// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. use console_static_text::ConsoleStaticText; use deno_core::parking_lot::Mutex; use deno_runtime::ops::tty::ConsoleSize; use once_cell::sync::Lazy; use std::sync::Arc; use std::time::Duration; use crate::util::console::console_size; /// Renders text that will be displayed stacked in a /// static place on the console. pub trait DrawThreadRenderer: Send + Sync + std::fmt::Debug { fn render(&self, data: &ConsoleSize) -> String; } /// Draw thread guard. Keep this alive for the duration /// that you wish the entry to be drawn for. Once it is /// dropped, then the entry will be removed from the draw /// thread. #[derive(Debug)] pub struct DrawThreadGuard(u16); impl Drop for DrawThreadGuard { fn drop(&mut self) { DrawThread::finish_entry(self.0) } } #[derive(Debug, Clone)] struct InternalEntry { id: u16, renderer: Arc, } #[derive(Debug)] struct InternalState { // this ensures only one actual draw thread is running drawer_id: usize, hide: bool, has_draw_thread: bool, next_entry_id: u16, entries: Vec, static_text: ConsoleStaticText, } impl InternalState { pub fn should_exit_draw_thread(&self, drawer_id: usize) -> bool { self.drawer_id != drawer_id || self.entries.is_empty() } } static INTERNAL_STATE: Lazy>> = Lazy::new(|| { Arc::new(Mutex::new(InternalState { drawer_id: 0, hide: false, has_draw_thread: false, entries: Vec::new(), next_entry_id: 0, static_text: ConsoleStaticText::new(|| { let size = console_size().unwrap(); console_static_text::ConsoleSize { cols: Some(size.cols as u16), rows: Some(size.rows as u16), } }), })) }); static IS_TTY_WITH_CONSOLE_SIZE: Lazy = Lazy::new(|| { atty::is(atty::Stream::Stderr) && console_size() .map(|s| s.cols > 0 && s.rows > 0) .unwrap_or(false) }); /// The draw thread is responsible for rendering multiple active /// `DrawThreadRenderer`s to stderr. It is global because the /// concept of stderr in the process is also a global concept. #[derive(Clone, Debug)] pub struct DrawThread; impl DrawThread { /// Is using a draw thread supported. pub fn is_supported() -> bool { // don't put the log level in the lazy because the // log level may change as the application runs log::log_enabled!(log::Level::Info) && *IS_TTY_WITH_CONSOLE_SIZE } /// Adds a renderer to the draw thread. pub fn add_entry(renderer: Arc) -> DrawThreadGuard { let internal_state = &*INTERNAL_STATE; let mut internal_state = internal_state.lock(); let id = internal_state.next_entry_id; internal_state.entries.push(InternalEntry { id, renderer }); if internal_state.next_entry_id == u16::MAX { internal_state.next_entry_id = 0; } else { internal_state.next_entry_id += 1; } Self::maybe_start_draw_thread(&mut internal_state); DrawThreadGuard(id) } /// Hides the draw thread. pub fn hide() { let internal_state = &*INTERNAL_STATE; let mut internal_state = internal_state.lock(); internal_state.hide = true; Self::clear_and_stop_draw_thread(&mut internal_state); } /// Shows the draw thread if it was previously hidden. pub fn show() { let internal_state = &*INTERNAL_STATE; let mut internal_state = internal_state.lock(); internal_state.hide = false; Self::maybe_start_draw_thread(&mut internal_state); } fn finish_entry(entry_id: u16) { let internal_state = &*INTERNAL_STATE; let mut internal_state = internal_state.lock(); if let Some(index) = internal_state.entries.iter().position(|e| e.id == entry_id) { internal_state.entries.remove(index); if internal_state.entries.is_empty() { Self::clear_and_stop_draw_thread(&mut internal_state); } } } fn clear_and_stop_draw_thread(internal_state: &mut InternalState) { if internal_state.has_draw_thread { internal_state.static_text.eprint_clear(); // bump the drawer id to exit the draw thread internal_state.drawer_id += 1; internal_state.has_draw_thread = false; } } fn maybe_start_draw_thread(internal_state: &mut InternalState) { if internal_state.has_draw_thread || internal_state.hide || internal_state.entries.is_empty() || !DrawThread::is_supported() { return; } internal_state.drawer_id += 1; internal_state.has_draw_thread = true; let drawer_id = internal_state.drawer_id; tokio::task::spawn_blocking(move || { let mut previous_size = console_size(); loop { let mut delay_ms = 120; { // Get the entries to render. let entries = { let internal_state = &*INTERNAL_STATE; let internal_state = internal_state.lock(); if internal_state.should_exit_draw_thread(drawer_id) { break; } internal_state.entries.clone() }; // this should always be set, but have the code handle // it not being for some reason let size = console_size(); // Call into the renderers outside the lock to prevent a potential // deadlock between our internal state lock and the renderers // internal state lock. // // Example deadlock if this code didn't do this: // 1. Other thread - Renderer - acquired internal lock to update state // 2. This thread - Acquired internal state // 3. Other thread - Renderer - drops DrawThreadGuard // 4. This thread - Calls renderer.render within internal lock, // which attempts to acquire the other thread's Render's internal // lock causing a deadlock let mut text = String::new(); if size != previous_size { // means the user is actively resizing the console... // wait a little bit until they stop resizing previous_size = size; delay_ms = 200; } else if let Some(size) = size { let mut should_new_line_next = false; for entry in entries { let new_text = entry.renderer.render(&size); if should_new_line_next && !new_text.is_empty() { text.push('\n'); } should_new_line_next = !new_text.is_empty(); text.push_str(&new_text); } // now reacquire the lock, ensure we should still be drawing, then // output the text { let internal_state = &*INTERNAL_STATE; let mut internal_state = internal_state.lock(); if internal_state.should_exit_draw_thread(drawer_id) { break; } internal_state.static_text.eprint_with_size( &text, console_static_text::ConsoleSize { cols: Some(size.cols as u16), rows: Some(size.rows as u16), }, ); } } } std::thread::sleep(Duration::from_millis(delay_ms)); } }); } }