pub mod scheduler; use crate::core::urls::ApiUrls; use axum::{ extract::{Path, Query, State}, http::StatusCode, response::{IntoResponse, Json}, routing::{delete, get, post, put}, Router, }; use chrono::{DateTime, Utc}; use diesel::prelude::*; use serde::{Deserialize, Serialize}; use std::fmt::Write as FmtWrite; use std::sync::Arc; use tokio::sync::RwLock; use uuid::Uuid; use crate::shared::state::AppState; use crate::shared::utils::DbPool; pub use scheduler::TaskScheduler; #[derive(Debug, Clone, Serialize, Deserialize)] pub struct CreateTaskRequest { pub title: String, pub description: Option, pub assignee_id: Option, pub reporter_id: Option, pub project_id: Option, pub priority: Option, pub due_date: Option>, pub tags: Option>, pub estimated_hours: Option, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct TaskFilters { pub status: Option, pub priority: Option, pub assignee: Option, pub project_id: Option, pub tag: Option, pub limit: Option, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct TaskUpdate { pub title: Option, pub description: Option, pub status: Option, pub priority: Option, pub assignee: Option, pub due_date: Option>, pub tags: Option>, } #[derive(Debug, Clone, Serialize, Deserialize, Queryable, Insertable)] #[diesel(table_name = crate::core::shared::models::schema::tasks)] pub struct Task { pub id: Uuid, pub title: String, pub description: Option, pub status: String, pub priority: String, pub assignee_id: Option, pub reporter_id: Option, pub project_id: Option, pub due_date: Option>, pub tags: Vec, pub dependencies: Vec, pub estimated_hours: Option, pub actual_hours: Option, pub progress: i32, pub created_at: DateTime, pub updated_at: DateTime, pub completed_at: Option>, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct TaskResponse { pub id: Uuid, pub title: String, pub description: String, pub assignee: Option, pub reporter: Option, pub status: String, pub priority: String, pub due_date: Option>, pub estimated_hours: Option, pub actual_hours: Option, pub tags: Vec, pub parent_task_id: Option, pub subtasks: Vec, pub dependencies: Vec, pub attachments: Vec, pub comments: Vec, pub created_at: DateTime, pub updated_at: DateTime, pub completed_at: Option>, pub progress: i32, } impl From for TaskResponse { fn from(task: Task) -> Self { Self { id: task.id, title: task.title, description: task.description.unwrap_or_default(), assignee: task.assignee_id.map(|id| id.to_string()), reporter: task.reporter_id.map(|id| id.to_string()), status: task.status, priority: task.priority, due_date: task.due_date, estimated_hours: task.estimated_hours, actual_hours: task.actual_hours, tags: task.tags, parent_task_id: None, subtasks: vec![], dependencies: task.dependencies, attachments: vec![], comments: vec![], created_at: task.created_at, updated_at: task.updated_at, completed_at: task.completed_at, progress: task.progress, } } } #[derive(Debug, Clone, Serialize, Deserialize, PartialEq, Eq)] pub enum TaskStatus { Todo, InProgress, Completed, OnHold, Review, Blocked, Cancelled, Done, } #[derive(Debug, Clone, Serialize, Deserialize)] #[serde(rename_all = "lowercase")] pub enum TaskPriority { Low, Medium, High, Urgent, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct TaskComment { pub id: Uuid, pub task_id: Uuid, pub author: String, pub content: String, pub created_at: DateTime, pub updated_at: Option>, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct TaskTemplate { pub id: Uuid, pub name: String, pub description: Option, pub default_assignee: Option, pub default_priority: TaskPriority, pub default_tags: Vec, pub checklist: Vec, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct ChecklistItem { pub id: Uuid, pub task_id: Uuid, pub description: String, pub completed: bool, pub completed_by: Option, pub completed_at: Option>, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct TaskBoard { pub id: Uuid, pub name: String, pub description: Option, pub columns: Vec, pub owner: String, pub members: Vec, pub created_at: DateTime, } #[derive(Debug, Clone, Serialize, Deserialize)] pub struct BoardColumn { pub id: Uuid, pub name: String, pub position: i32, pub status_mapping: TaskStatus, pub task_ids: Vec, pub wip_limit: Option, } #[derive(Debug)] pub struct TaskEngine { _db: DbPool, cache: Arc>>, } impl TaskEngine { pub fn new(db: DbPool) -> Self { Self { _db: db, cache: Arc::new(RwLock::new(vec![])), } } pub async fn create_task( &self, request: CreateTaskRequest, ) -> Result> { let id = Uuid::new_v4(); let now = Utc::now(); let task = Task { id, title: request.title, description: request.description, status: "todo".to_string(), priority: request.priority.unwrap_or_else(|| "medium".to_string()), assignee_id: request.assignee_id, reporter_id: request.reporter_id, project_id: request.project_id, due_date: request.due_date, tags: request.tags.unwrap_or_default(), dependencies: vec![], estimated_hours: request.estimated_hours, actual_hours: None, progress: 0, created_at: now, updated_at: now, completed_at: None, }; let created_task = self.create_task_with_db(task).await?; Ok(created_task.into()) } pub async fn list_tasks( &self, filters: TaskFilters, ) -> Result, Box> { let cache = self.cache.read().await; let mut tasks: Vec = cache.clone(); drop(cache); if let Some(status) = filters.status { tasks.retain(|t| t.status == status); } if let Some(priority) = filters.priority { tasks.retain(|t| t.priority == priority); } if let Some(assignee) = filters.assignee { if let Ok(assignee_id) = Uuid::parse_str(&assignee) { tasks.retain(|t| t.assignee_id == Some(assignee_id)); } } if let Some(project_id) = filters.project_id { tasks.retain(|t| t.project_id == Some(project_id)); } if let Some(tag) = filters.tag { tasks.retain(|t| t.tags.contains(&tag)); } tasks.sort_by(|a, b| b.created_at.cmp(&a.created_at)); if let Some(limit) = filters.limit { tasks.truncate(limit); } Ok(tasks.into_iter().map(|t| t.into()).collect()) } pub async fn update_status( &self, id: Uuid, status: String, ) -> Result> { let mut cache = self.cache.write().await; if let Some(task) = cache.iter_mut().find(|t| t.id == id) { task.status.clone_from(&status); if status == "completed" || status == "done" { task.completed_at = Some(Utc::now()); task.progress = 100; } task.updated_at = Utc::now(); Ok(task.clone().into()) } else { Err("Task not found".into()) } } } pub async fn handle_task_create( State(state): State>, Json(payload): Json, ) -> Result, StatusCode> { let task_engine = &state.task_engine; match task_engine.create_task(payload).await { Ok(task) => Ok(Json(task)), Err(e) => { log::error!("Failed to create task: {}", e); Err(StatusCode::INTERNAL_SERVER_ERROR) } } } pub async fn handle_task_update( State(state): State>, Path(id): Path, Json(payload): Json, ) -> Result, StatusCode> { let task_engine = &state.task_engine; match task_engine.update_task(id, payload).await { Ok(task) => Ok(Json(task.into())), Err(e) => { log::error!("Failed to update task: {}", e); Err(StatusCode::INTERNAL_SERVER_ERROR) } } } pub async fn handle_task_delete( State(state): State>, Path(id): Path, ) -> Result { let task_engine = &state.task_engine; match task_engine.delete_task(id).await { Ok(_) => Ok(StatusCode::NO_CONTENT), Err(e) => { log::error!("Failed to delete task: {}", e); Err(StatusCode::INTERNAL_SERVER_ERROR) } } } pub async fn handle_task_get( State(state): State>, Path(id): Path, ) -> impl IntoResponse { let conn = state.conn.clone(); let task_id = id.clone(); let result = tokio::task::spawn_blocking(move || { let mut db_conn = conn .get() .map_err(|e| format!("DB connection error: {}", e))?; #[derive(Debug, QueryableByName, serde::Serialize)] struct AutoTaskRow { #[diesel(sql_type = diesel::sql_types::Uuid)] pub id: Uuid, #[diesel(sql_type = diesel::sql_types::Text)] pub title: String, #[diesel(sql_type = diesel::sql_types::Text)] pub status: String, #[diesel(sql_type = diesel::sql_types::Text)] pub priority: String, #[diesel(sql_type = diesel::sql_types::Nullable)] pub intent: Option, #[diesel(sql_type = diesel::sql_types::Nullable)] pub error: Option, #[diesel(sql_type = diesel::sql_types::Float)] pub progress: f32, #[diesel(sql_type = diesel::sql_types::Timestamptz)] pub created_at: chrono::DateTime, #[diesel(sql_type = diesel::sql_types::Nullable)] pub completed_at: Option>, } let parsed_uuid = match Uuid::parse_str(&task_id) { Ok(u) => u, Err(_) => return Err(format!("Invalid task ID: {}", task_id)), }; let task: Option = diesel::sql_query( "SELECT id, title, status, priority, intent, error, progress, created_at, completed_at FROM auto_tasks WHERE id = $1 LIMIT 1" ) .bind::(parsed_uuid) .get_result(&mut db_conn) .ok(); Ok::<_, String>(task) }) .await .unwrap_or_else(|e| { log::error!("Task query failed: {}", e); Err(format!("Task query failed: {}", e)) }); match result { Ok(Some(task)) => { let status_class = match task.status.as_str() { "completed" | "done" => "completed", "running" | "pending" => "running", "failed" | "error" => "error", _ => "pending" }; let progress_percent = (task.progress * 100.0) as u8; let created = task.created_at.format("%Y-%m-%d %H:%M").to_string(); let completed = task.completed_at.map(|d| d.format("%Y-%m-%d %H:%M").to_string()).unwrap_or_default(); let html = format!(r#"

{}

Priority: {}

Created: {}

{}

Progress: {}%

{} {} "#, task.title, status_class, task.status, task.priority, created, if !completed.is_empty() { format!(r#"

Completed: {}

"#, completed) } else { String::new() }, progress_percent, progress_percent, task.intent.map(|i| format!(r#"

Intent

{}

"#, i)).unwrap_or_default(), task.error.map(|e| format!(r#"

Error

{}

"#, e)).unwrap_or_default() ); (StatusCode::OK, axum::response::Html(html)).into_response() } Ok(None) => { (StatusCode::NOT_FOUND, axum::response::Html("

Task not found

".to_string())).into_response() } Err(e) => { (StatusCode::INTERNAL_SERVER_ERROR, axum::response::Html(format!("

{}

", e))).into_response() } } } impl TaskEngine { pub async fn create_task_with_db( &self, task: Task, ) -> Result> { use crate::shared::models::schema::tasks::dsl::*; use diesel::prelude::*; let conn = self._db.clone(); let task_clone = task.clone(); let created_task = tokio::task::spawn_blocking(move || -> Result { let mut db_conn = conn.get().map_err(|e| { diesel::result::Error::DatabaseError( diesel::result::DatabaseErrorKind::UnableToSendCommand, Box::new(e.to_string()), ) })?; diesel::insert_into(tasks) .values(&task_clone) .get_result(&mut db_conn) }) .await .map_err(|e| Box::new(e) as Box)? .map_err(|e| Box::new(e) as Box)?; let mut cache = self.cache.write().await; cache.push(created_task.clone()); drop(cache); Ok(created_task) } pub async fn update_task( &self, id: Uuid, updates: TaskUpdate, ) -> Result> { let updated_at = Utc::now(); let mut cache = self.cache.write().await; if let Some(task) = cache.iter_mut().find(|t| t.id == id) { task.updated_at = updated_at; if let Some(title) = updates.title { task.title = title; } if let Some(description) = updates.description { task.description = Some(description); } if let Some(status) = updates.status { task.status.clone_from(&status); if status == "completed" || status == "done" { task.completed_at = Some(Utc::now()); task.progress = 100; } } if let Some(priority) = updates.priority { task.priority = priority; } if let Some(assignee) = updates.assignee { task.assignee_id = Uuid::parse_str(&assignee).ok(); } if let Some(due_date) = updates.due_date { task.due_date = Some(due_date); } if let Some(tags) = updates.tags { task.tags = tags; } let result = task.clone(); drop(cache); return Ok(result); } drop(cache); Err("Task not found".into()) } pub async fn delete_task( &self, id: Uuid, ) -> Result<(), Box> { let dependencies = self.get_task_dependencies(id).await?; if !dependencies.is_empty() { return Err("Cannot delete task with dependencies".into()); } let mut cache = self.cache.write().await; cache.retain(|t| t.id != id); drop(cache); self.refresh_cache() .await .map_err(|e| -> Box { Box::new(std::io::Error::other(e.to_string())) })?; Ok(()) } pub async fn get_user_tasks( &self, user_id: Uuid, ) -> Result, Box> { let cache = self.cache.read().await; let user_tasks: Vec = cache .iter() .filter(|t| { t.assignee_id.map(|a| a == user_id).unwrap_or(false) || t.reporter_id.map(|r| r == user_id).unwrap_or(false) }) .cloned() .collect(); drop(cache); Ok(user_tasks) } pub async fn get_tasks_by_status( &self, status: TaskStatus, ) -> Result, Box> { let cache = self.cache.read().await; let status_str = format!("{:?}", status); let mut tasks: Vec = cache .iter() .filter(|t| t.status == status_str) .cloned() .collect(); drop(cache); tasks.sort_by(|a, b| b.created_at.cmp(&a.created_at)); Ok(tasks) } pub async fn get_overdue_tasks( &self, ) -> Result, Box> { let now = Utc::now(); let cache = self.cache.read().await; let mut tasks: Vec = cache .iter() .filter(|t| t.due_date.is_some_and(|due| due < now) && t.status != "completed") .cloned() .collect(); drop(cache); tasks.sort_by(|a, b| a.due_date.cmp(&b.due_date)); Ok(tasks) } pub fn add_comment( &self, task_id: Uuid, author: &str, content: &str, ) -> Result> { let comment = TaskComment { id: Uuid::new_v4(), task_id, author: author.to_string(), content: content.to_string(), created_at: Utc::now(), updated_at: None, }; log::info!("Added comment to task {}: {}", task_id, content); Ok(comment) } pub async fn create_subtask( &self, parent_id: Uuid, subtask_data: CreateTaskRequest, ) -> Result> { { let cache = self.cache.read().await; if !cache.iter().any(|t| t.id == parent_id) { return Err(Box::new(std::io::Error::new( std::io::ErrorKind::NotFound, "Parent task not found", )) as Box); } } let subtask = self.create_task(subtask_data).await.map_err( |e| -> Box { Box::new(std::io::Error::other(e.to_string())) }, )?; let created = Task { id: subtask.id, title: subtask.title, description: Some(subtask.description), status: subtask.status, priority: subtask.priority, assignee_id: subtask .assignee .as_ref() .and_then(|a| Uuid::parse_str(a).ok()), reporter_id: subtask .reporter .as_ref() .and_then(|r| Uuid::parse_str(r).ok()), project_id: None, due_date: subtask.due_date, tags: subtask.tags, dependencies: subtask.dependencies, estimated_hours: subtask.estimated_hours, actual_hours: subtask.actual_hours, progress: subtask.progress, created_at: subtask.created_at, updated_at: subtask.updated_at, completed_at: subtask.completed_at, }; Ok(created) } pub async fn get_task_dependencies( &self, task_id: Uuid, ) -> Result, Box> { let task = self.get_task(task_id).await?; let mut dependencies = Vec::new(); for dep_id in task.dependencies { if let Ok(dep_task) = self.get_task(dep_id).await { dependencies.push(dep_task); } } Ok(dependencies) } pub async fn get_task( &self, id: Uuid, ) -> Result> { let cache = self.cache.read().await; if let Some(task) = cache.iter().find(|t| t.id == id).cloned() { drop(cache); return Ok(task); } drop(cache); let conn = self._db.clone(); let task_id = id; let task = tokio::task::spawn_blocking(move || { use crate::shared::models::schema::tasks::dsl::*; use diesel::prelude::*; let mut db_conn = conn.get().map_err(|e| { Box::::from(format!("DB error: {e}")) })?; tasks .filter(id.eq(task_id)) .first::(&mut db_conn) .map_err(|e| { Box::::from(format!("Task not found: {e}")) }) }) .await .map_err(|e| { Box::::from(format!("Task error: {e}")) })??; let mut cache = self.cache.write().await; cache.push(task.clone()); drop(cache); Ok(task) } pub async fn get_all_tasks( &self, ) -> Result, Box> { let cache = self.cache.read().await; let mut tasks: Vec = cache.clone(); drop(cache); tasks.sort_by(|a, b| b.created_at.cmp(&a.created_at)); Ok(tasks) } pub async fn assign_task( &self, id: Uuid, assignee: String, ) -> Result> { let assignee_id = Uuid::parse_str(&assignee).ok(); let updated_at = Utc::now(); let mut cache = self.cache.write().await; if let Some(task) = cache.iter_mut().find(|t| t.id == id) { task.assignee_id = assignee_id; task.updated_at = updated_at; let result = task.clone(); drop(cache); return Ok(result); } drop(cache); Err("Task not found".into()) } pub async fn set_dependencies( &self, task_id: Uuid, dependency_ids: Vec, ) -> Result> { let mut cache = self.cache.write().await; if let Some(task) = cache.iter_mut().find(|t| t.id == task_id) { task.dependencies = dependency_ids; task.updated_at = Utc::now(); } let task = self.get_task(task_id).await?; Ok(task.into()) } pub async fn calculate_progress( &self, task_id: Uuid, ) -> Result> { let task = self.get_task(task_id).await?; Ok(match task.status.as_str() { "in_progress" | "in-progress" => 50, "review" => 75, "completed" | "done" => 100, "blocked" => { ((task.actual_hours.unwrap_or(0.0) / task.estimated_hours.unwrap_or(1.0)) * 100.0) as u8 } // "todo", "cancelled", and any other status default to 0 _ => 0, }) } pub async fn create_from_template( &self, _template_id: Uuid, assignee_id: Option, ) -> Result> { let template = TaskTemplate { id: Uuid::new_v4(), name: "Default Template".to_string(), description: Some("Default template".to_string()), default_assignee: None, default_priority: TaskPriority::Medium, default_tags: vec![], checklist: vec![], }; let now = Utc::now(); let task = Task { id: Uuid::new_v4(), title: format!("Task from template: {}", template.name), description: template.description.clone(), status: "todo".to_string(), priority: "medium".to_string(), assignee_id, reporter_id: Some(Uuid::new_v4()), project_id: None, due_date: None, estimated_hours: None, actual_hours: None, tags: template.default_tags, dependencies: Vec::new(), progress: 0, created_at: now, updated_at: now, completed_at: None, }; let task_request = CreateTaskRequest { title: task.title, description: task.description, assignee_id: task.assignee_id, reporter_id: task.reporter_id, project_id: task.project_id, priority: Some(task.priority), due_date: task.due_date, tags: Some(task.tags), estimated_hours: task.estimated_hours, }; let created = self.create_task(task_request).await.map_err( |e| -> Box { Box::new(std::io::Error::other(e.to_string())) }, )?; for item in template.checklist { let _checklist_item = ChecklistItem { id: Uuid::new_v4(), task_id: created.id, description: item.description.clone(), completed: false, completed_by: None, completed_at: None, }; log::info!( "Added checklist item to task {}: {}", created.id, item.description ); } let task = Task { id: created.id, title: created.title, description: Some(created.description), status: created.status, priority: created.priority, assignee_id: created .assignee .as_ref() .and_then(|a| Uuid::parse_str(a).ok()), reporter_id: created.reporter.as_ref().and_then(|r| { if r == "system" { None } else { Uuid::parse_str(r).ok() } }), project_id: None, tags: created.tags, dependencies: created.dependencies, due_date: created.due_date, estimated_hours: created.estimated_hours, actual_hours: created.actual_hours, progress: created.progress, created_at: created.created_at, updated_at: created.updated_at, completed_at: created.completed_at, }; Ok(task) } fn _notify_assignee(assignee: &str, task: &Task) -> Result<(), Box> { log::info!( "Notifying {} about new task assignment: {}", assignee, task.title ); Ok(()) } async fn refresh_cache(&self) -> Result<(), Box> { use crate::shared::models::schema::tasks::dsl::*; use diesel::prelude::*; let conn = self._db.clone(); let task_list = tokio::task::spawn_blocking( move || -> Result, Box> { let mut db_conn = conn.get()?; tasks .order(created_at.desc()) .load::(&mut db_conn) .map_err(|e| Box::new(e) as Box) }, ) .await??; let mut cache = self.cache.write().await; *cache = task_list; Ok(()) } pub async fn get_statistics( &self, user_id: Option, ) -> Result> { use chrono::Utc; let cache = self.cache.read().await; let task_list = if let Some(uid) = user_id { cache .iter() .filter(|t| { t.assignee_id.map(|a| a == uid).unwrap_or(false) || t.reporter_id.map(|r| r == uid).unwrap_or(false) }) .cloned() .collect() } else { cache.clone() }; drop(cache); let mut todo_count = 0; let mut in_progress_count = 0; let mut done_count = 0; let mut overdue_count = 0; let mut total_completion_ratio = 0.0; let mut ratio_count = 0; let now = Utc::now(); for task in &task_list { match task.status.as_str() { "todo" => todo_count += 1, "in_progress" => in_progress_count += 1, "done" => done_count += 1, _ => {} } if let Some(due) = task.due_date { if due < now && task.status != "done" { overdue_count += 1; } } if let (Some(actual), Some(estimated)) = (task.actual_hours, task.estimated_hours) { if estimated > 0.0 { total_completion_ratio += actual / estimated; ratio_count += 1; } } } let avg_completion_ratio = if ratio_count > 0 { Some(total_completion_ratio / f64::from(ratio_count)) } else { None }; Ok(serde_json::json!({ "todo_count": todo_count, "in_progress_count": in_progress_count, "done_count": done_count, "overdue_count": overdue_count, "avg_completion_ratio": avg_completion_ratio, "total_tasks": task_list.len() })) } } pub mod handlers { use super::*; use axum::extract::{Path as AxumPath, Query as AxumQuery, State as AxumState}; use axum::http::StatusCode; use axum::response::{IntoResponse, Json as AxumJson}; pub async fn create_task_handler( AxumState(engine): AxumState>, AxumJson(task_resp): AxumJson, ) -> impl IntoResponse { let task = Task { id: task_resp.id, title: task_resp.title, description: Some(task_resp.description), assignee_id: task_resp.assignee.and_then(|s| Uuid::parse_str(&s).ok()), reporter_id: task_resp.reporter.and_then(|s| Uuid::parse_str(&s).ok()), project_id: None, status: task_resp.status, priority: task_resp.priority, due_date: task_resp.due_date, estimated_hours: task_resp.estimated_hours, actual_hours: task_resp.actual_hours, tags: task_resp.tags, dependencies: vec![], progress: 0, created_at: task_resp.created_at, updated_at: task_resp.updated_at, completed_at: None, }; match engine.create_task_with_db(task).await { Ok(created) => (StatusCode::CREATED, AxumJson(serde_json::json!(created))), Err(e) => { log::error!("Failed to create task: {}", e); ( StatusCode::INTERNAL_SERVER_ERROR, AxumJson(serde_json::json!({"error": e.to_string()})), ) } } } pub async fn get_tasks_handler( AxumState(engine): AxumState>, AxumQuery(query): AxumQuery, ) -> impl IntoResponse { let status_filter = query .get("status") .and_then(|v| v.as_str()) .and_then(|s| serde_json::from_str::(&format!("\"{}\"", s)).ok()); let user_id = query .get("user_id") .and_then(|v| v.as_str()) .and_then(|s| Uuid::parse_str(s).ok()); let tasks = if let Some(status) = status_filter { match engine.get_tasks_by_status(status).await { Ok(t) => t, Err(e) => { log::error!("Failed to get tasks by status: {}", e); return ( StatusCode::INTERNAL_SERVER_ERROR, AxumJson(serde_json::json!({"error": e.to_string()})), ); } } } else if let Some(uid) = user_id { match engine.get_user_tasks(uid).await { Ok(t) => t, Err(e) => { log::error!("Failed to get user tasks: {}", e); return ( StatusCode::INTERNAL_SERVER_ERROR, AxumJson(serde_json::json!({"error": e.to_string()})), ); } } } else { match engine.get_all_tasks().await { Ok(t) => t, Err(e) => { log::error!("Failed to get all tasks: {}", e); return ( StatusCode::INTERNAL_SERVER_ERROR, AxumJson(serde_json::json!({"error": e.to_string()})), ); } } }; let responses: Vec = tasks .into_iter() .map(|t| TaskResponse { id: t.id, title: t.title, description: t.description.unwrap_or_default(), assignee: t.assignee_id.map(|id| id.to_string()), reporter: t.reporter_id.map(|id| id.to_string()), status: t.status, priority: t.priority, due_date: t.due_date, estimated_hours: t.estimated_hours, actual_hours: t.actual_hours, tags: t.tags, parent_task_id: None, subtasks: vec![], dependencies: t.dependencies, attachments: vec![], comments: vec![], created_at: t.created_at, updated_at: t.updated_at, completed_at: t.completed_at, progress: t.progress, }) .collect(); (StatusCode::OK, AxumJson(serde_json::json!(responses))) } pub async fn update_task_handler( AxumState(_engine): AxumState>, AxumPath(_id): AxumPath, AxumJson(_updates): AxumJson, ) -> impl IntoResponse { let updated = serde_json::json!({ "message": "Task updated", "task_id": _id }); (StatusCode::OK, AxumJson(updated)) } pub async fn get_statistics_handler( AxumState(_engine): AxumState>, AxumQuery(_query): AxumQuery, ) -> impl IntoResponse { let stats = serde_json::json!({ "todo_count": 0, "in_progress_count": 0, "done_count": 0, "overdue_count": 0, "total_tasks": 0 }); (StatusCode::OK, AxumJson(stats)) } } pub async fn handle_task_list( State(state): State>, Query(params): Query>, ) -> Result>, StatusCode> { let tasks = if let Some(user_id) = params.get("user_id") { let user_uuid = Uuid::parse_str(user_id).unwrap_or_else(|_| Uuid::nil()); match state.task_engine.get_user_tasks(user_uuid).await { Ok(tasks) => Ok(tasks), Err(_) => Err(StatusCode::INTERNAL_SERVER_ERROR), }? } else if let Some(status_str) = params.get("status") { let status = match status_str.as_str() { "in_progress" => TaskStatus::InProgress, "review" => TaskStatus::Review, "done" => TaskStatus::Done, "blocked" => TaskStatus::Blocked, "completed" => TaskStatus::Completed, "cancelled" => TaskStatus::Cancelled, // "todo" and any other status default to Todo _ => TaskStatus::Todo, }; state .task_engine .get_tasks_by_status(status) .await .map_err(|_| StatusCode::INTERNAL_SERVER_ERROR)? } else { state .task_engine .get_all_tasks() .await .map_err(|_| StatusCode::INTERNAL_SERVER_ERROR)? }; Ok(Json( tasks .into_iter() .map(|t| t.into()) .collect::>(), )) } pub async fn handle_task_assign( State(state): State>, Path(id): Path, Json(payload): Json, ) -> Result, StatusCode> { let assignee = payload["assignee"] .as_str() .ok_or(StatusCode::BAD_REQUEST)?; match state .task_engine .assign_task(id, assignee.to_string()) .await { Ok(updated) => Ok(Json(updated.into())), Err(_) => Err(StatusCode::INTERNAL_SERVER_ERROR), } } pub async fn handle_task_status_update( State(state): State>, Path(id): Path, Json(payload): Json, ) -> Result, StatusCode> { let status_str = payload["status"].as_str().ok_or(StatusCode::BAD_REQUEST)?; let status = match status_str { "todo" => "todo", "in_progress" => "in_progress", "review" => "review", "done" => "completed", "blocked" => "blocked", "cancelled" => "cancelled", _ => return Err(StatusCode::BAD_REQUEST), }; let updates = TaskUpdate { title: None, description: None, status: Some(status.to_string()), priority: None, assignee: None, due_date: None, tags: None, }; match state.task_engine.update_task(id, updates).await { Ok(updated_task) => Ok(Json(updated_task.into())), Err(_) => Err(StatusCode::INTERNAL_SERVER_ERROR), } } pub async fn handle_task_priority_set( State(state): State>, Path(id): Path, Json(payload): Json, ) -> Result, StatusCode> { let priority_str = payload["priority"] .as_str() .ok_or(StatusCode::BAD_REQUEST)?; let priority = match priority_str { "low" => "low", "medium" => "medium", "high" => "high", "urgent" => "urgent", _ => return Err(StatusCode::BAD_REQUEST), }; let updates = TaskUpdate { title: None, description: None, status: None, priority: Some(priority.to_string()), assignee: None, due_date: None, tags: None, }; match state.task_engine.update_task(id, updates).await { Ok(updated_task) => Ok(Json(updated_task.into())), Err(_) => Err(StatusCode::INTERNAL_SERVER_ERROR), } } pub async fn handle_task_set_dependencies( State(state): State>, Path(id): Path, Json(payload): Json, ) -> Result, StatusCode> { let deps = payload["dependencies"] .as_array() .ok_or(StatusCode::BAD_REQUEST)? .iter() .filter_map(|v| v.as_str().and_then(|s| Uuid::parse_str(s).ok())) .collect::>(); match state.task_engine.set_dependencies(id, deps).await { Ok(updated) => Ok(Json(updated)), Err(_) => Err(StatusCode::INTERNAL_SERVER_ERROR), } } pub fn configure_task_routes() -> Router> { Router::new() .route( ApiUrls::TASKS, post(handle_task_create).get(handle_task_list_htmx), ) .route("/api/tasks/stats", get(handle_task_stats_htmx)) .route("/api/tasks/stats/json", get(handle_task_stats)) .route("/api/tasks/time-saved", get(handle_time_saved)) .route("/api/tasks/completed", delete(handle_clear_completed)) .route( &ApiUrls::TASK_BY_ID.replace(":id", "{id}"), get(handle_task_get).put(handle_task_update), ) .route( &ApiUrls::TASK_BY_ID.replace(":id", "{id}"), delete(handle_task_delete).patch(handle_task_patch), ) .route( &ApiUrls::TASK_ASSIGN.replace(":id", "{id}"), post(handle_task_assign), ) .route( &ApiUrls::TASK_STATUS.replace(":id", "{id}"), put(handle_task_status_update), ) .route( &ApiUrls::TASK_PRIORITY.replace(":id", "{id}"), put(handle_task_priority_set), ) .route( "/api/tasks/{id}/dependencies", put(handle_task_set_dependencies), ) } pub fn configure(router: Router>) -> Router> { use axum::routing::{get, post, put}; router .route(ApiUrls::TASKS, post(handlers::create_task_handler)) .route(ApiUrls::TASKS, get(handlers::get_tasks_handler)) .route( &ApiUrls::TASK_BY_ID.replace(":id", "{id}"), put(handlers::update_task_handler), ) .route( "/api/tasks/statistics", get(handlers::get_statistics_handler), ) } pub async fn handle_task_list_htmx( State(state): State>, Query(params): Query>, ) -> impl IntoResponse { let filter = params .get("filter") .cloned() .unwrap_or_else(|| "all".to_string()); let conn = state.conn.clone(); let filter_clone = filter.clone(); let tasks = tokio::task::spawn_blocking(move || { let mut db_conn = conn .get() .map_err(|e| format!("DB connection error: {}", e))?; let mut query = String::from( "SELECT id, title, status, priority, intent as description, NULL::timestamp as due_date FROM auto_tasks WHERE 1=1", ); match filter_clone.as_str() { "complete" | "completed" => query.push_str(" AND status IN ('done', 'completed')"), "active" => query.push_str(" AND status IN ('running', 'pending', 'in_progress')"), "awaiting" => query.push_str(" AND status IN ('awaiting_decision', 'awaiting', 'waiting')"), "paused" => query.push_str(" AND status = 'paused'"), "blocked" => query.push_str(" AND status IN ('blocked', 'failed', 'error')"), "priority" => query.push_str(" AND priority IN ('high', 'urgent')"), _ => {} } query.push_str(" ORDER BY created_at DESC LIMIT 50"); diesel::sql_query(&query) .load::(&mut db_conn) .map_err(|e| format!("Query failed: {}", e)) }) .await .unwrap_or_else(|e| { log::error!("Task query failed: {}", e); Err(format!("Task query failed: {}", e)) }) .unwrap_or_default(); let mut html = String::new(); for task in tasks { let is_completed = task.status == "done" || task.status == "completed"; let completed_class = if is_completed { "completed" } else { "" }; let due_date_html = if let Some(due) = &task.due_date { format!( r#" {}"#, due.format("%Y-%m-%d") ) } else { String::new() }; let status_class = match task.status.as_str() { "completed" | "done" => "status-complete", "running" | "pending" | "in_progress" => "status-running", "failed" | "error" | "blocked" => "status-error", "paused" => "status-paused", "awaiting" | "awaiting_decision" => "status-awaiting", _ => "status-pending" }; let _ = write!( html, r#"

{} {}

{}

{due_date_html}

"#, task.id, task.id, task.title, status_class, task.status, task.priority, task.priority, task.id, task.id ); } if html.is_empty() { html = format!( r#"

No {} tasks

{}

"#, filter, if filter == "all" { "Create your first task to get started" } else { "Switch to another view or add new tasks" } ); } axum::response::Html(html) } pub async fn handle_task_stats_htmx(State(state): State>) -> impl IntoResponse { let conn = state.conn.clone(); let stats = tokio::task::spawn_blocking(move || { let mut db_conn = conn .get() .map_err(|e| format!("DB connection error: {}", e))?; let total: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let active: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('running', 'pending', 'in_progress')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let completed: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('done', 'completed')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let awaiting: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('awaiting_decision', 'awaiting', 'waiting')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let paused: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status = 'paused'") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let blocked: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('blocked', 'failed', 'error')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let priority: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE priority IN ('high', 'urgent')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let time_saved = format!("{}h", completed * 2); Ok::<_, String>(TaskStats { total: total as usize, active: active as usize, completed: completed as usize, awaiting: awaiting as usize, paused: paused as usize, blocked: blocked as usize, priority: priority as usize, time_saved, }) }) .await .unwrap_or_else(|e| { log::error!("Stats query failed: {}", e); Err(format!("Stats query failed: {}", e)) }) .unwrap_or(TaskStats { total: 0, active: 0, completed: 0, awaiting: 0, paused: 0, blocked: 0, priority: 0, time_saved: "0h".to_string(), }); let html = format!( "{} tasks ", stats.total, stats.total, stats.completed, stats.active, stats.awaiting, stats.paused, stats.blocked, stats.time_saved ); axum::response::Html(html) } pub async fn handle_task_stats(State(state): State>) -> Json { let conn = state.conn.clone(); let stats = tokio::task::spawn_blocking(move || { let mut db_conn = conn .get() .map_err(|e| format!("DB connection error: {}", e))?; let total: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let active: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('running', 'pending', 'in_progress')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let completed: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('done', 'completed')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let awaiting: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('awaiting_decision', 'awaiting', 'waiting')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let paused: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status = 'paused'") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let blocked: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('blocked', 'failed', 'error')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let priority: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE priority IN ('high', 'urgent')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); let time_saved = format!("{}h", completed * 2); Ok::<_, String>(TaskStats { total: total as usize, active: active as usize, completed: completed as usize, awaiting: awaiting as usize, paused: paused as usize, blocked: blocked as usize, priority: priority as usize, time_saved, }) }) .await .unwrap_or_else(|e| { log::error!("Stats query failed: {}", e); Err(format!("Stats query failed: {}", e)) }) .unwrap_or(TaskStats { total: 0, active: 0, completed: 0, awaiting: 0, paused: 0, blocked: 0, priority: 0, time_saved: "0h".to_string(), }); Json(stats) } pub async fn handle_time_saved(State(state): State>) -> impl IntoResponse { let conn = state.conn.clone(); let time_saved = tokio::task::spawn_blocking(move || { let mut db_conn = match conn.get() { Ok(c) => c, Err(_) => return "0h".to_string(), }; let completed: i64 = diesel::sql_query("SELECT COUNT(*) as count FROM auto_tasks WHERE status IN ('done', 'completed')") .get_result::(&mut db_conn) .map(|r| r.count) .unwrap_or(0); format!("{}h", completed * 2) }) .await .unwrap_or_else(|_| "0h".to_string()); axum::response::Html(format!( r#"Active Time Saved: {}"#, time_saved )) } pub async fn handle_clear_completed(State(state): State>) -> impl IntoResponse { let conn = state.conn.clone(); tokio::task::spawn_blocking(move || { let mut db_conn = conn .get() .map_err(|e| format!("DB connection error: {}", e))?; diesel::sql_query("DELETE FROM auto_tasks WHERE status IN ('done', 'completed')") .execute(&mut db_conn) .map_err(|e| format!("Delete failed: {}", e))?; Ok::<_, String>(()) }) .await .unwrap_or_else(|e| { log::error!("Clear completed failed: {}", e); Err(format!("Clear completed failed: {}", e)) }) .ok(); log::info!("Cleared completed tasks"); handle_task_list_htmx(State(state), Query(std::collections::HashMap::new())).await } pub async fn handle_task_patch( State(state): State>, Path(id): Path, Json(update): Json, ) -> Result>, (StatusCode, String)> { log::info!("Updating task {} with {:?}", id, update); let conn = state.conn.clone(); let task_id = id .parse::() .map_err(|e| (StatusCode::BAD_REQUEST, format!("Invalid task ID: {}", e)))?; tokio::task::spawn_blocking(move || { let mut db_conn = conn .get() .map_err(|e| format!("DB connection error: {}", e))?; if let Some(completed) = update.completed { diesel::sql_query("UPDATE tasks SET completed = $1 WHERE id = $2") .bind::(completed) .bind::(task_id) .execute(&mut db_conn) .map_err(|e| format!("Update failed: {}", e))?; } if let Some(priority) = update.priority { diesel::sql_query("UPDATE tasks SET priority = $1 WHERE id = $2") .bind::(priority) .bind::(task_id) .execute(&mut db_conn) .map_err(|e| format!("Update failed: {}", e))?; } if let Some(text) = update.text { diesel::sql_query("UPDATE tasks SET title = $1 WHERE id = $2") .bind::(text) .bind::(task_id) .execute(&mut db_conn) .map_err(|e| format!("Update failed: {}", e))?; } Ok::<_, String>(()) }) .await .map_err(|e| { ( StatusCode::INTERNAL_SERVER_ERROR, format!("Task join error: {}", e), ) })? .map_err(|e| (StatusCode::INTERNAL_SERVER_ERROR, e))?; Ok(Json(ApiResponse { success: true, data: Some(()), message: Some("Task updated".to_string()), })) } #[derive(Debug, Serialize, Deserialize)] pub struct TaskStats { pub total: usize, pub active: usize, pub completed: usize, pub awaiting: usize, pub paused: usize, pub blocked: usize, pub priority: usize, pub time_saved: String, } #[derive(Debug, Serialize, Deserialize)] pub struct TaskPatch { pub completed: Option, pub priority: Option, pub text: Option, } #[derive(Debug, Serialize, Deserialize)] pub struct ApiResponse { pub success: bool, pub data: Option, pub message: Option, } #[derive(Debug, QueryableByName)] struct TaskRow { #[diesel(sql_type = diesel::sql_types::Uuid)] pub id: Uuid, #[diesel(sql_type = diesel::sql_types::Text)] pub title: String, #[diesel(sql_type = diesel::sql_types::Text)] pub status: String, #[diesel(sql_type = diesel::sql_types::Text)] pub priority: String, #[diesel(sql_type = diesel::sql_types::Nullable)] #[allow(dead_code)] pub description: Option, #[diesel(sql_type = diesel::sql_types::Nullable)] pub due_date: Option>, } #[derive(Debug, QueryableByName)] struct CountResult { #[diesel(sql_type = diesel::sql_types::BigInt)] pub count: i64, }