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55349845d0
stemedb/crates/stemedb-api/tests/e2e_lens_resolution.rs
jordan 55349845d0 refactor: Split all files to enforce 500-line max 
Break monolith source files into focused modules:
- stemedb-core/types.rs → types/ directory (assertion, source, gold_standard, etc.)
- stemedb-storage: audit_store, quota_store, trust_rank_store, vector_index, vote_store → module directories
- stemedb-ingest/worker.rs → worker/ with separate test modules
- stemedb-query: engine, materializer, query → module directories
- stemedb-lens: epoch_aware, skeptic → module directories
- stemedb-sim/lib.rs → agent, arenas/, helpers, runner, strategy, types
- stemedb-api/tests: integration_tests → http_basic, http_validation, http_epoch, http_pipeline
- stemedb-api/tests: e2e_flow_test → e2e_full_pipeline, e2e_lens_resolution
- stemedb-query/tests: e2e_pipeline → e2e_pipeline + e2e_decay

Also adds new features: gold standard verification, escalation handlers,
admin endpoints, concept hierarchy spec, arena roadmap, and Go SDK.

Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
2026-02-02 01:13:45 -07:00

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//! End-to-end tests for lens resolution behavior.
//!
//! These tests verify:
//! - Queries without a lens return all candidate assertions
//! - Recency lens picks the most recent assertion based on timestamp
//! - Empty queries return proper empty results
#![allow(clippy::expect_used)]
mod common;
use axum::{
body::Body,
http::{Request, StatusCode},
};
use ed25519_dalek::{Signer, SigningKey};
use rand::rngs::OsRng;
use serde_json::json;
use std::sync::Arc;
use tokio::sync::{Mutex, Notify};
use tower::ServiceExt;
use stemedb_api::{create_router, AppState};
use stemedb_ingest::worker::IngestWorker;
use stemedb_storage::SledStore;
use stemedb_wal::Journal;
// Test configuration constants
const INGEST_ITERATIONS: usize = 10;
/// Test environment that keeps temp directories alive.
struct TestEnvironment {
_temp_dir: tempfile::TempDir,
state: AppState,
store: Arc<SledStore>,
journal: Arc<Mutex<Journal>>,
}
/// Helper to create a test environment with temporary directories.
async fn create_test_environment() -> TestEnvironment {
let temp_dir = tempfile::tempdir().expect("Failed to create temp dir");
let wal_dir = temp_dir.path().join("wal");
let db_dir = temp_dir.path().join("db");
std::fs::create_dir_all(&wal_dir).expect("Failed to create WAL dir");
std::fs::create_dir_all(&db_dir).expect("Failed to create DB dir");
let journal = Journal::open(&wal_dir).expect("Failed to open journal");
let store = SledStore::open(&db_dir).expect("Failed to open store");
let journal_arc = Arc::new(Mutex::new(journal));
let store_arc = Arc::new(store);
// Open a second journal handle for AppState (WAL supports multiple readers)
let journal_for_state = Journal::open(&wal_dir).expect("Failed to open second journal handle");
let state = AppState::new(journal_for_state, (*store_arc).clone());
TestEnvironment { _temp_dir: temp_dir, state, store: store_arc, journal: journal_arc }
}
/// Sign a message using Ed25519 and return the signature + public key.
fn sign_message(message: &str) -> ([u8; 32], [u8; 64]) {
let mut csprng = OsRng;
let signing_key = SigningKey::generate(&mut csprng);
let verifying_key = signing_key.verifying_key();
let signature = signing_key.sign(message.as_bytes());
(verifying_key.to_bytes(), signature.to_bytes())
}
#[tokio::test]
async fn test_e2e_query_with_no_lens_returns_all_candidates() {
// ========================================================================
// Setup
// ========================================================================
let env = create_test_environment().await;
let state = env.state.clone();
let store = Arc::clone(&env.store);
let journal = Arc::clone(&env.journal);
let notify = Arc::new(Notify::new());
let ingest_notify = Arc::clone(&notify);
let mut ingest_worker = IngestWorker::new(Arc::clone(&journal), Arc::clone(&store))
.await
.expect("Failed to create IngestWorker")
.with_notify(ingest_notify);
// ========================================================================
// Create two competing assertions for the same subject+predicate
// ========================================================================
let subject = "Apple_Inc";
let predicate = "has_revenue";
// Assertion 1: revenue = 380.0
let message1 = format!("{}:{}", subject, predicate);
let (agent_id1, signature1) = sign_message(&message1);
let timestamp1 = 1000;
let assertion1 = json!({
"subject": subject,
"predicate": predicate,
"object": {"type": "Number", "value": 380.0},
"confidence": 0.9,
"signatures": [{
"agent_id": hex::encode(agent_id1),
"signature": hex::encode(signature1),
"timestamp": timestamp1
}],
"source_hash": hex::encode([1u8; 32])
});
// Assertion 2: revenue = 385.0 (newer timestamp)
let message2 = format!("{}:{}", subject, predicate);
let (agent_id2, signature2) = sign_message(&message2);
let timestamp2 = 2000;
let assertion2 = json!({
"subject": subject,
"predicate": predicate,
"object": {"type": "Number", "value": 385.0},
"confidence": 0.85,
"signatures": [{
"agent_id": hex::encode(agent_id2),
"signature": hex::encode(signature2),
"timestamp": timestamp2
}],
"source_hash": hex::encode([2u8; 32])
});
let app = create_router(state.clone());
// Create both assertions
for assertion in [&assertion1, &assertion2] {
let request = Request::builder()
.uri("/v1/assert")
.method("POST")
.header("content-type", "application/json")
.body(Body::from(serde_json::to_vec(assertion).expect("JSON serialization")))
.expect("Failed to build request");
let response = app.clone().oneshot(request).await.expect("Request failed");
assert_eq!(response.status(), StatusCode::CREATED);
}
// Process ingestion
for _ in 0..INGEST_ITERATIONS {
if ingest_worker.step().await.expect("Ingestion failed") == 0 {
break;
}
}
// ========================================================================
// Query without a lens - should return both assertions
// ========================================================================
let query_request = Request::builder()
.uri(format!("/v1/query?subject={}&predicate={}", subject, predicate))
.method("GET")
.body(Body::empty())
.expect("Failed to build query request");
let query_response = app.oneshot(query_request).await.expect("Query request failed");
assert_eq!(query_response.status(), StatusCode::OK);
let query_body = axum::body::to_bytes(query_response.into_body(), usize::MAX)
.await
.expect("Failed to read query response body");
let query_json: serde_json::Value =
serde_json::from_slice(&query_body).expect("Failed to parse query JSON");
let assertions = query_json["assertions"].as_array().expect("Missing assertions array");
assert_eq!(assertions.len(), 2, "Without a lens, should return all candidate assertions");
// Verify both values are present
let values: Vec<f64> =
assertions.iter().map(|a| a["object"]["value"].as_f64().expect("Missing value")).collect();
assert!(values.contains(&380.0), "Should contain first assertion value");
assert!(values.contains(&385.0), "Should contain second assertion value");
assert_eq!(query_json["total_count"], 2);
}
#[tokio::test]
async fn test_e2e_lens_resolution_picks_most_recent() {
// ========================================================================
// Setup
// ========================================================================
let env = create_test_environment().await;
let state = env.state.clone();
let store = Arc::clone(&env.store);
let journal = Arc::clone(&env.journal);
let notify = Arc::new(Notify::new());
let ingest_notify = Arc::clone(&notify);
let mut ingest_worker = IngestWorker::new(Arc::clone(&journal), Arc::clone(&store))
.await
.expect("Failed to create IngestWorker")
.with_notify(ingest_notify);
// ========================================================================
// Create two assertions with different timestamps
// ========================================================================
let subject = "Microsoft_Corp";
let predicate = "has_ceo";
// Older assertion: Satya (timestamp 1000)
let message1 = format!("{}:{}", subject, predicate);
let (agent_id1, signature1) = sign_message(&message1);
let old_assertion = json!({
"subject": subject,
"predicate": predicate,
"object": {"type": "Text", "value": "Satya_Nadella"},
"confidence": 0.9,
"signatures": [{
"agent_id": hex::encode(agent_id1),
"signature": hex::encode(signature1),
"timestamp": 1000
}],
"source_hash": hex::encode([1u8; 32])
});
// Newer assertion: Bill (timestamp 5000) - hypothetically outdated info
let message2 = format!("{}:{}", subject, predicate);
let (agent_id2, signature2) = sign_message(&message2);
let new_assertion = json!({
"subject": subject,
"predicate": predicate,
"object": {"type": "Text", "value": "Bill_Gates"},
"confidence": 0.8,
"signatures": [{
"agent_id": hex::encode(agent_id2),
"signature": hex::encode(signature2),
"timestamp": 5000
}],
"source_hash": hex::encode([2u8; 32])
});
let app = create_router(state.clone());
// Create both assertions
for assertion in [&old_assertion, &new_assertion] {
let request = Request::builder()
.uri("/v1/assert")
.method("POST")
.header("content-type", "application/json")
.body(Body::from(serde_json::to_vec(assertion).expect("JSON serialization")))
.expect("Failed to build request");
let response = app.clone().oneshot(request).await.expect("Request failed");
assert_eq!(response.status(), StatusCode::CREATED);
}
// Process ingestion
for _ in 0..INGEST_ITERATIONS {
if ingest_worker.step().await.expect("Ingestion failed") == 0 {
break;
}
}
// ========================================================================
// Query with Recency lens - should pick the newer one
// ========================================================================
let query_request = Request::builder()
.uri(format!("/v1/query?subject={}&predicate={}&lens=Recency", subject, predicate))
.method("GET")
.body(Body::empty())
.expect("Failed to build query request");
let query_response = app.oneshot(query_request).await.expect("Query request failed");
assert_eq!(query_response.status(), StatusCode::OK);
let query_body = axum::body::to_bytes(query_response.into_body(), usize::MAX)
.await
.expect("Failed to read query response body");
let query_json: serde_json::Value =
serde_json::from_slice(&query_body).expect("Failed to parse query JSON");
let assertions = query_json["assertions"].as_array().expect("Missing assertions array");
assert_eq!(assertions.len(), 1, "Recency lens should return exactly one assertion");
// Verify it picked the newer one (Bill_Gates at timestamp 5000)
let winner = &assertions[0];
assert_eq!(
winner["object"]["value"].as_str().expect("Missing value"),
"Bill_Gates",
"Recency lens should pick the most recent assertion"
);
assert_eq!(winner["signatures"][0]["timestamp"].as_u64().expect("Missing timestamp"), 5000);
}
#[tokio::test]
async fn test_e2e_empty_query_returns_no_results() {
// ========================================================================
// Setup with no data
// ========================================================================
let env = create_test_environment().await;
let app = create_router(env.state);
// ========================================================================
// Query for non-existent subject
// ========================================================================
let query_request = Request::builder()
.uri("/v1/query?subject=Nonexistent_Entity&predicate=some_property")
.method("GET")
.body(Body::empty())
.expect("Failed to build query request");
let query_response = app.oneshot(query_request).await.expect("Query request failed");
assert_eq!(query_response.status(), StatusCode::OK);
let query_body = axum::body::to_bytes(query_response.into_body(), usize::MAX)
.await
.expect("Failed to read query response body");
let query_json: serde_json::Value =
serde_json::from_slice(&query_body).expect("Failed to parse query JSON");
assert_eq!(query_json["assertions"], json!([]));
assert_eq!(query_json["total_count"], 0);
assert_eq!(query_json["has_more"], false);
}
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