// bttask — Read access to task board SQLite tables in btmsg.db // Tasks table created by bttask CLI, shared DB with btmsg use rusqlite::{params, Connection, OpenFlags}; use serde::{Deserialize, Serialize}; use std::path::PathBuf; fn db_path() -> PathBuf { dirs::data_dir() .unwrap_or_else(|| PathBuf::from(".")) .join("bterminal") .join("btmsg.db") } fn open_db() -> Result { let path = db_path(); if !path.exists() { return Err("btmsg database not found".into()); } let conn = Connection::open_with_flags(&path, OpenFlags::SQLITE_OPEN_READ_WRITE) .map_err(|e| format!("Failed to open btmsg.db: {e}"))?; conn.pragma_update(None, "journal_mode", "WAL") .map_err(|e| format!("Failed to set WAL mode: {e}"))?; conn.pragma_update(None, "busy_timeout", 5000) .map_err(|e| format!("Failed to set busy_timeout: {e}"))?; Ok(conn) } #[derive(Debug, Serialize, Deserialize)] #[serde(rename_all = "camelCase")] pub struct Task { pub id: String, pub title: String, pub description: String, pub status: String, pub priority: String, pub assigned_to: Option, pub created_by: String, pub group_id: String, pub parent_task_id: Option, pub sort_order: i32, pub created_at: String, pub updated_at: String, } #[derive(Debug, Serialize, Deserialize)] #[serde(rename_all = "camelCase")] pub struct TaskComment { pub id: String, pub task_id: String, pub agent_id: String, pub content: String, pub created_at: String, } /// Get all tasks for a group pub fn list_tasks(group_id: &str) -> Result, String> { let db = open_db()?; let mut stmt = db .prepare( "SELECT id, title, description, status, priority, assigned_to, created_by, group_id, parent_task_id, sort_order, created_at, updated_at FROM tasks WHERE group_id = ?1 ORDER BY sort_order ASC, created_at DESC", ) .map_err(|e| format!("Query error: {e}"))?; let rows = stmt .query_map(params![group_id], |row| { Ok(Task { id: row.get("id")?, title: row.get("title")?, description: row.get::<_, String>("description").unwrap_or_default(), status: row.get::<_, String>("status").unwrap_or_else(|_| "todo".into()), priority: row.get::<_, String>("priority").unwrap_or_else(|_| "medium".into()), assigned_to: row.get("assigned_to")?, created_by: row.get("created_by")?, group_id: row.get("group_id")?, parent_task_id: row.get("parent_task_id")?, sort_order: row.get::<_, i32>("sort_order").unwrap_or(0), created_at: row.get::<_, String>("created_at").unwrap_or_default(), updated_at: row.get::<_, String>("updated_at").unwrap_or_default(), }) }) .map_err(|e| format!("Query error: {e}"))?; rows.collect::, _>>() .map_err(|e| format!("Row error: {e}")) } /// Get comments for a task pub fn task_comments(task_id: &str) -> Result, String> { let db = open_db()?; let mut stmt = db .prepare( "SELECT id, task_id, agent_id, content, created_at FROM task_comments WHERE task_id = ?1 ORDER BY created_at ASC", ) .map_err(|e| format!("Query error: {e}"))?; let rows = stmt .query_map(params![task_id], |row| { Ok(TaskComment { id: row.get("id")?, task_id: row.get("task_id")?, agent_id: row.get("agent_id")?, content: row.get("content")?, created_at: row.get::<_, String>("created_at").unwrap_or_default(), }) }) .map_err(|e| format!("Query error: {e}"))?; rows.collect::, _>>() .map_err(|e| format!("Row error: {e}")) } /// Update task status pub fn update_task_status(task_id: &str, status: &str) -> Result<(), String> { let valid = ["todo", "progress", "review", "done", "blocked"]; if !valid.contains(&status) { return Err(format!("Invalid status '{}'. Valid: {:?}", status, valid)); } let db = open_db()?; db.execute( "UPDATE tasks SET status = ?1, updated_at = datetime('now') WHERE id = ?2", params![status, task_id], ) .map_err(|e| format!("Update error: {e}"))?; Ok(()) } /// Add a comment to a task pub fn add_comment(task_id: &str, agent_id: &str, content: &str) -> Result { let db = open_db()?; let id = uuid::Uuid::new_v4().to_string(); db.execute( "INSERT INTO task_comments (id, task_id, agent_id, content) VALUES (?1, ?2, ?3, ?4)", params![id, task_id, agent_id, content], ) .map_err(|e| format!("Insert error: {e}"))?; Ok(id) } /// Create a new task pub fn create_task( title: &str, description: &str, priority: &str, group_id: &str, created_by: &str, assigned_to: Option<&str>, ) -> Result { let db = open_db()?; let id = uuid::Uuid::new_v4().to_string(); db.execute( "INSERT INTO tasks (id, title, description, priority, group_id, created_by, assigned_to) VALUES (?1, ?2, ?3, ?4, ?5, ?6, ?7)", params![id, title, description, priority, group_id, created_by, assigned_to], ) .map_err(|e| format!("Insert error: {e}"))?; Ok(id) } /// Delete a task pub fn delete_task(task_id: &str) -> Result<(), String> { let db = open_db()?; db.execute("DELETE FROM task_comments WHERE task_id = ?1", params![task_id]) .map_err(|e| format!("Delete comments error: {e}"))?; db.execute("DELETE FROM tasks WHERE id = ?1", params![task_id]) .map_err(|e| format!("Delete task error: {e}"))?; Ok(()) } #[cfg(test)] mod tests { use super::*; use rusqlite::Connection; fn test_db() -> Connection { let conn = Connection::open_in_memory().unwrap(); conn.execute_batch( "CREATE TABLE tasks ( id TEXT PRIMARY KEY, title TEXT NOT NULL, description TEXT DEFAULT '', status TEXT DEFAULT 'todo', priority TEXT DEFAULT 'medium', assigned_to TEXT, created_by TEXT NOT NULL, group_id TEXT NOT NULL, parent_task_id TEXT, sort_order INTEGER DEFAULT 0, created_at TEXT DEFAULT (datetime('now')), updated_at TEXT DEFAULT (datetime('now')) ); CREATE TABLE task_comments ( id TEXT PRIMARY KEY, task_id TEXT NOT NULL, agent_id TEXT NOT NULL, content TEXT NOT NULL, created_at TEXT DEFAULT (datetime('now')) );", ) .unwrap(); conn } // ---- REGRESSION: list_tasks named column access ---- #[test] fn test_list_tasks_named_column_access() { let conn = test_db(); conn.execute( "INSERT INTO tasks (id, title, description, status, priority, assigned_to, created_by, group_id, sort_order) VALUES ('t1', 'Fix bug', 'Critical fix', 'progress', 'high', 'a1', 'admin', 'g1', 1)", [], ).unwrap(); conn.execute( "INSERT INTO tasks (id, title, description, status, priority, assigned_to, created_by, group_id, sort_order) VALUES ('t2', 'Add tests', '', 'todo', 'medium', NULL, 'a1', 'g1', 2)", [], ).unwrap(); let mut stmt = conn.prepare( "SELECT id, title, description, status, priority, assigned_to, created_by, group_id, parent_task_id, sort_order, created_at, updated_at FROM tasks WHERE group_id = ?1 ORDER BY sort_order ASC, created_at DESC", ).unwrap(); let tasks: Vec = stmt.query_map(params!["g1"], |row| { Ok(Task { id: row.get("id")?, title: row.get("title")?, description: row.get::<_, String>("description").unwrap_or_default(), status: row.get::<_, String>("status").unwrap_or_else(|_| "todo".into()), priority: row.get::<_, String>("priority").unwrap_or_else(|_| "medium".into()), assigned_to: row.get("assigned_to")?, created_by: row.get("created_by")?, group_id: row.get("group_id")?, parent_task_id: row.get("parent_task_id")?, sort_order: row.get::<_, i32>("sort_order").unwrap_or(0), created_at: row.get::<_, String>("created_at").unwrap_or_default(), updated_at: row.get::<_, String>("updated_at").unwrap_or_default(), }) }).unwrap().collect::, _>>().unwrap(); assert_eq!(tasks.len(), 2); assert_eq!(tasks[0].id, "t1"); assert_eq!(tasks[0].title, "Fix bug"); assert_eq!(tasks[0].status, "progress"); assert_eq!(tasks[0].priority, "high"); assert_eq!(tasks[0].assigned_to, Some("a1".to_string())); assert_eq!(tasks[0].sort_order, 1); assert_eq!(tasks[1].id, "t2"); assert_eq!(tasks[1].assigned_to, None); assert_eq!(tasks[1].parent_task_id, None); } // ---- REGRESSION: task_comments named column access ---- #[test] fn test_task_comments_named_column_access() { let conn = test_db(); conn.execute( "INSERT INTO tasks (id, title, created_by, group_id) VALUES ('t1', 'Test', 'admin', 'g1')", [], ).unwrap(); conn.execute( "INSERT INTO task_comments (id, task_id, agent_id, content) VALUES ('c1', 't1', 'a1', 'Working on it')", [], ).unwrap(); conn.execute( "INSERT INTO task_comments (id, task_id, agent_id, content) VALUES ('c2', 't1', 'a2', 'Looks good')", [], ).unwrap(); let mut stmt = conn.prepare( "SELECT id, task_id, agent_id, content, created_at FROM task_comments WHERE task_id = ?1 ORDER BY created_at ASC", ).unwrap(); let comments: Vec = stmt.query_map(params!["t1"], |row| { Ok(TaskComment { id: row.get("id")?, task_id: row.get("task_id")?, agent_id: row.get("agent_id")?, content: row.get("content")?, created_at: row.get::<_, String>("created_at").unwrap_or_default(), }) }).unwrap().collect::, _>>().unwrap(); assert_eq!(comments.len(), 2); assert_eq!(comments[0].agent_id, "a1"); assert_eq!(comments[0].content, "Working on it"); assert_eq!(comments[1].agent_id, "a2"); } // ---- serde camelCase serialization ---- #[test] fn test_task_serializes_to_camel_case() { let task = Task { id: "t1".into(), title: "Test".into(), description: "desc".into(), status: "todo".into(), priority: "high".into(), assigned_to: Some("a1".into()), created_by: "admin".into(), group_id: "g1".into(), parent_task_id: None, sort_order: 0, created_at: "2026-01-01".into(), updated_at: "2026-01-01".into(), }; let json = serde_json::to_value(&task).unwrap(); assert!(json.get("assignedTo").is_some(), "expected camelCase 'assignedTo'"); assert!(json.get("createdBy").is_some(), "expected camelCase 'createdBy'"); assert!(json.get("groupId").is_some(), "expected camelCase 'groupId'"); assert!(json.get("parentTaskId").is_some(), "expected camelCase 'parentTaskId'"); assert!(json.get("sortOrder").is_some(), "expected camelCase 'sortOrder'"); assert!(json.get("createdAt").is_some(), "expected camelCase 'createdAt'"); assert!(json.get("updatedAt").is_some(), "expected camelCase 'updatedAt'"); // Ensure no snake_case leaks assert!(json.get("assigned_to").is_none()); assert!(json.get("created_by").is_none()); assert!(json.get("group_id").is_none()); } #[test] fn test_task_comment_serializes_to_camel_case() { let comment = TaskComment { id: "c1".into(), task_id: "t1".into(), agent_id: "a1".into(), content: "note".into(), created_at: "2026-01-01".into(), }; let json = serde_json::to_value(&comment).unwrap(); assert!(json.get("taskId").is_some(), "expected camelCase 'taskId'"); assert!(json.get("agentId").is_some(), "expected camelCase 'agentId'"); assert!(json.get("createdAt").is_some(), "expected camelCase 'createdAt'"); assert!(json.get("task_id").is_none()); } // ---- update_task_status validation ---- #[test] fn test_update_task_status_rejects_invalid() { // Can't call update_task_status directly (uses open_db), but we can test the validation logic let valid = ["todo", "progress", "review", "done", "blocked"]; assert!(valid.contains(&"todo")); assert!(valid.contains(&"done")); assert!(!valid.contains(&"invalid")); assert!(!valid.contains(&"cancelled")); } }