// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license. use crate::args::check_warn_tsconfig; use crate::args::CompileFlags; use crate::args::Flags; use crate::factory::CliFactory; use crate::http_util::HttpClientProvider; use crate::standalone::is_standalone_binary; use deno_ast::ModuleSpecifier; use deno_core::anyhow::bail; use deno_core::anyhow::Context; use deno_core::error::generic_error; use deno_core::error::AnyError; use deno_core::resolve_url_or_path; use deno_graph::GraphKind; use deno_terminal::colors; use eszip::EszipRelativeFileBaseUrl; use rand::Rng; use std::path::Path; use std::path::PathBuf; use std::sync::Arc; use super::installer::infer_name_from_url; pub async fn compile( flags: Arc, compile_flags: CompileFlags, ) -> Result<(), AnyError> { let factory = CliFactory::from_flags(flags); let cli_options = factory.cli_options()?; let module_graph_creator = factory.module_graph_creator().await?; let parsed_source_cache = factory.parsed_source_cache(); let binary_writer = factory.create_compile_binary_writer().await?; let http_client = factory.http_client_provider(); let module_specifier = cli_options.resolve_main_module()?; let module_roots = { let mut vec = Vec::with_capacity(compile_flags.include.len() + 1); vec.push(module_specifier.clone()); for side_module in &compile_flags.include { vec.push(resolve_url_or_path(side_module, cli_options.initial_cwd())?); } vec }; // this is not supported, so show a warning about it, but don't error in order // to allow someone to still run `deno compile` when this is in a deno.json if cli_options.unstable_sloppy_imports() { log::warn!( concat!( "{} Sloppy imports are not supported in deno compile. ", "The compiled executable may encounter runtime errors.", ), crate::colors::yellow("Warning"), ); } let output_path = resolve_compile_executable_output_path( http_client, &compile_flags, cli_options.initial_cwd(), ) .await?; let graph = Arc::try_unwrap( module_graph_creator .create_graph_and_maybe_check(module_roots.clone()) .await?, ) .unwrap(); let graph = if cli_options.type_check_mode().is_true() { // In this case, the previous graph creation did type checking, which will // create a module graph with types information in it. We don't want to // store that in the eszip so create a code only module graph from scratch. module_graph_creator .create_graph(GraphKind::CodeOnly, module_roots) .await? } else { graph }; let ts_config_for_emit = cli_options .resolve_ts_config_for_emit(deno_config::deno_json::TsConfigType::Emit)?; check_warn_tsconfig(&ts_config_for_emit); let (transpile_options, emit_options) = crate::args::ts_config_to_transpile_and_emit_options( ts_config_for_emit.ts_config, )?; let parser = parsed_source_cache.as_capturing_parser(); let root_dir_url = resolve_root_dir_from_specifiers( cli_options.workspace().root_dir(), graph.specifiers().map(|(s, _)| s).chain( cli_options .node_modules_dir_path() .and_then(|p| ModuleSpecifier::from_directory_path(p).ok()) .iter(), ), ); log::debug!("Binary root dir: {}", root_dir_url); let root_dir_url = EszipRelativeFileBaseUrl::new(&root_dir_url); let eszip = eszip::EszipV2::from_graph(eszip::FromGraphOptions { graph, parser, transpile_options, emit_options, // make all the modules relative to the root folder relative_file_base: Some(root_dir_url), npm_packages: None, })?; log::info!( "{} {} to {}", colors::green("Compile"), module_specifier.to_string(), output_path.display(), ); validate_output_path(&output_path)?; let mut temp_filename = output_path.file_name().unwrap().to_owned(); temp_filename.push(format!( ".tmp-{}", faster_hex::hex_encode( &rand::thread_rng().gen::<[u8; 8]>(), &mut [0u8; 16] ) .unwrap() )); let temp_path = output_path.with_file_name(temp_filename); let file = std::fs::File::create(&temp_path).with_context(|| { format!("Opening temporary file '{}'", temp_path.display()) })?; let write_result = binary_writer .write_bin( file, eszip, root_dir_url, &module_specifier, &compile_flags, cli_options, ) .await .with_context(|| { format!("Writing temporary file '{}'", temp_path.display()) }); // set it as executable #[cfg(unix)] let write_result = write_result.and_then(|_| { use std::os::unix::fs::PermissionsExt; let perms = std::fs::Permissions::from_mode(0o755); std::fs::set_permissions(&temp_path, perms).with_context(|| { format!( "Setting permissions on temporary file '{}'", temp_path.display() ) }) }); let write_result = write_result.and_then(|_| { std::fs::rename(&temp_path, &output_path).with_context(|| { format!( "Renaming temporary file '{}' to '{}'", temp_path.display(), output_path.display() ) }) }); if let Err(err) = write_result { // errored, so attempt to remove the temporary file let _ = std::fs::remove_file(temp_path); return Err(err); } Ok(()) } /// This function writes out a final binary to specified path. If output path /// is not already standalone binary it will return error instead. fn validate_output_path(output_path: &Path) -> Result<(), AnyError> { if output_path.exists() { // If the output is a directory, throw error if output_path.is_dir() { bail!( concat!( "Could not compile to file '{}' because a directory exists with ", "the same name. You can use the `--output ` flag to ", "provide an alternative name." ), output_path.display() ); } // Make sure we don't overwrite any file not created by Deno compiler because // this filename is chosen automatically in some cases. if !is_standalone_binary(output_path) { bail!( concat!( "Could not compile to file '{}' because the file already exists ", "and cannot be overwritten. Please delete the existing file or ", "use the `--output ` flag to provide an alternative name." ), output_path.display() ); } // Remove file if it was indeed a deno compiled binary, to avoid corruption // (see https://github.com/denoland/deno/issues/10310) std::fs::remove_file(output_path)?; } else { let output_base = &output_path.parent().unwrap(); if output_base.exists() && output_base.is_file() { bail!( concat!( "Could not compile to file '{}' because its parent directory ", "is an existing file. You can use the `--output ` flag to ", "provide an alternative name.", ), output_base.display(), ); } std::fs::create_dir_all(output_base)?; } Ok(()) } async fn resolve_compile_executable_output_path( http_client_provider: &HttpClientProvider, compile_flags: &CompileFlags, current_dir: &Path, ) -> Result { let module_specifier = resolve_url_or_path(&compile_flags.source_file, current_dir)?; let output_flag = compile_flags.output.clone(); let mut output_path = if let Some(out) = output_flag.as_ref() { let mut out_path = PathBuf::from(out); if out.ends_with('/') || out.ends_with('\\') { if let Some(infer_file_name) = infer_name_from_url(http_client_provider, &module_specifier) .await .map(PathBuf::from) { out_path = out_path.join(infer_file_name); } } else { out_path = out_path.to_path_buf(); } Some(out_path) } else { None }; if output_flag.is_none() { output_path = infer_name_from_url(http_client_provider, &module_specifier) .await .map(PathBuf::from) } output_path.ok_or_else(|| generic_error( "An executable name was not provided. One could not be inferred from the URL. Aborting.", )).map(|output_path| { get_os_specific_filepath(output_path, &compile_flags.target) }) } fn get_os_specific_filepath( output: PathBuf, target: &Option, ) -> PathBuf { let is_windows = match target { Some(target) => target.contains("windows"), None => cfg!(windows), }; if is_windows && output.extension().unwrap_or_default() != "exe" { if let Some(ext) = output.extension() { // keep version in my-exe-0.1.0 -> my-exe-0.1.0.exe output.with_extension(format!("{}.exe", ext.to_string_lossy())) } else { output.with_extension("exe") } } else { output } } fn resolve_root_dir_from_specifiers<'a>( starting_dir: &ModuleSpecifier, specifiers: impl Iterator, ) -> ModuleSpecifier { fn select_common_root<'a>(a: &'a str, b: &'a str) -> &'a str { let min_length = a.len().min(b.len()); let mut last_slash = 0; for i in 0..min_length { if a.as_bytes()[i] == b.as_bytes()[i] && a.as_bytes()[i] == b'/' { last_slash = i; } else if a.as_bytes()[i] != b.as_bytes()[i] { break; } } // Return the common root path up to the last common slash. // This returns a slice of the original string 'a', up to and including the last matching '/'. let common = &a[..=last_slash]; if cfg!(windows) && common == "file:///" { a } else { common } } fn is_file_system_root(url: &str) -> bool { let Some(path) = url.strip_prefix("file:///") else { return false; }; if cfg!(windows) { let Some((_drive, path)) = path.split_once('/') else { return true; }; path.is_empty() } else { path.is_empty() } } let mut found_dir = starting_dir.as_str(); if !is_file_system_root(found_dir) { for specifier in specifiers { if specifier.scheme() == "file" { found_dir = select_common_root(found_dir, specifier.as_str()); } } } let found_dir = if is_file_system_root(found_dir) { found_dir } else { // include the parent dir name because it helps create some context found_dir .strip_suffix('/') .unwrap_or(found_dir) .rfind('/') .map(|i| &found_dir[..i + 1]) .unwrap_or(found_dir) }; ModuleSpecifier::parse(found_dir).unwrap() } #[cfg(test)] mod test { pub use super::*; #[tokio::test] async fn resolve_compile_executable_output_path_target_linux() { let http_client = HttpClientProvider::new(None, None); let path = resolve_compile_executable_output_path( &http_client, &CompileFlags { source_file: "mod.ts".to_string(), output: Some(String::from("./file")), args: Vec::new(), target: Some("x86_64-unknown-linux-gnu".to_string()), no_terminal: false, icon: None, include: vec![], }, &std::env::current_dir().unwrap(), ) .await .unwrap(); // no extension, no matter what the operating system is // because the target was specified as linux // https://github.com/denoland/deno/issues/9667 assert_eq!(path.file_name().unwrap(), "file"); } #[tokio::test] async fn resolve_compile_executable_output_path_target_windows() { let http_client = HttpClientProvider::new(None, None); let path = resolve_compile_executable_output_path( &http_client, &CompileFlags { source_file: "mod.ts".to_string(), output: Some(String::from("./file")), args: Vec::new(), target: Some("x86_64-pc-windows-msvc".to_string()), include: vec![], icon: None, no_terminal: false, }, &std::env::current_dir().unwrap(), ) .await .unwrap(); assert_eq!(path.file_name().unwrap(), "file.exe"); } #[test] fn test_os_specific_file_path() { fn run_test(path: &str, target: Option<&str>, expected: &str) { assert_eq!( get_os_specific_filepath( PathBuf::from(path), &target.map(|s| s.to_string()) ), PathBuf::from(expected) ); } if cfg!(windows) { run_test("C:\\my-exe", None, "C:\\my-exe.exe"); run_test("C:\\my-exe.exe", None, "C:\\my-exe.exe"); run_test("C:\\my-exe-0.1.2", None, "C:\\my-exe-0.1.2.exe"); } else { run_test("my-exe", Some("linux"), "my-exe"); run_test("my-exe-0.1.2", Some("linux"), "my-exe-0.1.2"); } run_test("C:\\my-exe", Some("windows"), "C:\\my-exe.exe"); run_test("C:\\my-exe.exe", Some("windows"), "C:\\my-exe.exe"); run_test("C:\\my-exe.0.1.2", Some("windows"), "C:\\my-exe.0.1.2.exe"); run_test("my-exe-0.1.2", Some("linux"), "my-exe-0.1.2"); } #[test] fn test_resolve_root_dir_from_specifiers() { fn resolve(start: &str, specifiers: &[&str]) -> String { let specifiers = specifiers .iter() .map(|s| ModuleSpecifier::parse(s).unwrap()) .collect::>(); resolve_root_dir_from_specifiers( &ModuleSpecifier::parse(start).unwrap(), specifiers.iter(), ) .to_string() } assert_eq!(resolve("file:///a/b/c", &["file:///a/b/c/d"]), "file:///a/"); assert_eq!( resolve("file:///a/b/c/", &["file:///a/b/c/d"]), "file:///a/b/" ); assert_eq!( resolve("file:///a/b/c/", &["file:///a/b/c/d", "file:///a/b/c/e"]), "file:///a/b/" ); assert_eq!(resolve("file:///", &["file:///a/b/c/d"]), "file:///"); if cfg!(windows) { assert_eq!(resolve("file:///c:/", &["file:///c:/test"]), "file:///c:/"); // this will ignore the other one because it's on a separate drive assert_eq!( resolve("file:///c:/a/b/c/", &["file:///v:/a/b/c/d"]), "file:///c:/a/b/" ); } } }