expect("state db enabled");
    let timers = db
        .list_thread_timers(&test.session_configured.session_id.to_string())
        .await?;

    assert_eq!(timers.len(), 1);
    assert_eq!(timers[0].id, created.id);
    assert_eq!(timers[0].source, "agent");
    assert_eq!(timers[0].client_id, "codex-cli");

    Ok(())
}

#[cfg_attr(
    target_os = "windows",
    ignore = "timer/message integration tests currently exceed the Windows Bazel job timeout"
)]
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn create_timer_rejects_ephemeral_thread() -> Result<()> {
    let server = start_mock_server().await;
    let mut builder = test_codex().with_config(|config| {
        config.ephemeral = true;
        config
            .features
            .enable(Feature::Timers)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
    });
    let test = builder.build(&server).await?;

    let err = test
        .codex
        .create_timer(
            ThreadTimerTrigger::Delay {
                seconds: 60,
                repeat: Some(true),
            },
            MessagePayload {
                content: "run timer".to_string(),
                instructions: None,
                meta: Default::default(),
            },
            TimerDelivery::AfterTurn,
        )
        .await
        .expect_err("ephemeral sessions should not create durable timers");

    assert!(err.contains("timer storage is unavailable for ephemeral sessions"));
    assert!(test.codex.state_db().is_none());

    Ok(())
}

#[cfg_attr(
    target_os = "windows",
    ignore = "timer/message integration tests currently exceed the Windows Bazel job timeout"
)]
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn resume_due_timer_runs_after_history_reconstruction() -> Result<()> {
    let server = start_mock_server().await;
    let mock = mount_sse_sequence(
        &server,
        vec![
            sse(vec![
                ev_response_created("resp-1"),
                ev_assistant_message("msg-1", "recorded before resume"),
                ev_completed("resp-1"),
            ]),
            sse(vec![
                ev_response_created("resp-2"),
                ev_assistant_message("msg-2", "timer after resume"),
                ev_completed("resp-2"),
            ]),
        ],
    )
    .await;

    let mut builder = test_codex().with_config(|config| {
        config
            .features
            .enable(Feature::Timers)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
        config
            .features
            .enable(Feature::Sqlite)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
    });
    let initial = builder.build(&server).await?;
    initial.submit_turn("context before resume").await?;

    let db = initial.codex.state_db().expect("state db enabled");
    let home = initial.home.clone();
    let rollout_path = initial
        .codex
        .rollout_path()
        .expect("rollout path should be materialized");
    let thread_id = initial.session_configured.session_id.to_string();

    initial.codex.submit(Op::Shutdown).await?;
    wait_for_event(&initial.codex, |event| {
        matches!(event, EventMsg::ShutdownComplete)
    })
    .await;

    let now = Utc::now().timestamp();
    db.create_thread_timer(&codex_state::ThreadTimerCreateParams {
        id: "resume-due-timer".to_string(),
        thread_id,
        source: "external".to_string(),
        client_id: "codex-test".to_string(),
        trigger_json: r#"{"kind":"delay","seconds":0,"repeat":false}"#.to_string(),
        content: "resume timer".to_string(),
        instructions: None,
        meta_json: "{}".to_string(),
        delivery: TimerDelivery::AfterTurn.as_str().to_string(),
        created_at: now - 10,
        next_run_at: Some(now - 1),
        last_run_at: None,
        pending_run: false,
    })
    .await?;

    let mut resume_builder = test_codex().with_config(|config| {
        config
            .features
            .enable(Feature::Timers)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
        config
            .features
            .enable(Feature::Sqlite)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
    });
    let _resumed = resume_builder.resume(&server, home, rollout_path).await?;

    let resumed_request = wait_for_request_containing(&mock, "Timer fired: resume timer").await;
    assert!(resumed_request.body_contains_text("context before resume"));
    assert!(resumed_request.body_contains_text("recorded before resume"));

    Ok(())
}

async fn wait_for_request_containing(mock: &ResponseMock, text: &str) -> ResponsesRequest {
    tokio::time::timeout(TIMER_INTEGRATION_TIMEOUT, async {
        loop {
            if let Some(request) = mock
                .requests()
                .into_iter()
                .find(|request| request.body_contains_text(text))
            {
                return request;
            }
            tokio::time::sleep(Duration::from_millis(50)).await;
        }
    })
    .await
    .unwrap_or_else(|_| panic!("timed out waiting for request containing {text:?}"))
}

#[cfg_attr(
    target_os = "windows",
    ignore = "timer/message integration tests currently exceed the Windows Bazel job timeout"
)]
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn list_timers_discovers_externally_inserted_timer() -> Result<()> {
    let server = start_mock_server().await;
    let mut builder = test_codex().with_config(|config| {
        config
            .features
            .enable(Feature::Timers)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
        config
            .features
            .enable(Feature::Sqlite)
            .unwrap_or_else(|err| panic!("test config should allow feature update: {err}"));
    });
    let test = builder.build(&server).await?;
    let db = test.codex.state_db().expect("state db enabled");
    let created_at = Utc::now().timestamp();

    db.create_thread_timer(&codex_state::ThreadTimerCreateParams {
        id: "external-timer".to_string(),
        thread_id: test.session_configured.session_id.to_string(),
        source: "client".to_string(),
        client_id: "external-client".to_string(),
        trigger_json: r#"{"kind":"delay","seconds":60,"repeat":true}"#.to_string(),
        content: "external timer".to_string(),
        instructions: None,
        meta_json: "{}".to_string(),
        delivery: "after-turn".to_string(),
        created_at,
        next_run_at: Some(created_at + 60),
        last_run_at: None,
        pending_run: false,
    })
    .await?;

    let timers = test.codex.list_timers().await;

    assert_eq!(timers.len(), 1);
    assert_eq!(timers[0].id, "external-timer");
    assert_eq!(
        timers[0].trigger,
        ThreadTimerTrigger::Delay {
            seconds: 60,
            repeat: Some(true),
        }
    );
    assert_eq!(timers[0].content, "external timer");
    assert_eq!(timers[0].delivery, TimerDelivery::AfterTurn);
    assert_eq!(timers[0].created_at, created_at);
    assert_eq!(timers[0].last_run_at, None);

    Ok(())
}