// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use std::borrow::Cow; use std::cmp::Ordering; use std::collections::HashMap; use std::collections::HashSet; use std::fs; use std::io::ErrorKind; use std::path::PathBuf; use std::sync::Arc; use deno_core::anyhow::bail; use deno_core::anyhow::Context; use deno_core::error::custom_error; use deno_core::error::AnyError; use deno_core::futures::future::BoxFuture; use deno_core::futures::FutureExt; use deno_core::parking_lot::Mutex; use deno_core::serde::Deserialize; use deno_core::serde_json; use deno_core::url::Url; use deno_runtime::colors; use serde::Serialize; use crate::args::CacheSetting; use crate::cache::CACHE_PERM; use crate::http_util::HttpClient; use crate::util::fs::atomic_write_file; use crate::util::progress_bar::ProgressBar; use super::cache::NpmCache; use super::resolution::NpmVersionMatcher; use super::semver::NpmVersion; use super::semver::NpmVersionReq; // npm registry docs: https://github.com/npm/registry/blob/master/docs/REGISTRY-API.md #[derive(Debug, Default, Deserialize, Serialize, Clone)] pub struct NpmPackageInfo { pub name: String, pub versions: HashMap, #[serde(rename = "dist-tags")] pub dist_tags: HashMap, } #[derive(Debug, Eq, PartialEq)] pub enum NpmDependencyEntryKind { Dep, Peer, OptionalPeer, } impl NpmDependencyEntryKind { pub fn is_optional(&self) -> bool { matches!(self, NpmDependencyEntryKind::OptionalPeer) } } #[derive(Debug, Eq, PartialEq)] pub struct NpmDependencyEntry { pub kind: NpmDependencyEntryKind, pub bare_specifier: String, pub name: String, pub version_req: NpmVersionReq, /// When the dependency is also marked as a peer dependency, /// use this entry to resolve the dependency when it can't /// be resolved as a peer dependency. pub peer_dep_version_req: Option, } impl PartialOrd for NpmDependencyEntry { fn partial_cmp(&self, other: &Self) -> Option { Some(self.cmp(other)) } } impl Ord for NpmDependencyEntry { fn cmp(&self, other: &Self) -> std::cmp::Ordering { // sort the dependencies alphabetically by name then by version descending match self.name.cmp(&other.name) { // sort by newest to oldest Ordering::Equal => other .version_req .version_text() .cmp(&self.version_req.version_text()), ordering => ordering, } } } #[derive(Debug, Default, Deserialize, Serialize, Clone)] pub struct NpmPeerDependencyMeta { #[serde(default)] optional: bool, } #[derive(Debug, Default, Deserialize, Serialize, Clone)] #[serde(rename_all = "camelCase")] pub struct NpmPackageVersionInfo { pub version: String, pub dist: NpmPackageVersionDistInfo, // Bare specifier to version (ex. `"typescript": "^3.0.1") or possibly // package and version (ex. `"typescript-3.0.1": "npm:typescript@3.0.1"`). #[serde(default)] pub dependencies: HashMap, #[serde(default)] pub peer_dependencies: HashMap, #[serde(default)] pub peer_dependencies_meta: HashMap, } impl NpmPackageVersionInfo { pub fn dependencies_as_entries( &self, ) -> Result, AnyError> { fn parse_dep_entry( entry: (&String, &String), kind: NpmDependencyEntryKind, ) -> Result { let bare_specifier = entry.0.clone(); let (name, version_req) = if let Some(package_and_version) = entry.1.strip_prefix("npm:") { if let Some((name, version)) = package_and_version.rsplit_once('@') { (name.to_string(), version.to_string()) } else { bail!("could not find @ symbol in npm url '{}'", entry.1); } } else { (entry.0.clone(), entry.1.clone()) }; let version_req = NpmVersionReq::parse(&version_req).with_context(|| { format!( "error parsing version requirement for dependency: {}@{}", bare_specifier, version_req ) })?; Ok(NpmDependencyEntry { kind, bare_specifier, name, version_req, peer_dep_version_req: None, }) } let mut result = HashMap::with_capacity( self.dependencies.len() + self.peer_dependencies.len(), ); for entry in &self.peer_dependencies { let is_optional = self .peer_dependencies_meta .get(entry.0) .map(|d| d.optional) .unwrap_or(false); let kind = match is_optional { true => NpmDependencyEntryKind::OptionalPeer, false => NpmDependencyEntryKind::Peer, }; let entry = parse_dep_entry(entry, kind)?; result.insert(entry.bare_specifier.clone(), entry); } for entry in &self.dependencies { let entry = parse_dep_entry(entry, NpmDependencyEntryKind::Dep)?; // people may define a dependency as a peer dependency as well, // so in those cases, attempt to resolve as a peer dependency, // but then use this dependency version requirement otherwise if let Some(peer_dep_entry) = result.get_mut(&entry.bare_specifier) { peer_dep_entry.peer_dep_version_req = Some(entry.version_req); } else { result.insert(entry.bare_specifier.clone(), entry); } } Ok(result.into_values().collect()) } } #[derive(Debug, Default, Clone, Serialize, Deserialize, PartialEq, Eq)] pub struct NpmPackageVersionDistInfo { /// URL to the tarball. pub tarball: String, shasum: String, integrity: Option, } impl NpmPackageVersionDistInfo { pub fn integrity(&self) -> Cow { self .integrity .as_ref() .map(Cow::Borrowed) .unwrap_or_else(|| Cow::Owned(format!("sha1-{}", self.shasum))) } } pub trait NpmRegistryApi: Clone + Sync + Send + 'static { fn maybe_package_info( &self, name: &str, ) -> BoxFuture<'static, Result>, AnyError>>; fn package_info( &self, name: &str, ) -> BoxFuture<'static, Result, AnyError>> { let api = self.clone(); let name = name.to_string(); async move { let maybe_package_info = api.maybe_package_info(&name).await?; match maybe_package_info { Some(package_info) => Ok(package_info), None => bail!("npm package '{}' does not exist", name), } } .boxed() } fn package_version_info( &self, name: &str, version: &NpmVersion, ) -> BoxFuture<'static, Result, AnyError>> { let api = self.clone(); let name = name.to_string(); let version = version.to_string(); async move { let package_info = api.package_info(&name).await?; Ok(package_info.versions.get(&version).cloned()) } .boxed() } /// Clears the internal memory cache. fn clear_memory_cache(&self); } #[derive(Clone)] pub struct RealNpmRegistryApi(Arc); impl RealNpmRegistryApi { pub fn default_url() -> Url { // todo(dsherret): remove DENO_NPM_REGISTRY in the future (maybe May 2023) let env_var_names = ["NPM_CONFIG_REGISTRY", "DENO_NPM_REGISTRY"]; for env_var_name in env_var_names { if let Ok(registry_url) = std::env::var(env_var_name) { // ensure there is a trailing slash for the directory let registry_url = format!("{}/", registry_url.trim_end_matches('/')); match Url::parse(®istry_url) { Ok(url) => { if env_var_name == "DENO_NPM_REGISTRY" { log::warn!( "{}", colors::yellow(concat!( "DENO_NPM_REGISTRY was intended for internal testing purposes only. ", "Please update to NPM_CONFIG_REGISTRY instead.", )), ); } return url; } Err(err) => { log::debug!( "Invalid {} environment variable: {:#}", env_var_name, err, ); } } } } Url::parse("https://registry.npmjs.org").unwrap() } pub fn new( base_url: Url, cache: NpmCache, http_client: HttpClient, progress_bar: ProgressBar, ) -> Self { Self(Arc::new(RealNpmRegistryApiInner { base_url, cache, mem_cache: Default::default(), previously_reloaded_packages: Default::default(), http_client, progress_bar, })) } pub fn base_url(&self) -> &Url { &self.0.base_url } } impl NpmRegistryApi for RealNpmRegistryApi { fn maybe_package_info( &self, name: &str, ) -> BoxFuture<'static, Result>, AnyError>> { let api = self.clone(); let name = name.to_string(); async move { api.0.maybe_package_info(&name).await }.boxed() } fn clear_memory_cache(&self) { self.0.mem_cache.lock().clear(); } } struct RealNpmRegistryApiInner { base_url: Url, cache: NpmCache, mem_cache: Mutex>>>, previously_reloaded_packages: Mutex>, http_client: HttpClient, progress_bar: ProgressBar, } impl RealNpmRegistryApiInner { pub async fn maybe_package_info( &self, name: &str, ) -> Result>, AnyError> { let maybe_maybe_info = self.mem_cache.lock().get(name).cloned(); if let Some(maybe_info) = maybe_maybe_info { Ok(maybe_info) } else { let mut maybe_package_info = None; if self.cache.cache_setting().should_use_for_npm_package(name) // if this has been previously reloaded, then try loading from the // file system cache || !self.previously_reloaded_packages.lock().insert(name.to_string()) { // attempt to load from the file cache maybe_package_info = self.load_file_cached_package_info(name); } if maybe_package_info.is_none() { maybe_package_info = self .load_package_info_from_registry(name) .await .with_context(|| { format!("Error getting response at {}", self.get_package_url(name)) })?; } let maybe_package_info = maybe_package_info.map(Arc::new); // Not worth the complexity to ensure multiple in-flight requests // for the same package only request once because with how this is // used that should never happen. let mut mem_cache = self.mem_cache.lock(); Ok(match mem_cache.get(name) { // another thread raced here, so use its result instead Some(info) => info.clone(), None => { mem_cache.insert(name.to_string(), maybe_package_info.clone()); maybe_package_info } }) } } fn load_file_cached_package_info( &self, name: &str, ) -> Option { match self.load_file_cached_package_info_result(name) { Ok(value) => value, Err(err) => { if cfg!(debug_assertions) { panic!( "error loading cached npm package info for {}: {:#}", name, err ); } else { None } } } } fn load_file_cached_package_info_result( &self, name: &str, ) -> Result, AnyError> { let file_cache_path = self.get_package_file_cache_path(name); let file_text = match fs::read_to_string(file_cache_path) { Ok(file_text) => file_text, Err(err) if err.kind() == ErrorKind::NotFound => return Ok(None), Err(err) => return Err(err.into()), }; match serde_json::from_str(&file_text) { Ok(package_info) => Ok(Some(package_info)), Err(err) => { // This scenario might mean we need to load more data from the // npm registry than before. So, just debug log while in debug // rather than panic. log::debug!( "error deserializing registry.json for '{}'. Reloading. {:?}", name, err ); Ok(None) } } } fn save_package_info_to_file_cache( &self, name: &str, package_info: &NpmPackageInfo, ) { if let Err(err) = self.save_package_info_to_file_cache_result(name, package_info) { if cfg!(debug_assertions) { panic!( "error saving cached npm package info for {}: {:#}", name, err ); } } } fn save_package_info_to_file_cache_result( &self, name: &str, package_info: &NpmPackageInfo, ) -> Result<(), AnyError> { let file_cache_path = self.get_package_file_cache_path(name); let file_text = serde_json::to_string(&package_info)?; std::fs::create_dir_all(file_cache_path.parent().unwrap())?; atomic_write_file(&file_cache_path, file_text, CACHE_PERM)?; Ok(()) } async fn load_package_info_from_registry( &self, name: &str, ) -> Result, AnyError> { if *self.cache.cache_setting() == CacheSetting::Only { return Err(custom_error( "NotCached", format!( "An npm specifier not found in cache: \"{}\", --cached-only is specified.", name ) )); } let package_url = self.get_package_url(name); let guard = self.progress_bar.update(package_url.as_str()); let maybe_bytes = self .http_client .download_with_progress(package_url, &guard) .await?; match maybe_bytes { Some(bytes) => { let package_info = serde_json::from_slice(&bytes)?; self.save_package_info_to_file_cache(name, &package_info); Ok(Some(package_info)) } None => Ok(None), } } fn get_package_url(&self, name: &str) -> Url { self.base_url.join(name).unwrap() } fn get_package_file_cache_path(&self, name: &str) -> PathBuf { let name_folder_path = self.cache.package_name_folder(name, &self.base_url); name_folder_path.join("registry.json") } } /// Note: This test struct is not thread safe for setup /// purposes. Construct everything on the same thread. #[cfg(test)] #[derive(Clone, Default)] pub struct TestNpmRegistryApi { package_infos: Arc>>, } #[cfg(test)] impl TestNpmRegistryApi { pub fn add_package_info(&self, name: &str, info: NpmPackageInfo) { let previous = self.package_infos.lock().insert(name.to_string(), info); assert!(previous.is_none()); } pub fn ensure_package(&self, name: &str) { if !self.package_infos.lock().contains_key(name) { self.add_package_info( name, NpmPackageInfo { name: name.to_string(), ..Default::default() }, ); } } pub fn ensure_package_version(&self, name: &str, version: &str) { self.ensure_package(name); let mut infos = self.package_infos.lock(); let info = infos.get_mut(name).unwrap(); if !info.versions.contains_key(version) { info.versions.insert( version.to_string(), NpmPackageVersionInfo { version: version.to_string(), ..Default::default() }, ); } } pub fn add_dependency( &self, package_from: (&str, &str), package_to: (&str, &str), ) { let mut infos = self.package_infos.lock(); let info = infos.get_mut(package_from.0).unwrap(); let version = info.versions.get_mut(package_from.1).unwrap(); version .dependencies .insert(package_to.0.to_string(), package_to.1.to_string()); } pub fn add_dist_tag(&self, package_name: &str, tag: &str, version: &str) { let mut infos = self.package_infos.lock(); let info = infos.get_mut(package_name).unwrap(); info.dist_tags.insert(tag.to_string(), version.to_string()); } pub fn add_peer_dependency( &self, package_from: (&str, &str), package_to: (&str, &str), ) { let mut infos = self.package_infos.lock(); let info = infos.get_mut(package_from.0).unwrap(); let version = info.versions.get_mut(package_from.1).unwrap(); version .peer_dependencies .insert(package_to.0.to_string(), package_to.1.to_string()); } pub fn add_optional_peer_dependency( &self, package_from: (&str, &str), package_to: (&str, &str), ) { let mut infos = self.package_infos.lock(); let info = infos.get_mut(package_from.0).unwrap(); let version = info.versions.get_mut(package_from.1).unwrap(); version .peer_dependencies .insert(package_to.0.to_string(), package_to.1.to_string()); version.peer_dependencies_meta.insert( package_to.0.to_string(), NpmPeerDependencyMeta { optional: true }, ); } } #[cfg(test)] impl NpmRegistryApi for TestNpmRegistryApi { fn maybe_package_info( &self, name: &str, ) -> BoxFuture<'static, Result>, AnyError>> { let result = self.package_infos.lock().get(name).cloned(); Box::pin(deno_core::futures::future::ready(Ok(result.map(Arc::new)))) } fn clear_memory_cache(&self) { // do nothing for the test api } }