// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. use std::fs; use std::path::Path; use std::path::PathBuf; use deno_ast::ModuleSpecifier; use deno_core::anyhow::bail; use deno_core::anyhow::Context; use deno_core::error::custom_error; use deno_core::error::AnyError; use deno_core::url::Url; use crate::cache::DenoDir; use crate::file_fetcher::CacheSetting; use crate::fs_util; use crate::http_util::HttpClient; use crate::progress_bar::ProgressBar; use super::registry::NpmPackageVersionDistInfo; use super::semver::NpmVersion; use super::tarball::verify_and_extract_tarball; /// For some of the tests, we want downloading of packages /// to be deterministic so that the output is always the same pub fn should_sync_download() -> bool { std::env::var("DENO_UNSTABLE_NPM_SYNC_DOWNLOAD").is_ok() } const NPM_PACKAGE_SYNC_LOCK_FILENAME: &str = ".deno_sync_lock"; pub fn with_folder_sync_lock( package: (&str, &NpmVersion), output_folder: &Path, action: impl FnOnce() -> Result<(), AnyError>, ) -> Result<(), AnyError> { fn inner( output_folder: &Path, action: impl FnOnce() -> Result<(), AnyError>, ) -> Result<(), AnyError> { fs::create_dir_all(output_folder).with_context(|| { format!("Error creating '{}'.", output_folder.display()) })?; // This sync lock file is a way to ensure that partially created // npm package directories aren't considered valid. This could maybe // be a bit smarter in the future to not bother extracting here // if another process has taken the lock in the past X seconds and // wait for the other process to finish (it could try to create the // file with `create_new(true)` then if it exists, check the metadata // then wait until the other process finishes with a timeout), but // for now this is good enough. let sync_lock_path = output_folder.join(NPM_PACKAGE_SYNC_LOCK_FILENAME); match fs::OpenOptions::new() .write(true) .create(true) .open(&sync_lock_path) { Ok(_) => { action()?; // extraction succeeded, so only now delete this file let _ignore = std::fs::remove_file(&sync_lock_path); Ok(()) } Err(err) => { bail!( concat!( "Error creating package sync lock file at '{}'. ", "Maybe try manually deleting this folder.\n\n{:#}", ), output_folder.display(), err ); } } } match inner(output_folder, action) { Ok(()) => Ok(()), Err(err) => { if let Err(remove_err) = fs::remove_dir_all(output_folder) { if remove_err.kind() != std::io::ErrorKind::NotFound { bail!( concat!( "Failed setting up package cache directory for {}@{}, then ", "failed cleaning it up.\n\nOriginal error:\n\n{}\n\n", "Remove error:\n\n{}\n\nPlease manually ", "delete this folder or you will run into issues using this ", "package in the future:\n\n{}" ), package.0, package.1, err, remove_err, output_folder.display(), ); } } Err(err) } } } pub struct NpmPackageCacheFolderId { pub name: String, pub version: NpmVersion, /// Peer dependency resolution may require us to have duplicate copies /// of the same package. pub copy_index: usize, } impl NpmPackageCacheFolderId { pub fn with_no_count(&self) -> Self { Self { name: self.name.clone(), version: self.version.clone(), copy_index: 0, } } } impl std::fmt::Display for NpmPackageCacheFolderId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { write!(f, "{}@{}", self.name, self.version)?; if self.copy_index > 0 { write!(f, "_{}", self.copy_index)?; } Ok(()) } } #[derive(Clone, Debug)] pub struct ReadonlyNpmCache { root_dir: PathBuf, // cached url representation of the root directory root_dir_url: Url, } // todo(dsherret): implementing Default for this is error prone because someone // might accidentally use the default implementation instead of getting the // correct location of the deno dir, which might be provided via a CLI argument. // That said, the rest of the LSP code does this at the moment and so this code // copies that. impl Default for ReadonlyNpmCache { fn default() -> Self { // This only gets used when creating the tsc runtime and for testing, and so // it shouldn't ever actually access the DenoDir, so it doesn't support a // custom root. Self::from_deno_dir(&DenoDir::new(None).unwrap()) } } impl ReadonlyNpmCache { pub fn new(root_dir: PathBuf) -> Self { fn try_get_canonicalized_root_dir( root_dir: &Path, ) -> Result { if !root_dir.exists() { std::fs::create_dir_all(root_dir) .with_context(|| format!("Error creating {}", root_dir.display()))?; } Ok(crate::fs_util::canonicalize_path(root_dir)?) } // this may fail on readonly file systems, so just ignore if so let root_dir = try_get_canonicalized_root_dir(&root_dir).unwrap_or(root_dir); let root_dir_url = Url::from_directory_path(&root_dir).unwrap(); Self { root_dir, root_dir_url, } } pub fn from_deno_dir(dir: &DenoDir) -> Self { Self::new(dir.npm_folder_path()) } pub fn package_folder_for_id( &self, id: &NpmPackageCacheFolderId, registry_url: &Url, ) -> PathBuf { if id.copy_index == 0 { self.package_folder_for_name_and_version( &id.name, &id.version, registry_url, ) } else { self .package_name_folder(&id.name, registry_url) .join(format!("{}_{}", id.version, id.copy_index)) } } pub fn package_folder_for_name_and_version( &self, name: &str, version: &NpmVersion, registry_url: &Url, ) -> PathBuf { self .package_name_folder(name, registry_url) .join(version.to_string()) } pub fn package_name_folder(&self, name: &str, registry_url: &Url) -> PathBuf { let mut dir = self.registry_folder(registry_url); if name.to_lowercase() != name { let encoded_name = mixed_case_package_name_encode(name); // Using the encoded directory may have a collision with an actual package name // so prefix it with an underscore since npm packages can't start with that dir.join(format!("_{}", encoded_name)) } else { // ensure backslashes are used on windows for part in name.split('/') { dir = dir.join(part); } dir } } pub fn registry_folder(&self, registry_url: &Url) -> PathBuf { self .root_dir .join(fs_util::root_url_to_safe_local_dirname(registry_url)) } pub fn resolve_package_folder_id_from_specifier( &self, specifier: &ModuleSpecifier, registry_url: &Url, ) -> Result { match self .maybe_resolve_package_folder_id_from_specifier(specifier, registry_url) { Some(id) => Ok(id), None => bail!("could not find npm package for '{}'", specifier), } } fn maybe_resolve_package_folder_id_from_specifier( &self, specifier: &ModuleSpecifier, registry_url: &Url, ) -> Option { let registry_root_dir = self .root_dir_url .join(&format!( "{}/", fs_util::root_url_to_safe_local_dirname(registry_url) .to_string_lossy() .replace('\\', "/") )) // this not succeeding indicates a fatal issue, so unwrap .unwrap(); let mut relative_url = registry_root_dir.make_relative(specifier)?; if relative_url.starts_with("../") { return None; } // base32 decode the url if it starts with an underscore // * Ex. _{base32(package_name)}/ if let Some(end_url) = relative_url.strip_prefix('_') { let mut parts = end_url .split('/') .map(ToOwned::to_owned) .collect::>(); match mixed_case_package_name_decode(&parts[0]) { Some(part) => { parts[0] = part; } None => return None, } relative_url = parts.join("/"); } // examples: // * chalk/5.0.1/ // * @types/chalk/5.0.1/ // * some-package/5.0.1_1/ -- where the `_1` (/_\d+/) is a copy of the folder for peer deps let is_scoped_package = relative_url.starts_with('@'); let mut parts = relative_url .split('/') .enumerate() .take(if is_scoped_package { 3 } else { 2 }) .map(|(_, part)| part) .collect::>(); if parts.len() < 2 { return None; } let version_part = parts.pop().unwrap(); let name = parts.join("/"); let (version, copy_index) = if let Some((version, copy_count)) = version_part.split_once('_') { (version, copy_count.parse::().ok()?) } else { (version_part, 0) }; Some(NpmPackageCacheFolderId { name, version: NpmVersion::parse(version).ok()?, copy_index, }) } pub fn get_cache_location(&self) -> PathBuf { self.root_dir.clone() } } /// Stores a single copy of npm packages in a cache. #[derive(Clone, Debug)] pub struct NpmCache { readonly: ReadonlyNpmCache, cache_setting: CacheSetting, http_client: HttpClient, progress_bar: ProgressBar, } impl NpmCache { pub fn from_deno_dir( dir: &DenoDir, cache_setting: CacheSetting, http_client: HttpClient, progress_bar: ProgressBar, ) -> Self { Self { readonly: ReadonlyNpmCache::from_deno_dir(dir), cache_setting, http_client, progress_bar, } } pub fn as_readonly(&self) -> ReadonlyNpmCache { self.readonly.clone() } pub async fn ensure_package( &self, package: (&str, &NpmVersion), dist: &NpmPackageVersionDistInfo, registry_url: &Url, ) -> Result<(), AnyError> { self .ensure_package_inner(package, dist, registry_url) .await .with_context(|| { format!("Failed caching npm package '{}@{}'.", package.0, package.1) }) } pub fn should_use_cache_for_npm_package(&self, package_name: &str) -> bool { self.cache_setting.should_use_for_npm_package(package_name) } async fn ensure_package_inner( &self, package: (&str, &NpmVersion), dist: &NpmPackageVersionDistInfo, registry_url: &Url, ) -> Result<(), AnyError> { let package_folder = self.readonly.package_folder_for_name_and_version( package.0, package.1, registry_url, ); if package_folder.exists() // if this file exists, then the package didn't successfully extract // the first time, or another process is currently extracting the zip file && !package_folder.join(NPM_PACKAGE_SYNC_LOCK_FILENAME).exists() && self.should_use_cache_for_npm_package(package.0) { return Ok(()); } else if self.cache_setting == CacheSetting::Only { return Err(custom_error( "NotCached", format!( "An npm specifier not found in cache: \"{}\", --cached-only is specified.", &package.0 ) ) ); } let _guard = self.progress_bar.update(&dist.tarball); let response = self.http_client.get(&dist.tarball).send().await?; if response.status() == 404 { bail!("Could not find npm package tarball at: {}", dist.tarball); } else if !response.status().is_success() { let status = response.status(); let maybe_response_text = response.text().await.ok(); bail!( "Bad response: {:?}{}", status, match maybe_response_text { Some(text) => format!("\n\n{}", text), None => String::new(), } ); } else { let bytes = response.bytes().await?; verify_and_extract_tarball(package, &bytes, dist, &package_folder) } } /// Ensures a copy of the package exists in the global cache. /// /// This assumes that the original package folder being hard linked /// from exists before this is called. pub fn ensure_copy_package( &self, id: &NpmPackageCacheFolderId, registry_url: &Url, ) -> Result<(), AnyError> { assert_ne!(id.copy_index, 0); let package_folder = self.readonly.package_folder_for_id(id, registry_url); if package_folder.exists() // if this file exists, then the package didn't successfully extract // the first time, or another process is currently extracting the zip file && !package_folder.join(NPM_PACKAGE_SYNC_LOCK_FILENAME).exists() && self.cache_setting.should_use_for_npm_package(&id.name) { return Ok(()); } let original_package_folder = self .readonly .package_folder_for_name_and_version(&id.name, &id.version, registry_url); with_folder_sync_lock( (id.name.as_str(), &id.version), &package_folder, || { fs_util::hard_link_dir_recursive( &original_package_folder, &package_folder, ) }, )?; Ok(()) } pub fn package_folder_for_id( &self, id: &NpmPackageCacheFolderId, registry_url: &Url, ) -> PathBuf { self.readonly.package_folder_for_id(id, registry_url) } pub fn package_folder_for_name_and_version( &self, name: &str, version: &NpmVersion, registry_url: &Url, ) -> PathBuf { self.readonly.package_folder_for_name_and_version( name, version, registry_url, ) } pub fn package_name_folder(&self, name: &str, registry_url: &Url) -> PathBuf { self.readonly.package_name_folder(name, registry_url) } pub fn registry_folder(&self, registry_url: &Url) -> PathBuf { self.readonly.registry_folder(registry_url) } pub fn resolve_package_folder_id_from_specifier( &self, specifier: &ModuleSpecifier, registry_url: &Url, ) -> Result { self .readonly .resolve_package_folder_id_from_specifier(specifier, registry_url) } } pub fn mixed_case_package_name_encode(name: &str) -> String { // use base32 encoding because it's reversable and the character set // only includes the characters within 0-9 and A-Z so it can be lower cased base32::encode( base32::Alphabet::RFC4648 { padding: false }, name.as_bytes(), ) .to_lowercase() } pub fn mixed_case_package_name_decode(name: &str) -> Option { base32::decode(base32::Alphabet::RFC4648 { padding: false }, name) .and_then(|b| String::from_utf8(b).ok()) } #[cfg(test)] mod test { use deno_core::url::Url; use super::ReadonlyNpmCache; use crate::npm::cache::NpmPackageCacheFolderId; use crate::npm::semver::NpmVersion; #[test] fn should_get_package_folder() { let deno_dir = crate::cache::DenoDir::new(None).unwrap(); let root_dir = deno_dir.npm_folder_path(); let cache = ReadonlyNpmCache::new(root_dir.clone()); let registry_url = Url::parse("https://registry.npmjs.org/").unwrap(); assert_eq!( cache.package_folder_for_id( &NpmPackageCacheFolderId { name: "json".to_string(), version: NpmVersion::parse("1.2.5").unwrap(), copy_index: 0, }, ®istry_url, ), root_dir .join("registry.npmjs.org") .join("json") .join("1.2.5"), ); assert_eq!( cache.package_folder_for_id( &NpmPackageCacheFolderId { name: "json".to_string(), version: NpmVersion::parse("1.2.5").unwrap(), copy_index: 1, }, ®istry_url, ), root_dir .join("registry.npmjs.org") .join("json") .join("1.2.5_1"), ); assert_eq!( cache.package_folder_for_id( &NpmPackageCacheFolderId { name: "JSON".to_string(), version: NpmVersion::parse("2.1.5").unwrap(), copy_index: 0, }, ®istry_url, ), root_dir .join("registry.npmjs.org") .join("_jjju6tq") .join("2.1.5"), ); assert_eq!( cache.package_folder_for_id( &NpmPackageCacheFolderId { name: "@types/JSON".to_string(), version: NpmVersion::parse("2.1.5").unwrap(), copy_index: 0, }, ®istry_url, ), root_dir .join("registry.npmjs.org") .join("_ib2hs4dfomxuuu2pjy") .join("2.1.5"), ); } }