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4a5f05c1361ecdb91b488fbd01e582ca8d711d1a
llmx/codex-rs/core/tests/suite/compact.rs
Jeremy Rose 4a5f05c136 make tests pass cleanly in sandbox (#4067) 
This changes the reqwest client used in tests to be sandbox-friendly,
and skips a bunch of other tests that don't work inside the
sandbox/without network.
2025-09-25 13:11:14 -07:00

831 lines
28 KiB
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use codex_core::CodexAuth;
use codex_core::ConversationManager;
use codex_core::ModelProviderInfo;
use codex_core::NewConversation;
use codex_core::built_in_model_providers;
use codex_core::protocol::ErrorEvent;
use codex_core::protocol::EventMsg;
use codex_core::protocol::InputItem;
use codex_core::protocol::Op;
use codex_core::protocol::RolloutItem;
use codex_core::protocol::RolloutLine;
use core_test_support::load_default_config_for_test;
use core_test_support::skip_if_no_network;
use core_test_support::wait_for_event;
use tempfile::TempDir;
use wiremock::Mock;
use wiremock::Request;
use wiremock::Respond;
use wiremock::ResponseTemplate;
use wiremock::matchers::method;
use wiremock::matchers::path;
use codex_core::codex::compact::SUMMARIZATION_PROMPT;
use core_test_support::responses::ev_assistant_message;
use core_test_support::responses::ev_completed;
use core_test_support::responses::ev_completed_with_tokens;
use core_test_support::responses::ev_function_call;
use core_test_support::responses::mount_sse_once;
use core_test_support::responses::sse;
use core_test_support::responses::sse_response;
use core_test_support::responses::start_mock_server;
use pretty_assertions::assert_eq;
use std::sync::Arc;
use std::sync::Mutex;
use std::sync::atomic::AtomicUsize;
use std::sync::atomic::Ordering;
// --- Test helpers -----------------------------------------------------------
pub(super) const FIRST_REPLY: &str = "FIRST_REPLY";
pub(super) const SUMMARY_TEXT: &str = "SUMMARY_ONLY_CONTEXT";
const THIRD_USER_MSG: &str = "next turn";
const AUTO_SUMMARY_TEXT: &str = "AUTO_SUMMARY";
const FIRST_AUTO_MSG: &str = "token limit start";
const SECOND_AUTO_MSG: &str = "token limit push";
const STILL_TOO_BIG_REPLY: &str = "STILL_TOO_BIG";
const MULTI_AUTO_MSG: &str = "multi auto";
const SECOND_LARGE_REPLY: &str = "SECOND_LARGE_REPLY";
const FIRST_AUTO_SUMMARY: &str = "FIRST_AUTO_SUMMARY";
const SECOND_AUTO_SUMMARY: &str = "SECOND_AUTO_SUMMARY";
const FINAL_REPLY: &str = "FINAL_REPLY";
const DUMMY_FUNCTION_NAME: &str = "unsupported_tool";
const DUMMY_CALL_ID: &str = "call-multi-auto";
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn summarize_context_three_requests_and_instructions() {
skip_if_no_network!();
// Set up a mock server that we can inspect after the run.
let server = start_mock_server().await;
// SSE 1: assistant replies normally so it is recorded in history.
let sse1 = sse(vec![
ev_assistant_message("m1", FIRST_REPLY),
ev_completed("r1"),
]);
// SSE 2: summarizer returns a summary message.
let sse2 = sse(vec![
ev_assistant_message("m2", SUMMARY_TEXT),
ev_completed("r2"),
]);
// SSE 3: minimal completed; we only need to capture the request body.
let sse3 = sse(vec![ev_completed("r3")]);
// Mount three expectations, one per request, matched by body content.
let first_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains("\"text\":\"hello world\"")
&& !body.contains("You have exceeded the maximum number of tokens")
};
mount_sse_once(&server, first_matcher, sse1).await;
let second_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains("You have exceeded the maximum number of tokens")
};
mount_sse_once(&server, second_matcher, sse2).await;
let third_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains(&format!("\"text\":\"{THIRD_USER_MSG}\""))
};
mount_sse_once(&server, third_matcher, sse3).await;
// Build config pointing to the mock server and spawn Codex.
let model_provider = ModelProviderInfo {
base_url: Some(format!("{}/v1", server.uri())),
..built_in_model_providers()["openai"].clone()
};
let home = TempDir::new().unwrap();
let mut config = load_default_config_for_test(&home);
config.model_provider = model_provider;
config.model_auto_compact_token_limit = Some(200_000);
let conversation_manager = ConversationManager::with_auth(CodexAuth::from_api_key("dummy"));
let NewConversation {
conversation: codex,
session_configured,
..
} = conversation_manager.new_conversation(config).await.unwrap();
let rollout_path = session_configured.rollout_path;
// 1) Normal user input should hit server once.
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: "hello world".into(),
}],
})
.await
.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
// 2) Summarize second hit should include the summarization prompt.
codex.submit(Op::Compact).await.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
// 3) Next user input third hit; history should include only the summary.
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: THIRD_USER_MSG.into(),
}],
})
.await
.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
// Inspect the three captured requests.
let requests = server.received_requests().await.unwrap();
assert_eq!(requests.len(), 3, "expected exactly three requests");
let req1 = &requests[0];
let req2 = &requests[1];
let req3 = &requests[2];
let body1 = req1.body_json::<serde_json::Value>().unwrap();
let body2 = req2.body_json::<serde_json::Value>().unwrap();
let body3 = req3.body_json::<serde_json::Value>().unwrap();
// Manual compact should keep the baseline developer instructions.
let instr1 = body1.get("instructions").and_then(|v| v.as_str()).unwrap();
let instr2 = body2.get("instructions").and_then(|v| v.as_str()).unwrap();
assert_eq!(
instr1, instr2,
"manual compact should keep the standard developer instructions"
);
// The summarization request should include the injected user input marker.
let input2 = body2.get("input").and_then(|v| v.as_array()).unwrap();
// The last item is the user message created from the injected input.
let last2 = input2.last().unwrap();
assert_eq!(last2.get("type").unwrap().as_str().unwrap(), "message");
assert_eq!(last2.get("role").unwrap().as_str().unwrap(), "user");
let text2 = last2["content"][0]["text"].as_str().unwrap();
assert_eq!(
text2, SUMMARIZATION_PROMPT,
"expected summarize trigger, got `{text2}`"
);
// Third request must contain the refreshed instructions, bridge summary message and new user msg.
let input3 = body3.get("input").and_then(|v| v.as_array()).unwrap();
assert!(
input3.len() >= 3,
"expected refreshed context and new user message in third request"
);
// Collect all (role, text) message tuples.
let mut messages: Vec<(String, String)> = Vec::new();
for item in input3 {
if item["type"].as_str() == Some("message") {
let role = item["role"].as_str().unwrap_or_default().to_string();
let text = item["content"][0]["text"]
.as_str()
.unwrap_or_default()
.to_string();
messages.push((role, text));
}
}
// No previous assistant messages should remain and the new user message is present.
let assistant_count = messages.iter().filter(|(r, _)| r == "assistant").count();
assert_eq!(assistant_count, 0, "assistant history should be cleared");
assert!(
messages
.iter()
.any(|(r, t)| r == "user" && t == THIRD_USER_MSG),
"third request should include the new user message"
);
let Some((_, bridge_text)) = messages.iter().find(|(role, text)| {
role == "user"
&& (text.contains("Here were the user messages")
|| text.contains("Here are all the user messages"))
&& text.contains(SUMMARY_TEXT)
}) else {
panic!("expected a bridge message containing the summary");
};
assert!(
bridge_text.contains("hello world"),
"bridge should capture earlier user messages"
);
assert!(
!bridge_text.contains(SUMMARIZATION_PROMPT),
"bridge text should not echo the summarize trigger"
);
assert!(
!messages
.iter()
.any(|(_, text)| text.contains(SUMMARIZATION_PROMPT)),
"third request should not include the summarize trigger"
);
// Shut down Codex to flush rollout entries before inspecting the file.
codex.submit(Op::Shutdown).await.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::ShutdownComplete)).await;
// Verify rollout contains APITurn entries for each API call and a Compacted entry.
println!("rollout path: {}", rollout_path.display());
let text = std::fs::read_to_string(&rollout_path).unwrap_or_else(|e| {
panic!(
"failed to read rollout file {}: {e}",
rollout_path.display()
)
});
let mut api_turn_count = 0usize;
let mut saw_compacted_summary = false;
for line in text.lines() {
let trimmed = line.trim();
if trimmed.is_empty() {
continue;
}
let Ok(entry): Result<RolloutLine, _> = serde_json::from_str(trimmed) else {
continue;
};
match entry.item {
RolloutItem::TurnContext(_) => {
api_turn_count += 1;
}
RolloutItem::Compacted(ci) => {
if ci.message == SUMMARY_TEXT {
saw_compacted_summary = true;
}
}
_ => {}
}
}
assert!(
api_turn_count == 3,
"expected three APITurn entries in rollout"
);
assert!(
saw_compacted_summary,
"expected a Compacted entry containing the summarizer output"
);
}
// Windows CI only: bump to 4 workers to prevent SSE/event starvation and test timeouts.
#[cfg_attr(windows, tokio::test(flavor = "multi_thread", worker_threads = 4))]
#[cfg_attr(not(windows), tokio::test(flavor = "multi_thread", worker_threads = 2))]
async fn auto_compact_runs_after_token_limit_hit() {
skip_if_no_network!();
let server = start_mock_server().await;
let sse1 = sse(vec![
ev_assistant_message("m1", FIRST_REPLY),
ev_completed_with_tokens("r1", 70_000),
]);
let sse2 = sse(vec![
ev_assistant_message("m2", "SECOND_REPLY"),
ev_completed_with_tokens("r2", 330_000),
]);
let sse3 = sse(vec![
ev_assistant_message("m3", AUTO_SUMMARY_TEXT),
ev_completed_with_tokens("r3", 200),
]);
let first_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains(FIRST_AUTO_MSG)
&& !body.contains(SECOND_AUTO_MSG)
&& !body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(first_matcher)
.respond_with(sse_response(sse1))
.mount(&server)
.await;
let second_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains(SECOND_AUTO_MSG)
&& body.contains(FIRST_AUTO_MSG)
&& !body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(second_matcher)
.respond_with(sse_response(sse2))
.mount(&server)
.await;
let third_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(third_matcher)
.respond_with(sse_response(sse3))
.mount(&server)
.await;
let model_provider = ModelProviderInfo {
base_url: Some(format!("{}/v1", server.uri())),
..built_in_model_providers()["openai"].clone()
};
let home = TempDir::new().unwrap();
let mut config = load_default_config_for_test(&home);
config.model_provider = model_provider;
config.model_auto_compact_token_limit = Some(200_000);
let conversation_manager = ConversationManager::with_auth(CodexAuth::from_api_key("dummy"));
let codex = conversation_manager
.new_conversation(config)
.await
.unwrap()
.conversation;
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: FIRST_AUTO_MSG.into(),
}],
})
.await
.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: SECOND_AUTO_MSG.into(),
}],
})
.await
.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
// wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
let requests = server.received_requests().await.unwrap();
assert!(
requests.len() >= 3,
"auto compact should add at least a third request, got {}",
requests.len()
);
let is_auto_compact = |req: &wiremock::Request| {
std::str::from_utf8(&req.body)
.unwrap_or("")
.contains("You have exceeded the maximum number of tokens")
};
let auto_compact_count = requests.iter().filter(|req| is_auto_compact(req)).count();
assert_eq!(
auto_compact_count, 1,
"expected exactly one auto compact request"
);
let auto_compact_index = requests
.iter()
.enumerate()
.find_map(|(idx, req)| is_auto_compact(req).then_some(idx))
.expect("auto compact request missing");
assert_eq!(
auto_compact_index, 2,
"auto compact should add a third request"
);
let body_first = requests[0].body_json::<serde_json::Value>().unwrap();
let body3 = requests[auto_compact_index]
.body_json::<serde_json::Value>()
.unwrap();
let instructions = body3
.get("instructions")
.and_then(|v| v.as_str())
.unwrap_or_default();
let baseline_instructions = body_first
.get("instructions")
.and_then(|v| v.as_str())
.unwrap_or_default()
.to_string();
assert_eq!(
instructions, baseline_instructions,
"auto compact should keep the standard developer instructions",
);
let input3 = body3.get("input").and_then(|v| v.as_array()).unwrap();
let last3 = input3
.last()
.expect("auto compact request should append a user message");
assert_eq!(last3.get("type").and_then(|v| v.as_str()), Some("message"));
assert_eq!(last3.get("role").and_then(|v| v.as_str()), Some("user"));
let last_text = last3
.get("content")
.and_then(|v| v.as_array())
.and_then(|items| items.first())
.and_then(|item| item.get("text"))
.and_then(|text| text.as_str())
.unwrap_or_default();
assert_eq!(
last_text, SUMMARIZATION_PROMPT,
"auto compact should send the summarization prompt as a user message",
);
}
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn auto_compact_persists_rollout_entries() {
skip_if_no_network!();
let server = start_mock_server().await;
let sse1 = sse(vec![
ev_assistant_message("m1", FIRST_REPLY),
ev_completed_with_tokens("r1", 70_000),
]);
let sse2 = sse(vec![
ev_assistant_message("m2", "SECOND_REPLY"),
ev_completed_with_tokens("r2", 330_000),
]);
let sse3 = sse(vec![
ev_assistant_message("m3", AUTO_SUMMARY_TEXT),
ev_completed_with_tokens("r3", 200),
]);
let first_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains(FIRST_AUTO_MSG)
&& !body.contains(SECOND_AUTO_MSG)
&& !body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(first_matcher)
.respond_with(sse_response(sse1))
.mount(&server)
.await;
let second_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains(SECOND_AUTO_MSG)
&& body.contains(FIRST_AUTO_MSG)
&& !body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(second_matcher)
.respond_with(sse_response(sse2))
.mount(&server)
.await;
let third_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(third_matcher)
.respond_with(sse_response(sse3))
.mount(&server)
.await;
let model_provider = ModelProviderInfo {
base_url: Some(format!("{}/v1", server.uri())),
..built_in_model_providers()["openai"].clone()
};
let home = TempDir::new().unwrap();
let mut config = load_default_config_for_test(&home);
config.model_provider = model_provider;
let conversation_manager = ConversationManager::with_auth(CodexAuth::from_api_key("dummy"));
let NewConversation {
conversation: codex,
session_configured,
..
} = conversation_manager.new_conversation(config).await.unwrap();
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: FIRST_AUTO_MSG.into(),
}],
})
.await
.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: SECOND_AUTO_MSG.into(),
}],
})
.await
.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
codex.submit(Op::Shutdown).await.unwrap();
wait_for_event(&codex, |ev| matches!(ev, EventMsg::ShutdownComplete)).await;
let rollout_path = session_configured.rollout_path;
let text = std::fs::read_to_string(&rollout_path).unwrap_or_else(|e| {
panic!(
"failed to read rollout file {}: {e}",
rollout_path.display()
)
});
let mut turn_context_count = 0usize;
for line in text.lines() {
let trimmed = line.trim();
if trimmed.is_empty() {
continue;
}
let Ok(entry): Result<RolloutLine, _> = serde_json::from_str(trimmed) else {
continue;
};
match entry.item {
RolloutItem::TurnContext(_) => {
turn_context_count += 1;
}
RolloutItem::Compacted(_) => {}
_ => {}
}
}
assert!(
turn_context_count >= 2,
"expected at least two turn context entries, got {turn_context_count}"
);
}
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn auto_compact_stops_after_failed_attempt() {
skip_if_no_network!();
let server = start_mock_server().await;
let sse1 = sse(vec![
ev_assistant_message("m1", FIRST_REPLY),
ev_completed_with_tokens("r1", 500),
]);
let sse2 = sse(vec![
ev_assistant_message("m2", SUMMARY_TEXT),
ev_completed_with_tokens("r2", 50),
]);
let sse3 = sse(vec![
ev_assistant_message("m3", STILL_TOO_BIG_REPLY),
ev_completed_with_tokens("r3", 500),
]);
let first_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains(FIRST_AUTO_MSG)
&& !body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(first_matcher)
.respond_with(sse_response(sse1.clone()))
.mount(&server)
.await;
let second_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
body.contains("You have exceeded the maximum number of tokens")
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(second_matcher)
.respond_with(sse_response(sse2.clone()))
.mount(&server)
.await;
let third_matcher = |req: &wiremock::Request| {
let body = std::str::from_utf8(&req.body).unwrap_or("");
!body.contains("You have exceeded the maximum number of tokens")
&& body.contains(SUMMARY_TEXT)
};
Mock::given(method("POST"))
.and(path("/v1/responses"))
.and(third_matcher)
.respond_with(sse_response(sse3.clone()))
.mount(&server)
.await;
let model_provider = ModelProviderInfo {
base_url: Some(format!("{}/v1", server.uri())),
..built_in_model_providers()["openai"].clone()
};
let home = TempDir::new().unwrap();
let mut config = load_default_config_for_test(&home);
config.model_provider = model_provider;
config.model_auto_compact_token_limit = Some(200);
let conversation_manager = ConversationManager::with_auth(CodexAuth::from_api_key("dummy"));
let codex = conversation_manager
.new_conversation(config)
.await
.unwrap()
.conversation;
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: FIRST_AUTO_MSG.into(),
}],
})
.await
.unwrap();
let error_event = wait_for_event(&codex, |ev| matches!(ev, EventMsg::Error(_))).await;
let EventMsg::Error(ErrorEvent { message }) = error_event else {
panic!("expected error event");
};
assert!(
message.contains("limit"),
"error message should include limit information: {message}"
);
wait_for_event(&codex, |ev| matches!(ev, EventMsg::TaskComplete(_))).await;
let requests = server.received_requests().await.unwrap();
assert_eq!(
requests.len(),
3,
"auto compact should attempt at most one summarization before erroring"
);
let last_body = requests[2].body_json::<serde_json::Value>().unwrap();
let input = last_body
.get("input")
.and_then(|v| v.as_array())
.unwrap_or_else(|| panic!("unexpected request format: {last_body}"));
let contains_prompt = input.iter().any(|item| {
item.get("type").and_then(|v| v.as_str()) == Some("message")
&& item.get("role").and_then(|v| v.as_str()) == Some("user")
&& item
.get("content")
.and_then(|v| v.as_array())
.and_then(|items| items.first())
.and_then(|entry| entry.get("text"))
.and_then(|text| text.as_str())
.map(|text| text == SUMMARIZATION_PROMPT)
.unwrap_or(false)
});
assert!(
!contains_prompt,
"third request should be the follow-up turn, not another summarization",
);
}
#[tokio::test(flavor = "multi_thread", worker_threads = 2)]
async fn auto_compact_allows_multiple_attempts_when_interleaved_with_other_turn_events() {
skip_if_no_network!();
let server = start_mock_server().await;
let sse1 = sse(vec![
ev_assistant_message("m1", FIRST_REPLY),
ev_completed_with_tokens("r1", 500),
]);
let sse2 = sse(vec![
ev_assistant_message("m2", FIRST_AUTO_SUMMARY),
ev_completed_with_tokens("r2", 50),
]);
let sse3 = sse(vec![
ev_function_call(DUMMY_CALL_ID, DUMMY_FUNCTION_NAME, "{}"),
ev_completed_with_tokens("r3", 150),
]);
let sse4 = sse(vec![
ev_assistant_message("m4", SECOND_LARGE_REPLY),
ev_completed_with_tokens("r4", 450),
]);
let sse5 = sse(vec![
ev_assistant_message("m5", SECOND_AUTO_SUMMARY),
ev_completed_with_tokens("r5", 60),
]);
let sse6 = sse(vec![
ev_assistant_message("m6", FINAL_REPLY),
ev_completed_with_tokens("r6", 120),
]);
#[derive(Clone)]
struct SeqResponder {
bodies: Arc<Vec<String>>,
calls: Arc<AtomicUsize>,
requests: Arc<Mutex<Vec<Vec<u8>>>>,
}
impl SeqResponder {
fn new(bodies: Vec<String>) -> Self {
Self {
bodies: Arc::new(bodies),
calls: Arc::new(AtomicUsize::new(0)),
requests: Arc::new(Mutex::new(Vec::new())),
}
}
fn recorded_requests(&self) -> Vec<Vec<u8>> {
self.requests.lock().unwrap().clone()
}
}
impl Respond for SeqResponder {
fn respond(&self, req: &Request) -> ResponseTemplate {
let idx = self.calls.fetch_add(1, Ordering::SeqCst);
self.requests.lock().unwrap().push(req.body.clone());
let body = self
.bodies
.get(idx)
.unwrap_or_else(|| panic!("unexpected request index {idx}"))
.clone();
ResponseTemplate::new(200)
.insert_header("content-type", "text/event-stream")
.set_body_raw(body, "text/event-stream")
}
}
let responder = SeqResponder::new(vec![sse1, sse2, sse3, sse4, sse5, sse6]);
Mock::given(method("POST"))
.and(path("/v1/responses"))
.respond_with(responder.clone())
.expect(6)
.mount(&server)
.await;
let model_provider = ModelProviderInfo {
base_url: Some(format!("{}/v1", server.uri())),
..built_in_model_providers()["openai"].clone()
};
let home = TempDir::new().unwrap();
let mut config = load_default_config_for_test(&home);
config.model_provider = model_provider;
config.model_auto_compact_token_limit = Some(200);
let conversation_manager = ConversationManager::with_auth(CodexAuth::from_api_key("dummy"));
let codex = conversation_manager
.new_conversation(config)
.await
.unwrap()
.conversation;
codex
.submit(Op::UserInput {
items: vec![InputItem::Text {
text: MULTI_AUTO_MSG.into(),
}],
})
.await
.unwrap();
let mut auto_compact_lifecycle_events = Vec::new();
loop {
let event = codex.next_event().await.unwrap();
if event.id.starts_with("auto-compact-")
&& matches!(
event.msg,
EventMsg::TaskStarted(_) | EventMsg::TaskComplete(_)
)
{
auto_compact_lifecycle_events.push(event);
continue;
}
if let EventMsg::TaskComplete(_) = &event.msg
&& !event.id.starts_with("auto-compact-")
{
break;
}
}
assert!(
auto_compact_lifecycle_events.is_empty(),
"auto compact should not emit task lifecycle events"
);
let request_bodies: Vec<String> = responder
.recorded_requests()
.into_iter()
.map(|body| String::from_utf8(body).unwrap_or_default())
.collect();
assert_eq!(
request_bodies.len(),
6,
"expected six requests including two auto compactions"
);
assert!(
request_bodies[0].contains(MULTI_AUTO_MSG),
"first request should contain the user input"
);
assert!(
request_bodies[1].contains("You have exceeded the maximum number of tokens"),
"first auto compact request should include the summarization prompt"
);
assert!(
request_bodies[3].contains(&format!("unsupported call: {DUMMY_FUNCTION_NAME}")),
"function call output should be sent before the second auto compact"
);
assert!(
request_bodies[4].contains("You have exceeded the maximum number of tokens"),
"second auto compact request should include the summarization prompt"
);
}
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