105 KiB
105 KiB
Orchai Phase 2: Tuleap Integration Implementation Plan
For agentic workers: REQUIRED SUB-SKILL: Use superpowers:subagent-driven-development (recommended) or superpowers:executing-plans to implement this plan task-by-task. Steps use checkbox (
- [x]) syntax for tracking.
Goal: Connect Orchai to Tuleap -- store credentials securely, configure watched trackers with AND/OR filters, poll for new tickets on a timer, and detect new artifacts.
Architecture: Adds a services/ layer (crypto, Tuleap HTTP client, filter engine, background poller) to the existing Tauri backend. AppState gains Arc<Mutex<Connection>> for shared DB access, an encryption key for credentials, and a shared reqwest client. The poller runs as a tokio background task spawned at app startup. Frontend gains a Settings page for credentials, a tracker config form with a visual filter builder, and an updated project dashboard showing tracked trackers and recent tickets.
Tech Stack: reqwest (HTTP), tokio (async runtime / timers), aes-gcm + rand + base64 (credential encryption), serde_json (artifact parsing)
Phasing Context
This is Plan 2 of 4:
- Plan 1 (done): Foundation -- Tauri scaffold, SQLite, Project Manager
- Plan 2 (this): Tuleap Integration -- credentials, API client, poller, filter engine, tracker config
- Plan 3: Agent Pipeline -- orchestrator, worktree manager, ticket processing, results UI
- Plan 4: Notifications + Polish -- notifier, system notifications, dashboard
File Structure
src-tauri/
migrations/
001_init.sql # existing (unchanged)
002_add_last_polled.sql # create: add last_polled_at + enabled to watched_trackers
src/
lib.rs # modify: Arc<Mutex<Connection>>, add services mod, poller startup
db.rs # modify: add migration 002
error.rs # modify: add From<reqwest::Error>
models/
mod.rs # modify: add credential, tracker, ticket
project.rs # existing (unchanged)
credential.rs # create: TuleapCredentials CRUD
tracker.rs # create: WatchedTracker CRUD
ticket.rs # create: ProcessedTicket insert/query
commands/
mod.rs # modify: add credential, tracker, poller
project.rs # existing (unchanged)
credential.rs # create: set/get/delete/test credentials
tracker.rs # create: tracker CRUD + get_tracker_fields
poller.rs # create: manual_poll, get_queue_status, toggle
services/
mod.rs # create: re-exports
crypto.rs # create: key file management, AES-GCM encrypt/decrypt
tuleap_client.rs # create: HTTP client (get artifacts, tracker info, test)
filter_engine.rs # create: AND/OR filter evaluation on artifact JSON
poller.rs # create: background polling loop
src/
lib/
types.ts # modify: add Credential, Tracker, Filter, Ticket types
api.ts # modify: add all new Tauri command wrappers
components/
settings/
SettingsPage.tsx # create: credentials management
trackers/
TrackerConfig.tsx # create: add/edit tracker form
FilterBuilder.tsx # create: visual AND/OR filter builder
TrackerList.tsx # create: list of trackers for a project
projects/
ProjectDashboard.tsx # modify: add tracker section + recent tickets
App.tsx # modify: add /settings and /projects/:id/trackers routes
Task 1: Add Phase 2 dependencies + migration 002 + update AppState
Files:
-
Modify:
src-tauri/Cargo.toml -
Create:
src-tauri/migrations/002_add_last_polled.sql -
Modify:
src-tauri/src/db.rs -
Modify:
src-tauri/src/error.rs -
Modify:
src-tauri/src/lib.rs -
Step 1: Add dependencies to Cargo.toml
Add under [dependencies] in src-tauri/Cargo.toml:
reqwest = { version = "0.12", features = ["json"] }
tokio = { version = "1", features = ["time", "sync", "macros"] }
aes-gcm = "0.10"
rand = "0.8"
base64 = "0.22"
- Step 2: Create migration 002
Create src-tauri/migrations/002_add_last_polled.sql:
ALTER TABLE watched_trackers ADD COLUMN last_polled_at TEXT;
ALTER TABLE watched_trackers ADD COLUMN enabled INTEGER NOT NULL DEFAULT 1;
- Step 3: Update db.rs to run migration 002
In src-tauri/src/db.rs, add the new migration constant and update the migrate function:
use rusqlite::{Connection, Result};
use std::path::Path;
const MIGRATION_001: &str = include_str!("../migrations/001_init.sql");
const MIGRATION_002: &str = include_str!("../migrations/002_add_last_polled.sql");
pub fn init(db_path: &Path) -> Result<Connection> {
let conn = Connection::open(db_path)?;
configure(&conn)?;
migrate(&conn)?;
Ok(conn)
}
#[cfg(test)]
pub fn init_in_memory() -> Result<Connection> {
let conn = Connection::open_in_memory()?;
configure(&conn)?;
migrate(&conn)?;
Ok(conn)
}
fn configure(conn: &Connection) -> Result<()> {
conn.pragma_update(None, "journal_mode", "wal")?;
conn.pragma_update(None, "foreign_keys", "ON")?;
Ok(())
}
fn migrate(conn: &Connection) -> Result<()> {
let version: i32 = conn.pragma_query_value(None, "user_version", |row| row.get(0))?;
if version < 1 {
conn.execute_batch(MIGRATION_001)?;
conn.pragma_update(None, "user_version", 1)?;
}
if version < 2 {
conn.execute_batch(MIGRATION_002)?;
conn.pragma_update(None, "user_version", 2)?;
}
Ok(())
}
Update the test test_migration_is_idempotent to check for version 2:
#[test]
fn test_migration_is_idempotent() {
let conn = init_in_memory().expect("should initialize");
let version: i32 = conn
.pragma_query_value(None, "user_version", |row| row.get(0))
.unwrap();
assert_eq!(version, 2);
}
- Step 4: Add Fromreqwest::Error to error.rs
Add to src-tauri/src/error.rs:
impl From<reqwest::Error> for AppError {
fn from(e: reqwest::Error) -> Self {
AppError {
message: e.to_string(),
}
}
}
- Step 5: Update AppState to use Arc<Mutex> and add new fields
Replace src-tauri/src/lib.rs:
mod commands;
mod db;
mod error;
mod models;
use std::sync::{Arc, Mutex};
use tauri::Manager;
pub struct AppState {
pub db: Arc<Mutex<rusqlite::Connection>>,
pub encryption_key: [u8; 32],
pub http_client: reqwest::Client,
}
#[cfg_attr(mobile, tauri::mobile_entry_point)]
pub fn run() {
tauri::Builder::default()
.plugin(tauri_plugin_dialog::init())
.setup(|app| {
let db_dir = app.path().app_data_dir()?;
std::fs::create_dir_all(&db_dir)?;
// Init database
let db_path = db_dir.join("orchai.db");
let conn = db::init(&db_path).expect("Failed to initialize database");
// Load or generate encryption key
let key_path = db_dir.join("orchai.key");
let encryption_key = load_or_generate_key(&key_path)?;
// Shared HTTP client
let http_client = reqwest::Client::new();
app.manage(AppState {
db: Arc::new(Mutex::new(conn)),
encryption_key,
http_client,
});
Ok(())
})
.invoke_handler(tauri::generate_handler![
commands::project::create_project,
commands::project::list_projects,
commands::project::get_project,
commands::project::update_project,
commands::project::delete_project,
])
.run(tauri::generate_context!())
.expect("error while running tauri application");
}
fn load_or_generate_key(path: &std::path::Path) -> Result<[u8; 32], Box<dyn std::error::Error>> {
use rand::RngCore;
if path.exists() {
let bytes = std::fs::read(path)?;
if bytes.len() != 32 {
return Err("Invalid key file size".into());
}
let mut key = [0u8; 32];
key.copy_from_slice(&bytes);
Ok(key)
} else {
let mut key = [0u8; 32];
rand::rngs::OsRng.fill_bytes(&mut key);
std::fs::write(path, &key)?;
Ok(key)
}
}
- Step 6: Verify compilation and existing tests pass
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test
Expected: 11 tests pass (3 db + 8 project). Migration test now checks version 2.
- Step 7: Commit
git add -A
git commit -m "feat: Phase 2 dependencies, migration 002, Arc<Mutex> AppState"
Task 2: Crypto service + tests
Files:
-
Create:
src-tauri/src/services/mod.rs -
Create:
src-tauri/src/services/crypto.rs -
Modify:
src-tauri/src/lib.rs(addmod services) -
Step 1: Write failing tests for crypto
Create src-tauri/src/services/mod.rs:
pub mod crypto;
Create src-tauri/src/services/crypto.rs:
use aes_gcm::{
aead::{Aead, KeyInit, OsRng},
Aes256Gcm, Key, Nonce,
};
use base64::{engine::general_purpose::STANDARD, Engine};
use rand::RngCore;
pub fn encrypt(key: &[u8; 32], plaintext: &str) -> Result<String, String> {
todo!()
}
pub fn decrypt(key: &[u8; 32], encrypted: &str) -> Result<String, String> {
todo!()
}
#[cfg(test)]
mod tests {
use super::*;
fn test_key() -> [u8; 32] {
let mut key = [0u8; 32];
OsRng.fill_bytes(&mut key);
key
}
#[test]
fn test_encrypt_decrypt_roundtrip() {
let key = test_key();
let plaintext = "my_secret_password";
let encrypted = encrypt(&key, plaintext).expect("encrypt should succeed");
let decrypted = decrypt(&key, &encrypted).expect("decrypt should succeed");
assert_eq!(decrypted, plaintext);
}
#[test]
fn test_encrypt_produces_different_ciphertext() {
let key = test_key();
let plaintext = "same_password";
let enc1 = encrypt(&key, plaintext).unwrap();
let enc2 = encrypt(&key, plaintext).unwrap();
assert_ne!(enc1, enc2, "random nonce should produce different ciphertext");
}
#[test]
fn test_decrypt_with_wrong_key_fails() {
let key1 = test_key();
let key2 = test_key();
let encrypted = encrypt(&key1, "secret").unwrap();
let result = decrypt(&key2, &encrypted);
assert!(result.is_err());
}
#[test]
fn test_decrypt_invalid_base64_fails() {
let key = test_key();
let result = decrypt(&key, "not-valid-base64!!!");
assert!(result.is_err());
}
#[test]
fn test_decrypt_too_short_fails() {
let key = test_key();
let short = STANDARD.encode(&[0u8; 5]);
let result = decrypt(&key, &short);
assert!(result.is_err());
}
#[test]
fn test_encrypt_empty_string() {
let key = test_key();
let encrypted = encrypt(&key, "").expect("encrypt empty should succeed");
let decrypted = decrypt(&key, &encrypted).expect("decrypt should succeed");
assert_eq!(decrypted, "");
}
#[test]
fn test_encrypt_unicode() {
let key = test_key();
let plaintext = "mot de passe avec accents: eaui";
let encrypted = encrypt(&key, plaintext).unwrap();
let decrypted = decrypt(&key, &encrypted).unwrap();
assert_eq!(decrypted, plaintext);
}
}
Add mod services; to src-tauri/src/lib.rs (after mod models;).
- Step 2: Run tests to verify they fail
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test services::crypto::tests
Expected: 7 failures with not yet implemented.
- Step 3: Implement encrypt and decrypt
Replace the todo!() stubs in src-tauri/src/services/crypto.rs:
pub fn encrypt(key: &[u8; 32], plaintext: &str) -> Result<String, String> {
let cipher = Aes256Gcm::new(Key::<Aes256Gcm>::from_slice(key));
let mut nonce_bytes = [0u8; 12];
OsRng.fill_bytes(&mut nonce_bytes);
let nonce = Nonce::from_slice(&nonce_bytes);
let ciphertext = cipher
.encrypt(nonce, plaintext.as_bytes())
.map_err(|e| format!("encryption failed: {}", e))?;
let mut combined = nonce_bytes.to_vec();
combined.extend(ciphertext);
Ok(STANDARD.encode(&combined))
}
pub fn decrypt(key: &[u8; 32], encrypted: &str) -> Result<String, String> {
let combined = STANDARD
.decode(encrypted)
.map_err(|e| format!("base64 decode failed: {}", e))?;
if combined.len() < 13 {
return Err("encrypted data too short".to_string());
}
let (nonce_bytes, ciphertext) = combined.split_at(12);
let cipher = Aes256Gcm::new(Key::<Aes256Gcm>::from_slice(key));
let nonce = Nonce::from_slice(nonce_bytes);
let plaintext = cipher
.decrypt(nonce, ciphertext)
.map_err(|_| "decryption failed (wrong key or corrupted data)".to_string())?;
String::from_utf8(plaintext).map_err(|e| format!("invalid UTF-8: {}", e))
}
- Step 4: Run tests to verify they pass
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test services::crypto::tests
Expected: 7 tests pass.
- Step 5: Commit
git add -A
git commit -m "feat: AES-256-GCM crypto service for credential encryption"
Task 3: TuleapCredentials model + Tauri commands
Files:
-
Create:
src-tauri/src/models/credential.rs -
Modify:
src-tauri/src/models/mod.rs -
Create:
src-tauri/src/commands/credential.rs -
Modify:
src-tauri/src/commands/mod.rs -
Modify:
src-tauri/src/lib.rs(register commands) -
Step 1: Write failing tests for TuleapCredentials model
Create src-tauri/src/models/credential.rs:
use rusqlite::{params, Connection, Result};
use serde::{Deserialize, Serialize};
use uuid::Uuid;
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct TuleapCredentials {
pub id: String,
pub tuleap_url: String,
pub username: String,
pub password_encrypted: String,
}
/// Credential returned to frontend (no encrypted password)
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct TuleapCredentialsSafe {
pub id: String,
pub tuleap_url: String,
pub username: String,
}
impl TuleapCredentials {
pub fn upsert(
conn: &Connection,
tuleap_url: &str,
username: &str,
password_encrypted: &str,
) -> Result<TuleapCredentials> {
todo!()
}
pub fn get(conn: &Connection) -> Result<Option<TuleapCredentials>> {
todo!()
}
pub fn delete(conn: &Connection) -> Result<()> {
todo!()
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::db;
fn setup() -> Connection {
db::init_in_memory().expect("db init should succeed")
}
#[test]
fn test_upsert_creates_credentials() {
let conn = setup();
let cred = TuleapCredentials::upsert(&conn, "https://tuleap.example.com", "user1", "encrypted_pw")
.expect("upsert should succeed");
assert_eq!(cred.tuleap_url, "https://tuleap.example.com");
assert_eq!(cred.username, "user1");
assert_eq!(cred.password_encrypted, "encrypted_pw");
}
#[test]
fn test_upsert_replaces_existing() {
let conn = setup();
TuleapCredentials::upsert(&conn, "https://old.com", "old_user", "old_pw").unwrap();
let cred = TuleapCredentials::upsert(&conn, "https://new.com", "new_user", "new_pw").unwrap();
assert_eq!(cred.tuleap_url, "https://new.com");
let fetched = TuleapCredentials::get(&conn).unwrap().unwrap();
assert_eq!(fetched.tuleap_url, "https://new.com");
}
#[test]
fn test_get_returns_none_when_empty() {
let conn = setup();
let result = TuleapCredentials::get(&conn).unwrap();
assert!(result.is_none());
}
#[test]
fn test_get_returns_credentials() {
let conn = setup();
TuleapCredentials::upsert(&conn, "https://tuleap.example.com", "user1", "enc_pw").unwrap();
let cred = TuleapCredentials::get(&conn).unwrap().unwrap();
assert_eq!(cred.username, "user1");
}
#[test]
fn test_delete_removes_credentials() {
let conn = setup();
TuleapCredentials::upsert(&conn, "https://tuleap.example.com", "user1", "enc_pw").unwrap();
TuleapCredentials::delete(&conn).unwrap();
let result = TuleapCredentials::get(&conn).unwrap();
assert!(result.is_none());
}
}
Add pub mod credential; to src-tauri/src/models/mod.rs.
- Step 2: Run tests to verify they fail
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test models::credential::tests
Expected: 5 failures.
- Step 3: Implement TuleapCredentials CRUD
Replace stubs in src-tauri/src/models/credential.rs:
/// We only store one set of credentials. Upsert deletes existing and inserts new.
pub fn upsert(
conn: &Connection,
tuleap_url: &str,
username: &str,
password_encrypted: &str,
) -> Result<TuleapCredentials> {
conn.execute("DELETE FROM tuleap_credentials", [])?;
let id = Uuid::new_v4().to_string();
conn.execute(
"INSERT INTO tuleap_credentials (id, tuleap_url, username, password_encrypted) VALUES (?1, ?2, ?3, ?4)",
params![id, tuleap_url, username, password_encrypted],
)?;
Ok(TuleapCredentials {
id,
tuleap_url: tuleap_url.to_string(),
username: username.to_string(),
password_encrypted: password_encrypted.to_string(),
})
}
pub fn get(conn: &Connection) -> Result<Option<TuleapCredentials>> {
let mut stmt = conn.prepare(
"SELECT id, tuleap_url, username, password_encrypted FROM tuleap_credentials LIMIT 1",
)?;
let mut rows = stmt.query_map([], |row| {
Ok(TuleapCredentials {
id: row.get(0)?,
tuleap_url: row.get(1)?,
username: row.get(2)?,
password_encrypted: row.get(3)?,
})
})?;
match rows.next() {
Some(row) => Ok(Some(row?)),
None => Ok(None),
}
}
pub fn delete(conn: &Connection) -> Result<()> {
conn.execute("DELETE FROM tuleap_credentials", [])?;
Ok(())
}
- Step 4: Run tests to verify they pass
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test models::credential::tests
Expected: 5 pass.
- Step 5: Create credential Tauri commands
Create src-tauri/src/commands/credential.rs:
use crate::error::AppError;
use crate::models::credential::{TuleapCredentials, TuleapCredentialsSafe};
use crate::services::crypto;
use crate::AppState;
use tauri::State;
#[tauri::command]
pub fn set_tuleap_credentials(
state: State<'_, AppState>,
tuleap_url: String,
username: String,
password: String,
) -> Result<TuleapCredentialsSafe, AppError> {
let encrypted = crypto::encrypt(&state.encryption_key, &password)
.map_err(|e| AppError::from(e))?;
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let cred = TuleapCredentials::upsert(&db, &tuleap_url, &username, &encrypted)?;
Ok(TuleapCredentialsSafe {
id: cred.id,
tuleap_url: cred.tuleap_url,
username: cred.username,
})
}
#[tauri::command]
pub fn get_tuleap_credentials(
state: State<'_, AppState>,
) -> Result<Option<TuleapCredentialsSafe>, AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let cred = TuleapCredentials::get(&db)?;
Ok(cred.map(|c| TuleapCredentialsSafe {
id: c.id,
tuleap_url: c.tuleap_url,
username: c.username,
}))
}
#[tauri::command]
pub fn delete_tuleap_credentials(state: State<'_, AppState>) -> Result<(), AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
TuleapCredentials::delete(&db)?;
Ok(())
}
#[tauri::command]
pub async fn test_tuleap_connection(state: State<'_, AppState>) -> Result<String, AppError> {
let (base_url, username, password) = {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let cred = TuleapCredentials::get(&db)?
.ok_or_else(|| AppError::from("No credentials configured".to_string()))?;
let password = crypto::decrypt(&state.encryption_key, &cred.password_encrypted)
.map_err(|e| AppError::from(e))?;
(cred.tuleap_url, cred.username, password)
};
let url = format!("{}/api/projects?limit=1", base_url.trim_end_matches('/'));
let response = state.http_client
.get(&url)
.basic_auth(&username, Some(&password))
.send()
.await?;
if response.status().is_success() {
Ok("Connection successful".to_string())
} else {
Err(AppError::from(format!(
"Tuleap API returned status {}",
response.status()
)))
}
}
Add pub mod credential; to src-tauri/src/commands/mod.rs.
- Step 6: Register commands in lib.rs
Add to the invoke_handler in src-tauri/src/lib.rs:
.invoke_handler(tauri::generate_handler![
commands::project::create_project,
commands::project::list_projects,
commands::project::get_project,
commands::project::update_project,
commands::project::delete_project,
commands::credential::set_tuleap_credentials,
commands::credential::get_tuleap_credentials,
commands::credential::delete_tuleap_credentials,
commands::credential::test_tuleap_connection,
])
- Step 7: Verify compilation and all tests pass
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test
Expected: all tests pass (11 existing + 5 credential + 7 crypto = 23 tests).
- Step 8: Commit
git add -A
git commit -m "feat: TuleapCredentials model + encrypted storage + Tauri commands"
Task 4: Tuleap HTTP client service + tests
Files:
-
Create:
src-tauri/src/services/tuleap_client.rs -
Modify:
src-tauri/src/services/mod.rs -
Step 1: Write the Tuleap client with tests for parsing logic
Add pub mod tuleap_client; to src-tauri/src/services/mod.rs.
Create src-tauri/src/services/tuleap_client.rs:
use serde::{Deserialize, Serialize};
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct TrackerField {
pub field_id: i64,
pub label: String,
pub field_type: String,
pub values: Vec<FieldValue>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct FieldValue {
pub id: i64,
pub label: String,
}
pub struct TuleapClient {
http: reqwest::Client,
base_url: String,
username: String,
password: String,
}
impl TuleapClient {
pub fn new(http: &reqwest::Client, base_url: &str, username: &str, password: &str) -> Self {
TuleapClient {
http: http.clone(),
base_url: base_url.trim_end_matches('/').to_string(),
username: username.to_string(),
password: password.to_string(),
}
}
pub async fn test_connection(&self) -> Result<(), String> {
let url = format!("{}/api/projects?limit=1", self.base_url);
let response = self.http
.get(&url)
.basic_auth(&self.username, Some(&self.password))
.send()
.await
.map_err(|e| format!("HTTP request failed: {}", e))?;
if response.status().is_success() {
Ok(())
} else {
Err(format!("Tuleap API returned status {}", response.status()))
}
}
pub async fn get_tracker_fields(&self, tracker_id: i32) -> Result<Vec<TrackerField>, String> {
let url = format!("{}/api/trackers/{}", self.base_url, tracker_id);
let response = self.http
.get(&url)
.basic_auth(&self.username, Some(&self.password))
.send()
.await
.map_err(|e| format!("HTTP request failed: {}", e))?;
if !response.status().is_success() {
return Err(format!("Tuleap API returned status {}", response.status()));
}
let body: serde_json::Value = response.json().await
.map_err(|e| format!("Failed to parse response: {}", e))?;
Ok(parse_tracker_fields(&body))
}
pub async fn get_artifacts(&self, tracker_id: i32) -> Result<Vec<serde_json::Value>, String> {
let mut all_artifacts = Vec::new();
let mut offset = 0;
let limit = 100;
loop {
let url = format!(
"{}/api/trackers/{}/artifacts?limit={}&offset={}&values=all",
self.base_url, tracker_id, limit, offset
);
let response = self.http
.get(&url)
.basic_auth(&self.username, Some(&self.password))
.send()
.await
.map_err(|e| format!("HTTP request failed: {}", e))?;
if !response.status().is_success() {
return Err(format!("Tuleap API returned status {}", response.status()));
}
let total: i64 = response.headers()
.get("x-pagination-size")
.and_then(|v| v.to_str().ok())
.and_then(|v| v.parse().ok())
.unwrap_or(0);
let artifacts: Vec<serde_json::Value> = response.json().await
.map_err(|e| format!("Failed to parse response: {}", e))?;
let count = artifacts.len();
all_artifacts.extend(artifacts);
offset += count as i64;
if offset >= total || count == 0 {
break;
}
}
Ok(all_artifacts)
}
}
/// Parse tracker fields from the Tuleap API tracker response
pub fn parse_tracker_fields(tracker_json: &serde_json::Value) -> Vec<TrackerField> {
let fields = match tracker_json.get("fields") {
Some(serde_json::Value::Array(arr)) => arr,
_ => return Vec::new(),
};
fields.iter().filter_map(|field| {
let field_id = field.get("field_id")?.as_i64()?;
let label = field.get("label")?.as_str()?.to_string();
let field_type = field.get("type")?.as_str()?.to_string();
// Only include fields with selectable values
let values = match field_type.as_str() {
"sb" | "msb" | "rb" | "cb" => {
extract_field_values(field)
}
_ => Vec::new(),
};
Some(TrackerField {
field_id,
label,
field_type,
values,
})
}).collect()
}
fn extract_field_values(field: &serde_json::Value) -> Vec<FieldValue> {
// Try "values" array first (used by sb, rb)
if let Some(serde_json::Value::Array(vals)) = field.get("values") {
return vals.iter().filter_map(|v| {
let id = v.get("id")?.as_i64()?;
let label = v.get("label")?.as_str()?.to_string();
if label == "None" { return None; }
Some(FieldValue { id, label })
}).collect();
}
// Try "bind_value_objects" (used by msb)
if let Some(serde_json::Value::Array(vals)) = field.get("bind_value_objects") {
return vals.iter().filter_map(|v| {
let id = v.get("id")?.as_i64()?;
let label = v.get("display_name")
.or_else(|| v.get("label"))
.and_then(|l| l.as_str())
.map(String::from)?;
Some(FieldValue { id, label })
}).collect();
}
Vec::new()
}
/// Extract the displayable values of a field from an artifact's "values" array.
/// Returns the list of labels/names for the field. Used by the filter engine.
pub fn extract_artifact_field_values(artifact: &serde_json::Value, field_label: &str) -> Vec<String> {
let values = match artifact.get("values") {
Some(serde_json::Value::Array(arr)) => arr,
_ => return Vec::new(),
};
for field in values {
let label = match field.get("label").and_then(|l| l.as_str()) {
Some(l) => l,
None => continue,
};
if label != field_label {
continue;
}
let field_type = field.get("type").and_then(|t| t.as_str()).unwrap_or("");
return match field_type {
"sb" | "rb" => {
// Select box / radio button: values[*].label
field.get("values")
.and_then(|v| v.as_array())
.map(|arr| arr.iter()
.filter_map(|v| v.get("label").and_then(|l| l.as_str()).map(String::from))
.collect())
.unwrap_or_default()
}
"msb" | "cb" => {
// Multi-select / checkbox: bind_value_objects[*].display_name or label
field.get("bind_value_objects")
.and_then(|v| v.as_array())
.map(|arr| arr.iter()
.filter_map(|v| {
v.get("display_name")
.or_else(|| v.get("label"))
.and_then(|l| l.as_str())
.map(String::from)
})
.collect())
.unwrap_or_default()
}
"string" | "text" | "int" | "float" => {
field.get("value")
.and_then(|v| match v {
serde_json::Value::String(s) => Some(s.clone()),
serde_json::Value::Number(n) => Some(n.to_string()),
_ => None,
})
.into_iter()
.collect()
}
_ => Vec::new(),
};
}
Vec::new()
}
#[cfg(test)]
mod tests {
use super::*;
use serde_json::json;
#[test]
fn test_parse_tracker_fields_extracts_sb() {
let tracker = json!({
"fields": [
{
"field_id": 1,
"label": "Status",
"type": "sb",
"values": [
{ "id": 100, "label": "None" },
{ "id": 101, "label": "Nouveau" },
{ "id": 102, "label": "En cours" }
]
}
]
});
let fields = parse_tracker_fields(&tracker);
assert_eq!(fields.len(), 1);
assert_eq!(fields[0].label, "Status");
assert_eq!(fields[0].values.len(), 2); // "None" filtered out
assert_eq!(fields[0].values[0].label, "Nouveau");
}
#[test]
fn test_parse_tracker_fields_extracts_msb() {
let tracker = json!({
"fields": [
{
"field_id": 5,
"label": "Assigned to",
"type": "msb",
"bind_value_objects": [
{ "id": 200, "display_name": "Alice" },
{ "id": 201, "display_name": "Bob" }
]
}
]
});
let fields = parse_tracker_fields(&tracker);
assert_eq!(fields.len(), 1);
assert_eq!(fields[0].values.len(), 2);
assert_eq!(fields[0].values[0].label, "Alice");
}
#[test]
fn test_parse_tracker_fields_skips_text_fields() {
let tracker = json!({
"fields": [
{ "field_id": 10, "label": "Description", "type": "text" }
]
});
let fields = parse_tracker_fields(&tracker);
assert_eq!(fields.len(), 1);
assert!(fields[0].values.is_empty()); // text fields have no selectable values
}
#[test]
fn test_extract_artifact_field_values_sb() {
let artifact = json!({
"values": [
{
"field_id": 1,
"label": "Status",
"type": "sb",
"values": [{ "id": 101, "label": "Nouveau" }]
}
]
});
let vals = extract_artifact_field_values(&artifact, "Status");
assert_eq!(vals, vec!["Nouveau"]);
}
#[test]
fn test_extract_artifact_field_values_msb() {
let artifact = json!({
"values": [
{
"field_id": 5,
"label": "Assigned to",
"type": "msb",
"bind_value_objects": [
{ "id": 200, "display_name": "Team Maintenance" }
]
}
]
});
let vals = extract_artifact_field_values(&artifact, "Assigned to");
assert_eq!(vals, vec!["Team Maintenance"]);
}
#[test]
fn test_extract_artifact_field_values_missing_field() {
let artifact = json!({ "values": [] });
let vals = extract_artifact_field_values(&artifact, "Nonexistent");
assert!(vals.is_empty());
}
#[test]
fn test_extract_artifact_field_values_string_field() {
let artifact = json!({
"values": [
{ "field_id": 20, "label": "Summary", "type": "string", "value": "Login broken" }
]
});
let vals = extract_artifact_field_values(&artifact, "Summary");
assert_eq!(vals, vec!["Login broken"]);
}
}
- Step 2: Run tests
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test services::tuleap_client::tests
Expected: 7 tests pass.
- Step 3: Commit
git add -A
git commit -m "feat: Tuleap HTTP client with artifact parsing and field extraction"
Task 5: WatchedTracker model + CRUD + tests
Files:
-
Create:
src-tauri/src/models/tracker.rs -
Modify:
src-tauri/src/models/mod.rs -
Step 1: Write failing tests for WatchedTracker
Add pub mod tracker; to src-tauri/src/models/mod.rs.
Create src-tauri/src/models/tracker.rs:
use rusqlite::{params, Connection, Result};
use serde::{Deserialize, Serialize};
use uuid::Uuid;
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct AgentConfig {
pub analyst_command: String,
pub analyst_args: Vec<String>,
pub developer_command: String,
pub developer_args: Vec<String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct FilterGroup {
pub conditions: Vec<Filter>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct Filter {
pub field: String,
pub operator: String, // "In", "NotIn", "Equals", "NotEquals"
pub value: Vec<String>,
}
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct WatchedTracker {
pub id: String,
pub project_id: String,
pub tracker_id: i32,
pub tracker_label: String,
pub polling_interval: i32,
pub agent_config: AgentConfig,
pub filters: Vec<FilterGroup>,
pub enabled: bool,
pub last_polled_at: Option<String>,
pub created_at: String,
}
impl WatchedTracker {
pub fn insert(
conn: &Connection,
project_id: &str,
tracker_id: i32,
tracker_label: &str,
polling_interval: i32,
agent_config: &AgentConfig,
filters: &[FilterGroup],
) -> Result<WatchedTracker> {
todo!()
}
pub fn list_by_project(conn: &Connection, project_id: &str) -> Result<Vec<WatchedTracker>> {
todo!()
}
pub fn list_all_enabled(conn: &Connection) -> Result<Vec<WatchedTracker>> {
todo!()
}
pub fn get_by_id(conn: &Connection, id: &str) -> Result<WatchedTracker> {
todo!()
}
pub fn update(
conn: &Connection,
id: &str,
polling_interval: i32,
agent_config: &AgentConfig,
filters: &[FilterGroup],
enabled: bool,
) -> Result<()> {
todo!()
}
pub fn update_last_polled(conn: &Connection, id: &str) -> Result<()> {
todo!()
}
pub fn delete(conn: &Connection, id: &str) -> Result<()> {
todo!()
}
}
fn from_row(row: &rusqlite::Row) -> rusqlite::Result<WatchedTracker> {
let agent_config_json: String = row.get(5)?;
let filters_json: String = row.get(6)?;
let enabled: i32 = row.get(7)?;
Ok(WatchedTracker {
id: row.get(0)?,
project_id: row.get(1)?,
tracker_id: row.get(2)?,
tracker_label: row.get(3)?,
polling_interval: row.get(4)?,
agent_config: serde_json::from_str(&agent_config_json).unwrap_or(AgentConfig {
analyst_command: String::new(),
analyst_args: Vec::new(),
developer_command: String::new(),
developer_args: Vec::new(),
}),
filters: serde_json::from_str(&filters_json).unwrap_or_default(),
enabled: enabled == 1,
last_polled_at: row.get(8)?,
created_at: row.get(9)?,
})
}
#[cfg(test)]
mod tests {
use super::*;
use crate::db;
use crate::models::project::Project;
fn setup() -> Connection {
let conn = db::init_in_memory().expect("db init should succeed");
Project::insert(&conn, "Test Project", "/path/test", None, "main").unwrap();
conn
}
fn get_project_id(conn: &Connection) -> String {
Project::list(conn).unwrap()[0].id.clone()
}
fn default_agent_config() -> AgentConfig {
AgentConfig {
analyst_command: "claude".to_string(),
analyst_args: vec!["--print".to_string()],
developer_command: "claude".to_string(),
developer_args: vec!["--print".to_string()],
}
}
#[test]
fn test_insert_tracker() {
let conn = setup();
let project_id = get_project_id(&conn);
let tracker = WatchedTracker::insert(
&conn, &project_id, 456, "Bugs", 10, &default_agent_config(), &[],
).expect("insert should succeed");
assert_eq!(tracker.tracker_id, 456);
assert_eq!(tracker.tracker_label, "Bugs");
assert_eq!(tracker.polling_interval, 10);
assert!(tracker.enabled);
}
#[test]
fn test_list_by_project() {
let conn = setup();
let project_id = get_project_id(&conn);
WatchedTracker::insert(&conn, &project_id, 1, "Bugs", 10, &default_agent_config(), &[]).unwrap();
WatchedTracker::insert(&conn, &project_id, 2, "Tasks", 15, &default_agent_config(), &[]).unwrap();
let trackers = WatchedTracker::list_by_project(&conn, &project_id).unwrap();
assert_eq!(trackers.len(), 2);
}
#[test]
fn test_list_all_enabled() {
let conn = setup();
let project_id = get_project_id(&conn);
let t = WatchedTracker::insert(&conn, &project_id, 1, "Bugs", 10, &default_agent_config(), &[]).unwrap();
WatchedTracker::insert(&conn, &project_id, 2, "Tasks", 15, &default_agent_config(), &[]).unwrap();
WatchedTracker::update(&conn, &t.id, 10, &default_agent_config(), &[], false).unwrap();
let enabled = WatchedTracker::list_all_enabled(&conn).unwrap();
assert_eq!(enabled.len(), 1);
assert_eq!(enabled[0].tracker_label, "Tasks");
}
#[test]
fn test_get_by_id() {
let conn = setup();
let project_id = get_project_id(&conn);
let created = WatchedTracker::insert(&conn, &project_id, 456, "Bugs", 10, &default_agent_config(), &[]).unwrap();
let found = WatchedTracker::get_by_id(&conn, &created.id).unwrap();
assert_eq!(found.tracker_id, 456);
}
#[test]
fn test_update_tracker() {
let conn = setup();
let project_id = get_project_id(&conn);
let created = WatchedTracker::insert(&conn, &project_id, 456, "Bugs", 10, &default_agent_config(), &[]).unwrap();
let filters = vec![FilterGroup {
conditions: vec![Filter {
field: "Status".to_string(),
operator: "In".to_string(),
value: vec!["Nouveau".to_string()],
}],
}];
WatchedTracker::update(&conn, &created.id, 20, &default_agent_config(), &filters, true).unwrap();
let updated = WatchedTracker::get_by_id(&conn, &created.id).unwrap();
assert_eq!(updated.polling_interval, 20);
assert_eq!(updated.filters.len(), 1);
assert_eq!(updated.filters[0].conditions[0].field, "Status");
}
#[test]
fn test_update_last_polled() {
let conn = setup();
let project_id = get_project_id(&conn);
let created = WatchedTracker::insert(&conn, &project_id, 456, "Bugs", 10, &default_agent_config(), &[]).unwrap();
assert!(created.last_polled_at.is_none());
WatchedTracker::update_last_polled(&conn, &created.id).unwrap();
let updated = WatchedTracker::get_by_id(&conn, &created.id).unwrap();
assert!(updated.last_polled_at.is_some());
}
#[test]
fn test_delete_tracker() {
let conn = setup();
let project_id = get_project_id(&conn);
let created = WatchedTracker::insert(&conn, &project_id, 456, "Bugs", 10, &default_agent_config(), &[]).unwrap();
WatchedTracker::delete(&conn, &created.id).unwrap();
assert!(WatchedTracker::get_by_id(&conn, &created.id).is_err());
}
}
- Step 2: Run tests to verify they fail
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test models::tracker::tests
Expected: 7 failures.
- Step 3: Implement WatchedTracker CRUD
Replace the todo!() stubs in src-tauri/src/models/tracker.rs:
pub fn insert(
conn: &Connection,
project_id: &str,
tracker_id: i32,
tracker_label: &str,
polling_interval: i32,
agent_config: &AgentConfig,
filters: &[FilterGroup],
) -> Result<WatchedTracker> {
let id = Uuid::new_v4().to_string();
let now = chrono::Utc::now().to_rfc3339();
let agent_config_json = serde_json::to_string(agent_config).unwrap();
let filters_json = serde_json::to_string(filters).unwrap();
conn.execute(
"INSERT INTO watched_trackers (id, project_id, tracker_id, tracker_label, polling_interval, agent_config_json, filters_json, created_at) VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7, ?8)",
params![id, project_id, tracker_id, tracker_label, polling_interval, agent_config_json, filters_json, now],
)?;
Ok(WatchedTracker {
id,
project_id: project_id.to_string(),
tracker_id,
tracker_label: tracker_label.to_string(),
polling_interval,
agent_config: agent_config.clone(),
filters: filters.to_vec(),
enabled: true,
last_polled_at: None,
created_at: now,
})
}
pub fn list_by_project(conn: &Connection, project_id: &str) -> Result<Vec<WatchedTracker>> {
let mut stmt = conn.prepare(
"SELECT id, project_id, tracker_id, tracker_label, polling_interval, agent_config_json, filters_json, enabled, last_polled_at, created_at FROM watched_trackers WHERE project_id = ?1 ORDER BY created_at DESC",
)?;
let rows = stmt.query_map(params![project_id], |row| from_row(row))?;
rows.collect()
}
pub fn list_all_enabled(conn: &Connection) -> Result<Vec<WatchedTracker>> {
let mut stmt = conn.prepare(
"SELECT id, project_id, tracker_id, tracker_label, polling_interval, agent_config_json, filters_json, enabled, last_polled_at, created_at FROM watched_trackers WHERE enabled = 1",
)?;
let rows = stmt.query_map([], |row| from_row(row))?;
rows.collect()
}
pub fn get_by_id(conn: &Connection, id: &str) -> Result<WatchedTracker> {
conn.query_row(
"SELECT id, project_id, tracker_id, tracker_label, polling_interval, agent_config_json, filters_json, enabled, last_polled_at, created_at FROM watched_trackers WHERE id = ?1",
params![id],
|row| from_row(row),
)
}
pub fn update(
conn: &Connection,
id: &str,
polling_interval: i32,
agent_config: &AgentConfig,
filters: &[FilterGroup],
enabled: bool,
) -> Result<()> {
let agent_config_json = serde_json::to_string(agent_config).unwrap();
let filters_json = serde_json::to_string(filters).unwrap();
let enabled_int: i32 = if enabled { 1 } else { 0 };
let affected = conn.execute(
"UPDATE watched_trackers SET polling_interval = ?1, agent_config_json = ?2, filters_json = ?3, enabled = ?4 WHERE id = ?5",
params![polling_interval, agent_config_json, filters_json, enabled_int, id],
)?;
if affected == 0 {
return Err(rusqlite::Error::QueryReturnedNoRows);
}
Ok(())
}
pub fn update_last_polled(conn: &Connection, id: &str) -> Result<()> {
let now = chrono::Utc::now().to_rfc3339();
conn.execute(
"UPDATE watched_trackers SET last_polled_at = ?1 WHERE id = ?2",
params![now, id],
)?;
Ok(())
}
pub fn delete(conn: &Connection, id: &str) -> Result<()> {
let affected = conn.execute("DELETE FROM watched_trackers WHERE id = ?1", params![id])?;
if affected == 0 {
return Err(rusqlite::Error::QueryReturnedNoRows);
}
Ok(())
}
- Step 4: Run tests to verify they pass
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test models::tracker::tests
Expected: 7 pass.
- Step 5: Commit
git add -A
git commit -m "feat: WatchedTracker model with CRUD, filters, and agent config"
Task 6: Filter engine + tests
Files:
-
Create:
src-tauri/src/services/filter_engine.rs -
Modify:
src-tauri/src/services/mod.rs -
Step 1: Write the filter engine with tests
Add pub mod filter_engine; to src-tauri/src/services/mod.rs.
Create src-tauri/src/services/filter_engine.rs:
use crate::models::tracker::{Filter, FilterGroup};
use crate::services::tuleap_client::extract_artifact_field_values;
/// Filter artifacts using AND/OR logic.
/// FilterGroups are combined with AND.
/// Conditions within a FilterGroup are combined with OR.
/// Returns only artifacts matching ALL groups.
pub fn apply_filters(
artifacts: &[serde_json::Value],
filter_groups: &[FilterGroup],
) -> Vec<serde_json::Value> {
if filter_groups.is_empty() {
return artifacts.to_vec();
}
artifacts.iter()
.filter(|artifact| matches_all_groups(artifact, filter_groups))
.cloned()
.collect()
}
fn matches_all_groups(artifact: &serde_json::Value, groups: &[FilterGroup]) -> bool {
groups.iter().all(|group| matches_any_condition(artifact, &group.conditions))
}
fn matches_any_condition(artifact: &serde_json::Value, conditions: &[Filter]) -> bool {
if conditions.is_empty() {
return true;
}
conditions.iter().any(|condition| matches_condition(artifact, condition))
}
fn matches_condition(artifact: &serde_json::Value, condition: &Filter) -> bool {
let field_values = extract_artifact_field_values(artifact, &condition.field);
match condition.operator.as_str() {
"Equals" => {
condition.value.len() == 1
&& field_values.iter().any(|v| v == &condition.value[0])
}
"NotEquals" => {
condition.value.len() == 1
&& !field_values.iter().any(|v| v == &condition.value[0])
}
"In" => {
field_values.iter().any(|v| condition.value.contains(v))
}
"NotIn" => {
!field_values.iter().any(|v| condition.value.contains(v))
}
_ => false,
}
}
#[cfg(test)]
mod tests {
use super::*;
use serde_json::json;
fn make_artifact(status: &str, assigned: &str, priority: &str) -> serde_json::Value {
json!({
"id": 123,
"title": "Test ticket",
"values": [
{
"field_id": 1, "label": "Status", "type": "sb",
"values": [{ "id": 1, "label": status }]
},
{
"field_id": 2, "label": "Assigned to", "type": "msb",
"bind_value_objects": [{ "id": 2, "display_name": assigned }]
},
{
"field_id": 3, "label": "Priority", "type": "sb",
"values": [{ "id": 3, "label": priority }]
}
]
})
}
#[test]
fn test_empty_filters_returns_all() {
let artifacts = vec![make_artifact("Nouveau", "Alice", "Haute")];
let result = apply_filters(&artifacts, &[]);
assert_eq!(result.len(), 1);
}
#[test]
fn test_single_in_filter() {
let artifacts = vec![
make_artifact("Nouveau", "Alice", "Haute"),
make_artifact("Ferme", "Bob", "Basse"),
];
let groups = vec![FilterGroup {
conditions: vec![Filter {
field: "Status".to_string(),
operator: "In".to_string(),
value: vec!["Nouveau".to_string()],
}],
}];
let result = apply_filters(&artifacts, &groups);
assert_eq!(result.len(), 1);
}
#[test]
fn test_or_within_group() {
let artifacts = vec![
make_artifact("Nouveau", "Alice", "Haute"),
make_artifact("A traiter", "Bob", "Basse"),
make_artifact("Ferme", "Charlie", "Moyenne"),
];
let groups = vec![FilterGroup {
conditions: vec![
Filter { field: "Status".to_string(), operator: "In".to_string(), value: vec!["Nouveau".to_string()] },
Filter { field: "Status".to_string(), operator: "In".to_string(), value: vec!["A traiter".to_string()] },
],
}];
let result = apply_filters(&artifacts, &groups);
assert_eq!(result.len(), 2);
}
#[test]
fn test_and_across_groups() {
// (Status Nouveau OR A traiter) AND (Assigned to Team Maintenance)
let artifacts = vec![
make_artifact("Nouveau", "Team Maintenance", "Haute"),
make_artifact("Nouveau", "Alice", "Haute"),
make_artifact("Ferme", "Team Maintenance", "Basse"),
];
let groups = vec![
FilterGroup {
conditions: vec![Filter {
field: "Status".to_string(),
operator: "In".to_string(),
value: vec!["Nouveau".to_string(), "A traiter".to_string()],
}],
},
FilterGroup {
conditions: vec![Filter {
field: "Assigned to".to_string(),
operator: "In".to_string(),
value: vec!["Team Maintenance".to_string()],
}],
},
];
let result = apply_filters(&artifacts, &groups);
assert_eq!(result.len(), 1);
assert_eq!(result[0]["values"][0]["values"][0]["label"], "Nouveau");
}
#[test]
fn test_not_in_filter() {
let artifacts = vec![
make_artifact("Nouveau", "Alice", "Haute"),
make_artifact("Ferme", "Bob", "Basse"),
];
let groups = vec![FilterGroup {
conditions: vec![Filter {
field: "Status".to_string(),
operator: "NotIn".to_string(),
value: vec!["Ferme".to_string()],
}],
}];
let result = apply_filters(&artifacts, &groups);
assert_eq!(result.len(), 1);
}
#[test]
fn test_equals_filter() {
let artifacts = vec![
make_artifact("Nouveau", "Alice", "Haute"),
make_artifact("Nouveau", "Bob", "Basse"),
];
let groups = vec![FilterGroup {
conditions: vec![Filter {
field: "Priority".to_string(),
operator: "Equals".to_string(),
value: vec!["Haute".to_string()],
}],
}];
let result = apply_filters(&artifacts, &groups);
assert_eq!(result.len(), 1);
}
#[test]
fn test_no_match_returns_empty() {
let artifacts = vec![make_artifact("Ferme", "Alice", "Basse")];
let groups = vec![FilterGroup {
conditions: vec![Filter {
field: "Status".to_string(),
operator: "Equals".to_string(),
value: vec!["Nouveau".to_string()],
}],
}];
let result = apply_filters(&artifacts, &groups);
assert!(result.is_empty());
}
}
- Step 2: Run tests
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test services::filter_engine::tests
Expected: 7 pass.
- Step 3: Commit
git add -A
git commit -m "feat: AND/OR filter engine for Tuleap artifact filtering"
Task 7: ProcessedTicket model + tests
Files:
-
Create:
src-tauri/src/models/ticket.rs -
Modify:
src-tauri/src/models/mod.rs -
Step 1: Write failing tests
Add pub mod ticket; to src-tauri/src/models/mod.rs.
Create src-tauri/src/models/ticket.rs:
use rusqlite::{params, Connection, Result};
use serde::{Deserialize, Serialize};
use uuid::Uuid;
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct ProcessedTicket {
pub id: String,
pub tracker_id: String,
pub artifact_id: i32,
pub artifact_title: String,
pub artifact_data: String,
pub status: String,
pub analyst_report: Option<String>,
pub developer_report: Option<String>,
pub worktree_path: Option<String>,
pub branch_name: Option<String>,
pub detected_at: String,
pub processed_at: Option<String>,
}
impl ProcessedTicket {
/// Insert a new ticket if it hasn't been processed before.
/// Returns Some(ticket) if inserted, None if already exists.
pub fn insert_if_new(
conn: &Connection,
tracker_id: &str,
artifact_id: i32,
artifact_title: &str,
artifact_data: &str,
) -> Result<Option<ProcessedTicket>> {
todo!()
}
/// Check if an artifact has already been processed for this tracker.
pub fn exists(conn: &Connection, tracker_id: &str, artifact_id: i32) -> Result<bool> {
todo!()
}
pub fn list_by_tracker(conn: &Connection, tracker_id: &str) -> Result<Vec<ProcessedTicket>> {
todo!()
}
pub fn list_by_project(conn: &Connection, project_id: &str) -> Result<Vec<ProcessedTicket>> {
todo!()
}
pub fn get_by_id(conn: &Connection, id: &str) -> Result<ProcessedTicket> {
todo!()
}
}
fn from_row(row: &rusqlite::Row) -> rusqlite::Result<ProcessedTicket> {
Ok(ProcessedTicket {
id: row.get(0)?,
tracker_id: row.get(1)?,
artifact_id: row.get(2)?,
artifact_title: row.get(3)?,
artifact_data: row.get(4)?,
status: row.get(5)?,
analyst_report: row.get(6)?,
developer_report: row.get(7)?,
worktree_path: row.get(8)?,
branch_name: row.get(9)?,
detected_at: row.get(10)?,
processed_at: row.get(11)?,
})
}
#[cfg(test)]
mod tests {
use super::*;
use crate::db;
use crate::models::project::Project;
use crate::models::tracker::{AgentConfig, WatchedTracker};
fn setup() -> (Connection, String) {
let conn = db::init_in_memory().expect("db init should succeed");
let project = Project::insert(&conn, "Test", "/path", None, "main").unwrap();
let agent_config = AgentConfig {
analyst_command: "claude".to_string(),
analyst_args: vec![],
developer_command: "claude".to_string(),
developer_args: vec![],
};
let tracker = WatchedTracker::insert(&conn, &project.id, 456, "Bugs", 10, &agent_config, &[]).unwrap();
(conn, tracker.id)
}
#[test]
fn test_insert_if_new_creates_ticket() {
let (conn, tracker_id) = setup();
let ticket = ProcessedTicket::insert_if_new(&conn, &tracker_id, 123, "Bug title", "{}")
.expect("should succeed");
assert!(ticket.is_some());
let t = ticket.unwrap();
assert_eq!(t.artifact_id, 123);
assert_eq!(t.status, "Pending");
}
#[test]
fn test_insert_if_new_returns_none_for_duplicate() {
let (conn, tracker_id) = setup();
ProcessedTicket::insert_if_new(&conn, &tracker_id, 123, "Bug", "{}").unwrap();
let result = ProcessedTicket::insert_if_new(&conn, &tracker_id, 123, "Bug", "{}").unwrap();
assert!(result.is_none());
}
#[test]
fn test_exists() {
let (conn, tracker_id) = setup();
assert!(!ProcessedTicket::exists(&conn, &tracker_id, 123).unwrap());
ProcessedTicket::insert_if_new(&conn, &tracker_id, 123, "Bug", "{}").unwrap();
assert!(ProcessedTicket::exists(&conn, &tracker_id, 123).unwrap());
}
#[test]
fn test_list_by_tracker() {
let (conn, tracker_id) = setup();
ProcessedTicket::insert_if_new(&conn, &tracker_id, 1, "Bug 1", "{}").unwrap();
ProcessedTicket::insert_if_new(&conn, &tracker_id, 2, "Bug 2", "{}").unwrap();
let tickets = ProcessedTicket::list_by_tracker(&conn, &tracker_id).unwrap();
assert_eq!(tickets.len(), 2);
}
#[test]
fn test_get_by_id() {
let (conn, tracker_id) = setup();
let created = ProcessedTicket::insert_if_new(&conn, &tracker_id, 123, "Bug", "{}").unwrap().unwrap();
let found = ProcessedTicket::get_by_id(&conn, &created.id).unwrap();
assert_eq!(found.artifact_id, 123);
}
}
- Step 2: Run tests to verify they fail
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test models::ticket::tests
Expected: 5 failures.
- Step 3: Implement ProcessedTicket methods
Replace stubs in src-tauri/src/models/ticket.rs:
pub fn insert_if_new(
conn: &Connection,
tracker_id: &str,
artifact_id: i32,
artifact_title: &str,
artifact_data: &str,
) -> Result<Option<ProcessedTicket>> {
if Self::exists(conn, tracker_id, artifact_id)? {
return Ok(None);
}
let id = Uuid::new_v4().to_string();
let now = chrono::Utc::now().to_rfc3339();
conn.execute(
"INSERT INTO processed_tickets (id, tracker_id, artifact_id, artifact_title, artifact_data, status, detected_at) VALUES (?1, ?2, ?3, ?4, ?5, 'Pending', ?6)",
params![id, tracker_id, artifact_id, artifact_title, artifact_data, now],
)?;
Ok(Some(ProcessedTicket {
id,
tracker_id: tracker_id.to_string(),
artifact_id,
artifact_title: artifact_title.to_string(),
artifact_data: artifact_data.to_string(),
status: "Pending".to_string(),
analyst_report: None,
developer_report: None,
worktree_path: None,
branch_name: None,
detected_at: now,
processed_at: None,
}))
}
pub fn exists(conn: &Connection, tracker_id: &str, artifact_id: i32) -> Result<bool> {
let count: i32 = conn.query_row(
"SELECT COUNT(*) FROM processed_tickets WHERE tracker_id = ?1 AND artifact_id = ?2",
params![tracker_id, artifact_id],
|row| row.get(0),
)?;
Ok(count > 0)
}
pub fn list_by_tracker(conn: &Connection, tracker_id: &str) -> Result<Vec<ProcessedTicket>> {
let mut stmt = conn.prepare(
"SELECT id, tracker_id, artifact_id, artifact_title, artifact_data, status, analyst_report, developer_report, worktree_path, branch_name, detected_at, processed_at FROM processed_tickets WHERE tracker_id = ?1 ORDER BY detected_at DESC",
)?;
let rows = stmt.query_map(params![tracker_id], |row| from_row(row))?;
rows.collect()
}
pub fn list_by_project(conn: &Connection, project_id: &str) -> Result<Vec<ProcessedTicket>> {
let mut stmt = conn.prepare(
"SELECT pt.id, pt.tracker_id, pt.artifact_id, pt.artifact_title, pt.artifact_data, pt.status, pt.analyst_report, pt.developer_report, pt.worktree_path, pt.branch_name, pt.detected_at, pt.processed_at FROM processed_tickets pt INNER JOIN watched_trackers wt ON pt.tracker_id = wt.id WHERE wt.project_id = ?1 ORDER BY pt.detected_at DESC",
)?;
let rows = stmt.query_map(params![project_id], |row| from_row(row))?;
rows.collect()
}
pub fn get_by_id(conn: &Connection, id: &str) -> Result<ProcessedTicket> {
conn.query_row(
"SELECT id, tracker_id, artifact_id, artifact_title, artifact_data, status, analyst_report, developer_report, worktree_path, branch_name, detected_at, processed_at FROM processed_tickets WHERE id = ?1",
params![id],
|row| from_row(row),
)
}
- Step 4: Run tests
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test models::ticket::tests
Expected: 5 pass.
- Step 5: Commit
git add -A
git commit -m "feat: ProcessedTicket model with deduplication for new ticket detection"
Task 8: Tracker + poller Tauri commands
Files:
-
Create:
src-tauri/src/commands/tracker.rs -
Create:
src-tauri/src/commands/poller.rs -
Modify:
src-tauri/src/commands/mod.rs -
Modify:
src-tauri/src/lib.rs(register commands) -
Step 1: Create tracker commands
Create src-tauri/src/commands/tracker.rs:
use crate::error::AppError;
use crate::models::credential::TuleapCredentials;
use crate::models::tracker::{AgentConfig, FilterGroup, WatchedTracker};
use crate::models::ticket::ProcessedTicket;
use crate::services::crypto;
use crate::services::tuleap_client::TuleapClient;
use crate::AppState;
use tauri::State;
#[tauri::command]
pub fn add_tracker(
state: State<'_, AppState>,
project_id: String,
tracker_id: i32,
tracker_label: String,
polling_interval: i32,
agent_config: AgentConfig,
filters: Vec<FilterGroup>,
) -> Result<WatchedTracker, AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let tracker = WatchedTracker::insert(&db, &project_id, tracker_id, &tracker_label, polling_interval, &agent_config, &filters)?;
Ok(tracker)
}
#[tauri::command]
pub fn list_trackers(
state: State<'_, AppState>,
project_id: String,
) -> Result<Vec<WatchedTracker>, AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let trackers = WatchedTracker::list_by_project(&db, &project_id)?;
Ok(trackers)
}
#[tauri::command]
pub fn update_tracker(
state: State<'_, AppState>,
id: String,
polling_interval: i32,
agent_config: AgentConfig,
filters: Vec<FilterGroup>,
enabled: bool,
) -> Result<(), AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
WatchedTracker::update(&db, &id, polling_interval, &agent_config, &filters, enabled)?;
Ok(())
}
#[tauri::command]
pub fn remove_tracker(state: State<'_, AppState>, id: String) -> Result<(), AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
WatchedTracker::delete(&db, &id)?;
Ok(())
}
#[tauri::command]
pub async fn get_tracker_fields(
state: State<'_, AppState>,
tracker_id: i32,
) -> Result<Vec<crate::services::tuleap_client::TrackerField>, AppError> {
let client = build_tuleap_client(&state)?;
let fields = client.get_tracker_fields(tracker_id).await
.map_err(|e| AppError::from(e))?;
Ok(fields)
}
#[tauri::command]
pub fn list_processed_tickets(
state: State<'_, AppState>,
project_id: String,
) -> Result<Vec<ProcessedTicket>, AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let tickets = ProcessedTicket::list_by_project(&db, &project_id)?;
Ok(tickets)
}
fn build_tuleap_client(state: &State<'_, AppState>) -> Result<TuleapClient, AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let cred = TuleapCredentials::get(&db)?
.ok_or_else(|| AppError::from("No Tuleap credentials configured".to_string()))?;
let password = crypto::decrypt(&state.encryption_key, &cred.password_encrypted)
.map_err(|e| AppError::from(e))?;
Ok(TuleapClient::new(&state.http_client, &cred.tuleap_url, &cred.username, &password))
}
- Step 2: Create poller commands
Create src-tauri/src/commands/poller.rs:
use crate::error::AppError;
use crate::models::credential::TuleapCredentials;
use crate::models::ticket::ProcessedTicket;
use crate::models::tracker::WatchedTracker;
use crate::services::{crypto, filter_engine};
use crate::services::tuleap_client::TuleapClient;
use crate::AppState;
use tauri::State;
#[tauri::command]
pub async fn manual_poll(
state: State<'_, AppState>,
tracker_id: String,
) -> Result<Vec<ProcessedTicket>, AppError> {
let (tracker, client) = {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let tracker = WatchedTracker::get_by_id(&db, &tracker_id)?;
let cred = TuleapCredentials::get(&db)?
.ok_or_else(|| AppError::from("No Tuleap credentials configured".to_string()))?;
let password = crypto::decrypt(&state.encryption_key, &cred.password_encrypted)
.map_err(|e| AppError::from(e))?;
let client = TuleapClient::new(&state.http_client, &cred.tuleap_url, &cred.username, &password);
(tracker, client)
};
let artifacts = client.get_artifacts(tracker.tracker_id).await
.map_err(|e| AppError::from(e))?;
let filtered = filter_engine::apply_filters(&artifacts, &tracker.filters);
let mut new_tickets = Vec::new();
{
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
for artifact in &filtered {
let artifact_id = artifact.get("id").and_then(|v| v.as_i64()).unwrap_or(0) as i32;
let artifact_title = artifact.get("title").and_then(|v| v.as_str()).unwrap_or("Untitled");
let artifact_data = serde_json::to_string(artifact).unwrap_or_default();
if let Some(ticket) = ProcessedTicket::insert_if_new(
&db, &tracker_id, artifact_id, artifact_title, &artifact_data,
)? {
new_tickets.push(ticket);
}
}
WatchedTracker::update_last_polled(&db, &tracker_id)?;
}
Ok(new_tickets)
}
#[tauri::command]
pub fn get_queue_status(
state: State<'_, AppState>,
project_id: String,
) -> Result<Vec<ProcessedTicket>, AppError> {
let db = state.db.lock().map_err(|e| AppError::from(format!("Database lock failed: {}", e)))?;
let tickets = ProcessedTicket::list_by_project(&db, &project_id)?;
Ok(tickets)
}
- Step 3: Update commands/mod.rs
Replace src-tauri/src/commands/mod.rs:
pub mod credential;
pub mod poller;
pub mod project;
pub mod tracker;
- Step 4: Register all new commands in lib.rs
Update the invoke_handler in src-tauri/src/lib.rs:
.invoke_handler(tauri::generate_handler![
commands::project::create_project,
commands::project::list_projects,
commands::project::get_project,
commands::project::update_project,
commands::project::delete_project,
commands::credential::set_tuleap_credentials,
commands::credential::get_tuleap_credentials,
commands::credential::delete_tuleap_credentials,
commands::credential::test_tuleap_connection,
commands::tracker::add_tracker,
commands::tracker::list_trackers,
commands::tracker::update_tracker,
commands::tracker::remove_tracker,
commands::tracker::get_tracker_fields,
commands::tracker::list_processed_tickets,
commands::poller::manual_poll,
commands::poller::get_queue_status,
])
- Step 5: Verify compilation and all tests pass
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test
Expected: all tests pass.
- Step 6: Commit
git add -A
git commit -m "feat: Tauri commands for tracker CRUD, Tuleap fields, and manual polling"
Task 9: Background poller service
Files:
-
Create:
src-tauri/src/services/poller.rs -
Modify:
src-tauri/src/services/mod.rs -
Modify:
src-tauri/src/lib.rs(spawn poller on startup) -
Step 1: Create poller service
Add pub mod poller; to src-tauri/src/services/mod.rs.
Create src-tauri/src/services/poller.rs:
use crate::models::credential::TuleapCredentials;
use crate::models::ticket::ProcessedTicket;
use crate::models::tracker::WatchedTracker;
use crate::services::{crypto, filter_engine};
use crate::services::tuleap_client::TuleapClient;
use rusqlite::Connection;
use std::sync::{Arc, Mutex};
use tauri::{AppHandle, Emitter};
use tokio::time::{interval, Duration};
/// Start the background polling loop. Checks every 60 seconds if any tracker needs polling.
pub fn start(db: Arc<Mutex<Connection>>, encryption_key: [u8; 32], http_client: reqwest::Client, app_handle: AppHandle) {
tokio::spawn(async move {
let mut tick = interval(Duration::from_secs(60));
loop {
tick.tick().await;
poll_all_trackers(&db, &encryption_key, &http_client, &app_handle).await;
}
});
}
async fn poll_all_trackers(
db: &Arc<Mutex<Connection>>,
encryption_key: &[u8; 32],
http_client: &reqwest::Client,
app_handle: &AppHandle,
) {
let trackers = {
let conn = match db.lock() {
Ok(c) => c,
Err(_) => return,
};
WatchedTracker::list_all_enabled(&conn).unwrap_or_default()
};
if trackers.is_empty() {
return;
}
// Build Tuleap client from credentials
let client = {
let conn = match db.lock() {
Ok(c) => c,
Err(_) => return,
};
let cred = match TuleapCredentials::get(&conn) {
Ok(Some(c)) => c,
_ => return,
};
let password = match crypto::decrypt(encryption_key, &cred.password_encrypted) {
Ok(p) => p,
Err(_) => return,
};
TuleapClient::new(http_client, &cred.tuleap_url, &cred.username, &password)
};
for tracker in &trackers {
if should_poll(tracker) {
poll_single_tracker(db, &client, tracker, app_handle).await;
}
}
}
fn should_poll(tracker: &WatchedTracker) -> bool {
let Some(last_polled) = &tracker.last_polled_at else {
return true; // Never polled
};
let Ok(last) = chrono::DateTime::parse_from_rfc3339(last_polled) else {
return true;
};
let elapsed = chrono::Utc::now().signed_duration_since(last);
elapsed.num_minutes() >= tracker.polling_interval as i64
}
async fn poll_single_tracker(
db: &Arc<Mutex<Connection>>,
client: &TuleapClient,
tracker: &WatchedTracker,
app_handle: &AppHandle,
) {
let artifacts = match client.get_artifacts(tracker.tracker_id).await {
Ok(a) => a,
Err(e) => {
eprintln!("Poller error for tracker {}: {}", tracker.tracker_label, e);
return;
}
};
let filtered = filter_engine::apply_filters(&artifacts, &tracker.filters);
let mut new_tickets = Vec::new();
{
let conn = match db.lock() {
Ok(c) => c,
Err(_) => return,
};
for artifact in &filtered {
let artifact_id = artifact.get("id").and_then(|v| v.as_i64()).unwrap_or(0) as i32;
let artifact_title = artifact.get("title").and_then(|v| v.as_str()).unwrap_or("Untitled");
let artifact_data = serde_json::to_string(artifact).unwrap_or_default();
match ProcessedTicket::insert_if_new(&conn, &tracker.id, artifact_id, artifact_title, &artifact_data) {
Ok(Some(ticket)) => new_tickets.push(ticket),
Ok(None) => {} // already processed
Err(e) => eprintln!("Failed to insert ticket: {}", e),
}
}
let _ = WatchedTracker::update_last_polled(&conn, &tracker.id);
}
if !new_tickets.is_empty() {
let _ = app_handle.emit("new-tickets-detected", serde_json::json!({
"tracker_id": tracker.id,
"tracker_label": tracker.tracker_label,
"count": new_tickets.len(),
}));
}
}
- Step 2: Spawn poller on app startup
In src-tauri/src/lib.rs, add the poller startup at the end of the setup closure, after app.manage(...):
.setup(|app| {
let db_dir = app.path().app_data_dir()?;
std::fs::create_dir_all(&db_dir)?;
let db_path = db_dir.join("orchai.db");
let conn = db::init(&db_path).expect("Failed to initialize database");
let key_path = db_dir.join("orchai.key");
let encryption_key = load_or_generate_key(&key_path)?;
let http_client = reqwest::Client::new();
let db_arc = Arc::new(Mutex::new(conn));
app.manage(AppState {
db: db_arc.clone(),
encryption_key,
http_client: http_client.clone(),
});
// Start background poller
services::poller::start(
db_arc,
encryption_key,
http_client,
app.handle().clone(),
);
Ok(())
})
- Step 3: Verify compilation
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo build
Expected: compiles. All existing tests still pass.
- Step 4: Commit
git add -A
git commit -m "feat: background poller with 60s tick, per-tracker interval, event emission"
Task 10: Frontend types + API wrappers + Settings page
Files:
-
Modify:
src/lib/types.ts -
Modify:
src/lib/api.ts -
Create:
src/components/settings/SettingsPage.tsx -
Modify:
src/App.tsx(add /settings route) -
Modify:
src/components/layout/Sidebar.tsx(add settings link) -
Step 1: Add new TypeScript types
Add to src/lib/types.ts:
export interface TuleapCredentialsSafe {
id: string;
tuleap_url: string;
username: string;
}
export interface AgentConfig {
analyst_command: string;
analyst_args: string[];
developer_command: string;
developer_args: string[];
}
export interface Filter {
field: string;
operator: string;
value: string[];
}
export interface FilterGroup {
conditions: Filter[];
}
export interface TrackerField {
field_id: number;
label: string;
field_type: string;
values: FieldValue[];
}
export interface FieldValue {
id: number;
label: string;
}
export interface WatchedTracker {
id: string;
project_id: string;
tracker_id: number;
tracker_label: string;
polling_interval: number;
agent_config: AgentConfig;
filters: FilterGroup[];
enabled: boolean;
last_polled_at: string | null;
created_at: string;
}
export interface ProcessedTicket {
id: string;
tracker_id: string;
artifact_id: number;
artifact_title: string;
artifact_data: string;
status: string;
analyst_report: string | null;
developer_report: string | null;
worktree_path: string | null;
branch_name: string | null;
detected_at: string;
processed_at: string | null;
}
- Step 2: Add new API wrappers
Add to src/lib/api.ts:
import type {
Project,
TuleapCredentialsSafe,
WatchedTracker,
AgentConfig,
FilterGroup,
TrackerField,
ProcessedTicket,
} from "./types";
// Credentials
export async function setTuleapCredentials(
tuleapUrl: string,
username: string,
password: string
): Promise<TuleapCredentialsSafe> {
return invoke("set_tuleap_credentials", { tuleapUrl, username, password });
}
export async function getTuleapCredentials(): Promise<TuleapCredentialsSafe | null> {
return invoke("get_tuleap_credentials");
}
export async function deleteTuleapCredentials(): Promise<void> {
return invoke("delete_tuleap_credentials");
}
export async function testTuleapConnection(): Promise<string> {
return invoke("test_tuleap_connection");
}
// Trackers
export async function addTracker(
projectId: string,
trackerId: number,
trackerLabel: string,
pollingInterval: number,
agentConfig: AgentConfig,
filters: FilterGroup[]
): Promise<WatchedTracker> {
return invoke("add_tracker", {
projectId, trackerId, trackerLabel, pollingInterval, agentConfig, filters,
});
}
export async function listTrackers(projectId: string): Promise<WatchedTracker[]> {
return invoke("list_trackers", { projectId });
}
export async function updateTracker(
id: string,
pollingInterval: number,
agentConfig: AgentConfig,
filters: FilterGroup[],
enabled: boolean
): Promise<void> {
return invoke("update_tracker", { id, pollingInterval, agentConfig, filters, enabled });
}
export async function removeTracker(id: string): Promise<void> {
return invoke("remove_tracker", { id });
}
export async function getTrackerFields(trackerId: number): Promise<TrackerField[]> {
return invoke("get_tracker_fields", { trackerId });
}
// Tickets
export async function listProcessedTickets(projectId: string): Promise<ProcessedTicket[]> {
return invoke("list_processed_tickets", { projectId });
}
export async function manualPoll(trackerId: string): Promise<ProcessedTicket[]> {
return invoke("manual_poll", { trackerId });
}
export async function getQueueStatus(projectId: string): Promise<ProcessedTicket[]> {
return invoke("get_queue_status", { projectId });
}
- Step 3: Create SettingsPage component
Create src/components/settings/SettingsPage.tsx:
import { useEffect, useState } from "react";
import {
getTuleapCredentials,
setTuleapCredentials,
deleteTuleapCredentials,
testTuleapConnection,
} from "../../lib/api";
import type { TuleapCredentialsSafe } from "../../lib/types";
export default function SettingsPage() {
const [credentials, setCredentials] = useState<TuleapCredentialsSafe | null>(null);
const [url, setUrl] = useState("");
const [username, setUsername] = useState("");
const [password, setPassword] = useState("");
const [error, setError] = useState<string | null>(null);
const [success, setSuccess] = useState<string | null>(null);
const [loading, setLoading] = useState(false);
const [testing, setTesting] = useState(false);
useEffect(() => {
getTuleapCredentials().then((cred) => {
setCredentials(cred);
if (cred) {
setUrl(cred.tuleap_url);
setUsername(cred.username);
}
});
}, []);
async function handleSave(e: React.FormEvent) {
e.preventDefault();
setError(null);
setSuccess(null);
setLoading(true);
try {
const saved = await setTuleapCredentials(url, username, password);
setCredentials(saved);
setPassword("");
setSuccess("Credentials saved");
} catch (err: unknown) {
setError(err instanceof Error ? err.message : String(err));
} finally {
setLoading(false);
}
}
async function handleTest() {
setError(null);
setSuccess(null);
setTesting(true);
try {
const msg = await testTuleapConnection();
setSuccess(msg);
} catch (err: unknown) {
setError(err instanceof Error ? err.message : String(err));
} finally {
setTesting(false);
}
}
async function handleDelete() {
if (!window.confirm("Delete Tuleap credentials?")) return;
await deleteTuleapCredentials();
setCredentials(null);
setUrl("");
setUsername("");
setPassword("");
}
return (
<div className="max-w-lg mx-auto p-8">
<h2 className="text-xl font-bold mb-6">Settings</h2>
<div className="bg-white rounded-lg border border-gray-200 p-6">
<h3 className="text-lg font-semibold mb-4">Tuleap Credentials</h3>
<form onSubmit={handleSave} className="space-y-4">
<div>
<label className="block text-sm font-medium text-gray-700 mb-1">
Tuleap URL
</label>
<input
type="url"
value={url}
onChange={(e) => setUrl(e.target.value)}
required
placeholder="https://tuleap.example.com"
className="w-full border border-gray-300 rounded px-3 py-2 text-sm focus:outline-none focus:ring-2 focus:ring-blue-500"
/>
</div>
<div>
<label className="block text-sm font-medium text-gray-700 mb-1">
Username
</label>
<input
type="text"
value={username}
onChange={(e) => setUsername(e.target.value)}
required
className="w-full border border-gray-300 rounded px-3 py-2 text-sm focus:outline-none focus:ring-2 focus:ring-blue-500"
/>
</div>
<div>
<label className="block text-sm font-medium text-gray-700 mb-1">
Password {credentials && <span className="text-gray-400">(leave empty to keep current)</span>}
</label>
<input
type="password"
value={password}
onChange={(e) => setPassword(e.target.value)}
required={!credentials}
placeholder={credentials ? "••••••••" : ""}
className="w-full border border-gray-300 rounded px-3 py-2 text-sm focus:outline-none focus:ring-2 focus:ring-blue-500"
/>
</div>
{error && (
<div className="text-red-600 text-sm bg-red-50 border border-red-200 rounded p-2">{error}</div>
)}
{success && (
<div className="text-green-600 text-sm bg-green-50 border border-green-200 rounded p-2">{success}</div>
)}
<div className="flex gap-2">
<button
type="submit"
disabled={loading}
className="px-4 py-2 bg-blue-600 text-white rounded text-sm hover:bg-blue-700 disabled:opacity-50"
>
{loading ? "Saving..." : "Save"}
</button>
{credentials && (
<>
<button
type="button"
onClick={handleTest}
disabled={testing}
className="px-4 py-2 bg-gray-200 rounded text-sm hover:bg-gray-300 disabled:opacity-50"
>
{testing ? "Testing..." : "Test connection"}
</button>
<button
type="button"
onClick={handleDelete}
className="px-4 py-2 bg-red-100 text-red-700 rounded text-sm hover:bg-red-200"
>
Delete
</button>
</>
)}
</div>
</form>
</div>
</div>
);
}
- Step 4: Add settings route and sidebar link
In src/App.tsx, add the settings route:
import SettingsPage from "./components/settings/SettingsPage";
Add inside the <Route element={<AppLayout />}> block:
<Route path="/settings" element={<SettingsPage />} />
In src/components/layout/Sidebar.tsx, add a settings link at the bottom of the sidebar (before closing </aside>):
<div className="p-2 border-t border-gray-700">
<Link
to="/settings"
className="block px-3 py-2 rounded text-sm text-gray-300 hover:bg-gray-800 hover:text-white"
>
Settings
</Link>
</div>
- Step 5: Verify TypeScript compiles and frontend builds
cd /home/leclere/Projets/orchai
npx tsc --noEmit
npm run build
Expected: both succeed.
- Step 6: Commit
git add -A
git commit -m "feat: frontend types, API wrappers, and Settings page for Tuleap credentials"
Task 11: Tracker config + filter builder UI
Files:
-
Create:
src/components/trackers/TrackerList.tsx -
Create:
src/components/trackers/TrackerConfig.tsx -
Create:
src/components/trackers/FilterBuilder.tsx -
Modify:
src/App.tsx(add tracker routes) -
Step 1: Create FilterBuilder component
Create src/components/trackers/FilterBuilder.tsx:
import type { FilterGroup, Filter, TrackerField } from "../../lib/types";
interface Props {
groups: FilterGroup[];
onChange: (groups: FilterGroup[]) => void;
availableFields: TrackerField[];
}
export default function FilterBuilder({ groups, onChange, availableFields }: Props) {
function addGroup() {
onChange([...groups, { conditions: [{ field: "", operator: "In", value: [] }] }]);
}
function removeGroup(groupIdx: number) {
onChange(groups.filter((_, i) => i !== groupIdx));
}
function addCondition(groupIdx: number) {
const updated = [...groups];
updated[groupIdx] = {
conditions: [...updated[groupIdx].conditions, { field: "", operator: "In", value: [] }],
};
onChange(updated);
}
function removeCondition(groupIdx: number, condIdx: number) {
const updated = [...groups];
updated[groupIdx] = {
conditions: updated[groupIdx].conditions.filter((_, i) => i !== condIdx),
};
if (updated[groupIdx].conditions.length === 0) {
onChange(updated.filter((_, i) => i !== groupIdx));
} else {
onChange(updated);
}
}
function updateCondition(groupIdx: number, condIdx: number, field: keyof Filter, val: string | string[]) {
const updated = [...groups];
const condition = { ...updated[groupIdx].conditions[condIdx] };
if (field === "value") {
condition.value = val as string[];
} else {
condition[field] = val as string;
// Reset value when field changes
if (field === "field") {
condition.value = [];
}
}
updated[groupIdx] = {
conditions: updated[groupIdx].conditions.map((c, i) => (i === condIdx ? condition : c)),
};
onChange(updated);
}
function getFieldValues(fieldLabel: string): string[] {
const field = availableFields.find((f) => f.label === fieldLabel);
return field?.values.map((v) => v.label) ?? [];
}
function toggleValue(groupIdx: number, condIdx: number, val: string) {
const condition = groups[groupIdx].conditions[condIdx];
const newValues = condition.value.includes(val)
? condition.value.filter((v) => v !== val)
: [...condition.value, val];
updateCondition(groupIdx, condIdx, "value", newValues);
}
return (
<div className="space-y-4">
{groups.map((group, groupIdx) => (
<div key={groupIdx} className="border border-gray-200 rounded p-3 bg-gray-50">
<div className="flex items-center justify-between mb-2">
<span className="text-xs font-semibold text-gray-500 uppercase">
{groupIdx > 0 && "AND "}Group {groupIdx + 1}
</span>
<button
type="button"
onClick={() => removeGroup(groupIdx)}
className="text-red-500 text-xs hover:text-red-700"
>
Remove group
</button>
</div>
{group.conditions.map((condition, condIdx) => (
<div key={condIdx} className="flex gap-2 items-start mb-2">
{condIdx > 0 && (
<span className="text-xs text-gray-400 self-center">OR</span>
)}
<select
value={condition.field}
onChange={(e) => updateCondition(groupIdx, condIdx, "field", e.target.value)}
className="border border-gray-300 rounded px-2 py-1 text-sm"
>
<option value="">Select field...</option>
{availableFields.filter((f) => f.values.length > 0).map((f) => (
<option key={f.field_id} value={f.label}>{f.label}</option>
))}
</select>
<select
value={condition.operator}
onChange={(e) => updateCondition(groupIdx, condIdx, "operator", e.target.value)}
className="border border-gray-300 rounded px-2 py-1 text-sm"
>
<option value="In">In</option>
<option value="NotIn">Not In</option>
<option value="Equals">Equals</option>
<option value="NotEquals">Not Equals</option>
</select>
<div className="flex flex-wrap gap-1">
{condition.field && getFieldValues(condition.field).map((val) => (
<button
key={val}
type="button"
onClick={() => toggleValue(groupIdx, condIdx, val)}
className={`px-2 py-0.5 rounded text-xs border ${
condition.value.includes(val)
? "bg-blue-100 border-blue-300 text-blue-700"
: "bg-white border-gray-300 text-gray-600 hover:bg-gray-50"
}`}
>
{val}
</button>
))}
</div>
<button
type="button"
onClick={() => removeCondition(groupIdx, condIdx)}
className="text-red-400 text-sm hover:text-red-600"
>
x
</button>
</div>
))}
<button
type="button"
onClick={() => addCondition(groupIdx)}
className="text-blue-600 text-xs hover:text-blue-800"
>
+ Add OR condition
</button>
</div>
))}
<button
type="button"
onClick={addGroup}
className="text-sm text-blue-600 hover:text-blue-800"
>
+ Add filter group (AND)
</button>
</div>
);
}
- Step 2: Create TrackerConfig component
Create src/components/trackers/TrackerConfig.tsx:
import { useState, useEffect } from "react";
import { useNavigate, useParams } from "react-router-dom";
import { addTracker, getTrackerFields } from "../../lib/api";
import type { AgentConfig, FilterGroup, TrackerField } from "../../lib/types";
import FilterBuilder from "./FilterBuilder";
export default function TrackerConfig() {
const navigate = useNavigate();
const { projectId } = useParams();
const [trackerId, setTrackerId] = useState("");
const [trackerLabel, setTrackerLabel] = useState("");
const [pollingInterval, setPollingInterval] = useState(10);
const [filters, setFilters] = useState<FilterGroup[]>([]);
const [agentConfig, setAgentConfig] = useState<AgentConfig>({
analyst_command: "claude",
analyst_args: ["--print"],
developer_command: "claude",
developer_args: ["--print"],
});
const [availableFields, setAvailableFields] = useState<TrackerField[]>([]);
const [error, setError] = useState<string | null>(null);
const [loading, setLoading] = useState(false);
const [loadingFields, setLoadingFields] = useState(false);
async function handleLoadFields() {
const id = parseInt(trackerId, 10);
if (isNaN(id)) return;
setLoadingFields(true);
setError(null);
try {
const fields = await getTrackerFields(id);
setAvailableFields(fields);
} catch (err: unknown) {
setError(err instanceof Error ? err.message : String(err));
} finally {
setLoadingFields(false);
}
}
async function handleSubmit(e: React.FormEvent) {
e.preventDefault();
if (!projectId) return;
setError(null);
setLoading(true);
try {
await addTracker(
projectId,
parseInt(trackerId, 10),
trackerLabel,
pollingInterval,
agentConfig,
filters
);
navigate(`/projects/${projectId}`);
} catch (err: unknown) {
setError(err instanceof Error ? err.message : String(err));
} finally {
setLoading(false);
}
}
return (
<div className="max-w-2xl mx-auto p-8">
<h2 className="text-xl font-bold mb-6">Add Tracker</h2>
<form onSubmit={handleSubmit} className="space-y-6">
<div className="bg-white rounded-lg border border-gray-200 p-4 space-y-4">
<h3 className="font-semibold text-sm text-gray-700">Tracker</h3>
<div className="flex gap-2">
<div className="flex-1">
<label className="block text-sm text-gray-600 mb-1">Tracker ID</label>
<input
type="number"
value={trackerId}
onChange={(e) => setTrackerId(e.target.value)}
required
className="w-full border border-gray-300 rounded px-3 py-2 text-sm"
/>
</div>
<div className="flex-1">
<label className="block text-sm text-gray-600 mb-1">Label</label>
<input
type="text"
value={trackerLabel}
onChange={(e) => setTrackerLabel(e.target.value)}
required
placeholder="e.g. Bugs"
className="w-full border border-gray-300 rounded px-3 py-2 text-sm"
/>
</div>
</div>
<div>
<label className="block text-sm text-gray-600 mb-1">Polling interval (minutes)</label>
<input
type="number"
value={pollingInterval}
onChange={(e) => setPollingInterval(parseInt(e.target.value, 10) || 10)}
min={1}
className="w-32 border border-gray-300 rounded px-3 py-2 text-sm"
/>
</div>
<button
type="button"
onClick={handleLoadFields}
disabled={!trackerId || loadingFields}
className="px-3 py-1 bg-gray-200 rounded text-sm hover:bg-gray-300 disabled:opacity-50"
>
{loadingFields ? "Loading fields..." : "Load tracker fields"}
</button>
</div>
{availableFields.length > 0 && (
<div className="bg-white rounded-lg border border-gray-200 p-4">
<h3 className="font-semibold text-sm text-gray-700 mb-3">Filters</h3>
<FilterBuilder
groups={filters}
onChange={setFilters}
availableFields={availableFields}
/>
</div>
)}
<div className="bg-white rounded-lg border border-gray-200 p-4 space-y-4">
<h3 className="font-semibold text-sm text-gray-700">Agent Configuration</h3>
<div className="grid grid-cols-2 gap-4">
<div>
<label className="block text-sm text-gray-600 mb-1">Analyst command</label>
<input
type="text"
value={agentConfig.analyst_command}
onChange={(e) => setAgentConfig({ ...agentConfig, analyst_command: e.target.value })}
className="w-full border border-gray-300 rounded px-3 py-2 text-sm"
/>
</div>
<div>
<label className="block text-sm text-gray-600 mb-1">Developer command</label>
<input
type="text"
value={agentConfig.developer_command}
onChange={(e) => setAgentConfig({ ...agentConfig, developer_command: e.target.value })}
className="w-full border border-gray-300 rounded px-3 py-2 text-sm"
/>
</div>
</div>
</div>
{error && (
<div className="text-red-600 text-sm bg-red-50 border border-red-200 rounded p-2">{error}</div>
)}
<div className="flex gap-2">
<button
type="submit"
disabled={loading}
className="px-4 py-2 bg-blue-600 text-white rounded text-sm hover:bg-blue-700 disabled:opacity-50"
>
{loading ? "Adding..." : "Add Tracker"}
</button>
<button
type="button"
onClick={() => navigate(-1)}
className="px-4 py-2 bg-gray-200 rounded text-sm hover:bg-gray-300"
>
Cancel
</button>
</div>
</form>
</div>
);
}
- Step 3: Create TrackerList component
Create src/components/trackers/TrackerList.tsx:
import { useState } from "react";
import { Link } from "react-router-dom";
import { removeTracker, manualPoll, updateTracker } from "../../lib/api";
import type { WatchedTracker } from "../../lib/types";
interface Props {
trackers: WatchedTracker[];
projectId: string;
onRefresh: () => void;
}
export default function TrackerList({ trackers, projectId, onRefresh }: Props) {
const [pollingId, setPollingId] = useState<string | null>(null);
async function handlePoll(tracker: WatchedTracker) {
setPollingId(tracker.id);
try {
const newTickets = await manualPoll(tracker.id);
if (newTickets.length > 0) {
alert(`${newTickets.length} new ticket(s) detected`);
} else {
alert("No new tickets");
}
onRefresh();
} catch (err: unknown) {
alert(err instanceof Error ? err.message : String(err));
} finally {
setPollingId(null);
}
}
async function handleToggle(tracker: WatchedTracker) {
await updateTracker(
tracker.id,
tracker.polling_interval,
tracker.agent_config,
tracker.filters,
!tracker.enabled
);
onRefresh();
}
async function handleRemove(tracker: WatchedTracker) {
if (!window.confirm(`Remove tracker "${tracker.tracker_label}"?`)) return;
await removeTracker(tracker.id);
onRefresh();
}
if (trackers.length === 0) {
return (
<div className="text-sm text-gray-400">
No trackers configured.{" "}
<Link to={`/projects/${projectId}/trackers/new`} className="text-blue-600 hover:underline">
Add one
</Link>
</div>
);
}
return (
<div className="space-y-2">
{trackers.map((tracker) => (
<div key={tracker.id} className="flex items-center justify-between p-3 bg-white border border-gray-200 rounded">
<div>
<span className="font-medium text-sm">{tracker.tracker_label}</span>
<span className="text-xs text-gray-400 ml-2">#{tracker.tracker_id}</span>
<span className={`ml-2 text-xs px-1.5 py-0.5 rounded ${tracker.enabled ? "bg-green-100 text-green-700" : "bg-gray-100 text-gray-500"}`}>
{tracker.enabled ? "Active" : "Paused"}
</span>
{tracker.last_polled_at && (
<span className="text-xs text-gray-400 ml-2">
Last poll: {new Date(tracker.last_polled_at).toLocaleTimeString()}
</span>
)}
</div>
<div className="flex gap-1">
<button
onClick={() => handlePoll(tracker)}
disabled={pollingId === tracker.id}
className="px-2 py-1 text-xs bg-blue-100 text-blue-700 rounded hover:bg-blue-200 disabled:opacity-50"
>
{pollingId === tracker.id ? "Polling..." : "Poll now"}
</button>
<button
onClick={() => handleToggle(tracker)}
className="px-2 py-1 text-xs bg-gray-100 rounded hover:bg-gray-200"
>
{tracker.enabled ? "Pause" : "Resume"}
</button>
<button
onClick={() => handleRemove(tracker)}
className="px-2 py-1 text-xs bg-red-100 text-red-700 rounded hover:bg-red-200"
>
Remove
</button>
</div>
</div>
))}
<Link
to={`/projects/${projectId}/trackers/new`}
className="block text-sm text-blue-600 hover:underline"
>
+ Add tracker
</Link>
</div>
);
}
- Step 4: Add tracker routes in App.tsx
Add import:
import TrackerConfig from "./components/trackers/TrackerConfig";
Add route inside <Route element={<AppLayout />}>:
<Route path="/projects/:projectId/trackers/new" element={<TrackerConfig />} />
- Step 5: Verify frontend builds
cd /home/leclere/Projets/orchai
npx tsc --noEmit
npm run build
- Step 6: Commit
git add -A
git commit -m "feat: tracker config UI with visual AND/OR filter builder"
Task 12: Update project dashboard + final verification
Files:
-
Modify:
src/components/projects/ProjectDashboard.tsx -
Step 1: Update ProjectDashboard to show trackers and recent tickets
Replace src/components/projects/ProjectDashboard.tsx:
import { useEffect, useState } from "react";
import { useParams, Link, useNavigate } from "react-router-dom";
import { getProject, deleteProject, listTrackers, listProcessedTickets } from "../../lib/api";
import type { Project, WatchedTracker, ProcessedTicket } from "../../lib/types";
import TrackerList from "../trackers/TrackerList";
export default function ProjectDashboard() {
const { projectId } = useParams();
const navigate = useNavigate();
const [project, setProject] = useState<Project | null>(null);
const [trackers, setTrackers] = useState<WatchedTracker[]>([]);
const [tickets, setTickets] = useState<ProcessedTicket[]>([]);
function loadData() {
if (!projectId) return;
getProject(projectId).then(setProject);
listTrackers(projectId).then(setTrackers);
listProcessedTickets(projectId).then(setTickets);
}
useEffect(() => {
loadData();
}, [projectId]);
async function handleDelete() {
if (!projectId || !project) return;
if (!window.confirm(`Delete project "${project.name}"?`)) return;
await deleteProject(projectId);
window.dispatchEvent(new Event("orchai:refresh-projects"));
navigate("/");
}
if (!project) {
return <div className="p-8 text-gray-400">Loading...</div>;
}
return (
<div className="p-8">
<div className="flex items-center justify-between mb-6">
<h2 className="text-xl font-bold">{project.name}</h2>
<div className="flex gap-2">
<Link
to={`/projects/${project.id}/edit`}
className="px-3 py-1 bg-gray-200 rounded text-sm hover:bg-gray-300"
>
Edit
</Link>
<button
onClick={handleDelete}
className="px-3 py-1 bg-red-100 text-red-700 rounded text-sm hover:bg-red-200"
>
Delete
</button>
</div>
</div>
<div className="bg-white rounded-lg border border-gray-200 p-4 space-y-3 mb-6">
<div>
<span className="text-sm text-gray-500">Path:</span>
<span className="ml-2 text-sm font-mono">{project.path}</span>
</div>
{project.cloned_from && (
<div>
<span className="text-sm text-gray-500">Cloned from:</span>
<span className="ml-2 text-sm font-mono">{project.cloned_from}</span>
</div>
)}
<div>
<span className="text-sm text-gray-500">Base branch:</span>
<span className="ml-2 text-sm font-mono">{project.base_branch}</span>
</div>
</div>
<div className="mb-6">
<h3 className="text-lg font-semibold mb-3">Watched Trackers</h3>
<TrackerList trackers={trackers} projectId={project.id} onRefresh={loadData} />
</div>
{tickets.length > 0 && (
<div>
<h3 className="text-lg font-semibold mb-3">Recent Tickets</h3>
<div className="space-y-2">
{tickets.slice(0, 10).map((ticket) => (
<div key={ticket.id} className="flex items-center justify-between p-3 bg-white border border-gray-200 rounded">
<div>
<span className="text-sm font-medium">#{ticket.artifact_id}</span>
<span className="ml-2 text-sm">{ticket.artifact_title}</span>
</div>
<span className={`text-xs px-2 py-0.5 rounded ${
ticket.status === "Pending" ? "bg-yellow-100 text-yellow-700"
: ticket.status === "Done" ? "bg-green-100 text-green-700"
: ticket.status === "Error" ? "bg-red-100 text-red-700"
: "bg-blue-100 text-blue-700"
}`}>
{ticket.status}
</span>
</div>
))}
</div>
</div>
)}
</div>
);
}
- Step 2: Run all Rust tests
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo test
Expected: all tests pass (11 Phase 1 + 7 crypto + 5 credential + 7 tuleap_client + 7 tracker + 7 filter + 5 ticket = 49 tests).
- Step 3: Run clippy
cd /home/leclere/Projets/orchai/src-tauri
PKG_CONFIG_PATH="/tmp/mypc:$PKG_CONFIG_PATH" cargo clippy -- -D warnings
Fix any warnings.
- Step 4: Verify frontend builds
cd /home/leclere/Projets/orchai
npx tsc --noEmit
npm run build
- Step 5: Commit
git add -A
git commit -m "feat: updated project dashboard with tracker list and recent tickets"