// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license. use crate::ast; use crate::ast::Diagnostic; use crate::ast::ImportsNotUsedAsValues; use crate::ast::TokenOrComment; use crate::colors; use crate::media_type::MediaType; use crate::program_state::ProgramState; use deno_core::error::AnyError; use deno_core::futures::FutureExt; use deno_core::serde_json::json; use deno_core::serde_json::Value; use deno_core::LocalInspectorSession; use deno_runtime::worker::MainWorker; use rustyline::completion::Completer; use rustyline::error::ReadlineError; use rustyline::highlight::Highlighter; use rustyline::validate::ValidationContext; use rustyline::validate::ValidationResult; use rustyline::validate::Validator; use rustyline::CompletionType; use rustyline::Config; use rustyline::Context; use rustyline::Editor; use rustyline_derive::{Helper, Hinter}; use std::borrow::Cow; use std::cell::RefCell; use std::path::PathBuf; use std::sync::Arc; use std::sync::Mutex; use swc_ecmascript::parser::token::{Token, Word}; use tokio::sync::mpsc::channel; use tokio::sync::mpsc::unbounded_channel; use tokio::sync::mpsc::Receiver; use tokio::sync::mpsc::Sender; use tokio::sync::mpsc::UnboundedReceiver; use tokio::sync::mpsc::UnboundedSender; // Provides helpers to the editor like validation for multi-line edits, completion candidates for // tab completion. #[derive(Helper, Hinter)] struct EditorHelper { context_id: u64, message_tx: Sender<(String, Option)>, response_rx: RefCell>>, } impl EditorHelper { fn post_message( &self, method: &str, params: Option, ) -> Result { self .message_tx .blocking_send((method.to_string(), params))?; self.response_rx.borrow_mut().blocking_recv().unwrap() } fn get_global_lexical_scope_names(&self) -> Vec { let evaluate_response = self .post_message( "Runtime.globalLexicalScopeNames", Some(json!({ "executionContextId": self.context_id, })), ) .unwrap(); evaluate_response .get("names") .unwrap() .as_array() .unwrap() .iter() .map(|n| n.as_str().unwrap().to_string()) .collect() } fn get_expression_property_names(&self, expr: &str) -> Vec { let evaluate_response = self .post_message( "Runtime.evaluate", Some(json!({ "contextId": self.context_id, "expression": expr, "throwOnSideEffect": true, "timeout": 200, })), ) .unwrap(); if evaluate_response.get("exceptionDetails").is_some() { return Vec::new(); } if let Some(result) = evaluate_response.get("result") { if let Some(object_id) = result.get("objectId") { let get_properties_response = self.post_message( "Runtime.getProperties", Some(json!({ "objectId": object_id, })), ); if let Ok(get_properties_response) = get_properties_response { if let Some(result) = get_properties_response.get("result") { let property_names = result .as_array() .unwrap() .iter() .map(|r| r.get("name").unwrap().as_str().unwrap().to_string()) .collect(); return property_names; } } } } Vec::new() } } fn is_word_boundary(c: char) -> bool { if c == '.' { false } else { char::is_ascii_whitespace(&c) || char::is_ascii_punctuation(&c) } } fn get_expr_from_line_at_pos(line: &str, cursor_pos: usize) -> &str { let start = line[..cursor_pos] .rfind(is_word_boundary) .map_or_else(|| 0, |i| i); let end = line[cursor_pos..] .rfind(is_word_boundary) .map_or_else(|| cursor_pos, |i| cursor_pos + i); let word = &line[start..end]; let word = word.strip_prefix(is_word_boundary).unwrap_or(word); let word = word.strip_suffix(is_word_boundary).unwrap_or(word); word } impl Completer for EditorHelper { type Candidate = String; fn complete( &self, line: &str, pos: usize, _ctx: &Context<'_>, ) -> Result<(usize, Vec), ReadlineError> { let expr = get_expr_from_line_at_pos(line, pos); // check if the expression is in the form `obj.prop` if let Some(index) = expr.rfind('.') { let sub_expr = &expr[..index]; let prop_name = &expr[index + 1..]; let candidates = self .get_expression_property_names(sub_expr) .into_iter() .filter(|n| !n.starts_with("Symbol(") && n.starts_with(prop_name)) .collect(); Ok((pos - prop_name.len(), candidates)) } else { // combine results of declarations and globalThis properties let mut candidates = self .get_expression_property_names("globalThis") .into_iter() .chain(self.get_global_lexical_scope_names()) .filter(|n| n.starts_with(expr)) .collect::>(); // sort and remove duplicates candidates.sort(); candidates.dedup(); // make sure to sort first Ok((pos - expr.len(), candidates)) } } } impl Validator for EditorHelper { fn validate( &self, ctx: &mut ValidationContext, ) -> Result { let mut stack: Vec = Vec::new(); let mut in_template = false; for item in ast::lex("", ctx.input(), &MediaType::TypeScript) { if let TokenOrComment::Token(token) = item.inner { match token { Token::BackQuote => in_template = !in_template, Token::LParen | Token::LBracket | Token::LBrace | Token::DollarLBrace => stack.push(token), Token::RParen | Token::RBracket | Token::RBrace => { match (stack.pop(), token) { (Some(Token::LParen), Token::RParen) | (Some(Token::LBracket), Token::RBracket) | (Some(Token::LBrace), Token::RBrace) | (Some(Token::DollarLBrace), Token::RBrace) => {} (Some(left), _) => { return Ok(ValidationResult::Invalid(Some(format!( "Mismatched pairs: {:?} is not properly closed", left )))) } (None, _) => { // While technically invalid when unpaired, it should be V8's task to output error instead. // Thus marked as valid with no info. return Ok(ValidationResult::Valid(None)); } } } _ => {} } } } if !stack.is_empty() || in_template { return Ok(ValidationResult::Incomplete); } Ok(ValidationResult::Valid(None)) } } impl Highlighter for EditorHelper { fn highlight_hint<'h>(&self, hint: &'h str) -> Cow<'h, str> { hint.into() } fn highlight_candidate<'c>( &self, candidate: &'c str, _completion: rustyline::CompletionType, ) -> Cow<'c, str> { self.highlight(candidate, 0) } fn highlight_char(&self, line: &str, _: usize) -> bool { !line.is_empty() } fn highlight<'l>(&self, line: &'l str, _: usize) -> Cow<'l, str> { let mut out_line = String::from(line); for item in ast::lex("", line, &MediaType::TypeScript) { // Adding color adds more bytes to the string, // so an offset is needed to stop spans falling out of sync. let offset = out_line.len() - line.len(); let span = item.span_as_range(); out_line.replace_range( span.start + offset..span.end + offset, &match item.inner { TokenOrComment::Token(token) => match token { Token::Str { .. } | Token::Template { .. } | Token::BackQuote => { colors::green(&line[span]).to_string() } Token::Regex(_, _) => colors::red(&line[span]).to_string(), Token::Num(_) | Token::BigInt(_) => { colors::yellow(&line[span]).to_string() } Token::Word(word) => match word { Word::True | Word::False | Word::Null => { colors::yellow(&line[span]).to_string() } Word::Keyword(_) => colors::cyan(&line[span]).to_string(), Word::Ident(ident) => { if ident == *"undefined" { colors::gray(&line[span]).to_string() } else if ident == *"Infinity" || ident == *"NaN" { colors::yellow(&line[span]).to_string() } else if ident == *"async" || ident == *"of" { colors::cyan(&line[span]).to_string() } else { line[span].to_string() } } }, _ => line[span].to_string(), }, TokenOrComment::Comment { .. } => { colors::gray(&line[span]).to_string() } }, ); } out_line.into() } } #[derive(Clone)] struct ReplEditor { inner: Arc>>, history_file_path: PathBuf, } impl ReplEditor { pub fn new(helper: EditorHelper, history_file_path: PathBuf) -> Self { let editor_config = Config::builder() .completion_type(CompletionType::List) .build(); let mut editor = Editor::with_config(editor_config); editor.set_helper(Some(helper)); editor.load_history(&history_file_path).unwrap_or(()); ReplEditor { inner: Arc::new(Mutex::new(editor)), history_file_path, } } pub fn readline(&self) -> Result { self.inner.lock().unwrap().readline("> ") } pub fn add_history_entry(&self, entry: String) { self.inner.lock().unwrap().add_history_entry(entry); } pub fn save_history(&self) -> Result<(), AnyError> { std::fs::create_dir_all(self.history_file_path.parent().unwrap())?; self .inner .lock() .unwrap() .save_history(&self.history_file_path)?; Ok(()) } } static PRELUDE: &str = r#" Object.defineProperty(globalThis, "_", { configurable: true, get: () => Deno[Deno.internal].lastEvalResult, set: (value) => { Object.defineProperty(globalThis, "_", { value: value, writable: true, enumerable: true, configurable: true, }); console.log("Last evaluation result is no longer saved to _."); }, }); Object.defineProperty(globalThis, "_error", { configurable: true, get: () => Deno[Deno.internal].lastThrownError, set: (value) => { Object.defineProperty(globalThis, "_error", { value: value, writable: true, enumerable: true, configurable: true, }); console.log("Last thrown error is no longer saved to _error."); }, }); "#; struct ReplSession { worker: MainWorker, session: LocalInspectorSession, pub context_id: u64, } impl ReplSession { pub async fn initialize(mut worker: MainWorker) -> Result { let mut session = worker.create_inspector_session().await; worker .with_event_loop( session.post_message("Runtime.enable", None).boxed_local(), ) .await?; // Enabling the runtime domain will always send trigger one executionContextCreated for each // context the inspector knows about so we grab the execution context from that since // our inspector does not support a default context (0 is an invalid context id). let mut context_id: u64 = 0; for notification in session.notifications() { let method = notification.get("method").unwrap().as_str().unwrap(); let params = notification.get("params").unwrap(); if method == "Runtime.executionContextCreated" { context_id = params .get("context") .unwrap() .get("id") .unwrap() .as_u64() .unwrap(); } } let mut repl_session = ReplSession { worker, session, context_id, }; // inject prelude repl_session.evaluate_expression(PRELUDE).await?; Ok(repl_session) } pub async fn is_closing(&mut self) -> Result { let closed = self .evaluate_expression("(globalThis.closed)") .await? .get("result") .unwrap() .get("value") .unwrap() .as_bool() .unwrap(); Ok(closed) } pub async fn post_message_with_event_loop( &mut self, method: &str, params: Option, ) -> Result { self .worker .with_event_loop(self.session.post_message(method, params).boxed_local()) .await } pub async fn run_event_loop(&mut self) -> Result<(), AnyError> { self.worker.run_event_loop(true).await } pub async fn evaluate_line_and_get_output( &mut self, line: &str, ) -> Result { match self.evaluate_line_with_object_wrapping(line).await { Ok(evaluate_response) => { let evaluate_result = evaluate_response.get("result").unwrap(); let evaluate_exception_details = evaluate_response.get("exceptionDetails"); if evaluate_exception_details.is_some() { self.set_last_thrown_error(evaluate_result).await?; } else { self.set_last_eval_result(evaluate_result).await?; } let value = self.get_eval_value(evaluate_result).await?; Ok(match evaluate_exception_details { Some(_) => format!("Uncaught {}", value), None => value, }) } Err(err) => { // handle a parsing diagnostic match err.downcast_ref::() { Some(diagnostic) => Ok(format!( "{}: {} at {}:{}", colors::red("parse error"), diagnostic.message, diagnostic.location.line, diagnostic.location.col )), None => Err(err), } } } } async fn evaluate_line_with_object_wrapping( &mut self, line: &str, ) -> Result { // It is a bit unexpected that { "foo": "bar" } is interpreted as a block // statement rather than an object literal so we interpret it as an expression statement // to match the behavior found in a typical prompt including browser developer tools. let wrapped_line = if line.trim_start().starts_with('{') && !line.trim_end().ends_with(';') { format!("({})", &line) } else { line.to_string() }; let evaluate_response = self.evaluate_ts_expression(&wrapped_line).await?; // If that fails, we retry it without wrapping in parens letting the error bubble up to the // user if it is still an error. let evaluate_response = if evaluate_response.get("exceptionDetails").is_some() && wrapped_line != line { self.evaluate_ts_expression(&line).await? } else { evaluate_response }; Ok(evaluate_response) } async fn set_last_thrown_error( &mut self, error: &Value, ) -> Result<(), AnyError> { self.post_message_with_event_loop( "Runtime.callFunctionOn", Some(json!({ "executionContextId": self.context_id, "functionDeclaration": "function (object) { Deno[Deno.internal].lastThrownError = object; }", "arguments": [ error, ], })), ).await?; Ok(()) } async fn set_last_eval_result( &mut self, evaluate_result: &Value, ) -> Result<(), AnyError> { self.post_message_with_event_loop( "Runtime.callFunctionOn", Some(json!({ "executionContextId": self.context_id, "functionDeclaration": "function (object) { Deno[Deno.internal].lastEvalResult = object; }", "arguments": [ evaluate_result, ], })), ).await?; Ok(()) } pub async fn get_eval_value( &mut self, evaluate_result: &Value, ) -> Result { // TODO(caspervonb) we should investigate using previews here but to keep things // consistent with the previous implementation we just get the preview result from // Deno.inspectArgs. let inspect_response = self.post_message_with_event_loop( "Runtime.callFunctionOn", Some(json!({ "executionContextId": self.context_id, "functionDeclaration": "function (object) { return Deno[Deno.internal].inspectArgs(['%o', object], { colors: !Deno.noColor }); }", "arguments": [ evaluate_result, ], })), ).await?; let inspect_result = inspect_response.get("result").unwrap(); let value = inspect_result.get("value").unwrap().as_str().unwrap(); Ok(value.to_string()) } async fn evaluate_ts_expression( &mut self, expression: &str, ) -> Result { let parsed_module = crate::ast::parse("repl.ts", &expression, &crate::MediaType::TypeScript)?; let transpiled_src = parsed_module .transpile(&crate::ast::EmitOptions { emit_metadata: false, source_map: false, inline_source_map: false, imports_not_used_as_values: ImportsNotUsedAsValues::Preserve, // JSX is not supported in the REPL transform_jsx: false, jsx_factory: "React.createElement".into(), jsx_fragment_factory: "React.Fragment".into(), repl_imports: true, })? .0; self .evaluate_expression(&format!( "'use strict'; void 0;\n{}", transpiled_src )) .await } async fn evaluate_expression( &mut self, expression: &str, ) -> Result { self .post_message_with_event_loop( "Runtime.evaluate", Some(json!({ "expression": expression, "contextId": self.context_id, "replMode": true, })), ) .await } } async fn read_line_and_poll( repl_session: &mut ReplSession, message_rx: &mut Receiver<(String, Option)>, response_tx: &UnboundedSender>, editor: ReplEditor, ) -> Result { let mut line_fut = tokio::task::spawn_blocking(move || editor.readline()); let mut poll_worker = true; loop { tokio::select! { result = &mut line_fut => { return result.unwrap(); } result = message_rx.recv() => { if let Some((method, params)) = result { let result = repl_session .post_message_with_event_loop(&method, params) .await; response_tx.send(result).unwrap(); } poll_worker = true; }, _ = repl_session.run_event_loop(), if poll_worker => { poll_worker = false; } } } } pub async fn run( program_state: &ProgramState, worker: MainWorker, ) -> Result<(), AnyError> { let mut repl_session = ReplSession::initialize(worker).await?; let (message_tx, mut message_rx) = channel(1); let (response_tx, response_rx) = unbounded_channel(); let helper = EditorHelper { context_id: repl_session.context_id, message_tx, response_rx: RefCell::new(response_rx), }; let history_file_path = program_state.dir.root.join("deno_history.txt"); let editor = ReplEditor::new(helper, history_file_path); println!("Deno {}", crate::version::deno()); println!("exit using ctrl+d or close()"); loop { let line = read_line_and_poll( &mut repl_session, &mut message_rx, &response_tx, editor.clone(), ) .await; match line { Ok(line) => { let output = repl_session.evaluate_line_and_get_output(&line).await?; // We check for close and break here instead of making it a loop condition to get // consistent behavior in when the user evaluates a call to close(). if repl_session.is_closing().await? { break; } println!("{}", output); editor.add_history_entry(line); } Err(ReadlineError::Interrupted) => { println!("exit using ctrl+d or close()"); continue; } Err(ReadlineError::Eof) => { break; } Err(err) => { println!("Error: {:?}", err); break; } } } editor.save_history()?; Ok(()) }