// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. use deno_core::anyhow::Context; use deno_core::error::AnyError; pub use deno_core::normalize_path; use deno_core::ModuleSpecifier; use deno_runtime::deno_crypto::rand; use deno_runtime::deno_node::PathClean; use std::env::current_dir; use std::fs::OpenOptions; use std::io::Error; use std::io::ErrorKind; use std::io::Write; use std::path::Path; use std::path::PathBuf; use std::time::Duration; use walkdir::WalkDir; use super::path::specifier_to_file_path; pub fn atomic_write_file>( filename: &Path, data: T, mode: u32, ) -> std::io::Result<()> { let rand: String = (0..4) .map(|_| format!("{:02x}", rand::random::())) .collect(); let extension = format!("{}.tmp", rand); let tmp_file = filename.with_extension(extension); write_file(&tmp_file, data, mode)?; std::fs::rename(tmp_file, filename)?; Ok(()) } pub fn write_file>( filename: &Path, data: T, mode: u32, ) -> std::io::Result<()> { write_file_2(filename, data, true, mode, true, false) } pub fn write_file_2>( filename: &Path, data: T, update_mode: bool, mode: u32, is_create: bool, is_append: bool, ) -> std::io::Result<()> { let mut file = OpenOptions::new() .read(false) .write(true) .append(is_append) .truncate(!is_append) .create(is_create) .open(filename)?; if update_mode { #[cfg(unix)] { use std::os::unix::fs::PermissionsExt; let mode = mode & 0o777; let permissions = PermissionsExt::from_mode(mode); file.set_permissions(permissions)?; } #[cfg(not(unix))] let _ = mode; } file.write_all(data.as_ref()) } /// Similar to `std::fs::canonicalize()` but strips UNC prefixes on Windows. pub fn canonicalize_path(path: &Path) -> Result { let path = path.canonicalize()?; #[cfg(windows)] return Ok(strip_unc_prefix(path)); #[cfg(not(windows))] return Ok(path); } /// Canonicalizes a path which might be non-existent by going up the /// ancestors until it finds a directory that exists, canonicalizes /// that path, then adds back the remaining path components. /// /// Note: When using this, you should be aware that a symlink may /// subsequently be created along this path by some other code. pub fn canonicalize_path_maybe_not_exists( path: &Path, ) -> Result { let path = path.to_path_buf().clean(); let mut path = path.as_path(); let mut names_stack = Vec::new(); loop { match canonicalize_path(path) { Ok(mut canonicalized_path) => { for name in names_stack.into_iter().rev() { canonicalized_path = canonicalized_path.join(name); } return Ok(canonicalized_path); } Err(err) if err.kind() == ErrorKind::NotFound => { names_stack.push(path.file_name().unwrap()); path = path.parent().unwrap(); } Err(err) => return Err(err), } } } #[cfg(windows)] fn strip_unc_prefix(path: PathBuf) -> PathBuf { use std::path::Component; use std::path::Prefix; let mut components = path.components(); match components.next() { Some(Component::Prefix(prefix)) => { match prefix.kind() { // \\?\device Prefix::Verbatim(device) => { let mut path = PathBuf::new(); path.push(format!(r"\\{}\", device.to_string_lossy())); path.extend(components.filter(|c| !matches!(c, Component::RootDir))); path } // \\?\c:\path Prefix::VerbatimDisk(_) => { let mut path = PathBuf::new(); path.push(prefix.as_os_str().to_string_lossy().replace(r"\\?\", "")); path.extend(components); path } // \\?\UNC\hostname\share_name\path Prefix::VerbatimUNC(hostname, share_name) => { let mut path = PathBuf::new(); path.push(format!( r"\\{}\{}\", hostname.to_string_lossy(), share_name.to_string_lossy() )); path.extend(components.filter(|c| !matches!(c, Component::RootDir))); path } _ => path, } } _ => path, } } pub fn resolve_from_cwd(path: &Path) -> Result { let resolved_path = if path.is_absolute() { path.to_owned() } else { let cwd = current_dir().context("Failed to get current working directory")?; cwd.join(path) }; Ok(normalize_path(resolved_path)) } /// Collects file paths that satisfy the given predicate, by recursively walking `files`. /// If the walker visits a path that is listed in `ignore`, it skips descending into the directory. pub struct FileCollector bool> { canonicalized_ignore: Vec, file_filter: TFilter, ignore_git_folder: bool, ignore_node_modules: bool, } impl bool> FileCollector { pub fn new(file_filter: TFilter) -> Self { Self { canonicalized_ignore: Default::default(), file_filter, ignore_git_folder: false, ignore_node_modules: false, } } pub fn add_ignore_paths(mut self, paths: &[PathBuf]) -> Self { // retain only the paths which exist and ignore the rest self .canonicalized_ignore .extend(paths.iter().filter_map(|i| canonicalize_path(i).ok())); self } pub fn ignore_node_modules(mut self) -> Self { self.ignore_node_modules = true; self } pub fn ignore_git_folder(mut self) -> Self { self.ignore_git_folder = true; self } pub fn collect_files( &self, files: &[PathBuf], ) -> Result, AnyError> { let mut target_files = Vec::new(); for file in files { if let Ok(file) = canonicalize_path(file) { // use an iterator like this in order to minimize the number of file system operations let mut iterator = WalkDir::new(&file).into_iter(); loop { let e = match iterator.next() { None => break, Some(Err(_)) => continue, Some(Ok(entry)) => entry, }; let file_type = e.file_type(); let is_dir = file_type.is_dir(); if let Ok(c) = canonicalize_path(e.path()) { if self.canonicalized_ignore.iter().any(|i| c.starts_with(i)) { if is_dir { iterator.skip_current_dir(); } } else if is_dir { let should_ignore_dir = c .file_name() .map(|dir_name| { let dir_name = dir_name.to_string_lossy().to_lowercase(); let is_ignored_file = self.ignore_node_modules && dir_name == "node_modules" || self.ignore_git_folder && dir_name == ".git"; // allow the user to opt out of ignoring by explicitly specifying the dir file != c && is_ignored_file }) .unwrap_or(false); if should_ignore_dir { iterator.skip_current_dir(); } } else if (self.file_filter)(e.path()) { target_files.push(c); } } else if is_dir { // failed canonicalizing, so skip it iterator.skip_current_dir(); } } } } Ok(target_files) } } /// Collects module specifiers that satisfy the given predicate as a file path, by recursively walking `include`. /// Specifiers that start with http and https are left intact. /// Note: This ignores all .git and node_modules folders. pub fn collect_specifiers( include: Vec, ignore: &[PathBuf], predicate: impl Fn(&Path) -> bool, ) -> Result, AnyError> { let mut prepared = vec![]; let file_collector = FileCollector::new(predicate) .add_ignore_paths(ignore) .ignore_git_folder() .ignore_node_modules(); let root_path = current_dir()?; for path in include { let lowercase_path = path.to_lowercase(); if lowercase_path.starts_with("http://") || lowercase_path.starts_with("https://") { let url = ModuleSpecifier::parse(&path)?; prepared.push(url); continue; } let p = if lowercase_path.starts_with("file://") { specifier_to_file_path(&ModuleSpecifier::parse(&path)?)? } else { root_path.join(path) }; let p = normalize_path(p); if p.is_dir() { let test_files = file_collector.collect_files(&[p])?; let mut test_files_as_urls = test_files .iter() .map(|f| ModuleSpecifier::from_file_path(f).unwrap()) .collect::>(); test_files_as_urls.sort(); prepared.extend(test_files_as_urls); } else { let url = ModuleSpecifier::from_file_path(p).unwrap(); prepared.push(url); } } Ok(prepared) } /// Asynchronously removes a directory and all its descendants, but does not error /// when the directory does not exist. pub async fn remove_dir_all_if_exists(path: &Path) -> std::io::Result<()> { let result = tokio::fs::remove_dir_all(path).await; match result { Err(err) if err.kind() == std::io::ErrorKind::NotFound => Ok(()), _ => result, } } /// Copies a directory to another directory. /// /// Note: Does not handle symlinks. pub fn copy_dir_recursive(from: &Path, to: &Path) -> Result<(), AnyError> { std::fs::create_dir_all(to) .with_context(|| format!("Creating {}", to.display()))?; let read_dir = std::fs::read_dir(from) .with_context(|| format!("Reading {}", from.display()))?; for entry in read_dir { let entry = entry?; let file_type = entry.file_type()?; let new_from = from.join(entry.file_name()); let new_to = to.join(entry.file_name()); if file_type.is_dir() { copy_dir_recursive(&new_from, &new_to).with_context(|| { format!("Dir {} to {}", new_from.display(), new_to.display()) })?; } else if file_type.is_file() { std::fs::copy(&new_from, &new_to).with_context(|| { format!("Copying {} to {}", new_from.display(), new_to.display()) })?; } } Ok(()) } /// Hardlinks the files in one directory to another directory. /// /// Note: Does not handle symlinks. pub fn hard_link_dir_recursive(from: &Path, to: &Path) -> Result<(), AnyError> { std::fs::create_dir_all(to) .with_context(|| format!("Creating {}", to.display()))?; let read_dir = std::fs::read_dir(from) .with_context(|| format!("Reading {}", from.display()))?; for entry in read_dir { let entry = entry?; let file_type = entry.file_type()?; let new_from = from.join(entry.file_name()); let new_to = to.join(entry.file_name()); if file_type.is_dir() { hard_link_dir_recursive(&new_from, &new_to).with_context(|| { format!("Dir {} to {}", new_from.display(), new_to.display()) })?; } else if file_type.is_file() { // note: chance for race conditions here between attempting to create, // then removing, then attempting to create. There doesn't seem to be // a way to hard link with overwriting in Rust, but maybe there is some // way with platform specific code. The workaround here is to handle // scenarios where something else might create or remove files. if let Err(err) = std::fs::hard_link(&new_from, &new_to) { if err.kind() == ErrorKind::AlreadyExists { if let Err(err) = std::fs::remove_file(&new_to) { if err.kind() == ErrorKind::NotFound { // Assume another process/thread created this hard link to the file we are wanting // to remove then sleep a little bit to let the other process/thread move ahead // faster to reduce contention. std::thread::sleep(Duration::from_millis(10)); } else { return Err(err).with_context(|| { format!( "Removing file to hard link {} to {}", new_from.display(), new_to.display() ) }); } } // Always attempt to recreate the hardlink. In contention scenarios, the other process // might have been killed or exited after removing the file, but before creating the hardlink if let Err(err) = std::fs::hard_link(&new_from, &new_to) { // Assume another process/thread created this hard link to the file we are wanting // to now create then sleep a little bit to let the other process/thread move ahead // faster to reduce contention. if err.kind() == ErrorKind::AlreadyExists { std::thread::sleep(Duration::from_millis(10)); } else { return Err(err).with_context(|| { format!( "Hard linking {} to {}", new_from.display(), new_to.display() ) }); } } } else { return Err(err).with_context(|| { format!( "Hard linking {} to {}", new_from.display(), new_to.display() ) }); } } } } Ok(()) } pub fn symlink_dir(oldpath: &Path, newpath: &Path) -> Result<(), AnyError> { let err_mapper = |err: Error| { Error::new( err.kind(), format!( "{}, symlink '{}' -> '{}'", err, oldpath.display(), newpath.display() ), ) }; #[cfg(unix)] { use std::os::unix::fs::symlink; symlink(oldpath, newpath).map_err(err_mapper)?; } #[cfg(not(unix))] { use std::os::windows::fs::symlink_dir; symlink_dir(oldpath, newpath).map_err(err_mapper)?; } Ok(()) } /// Gets the total size (in bytes) of a directory. pub fn dir_size(path: &Path) -> std::io::Result { let entries = std::fs::read_dir(path)?; let mut total = 0; for entry in entries { let entry = entry?; total += match entry.metadata()? { data if data.is_dir() => dir_size(&entry.path())?, data => data.len(), }; } Ok(total) } #[cfg(test)] mod tests { use super::*; use pretty_assertions::assert_eq; use test_util::TempDir; #[test] fn resolve_from_cwd_child() { let cwd = current_dir().unwrap(); assert_eq!(resolve_from_cwd(Path::new("a")).unwrap(), cwd.join("a")); } #[test] fn resolve_from_cwd_dot() { let cwd = current_dir().unwrap(); assert_eq!(resolve_from_cwd(Path::new(".")).unwrap(), cwd); } #[test] fn resolve_from_cwd_parent() { let cwd = current_dir().unwrap(); assert_eq!(resolve_from_cwd(Path::new("a/..")).unwrap(), cwd); } #[test] fn test_normalize_path() { assert_eq!(normalize_path(Path::new("a/../b")), PathBuf::from("b")); assert_eq!(normalize_path(Path::new("a/./b/")), PathBuf::from("a/b/")); assert_eq!( normalize_path(Path::new("a/./b/../c")), PathBuf::from("a/c") ); if cfg!(windows) { assert_eq!( normalize_path(Path::new("C:\\a\\.\\b\\..\\c")), PathBuf::from("C:\\a\\c") ); } } // TODO: Get a good expected value here for Windows. #[cfg(not(windows))] #[test] fn resolve_from_cwd_absolute() { let expected = Path::new("/a"); assert_eq!(resolve_from_cwd(expected).unwrap(), expected); } #[test] fn test_collect_files() { fn create_files(dir_path: &Path, files: &[&str]) { std::fs::create_dir(dir_path).expect("Failed to create directory"); for f in files { let path = dir_path.join(f); std::fs::write(path, "").expect("Failed to create file"); } } // dir.ts // ├── a.ts // ├── b.js // ├── child // | ├── node_modules // | | └── node_modules.js // | ├── git // | | └── git.js // │ ├── e.mjs // │ ├── f.mjsx // │ ├── .foo.TS // │ └── README.md // ├── c.tsx // ├── d.jsx // └── ignore // ├── g.d.ts // └── .gitignore let t = TempDir::new(); let root_dir_path = t.path().join("dir.ts"); let root_dir_files = ["a.ts", "b.js", "c.tsx", "d.jsx"]; create_files(&root_dir_path, &root_dir_files); let child_dir_path = root_dir_path.join("child"); let child_dir_files = ["e.mjs", "f.mjsx", ".foo.TS", "README.md"]; create_files(&child_dir_path, &child_dir_files); t.create_dir_all("dir.ts/child/node_modules"); t.write("dir.ts/child/node_modules/node_modules.js", ""); t.create_dir_all("dir.ts/child/.git"); t.write("dir.ts/child/.git/git.js", ""); let ignore_dir_path = root_dir_path.join("ignore"); let ignore_dir_files = ["g.d.ts", ".gitignore"]; create_files(&ignore_dir_path, &ignore_dir_files); let file_collector = FileCollector::new(|path| { // exclude dotfiles path .file_name() .and_then(|f| f.to_str()) .map_or(false, |f| !f.starts_with('.')) }) .add_ignore_paths(&[ignore_dir_path]); let result = file_collector .collect_files(&[root_dir_path.clone()]) .unwrap(); let expected = [ "README.md", "a.ts", "b.js", "c.tsx", "d.jsx", "e.mjs", "f.mjsx", "git.js", "node_modules.js", ]; let mut file_names = result .into_iter() .map(|r| r.file_name().unwrap().to_string_lossy().to_string()) .collect::>(); file_names.sort(); assert_eq!(file_names, expected); // test ignoring the .git and node_modules folder let file_collector = file_collector.ignore_git_folder().ignore_node_modules(); let result = file_collector .collect_files(&[root_dir_path.clone()]) .unwrap(); let expected = [ "README.md", "a.ts", "b.js", "c.tsx", "d.jsx", "e.mjs", "f.mjsx", ]; let mut file_names = result .into_iter() .map(|r| r.file_name().unwrap().to_string_lossy().to_string()) .collect::>(); file_names.sort(); assert_eq!(file_names, expected); // test opting out of ignoring by specifying the dir let result = file_collector .collect_files(&[ root_dir_path.clone(), root_dir_path.join("child/node_modules/"), ]) .unwrap(); let expected = [ "README.md", "a.ts", "b.js", "c.tsx", "d.jsx", "e.mjs", "f.mjsx", "node_modules.js", ]; let mut file_names = result .into_iter() .map(|r| r.file_name().unwrap().to_string_lossy().to_string()) .collect::>(); file_names.sort(); assert_eq!(file_names, expected); } #[test] fn test_collect_specifiers() { fn create_files(dir_path: &Path, files: &[&str]) { std::fs::create_dir(dir_path).expect("Failed to create directory"); for f in files { let path = dir_path.join(f); std::fs::write(path, "").expect("Failed to create file"); } } // dir.ts // ├── a.ts // ├── b.js // ├── child // │ ├── e.mjs // │ ├── f.mjsx // │ ├── .foo.TS // │ └── README.md // ├── c.tsx // ├── d.jsx // └── ignore // ├── g.d.ts // └── .gitignore let t = TempDir::new(); let root_dir_path = t.path().join("dir.ts"); let root_dir_files = ["a.ts", "b.js", "c.tsx", "d.jsx"]; create_files(&root_dir_path, &root_dir_files); let child_dir_path = root_dir_path.join("child"); let child_dir_files = ["e.mjs", "f.mjsx", ".foo.TS", "README.md"]; create_files(&child_dir_path, &child_dir_files); let ignore_dir_path = root_dir_path.join("ignore"); let ignore_dir_files = ["g.d.ts", ".gitignore"]; create_files(&ignore_dir_path, &ignore_dir_files); let predicate = |path: &Path| { // exclude dotfiles path .file_name() .and_then(|f| f.to_str()) .map_or(false, |f| !f.starts_with('.')) }; let result = collect_specifiers( vec![ "http://localhost:8080".to_string(), root_dir_path.to_str().unwrap().to_string(), "https://localhost:8080".to_string(), ], &[ignore_dir_path], predicate, ) .unwrap(); let root_dir_url = ModuleSpecifier::from_file_path( canonicalize_path(&root_dir_path).unwrap(), ) .unwrap() .to_string(); let expected: Vec = [ "http://localhost:8080", &format!("{}/a.ts", root_dir_url), &format!("{}/b.js", root_dir_url), &format!("{}/c.tsx", root_dir_url), &format!("{}/child/README.md", root_dir_url), &format!("{}/child/e.mjs", root_dir_url), &format!("{}/child/f.mjsx", root_dir_url), &format!("{}/d.jsx", root_dir_url), "https://localhost:8080", ] .iter() .map(|f| ModuleSpecifier::parse(f).unwrap()) .collect::>(); assert_eq!(result, expected); let scheme = if cfg!(target_os = "windows") { "file:///" } else { "file://" }; let result = collect_specifiers( vec![format!( "{}{}", scheme, root_dir_path .join("child") .to_str() .unwrap() .replace('\\', "/") )], &[], predicate, ) .unwrap(); let expected: Vec = [ &format!("{}/child/README.md", root_dir_url), &format!("{}/child/e.mjs", root_dir_url), &format!("{}/child/f.mjsx", root_dir_url), ] .iter() .map(|f| ModuleSpecifier::parse(f).unwrap()) .collect::>(); assert_eq!(result, expected); } #[cfg(windows)] #[test] fn test_strip_unc_prefix() { run_test(r"C:\", r"C:\"); run_test(r"C:\test\file.txt", r"C:\test\file.txt"); run_test(r"\\?\C:\", r"C:\"); run_test(r"\\?\C:\test\file.txt", r"C:\test\file.txt"); run_test(r"\\.\C:\", r"\\.\C:\"); run_test(r"\\.\C:\Test\file.txt", r"\\.\C:\Test\file.txt"); run_test(r"\\?\UNC\localhost\", r"\\localhost"); run_test(r"\\?\UNC\localhost\c$\", r"\\localhost\c$"); run_test( r"\\?\UNC\localhost\c$\Windows\file.txt", r"\\localhost\c$\Windows\file.txt", ); run_test(r"\\?\UNC\wsl$\deno.json", r"\\wsl$\deno.json"); run_test(r"\\?\server1", r"\\server1"); run_test(r"\\?\server1\e$\", r"\\server1\e$\"); run_test( r"\\?\server1\e$\test\file.txt", r"\\server1\e$\test\file.txt", ); fn run_test(input: &str, expected: &str) { assert_eq!( strip_unc_prefix(PathBuf::from(input)), PathBuf::from(expected) ); } } }