use crate::config::AppConfig; use crate::package_manager::{InstallMode, PackageManager}; use anyhow::Result; use diesel::{Connection, RunQueryDsl}; use dotenvy::dotenv; use log::{info, trace}; use rand::distr::Alphanumeric; use rand::rng; use sha2::{Digest, Sha256}; pub struct BootstrapManager { pub install_mode: InstallMode, pub tenant: Option, } impl BootstrapManager { pub fn new(install_mode: InstallMode, tenant: Option) -> Self { trace!( "Initializing BootstrapManager with mode {:?} and tenant {:?}", install_mode, tenant ); Self { install_mode, tenant, } } pub fn start_all(&mut self) -> Result<()> { let pm = PackageManager::new(self.install_mode.clone(), self.tenant.clone())?; let components = vec![ "tables", "cache", "drive", "llm", "email", "proxy", "directory", "alm", "alm_ci", "dns", "webmail", "meeting", "table_editor", "doc_editor", "desktop", "devtools", "bot", "system", "vector_db", "host", ]; for component in components { if pm.is_installed(component) { trace!("Starting component: {}", component); pm.start(component)?; } else { trace!("Component {} not installed, skipping start", component); } } Ok(()) } pub fn bootstrap(&mut self) -> Result { let pm = PackageManager::new(self.install_mode.clone(), self.tenant.clone())?; let required_components = vec!["tables"]; let mut config = AppConfig::from_env(); for component in required_components { if !pm.is_installed(component) { if component == "tables" { let db_password = self.generate_secure_password(16); let farm_password = self.generate_secure_password(32); let env_contents = format!( "FARM_PASSWORD={}\nDATABASE_URL=postgres://gbuser:{}@localhost:5432/botserver", farm_password, db_password ); std::fs::write(".env", &env_contents) .map_err(|e| anyhow::anyhow!("Failed to write .env file: {}", e))?; dotenv().ok(); trace!("Generated database credentials and wrote to .env file"); } trace!("Installing required component: {}", component); futures::executor::block_on(pm.install(component))?; trace!("Starting component after install: {}", component); pm.start(component)?; if component == "tables" { trace!("Starting component after install: {}", component); let database_url = std::env::var("DATABASE_URL").unwrap(); let mut conn = diesel::PgConnection::establish(&database_url) .map_err(|e| anyhow::anyhow!("Failed to connect to database: {}", e))?; let migration_dir = include_dir::include_dir!("./migrations"); let mut migration_files: Vec<_> = migration_dir .files() .filter_map(|file| { let path = file.path(); if path.extension()? == "sql" { Some(path.to_path_buf()) } else { None } }) .collect(); migration_files.sort(); for migration_file in migration_files { let migration = std::fs::read_to_string(&migration_file)?; trace!("Executing migration: {}", migration_file.display()); diesel::sql_query(&migration).execute(&mut conn)?; } config = AppConfig::from_database(&mut conn); info!("Database migrations completed and configuration loaded"); } } } Ok(config) } fn generate_secure_password(&self, length: usize) -> String { // Ensure the Rng trait is in scope for `sample` use rand::Rng; let mut rng = rand::thread_rng(); std::iter::repeat_with(|| rng.sample(Alphanumeric) as char) .take(length) .collect() } fn encrypt_password(&self, password: &str, key: &str) -> String { let mut hasher = Sha256::new(); hasher.update(key.as_bytes()); hasher.update(password.as_bytes()); format!("{:x}", hasher.finalize()) } }