// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. use std::collections::HashMap; use std::collections::HashSet; use std::num::NonZeroUsize; use std::path::Path; use std::path::PathBuf; use std::rc::Rc; use std::sync::Arc; use console_static_text::ansi::strip_ansi_codes; use deno_config::workspace::FolderConfigs; use deno_config::workspace::TaskDefinition; use deno_config::workspace::TaskOrScript; use deno_config::workspace::WorkspaceDirectory; use deno_config::workspace::WorkspaceMemberTasksConfig; use deno_config::workspace::WorkspaceTasksConfig; use deno_core::anyhow::anyhow; use deno_core::anyhow::bail; use deno_core::anyhow::Context; use deno_core::error::AnyError; use deno_core::futures::future::LocalBoxFuture; use deno_core::futures::stream::futures_unordered; use deno_core::futures::FutureExt; use deno_core::futures::StreamExt; use deno_core::url::Url; use deno_path_util::normalize_path; use deno_runtime::deno_node::NodeResolver; use deno_task_shell::KillSignal; use deno_task_shell::ShellCommand; use indexmap::IndexMap; use regex::Regex; use crate::args::CliOptions; use crate::args::Flags; use crate::args::TaskFlags; use crate::colors; use crate::factory::CliFactory; use crate::npm::CliNpmResolver; use crate::task_runner; use crate::task_runner::run_future_forwarding_signals; use crate::util::fs::canonicalize_path; #[derive(Debug)] struct PackageTaskInfo { matched_tasks: Vec, tasks_config: WorkspaceTasksConfig, } pub async fn execute_script( flags: Arc, task_flags: TaskFlags, ) -> Result { let factory = CliFactory::from_flags(flags); let cli_options = factory.cli_options()?; let start_dir = &cli_options.start_dir; if !start_dir.has_deno_or_pkg_json() && !task_flags.eval { bail!("deno task couldn't find deno.json(c). See https://docs.deno.com/go/config") } let force_use_pkg_json = std::env::var_os(crate::task_runner::USE_PKG_JSON_HIDDEN_ENV_VAR_NAME) .map(|v| { // always remove so sub processes don't inherit this env var std::env::remove_var( crate::task_runner::USE_PKG_JSON_HIDDEN_ENV_VAR_NAME, ); v == "1" }) .unwrap_or(false); fn arg_to_regex(input: &str) -> Result { let mut regex_str = regex::escape(input); regex_str = regex_str.replace("\\*", ".*"); Regex::new(®ex_str) } let packages_task_configs: Vec = if let Some(filter) = &task_flags.filter { // Filter based on package name let package_regex = arg_to_regex(filter)?; let workspace = cli_options.workspace(); let Some(task_name) = &task_flags.task else { print_available_tasks_workspace( cli_options, &package_regex, filter, force_use_pkg_json, )?; return Ok(0); }; let task_regex = arg_to_regex(task_name)?; let mut packages_task_info: Vec = vec![]; for folder in workspace.config_folders() { if !matches_package(folder.1, force_use_pkg_json, &package_regex) { continue; } let member_dir = workspace.resolve_member_dir(folder.0); let mut tasks_config = member_dir.to_tasks_config()?; if force_use_pkg_json { tasks_config = tasks_config.with_only_pkg_json(); } // Any of the matched tasks could be a child task of another matched // one. Therefore we need to filter these out to ensure that every // task is only run once. let mut matched: HashSet = HashSet::new(); let mut visited: HashSet = HashSet::new(); fn visit_task( tasks_config: &WorkspaceTasksConfig, visited: &mut HashSet, name: &str, ) { if visited.contains(name) { return; } visited.insert(name.to_string()); if let Some((_, TaskOrScript::Task(_, task))) = &tasks_config.task(name) { for dep in &task.dependencies { visit_task(tasks_config, visited, dep); } } } // Match tasks in deno.json for name in tasks_config.task_names() { if task_regex.is_match(name) && !visited.contains(name) { matched.insert(name.to_string()); visit_task(&tasks_config, &mut visited, name); } } packages_task_info.push(PackageTaskInfo { matched_tasks: matched .iter() .map(|s| s.to_string()) .collect::>(), tasks_config, }); } // Logging every task definition would be too spammy. Pnpm only // logs a simple message too. if packages_task_info .iter() .all(|config| config.matched_tasks.is_empty()) { log::warn!( "{}", colors::red(format!( "No matching task or script '{}' found in selected packages.", task_name )) ); return Ok(0); } // FIXME: Sort packages topologically // packages_task_info } else { let mut tasks_config = start_dir.to_tasks_config()?; if force_use_pkg_json { tasks_config = tasks_config.with_only_pkg_json() } let Some(task_name) = &task_flags.task else { print_available_tasks( &mut std::io::stdout(), &cli_options.start_dir, &tasks_config, None, )?; return Ok(0); }; vec![PackageTaskInfo { tasks_config, matched_tasks: vec![task_name.to_string()], }] }; let npm_resolver = factory.npm_resolver().await?; let node_resolver = factory.node_resolver().await?; let env_vars = task_runner::real_env_vars(); let no_of_concurrent_tasks = if let Ok(value) = std::env::var("DENO_JOBS") { value.parse::().ok() } else { std::thread::available_parallelism().ok() } .unwrap_or_else(|| NonZeroUsize::new(2).unwrap()); let task_runner = TaskRunner { task_flags: &task_flags, npm_resolver: npm_resolver.as_ref(), node_resolver: node_resolver.as_ref(), env_vars, cli_options, concurrency: no_of_concurrent_tasks.into(), }; let kill_signal = KillSignal::default(); run_future_forwarding_signals(kill_signal.clone(), async { if task_flags.eval { return task_runner .run_deno_task( &Url::from_directory_path(cli_options.initial_cwd()).unwrap(), "", &TaskDefinition { command: task_flags.task.as_ref().unwrap().to_string(), dependencies: vec![], description: None, }, kill_signal, cli_options.argv(), ) .await; } for task_config in &packages_task_configs { let exit_code = task_runner .run_tasks(task_config, &kill_signal, cli_options.argv()) .await?; if exit_code > 0 { return Ok(exit_code); } } Ok(0) }) .await } struct RunSingleOptions<'a> { task_name: &'a str, script: &'a str, cwd: &'a Path, custom_commands: HashMap>, kill_signal: KillSignal, argv: &'a [String], } struct TaskRunner<'a> { task_flags: &'a TaskFlags, npm_resolver: &'a dyn CliNpmResolver, node_resolver: &'a NodeResolver, env_vars: HashMap, cli_options: &'a CliOptions, concurrency: usize, } impl<'a> TaskRunner<'a> { pub async fn run_tasks( &self, pkg_tasks_config: &PackageTaskInfo, kill_signal: &KillSignal, argv: &[String], ) -> Result { match sort_tasks_topo(pkg_tasks_config) { Ok(sorted) => self.run_tasks_in_parallel(sorted, kill_signal, argv).await, Err(err) => match err { TaskError::NotFound(name) => { if self.task_flags.is_run { return Err(anyhow!("Task not found: {}", name)); } log::error!("Task not found: {}", name); if log::log_enabled!(log::Level::Error) { self.print_available_tasks(&pkg_tasks_config.tasks_config)?; } Ok(1) } TaskError::TaskDepCycle { path } => { log::error!("Task cycle detected: {}", path.join(" -> ")); Ok(1) } }, } } pub fn print_available_tasks( &self, tasks_config: &WorkspaceTasksConfig, ) -> Result<(), std::io::Error> { print_available_tasks( &mut std::io::stderr(), &self.cli_options.start_dir, tasks_config, None, ) } async fn run_tasks_in_parallel( &self, tasks: Vec>, kill_signal: &KillSignal, args: &[String], ) -> Result { struct PendingTasksContext<'a> { completed: HashSet, running: HashSet, tasks: &'a [ResolvedTask<'a>], } impl<'a> PendingTasksContext<'a> { fn has_remaining_tasks(&self) -> bool { self.completed.len() < self.tasks.len() } fn mark_complete(&mut self, task: &ResolvedTask) { self.running.remove(&task.id); self.completed.insert(task.id); } fn get_next_task<'b>( &mut self, runner: &'b TaskRunner<'b>, kill_signal: &KillSignal, argv: &'a [String], ) -> Option< LocalBoxFuture<'b, Result<(i32, &'a ResolvedTask<'a>), AnyError>>, > where 'a: 'b, { let mut tasks_iter = self.tasks.iter().peekable(); while let Some(task) = tasks_iter.next() { let args = if tasks_iter.peek().is_none() { argv } else { &[] }; if self.completed.contains(&task.id) || self.running.contains(&task.id) { continue; } let should_run = task .dependencies .iter() .all(|dep_id| self.completed.contains(dep_id)); if !should_run { continue; } self.running.insert(task.id); let kill_signal = kill_signal.clone(); return Some( async move { match task.task_or_script { TaskOrScript::Task(_, def) => { runner .run_deno_task( task.folder_url, task.name, def, kill_signal, args, ) .await } TaskOrScript::Script(scripts, _) => { runner .run_npm_script( task.folder_url, task.name, scripts, kill_signal, args, ) .await } } .map(|exit_code| (exit_code, task)) } .boxed_local(), ); } None } } let mut context = PendingTasksContext { completed: HashSet::with_capacity(tasks.len()), running: HashSet::with_capacity(self.concurrency), tasks: &tasks, }; let mut queue = futures_unordered::FuturesUnordered::new(); while context.has_remaining_tasks() { while queue.len() < self.concurrency { if let Some(task) = context.get_next_task(self, kill_signal, args) { queue.push(task); } else { break; } } // If queue is empty at this point, then there are no more tasks in the queue. let Some(result) = queue.next().await else { debug_assert_eq!(context.tasks.len(), 0); break; }; let (exit_code, name) = result?; if exit_code > 0 { return Ok(exit_code); } context.mark_complete(name); } Ok(0) } pub async fn run_deno_task( &self, dir_url: &Url, task_name: &str, definition: &TaskDefinition, kill_signal: KillSignal, argv: &'a [String], ) -> Result { let cwd = match &self.task_flags.cwd { Some(path) => canonicalize_path(&PathBuf::from(path)) .context("failed canonicalizing --cwd")?, None => normalize_path(dir_url.to_file_path().unwrap()), }; let custom_commands = task_runner::resolve_custom_commands( self.npm_resolver, self.node_resolver, )?; self .run_single(RunSingleOptions { task_name, script: &definition.command, cwd: &cwd, custom_commands, kill_signal, argv, }) .await } pub async fn run_npm_script( &self, dir_url: &Url, task_name: &str, scripts: &IndexMap, kill_signal: KillSignal, argv: &[String], ) -> Result { // ensure the npm packages are installed if using a managed resolver if let Some(npm_resolver) = self.npm_resolver.as_managed() { npm_resolver.ensure_top_level_package_json_install().await?; } let cwd = match &self.task_flags.cwd { Some(path) => canonicalize_path(&PathBuf::from(path))?, None => normalize_path(dir_url.to_file_path().unwrap()), }; // At this point we already checked if the task name exists in package.json. // We can therefore check for "pre" and "post" scripts too, since we're only // dealing with package.json here and not deno.json let task_names = vec![ format!("pre{}", task_name), task_name.to_string(), format!("post{}", task_name), ]; let custom_commands = task_runner::resolve_custom_commands( self.npm_resolver, self.node_resolver, )?; for task_name in &task_names { if let Some(script) = scripts.get(task_name) { let exit_code = self .run_single(RunSingleOptions { task_name, script, cwd: &cwd, custom_commands: custom_commands.clone(), kill_signal: kill_signal.clone(), argv, }) .await?; if exit_code > 0 { return Ok(exit_code); } } } Ok(0) } async fn run_single( &self, opts: RunSingleOptions<'_>, ) -> Result { let RunSingleOptions { task_name, script, cwd, custom_commands, kill_signal, argv, } = opts; output_task( opts.task_name, &task_runner::get_script_with_args(script, argv), ); Ok( task_runner::run_task(task_runner::RunTaskOptions { task_name, script, cwd, env_vars: self.env_vars.clone(), custom_commands, init_cwd: self.cli_options.initial_cwd(), argv, root_node_modules_dir: self.npm_resolver.root_node_modules_path(), stdio: None, kill_signal, }) .await? .exit_code, ) } } #[derive(Debug)] enum TaskError { NotFound(String), TaskDepCycle { path: Vec }, } struct ResolvedTask<'a> { id: usize, name: &'a str, folder_url: &'a Url, task_or_script: TaskOrScript<'a>, dependencies: Vec, } fn sort_tasks_topo<'a>( pkg_task_config: &'a PackageTaskInfo, ) -> Result>, TaskError> { trait TasksConfig { fn task( &self, name: &str, ) -> Option<(&Url, TaskOrScript, &dyn TasksConfig)>; } impl TasksConfig for WorkspaceTasksConfig { fn task( &self, name: &str, ) -> Option<(&Url, TaskOrScript, &dyn TasksConfig)> { if let Some(member) = &self.member { if let Some((dir_url, task_or_script)) = member.task(name) { return Some((dir_url, task_or_script, self as &dyn TasksConfig)); } } if let Some(root) = &self.root { if let Some((dir_url, task_or_script)) = root.task(name) { // switch to only using the root tasks for the dependencies return Some((dir_url, task_or_script, root as &dyn TasksConfig)); } } None } } impl TasksConfig for WorkspaceMemberTasksConfig { fn task( &self, name: &str, ) -> Option<(&Url, TaskOrScript, &dyn TasksConfig)> { self.task(name).map(|(dir_url, task_or_script)| { (dir_url, task_or_script, self as &dyn TasksConfig) }) } } fn sort_visit<'a>( name: &'a str, sorted: &mut Vec>, mut path: Vec<(&'a Url, &'a str)>, tasks_config: &'a dyn TasksConfig, ) -> Result { let Some((folder_url, task_or_script, tasks_config)) = tasks_config.task(name) else { return Err(TaskError::NotFound(name.to_string())); }; if let Some(existing_task) = sorted .iter() .find(|task| task.name == name && task.folder_url == folder_url) { // already exists return Ok(existing_task.id); } if path.contains(&(folder_url, name)) { path.push((folder_url, name)); return Err(TaskError::TaskDepCycle { path: path.iter().map(|(_, s)| s.to_string()).collect(), }); } let mut dependencies: Vec = Vec::new(); if let TaskOrScript::Task(_, task) = task_or_script { dependencies.reserve(task.dependencies.len()); for dep in &task.dependencies { let mut path = path.clone(); path.push((folder_url, name)); dependencies.push(sort_visit(dep, sorted, path, tasks_config)?); } } let id = sorted.len(); sorted.push(ResolvedTask { id, name, folder_url, task_or_script, dependencies, }); Ok(id) } let mut sorted: Vec> = vec![]; for name in &pkg_task_config.matched_tasks { sort_visit(name, &mut sorted, Vec::new(), &pkg_task_config.tasks_config)?; } Ok(sorted) } fn matches_package( config: &FolderConfigs, force_use_pkg_json: bool, regex: &Regex, ) -> bool { if !force_use_pkg_json { if let Some(deno_json) = &config.deno_json { if let Some(name) = &deno_json.json.name { if regex.is_match(name) { return true; } } } } if let Some(package_json) = &config.pkg_json { if let Some(name) = &package_json.name { if regex.is_match(name) { return true; } } } false } fn output_task(task_name: &str, script: &str) { log::info!( "{} {} {}", colors::green("Task"), colors::cyan(task_name), script, ); } fn print_available_tasks_workspace( cli_options: &Arc, package_regex: &Regex, filter: &str, force_use_pkg_json: bool, ) -> Result<(), AnyError> { let workspace = cli_options.workspace(); let mut matched = false; for folder in workspace.config_folders() { if !matches_package(folder.1, force_use_pkg_json, package_regex) { continue; } matched = true; let member_dir = workspace.resolve_member_dir(folder.0); let mut tasks_config = member_dir.to_tasks_config()?; let mut pkg_name = folder .1 .deno_json .as_ref() .and_then(|deno| deno.json.name.clone()) .or(folder.1.pkg_json.as_ref().and_then(|pkg| pkg.name.clone())); if force_use_pkg_json { tasks_config = tasks_config.with_only_pkg_json(); pkg_name = folder.1.pkg_json.as_ref().and_then(|pkg| pkg.name.clone()); } print_available_tasks( &mut std::io::stdout(), &cli_options.start_dir, &tasks_config, pkg_name, )?; } if !matched { log::warn!( "{}", colors::red(format!("No package name matched the filter '{}' in available 'deno.json' or 'package.json' files.", filter)) ); } Ok(()) } fn print_available_tasks( writer: &mut dyn std::io::Write, workspace_dir: &Arc, tasks_config: &WorkspaceTasksConfig, pkg_name: Option, ) -> Result<(), std::io::Error> { let heading = if let Some(s) = pkg_name { format!("Available tasks ({}):", colors::cyan(s)) } else { "Available tasks:".to_string() }; writeln!(writer, "{}", colors::green(heading))?; let is_cwd_root_dir = tasks_config.root.is_none(); if tasks_config.is_empty() { writeln!( writer, " {}", colors::red("No tasks found in configuration file") )?; return Ok(()); } struct AvailableTaskDescription { is_root: bool, is_deno: bool, name: String, task: TaskDefinition, } let mut seen_task_names = HashSet::with_capacity(tasks_config.tasks_count()); let mut task_descriptions = Vec::with_capacity(tasks_config.tasks_count()); for maybe_config in [&tasks_config.member, &tasks_config.root] { let Some(config) = maybe_config else { continue; }; if let Some(config) = config.deno_json.as_ref() { let is_root = !is_cwd_root_dir && config.folder_url == *workspace_dir.workspace.root_dir().as_ref(); for (name, definition) in &config.tasks { if !seen_task_names.insert(name) { continue; // already seen } task_descriptions.push(AvailableTaskDescription { is_root, is_deno: true, name: name.to_string(), task: definition.clone(), }); } } if let Some(config) = config.package_json.as_ref() { let is_root = !is_cwd_root_dir && config.folder_url == *workspace_dir.workspace.root_dir().as_ref(); for (name, script) in &config.tasks { if !seen_task_names.insert(name) { continue; // already seen } task_descriptions.push(AvailableTaskDescription { is_root, is_deno: false, name: name.to_string(), task: deno_config::deno_json::TaskDefinition { command: script.to_string(), dependencies: vec![], description: None, }, }); } } } for desc in task_descriptions { writeln!( writer, "- {}{}", colors::cyan(desc.name), if desc.is_root { if desc.is_deno { format!(" {}", colors::italic_gray("(workspace)")) } else { format!(" {}", colors::italic_gray("(workspace package.json)")) } } else if desc.is_deno { "".to_string() } else { format!(" {}", colors::italic_gray("(package.json)")) } )?; if let Some(description) = &desc.task.description { let slash_slash = colors::italic_gray("//"); for line in description.lines() { writeln!( writer, " {slash_slash} {}", colors::italic_gray(strip_ansi_codes_and_escape_control_chars(line)) )?; } } writeln!( writer, " {}", strip_ansi_codes_and_escape_control_chars(&desc.task.command) )?; if !desc.task.dependencies.is_empty() { let dependencies = desc .task .dependencies .into_iter() .map(|d| strip_ansi_codes_and_escape_control_chars(&d)) .collect::>() .join(", "); writeln!( writer, " {} {}", colors::gray("depends on:"), colors::cyan(dependencies) )?; } } Ok(()) } fn strip_ansi_codes_and_escape_control_chars(s: &str) -> String { strip_ansi_codes(s) .chars() .map(|c| match c { '\n' => "\\n".to_string(), '\r' => "\\r".to_string(), '\t' => "\\t".to_string(), c if c.is_control() => format!("\\x{:02x}", c as u8), c => c.to_string(), }) .collect() }