// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use deno_core::anyhow::anyhow; use deno_core::error::AnyError; use deno_core::futures::future; use deno_core::futures::future::LocalBoxFuture; use deno_core::futures::FutureExt; use deno_core::ModuleSpecifier; use deno_graph::source::NpmPackageReqResolution; use deno_graph::source::NpmResolver; use deno_graph::source::ResolutionMode; use deno_graph::source::ResolveError; use deno_graph::source::Resolver; use deno_graph::source::UnknownBuiltInNodeModuleError; use deno_graph::source::DEFAULT_JSX_IMPORT_SOURCE_MODULE; use deno_runtime::deno_node::is_builtin_node_module; use deno_semver::package::PackageReq; use import_map::ImportMap; use std::path::PathBuf; use std::sync::Arc; use crate::args::package_json::PackageJsonDeps; use crate::args::JsxImportSourceConfig; use crate::args::PackageJsonDepsProvider; use crate::npm::CliNpmResolver; use crate::npm::InnerCliNpmResolverRef; use crate::util::sync::AtomicFlag; /// Result of checking if a specifier is mapped via /// an import map or package.json. pub enum MappedResolution { None, PackageJson(ModuleSpecifier), ImportMap(ModuleSpecifier), } impl MappedResolution { pub fn into_specifier(self) -> Option { match self { MappedResolution::None => Option::None, MappedResolution::PackageJson(specifier) => Some(specifier), MappedResolution::ImportMap(specifier) => Some(specifier), } } } /// Resolver for specifiers that could be mapped via an /// import map or package.json. #[derive(Debug)] pub struct MappedSpecifierResolver { maybe_import_map: Option>, package_json_deps_provider: Arc, } impl MappedSpecifierResolver { pub fn new( maybe_import_map: Option>, package_json_deps_provider: Arc, ) -> Self { Self { maybe_import_map, package_json_deps_provider, } } pub fn resolve( &self, specifier: &str, referrer: &ModuleSpecifier, ) -> Result { // attempt to resolve with the import map first let maybe_import_map_err = match self .maybe_import_map .as_ref() .map(|import_map| import_map.resolve(specifier, referrer)) { Some(Ok(value)) => return Ok(MappedResolution::ImportMap(value)), Some(Err(err)) => Some(err), None => None, }; // then with package.json if let Some(deps) = self.package_json_deps_provider.deps() { if let Some(specifier) = resolve_package_json_dep(specifier, deps)? { return Ok(MappedResolution::PackageJson(specifier)); } } // otherwise, surface the import map error or try resolving when has no import map if let Some(err) = maybe_import_map_err { Err(err.into()) } else { Ok(MappedResolution::None) } } } /// A resolver that takes care of resolution, taking into account loaded /// import map, JSX settings. #[derive(Debug)] pub struct CliGraphResolver { mapped_specifier_resolver: MappedSpecifierResolver, maybe_default_jsx_import_source: Option, maybe_jsx_import_source_module: Option, maybe_vendor_specifier: Option, npm_resolver: Option>, found_package_json_dep_flag: Arc, bare_node_builtins_enabled: bool, } pub struct CliGraphResolverOptions<'a> { pub maybe_jsx_import_source_config: Option, pub maybe_import_map: Option>, pub maybe_vendor_dir: Option<&'a PathBuf>, pub bare_node_builtins_enabled: bool, } impl CliGraphResolver { pub fn new( npm_resolver: Option>, package_json_deps_provider: Arc, options: CliGraphResolverOptions, ) -> Self { Self { mapped_specifier_resolver: MappedSpecifierResolver::new( options.maybe_import_map, package_json_deps_provider, ), maybe_default_jsx_import_source: options .maybe_jsx_import_source_config .as_ref() .and_then(|c| c.default_specifier.clone()), maybe_jsx_import_source_module: options .maybe_jsx_import_source_config .map(|c| c.module), maybe_vendor_specifier: options .maybe_vendor_dir .and_then(|v| ModuleSpecifier::from_directory_path(v).ok()), npm_resolver, found_package_json_dep_flag: Default::default(), bare_node_builtins_enabled: options.bare_node_builtins_enabled, } } pub fn as_graph_resolver(&self) -> &dyn Resolver { self } pub fn as_graph_npm_resolver(&self) -> &dyn NpmResolver { self } pub fn found_package_json_dep(&self) -> bool { self.found_package_json_dep_flag.is_raised() } } impl Resolver for CliGraphResolver { fn default_jsx_import_source(&self) -> Option { self.maybe_default_jsx_import_source.clone() } fn jsx_import_source_module(&self) -> &str { self .maybe_jsx_import_source_module .as_deref() .unwrap_or(DEFAULT_JSX_IMPORT_SOURCE_MODULE) } fn resolve( &self, specifier: &str, referrer: &ModuleSpecifier, _mode: ResolutionMode, ) -> Result { let result = match self .mapped_specifier_resolver .resolve(specifier, referrer)? { MappedResolution::ImportMap(specifier) => Ok(specifier), MappedResolution::PackageJson(specifier) => { // found a specifier in the package.json, so mark that // we need to do an "npm install" later self.found_package_json_dep_flag.raise(); Ok(specifier) } MappedResolution::None => deno_graph::resolve_import(specifier, referrer) .map_err(|err| err.into()), }; // When the user is vendoring, don't allow them to import directly from the vendor/ directory // as it might cause them confusion or duplicate dependencies. Additionally, this folder has // special treatment in the language server so it will definitely cause issues/confusion there // if they do this. if let Some(vendor_specifier) = &self.maybe_vendor_specifier { if let Ok(specifier) = &result { if specifier.as_str().starts_with(vendor_specifier.as_str()) { return Err(ResolveError::Other(anyhow!("Importing from the vendor directory is not permitted. Use a remote specifier instead or disable vendoring."))); } } } result } } fn resolve_package_json_dep( specifier: &str, deps: &PackageJsonDeps, ) -> Result, AnyError> { for (bare_specifier, req_result) in deps { if specifier.starts_with(bare_specifier) { let path = &specifier[bare_specifier.len()..]; if path.is_empty() || path.starts_with('/') { let req = req_result.as_ref().map_err(|err| { anyhow!( "Parsing version constraints in the application-level package.json is more strict at the moment.\n\n{:#}", err.clone() ) })?; return Ok(Some(ModuleSpecifier::parse(&format!("npm:{req}{path}"))?)); } } } Ok(None) } impl NpmResolver for CliGraphResolver { fn resolve_builtin_node_module( &self, specifier: &ModuleSpecifier, ) -> Result, UnknownBuiltInNodeModuleError> { if specifier.scheme() != "node" { return Ok(None); } let module_name = specifier.path().to_string(); if is_builtin_node_module(&module_name) { Ok(Some(module_name)) } else { Err(UnknownBuiltInNodeModuleError { module_name }) } } fn on_resolve_bare_builtin_node_module( &self, module_name: &str, range: &deno_graph::Range, ) { let deno_graph::Range { start, specifier, .. } = range; let line = start.line + 1; let column = start.character + 1; log::warn!("Warning: Resolving \"{module_name}\" as \"node:{module_name}\" at {specifier}:{line}:{column}. If you want to use a built-in Node module, add a \"node:\" prefix.") } fn load_and_cache_npm_package_info( &self, package_name: &str, ) -> LocalBoxFuture<'static, Result<(), AnyError>> { match &self.npm_resolver { Some(npm_resolver) if npm_resolver.as_managed().is_some() => { let package_name = package_name.to_string(); let npm_resolver = npm_resolver.clone(); async move { if let Some(managed) = npm_resolver.as_managed() { managed.cache_package_info(&package_name).await?; } Ok(()) } .boxed() } _ => { // return it succeeded and error at the import site below Box::pin(future::ready(Ok(()))) } } } fn resolve_npm(&self, package_req: &PackageReq) -> NpmPackageReqResolution { match &self.npm_resolver { Some(npm_resolver) => match npm_resolver.as_inner() { InnerCliNpmResolverRef::Managed(npm_resolver) => { npm_resolver.resolve_npm_for_deno_graph(package_req) } // if we are using byonm, then this should never be called because // we don't use deno_graph's npm resolution in this case InnerCliNpmResolverRef::Byonm(_) => unreachable!(), }, None => NpmPackageReqResolution::Err(anyhow!( "npm specifiers were requested; but --no-npm is specified" )), } } fn enables_bare_builtin_node_module(&self) -> bool { self.bare_node_builtins_enabled } } #[cfg(test)] mod test { use std::collections::BTreeMap; use super::*; #[test] fn test_resolve_package_json_dep() { fn resolve( specifier: &str, deps: &BTreeMap, ) -> Result, String> { let deps = deps .iter() .map(|(key, value)| (key.to_string(), Ok(value.clone()))) .collect(); resolve_package_json_dep(specifier, &deps) .map(|s| s.map(|s| s.to_string())) .map_err(|err| err.to_string()) } let deps = BTreeMap::from([ ( "package".to_string(), PackageReq::from_str("package@1.0").unwrap(), ), ( "package-alias".to_string(), PackageReq::from_str("package@^1.2").unwrap(), ), ( "@deno/test".to_string(), PackageReq::from_str("@deno/test@~0.2").unwrap(), ), ]); assert_eq!( resolve("package", &deps).unwrap(), Some("npm:package@1.0".to_string()), ); assert_eq!( resolve("package/some_path.ts", &deps).unwrap(), Some("npm:package@1.0/some_path.ts".to_string()), ); assert_eq!( resolve("@deno/test", &deps).unwrap(), Some("npm:@deno/test@~0.2".to_string()), ); assert_eq!( resolve("@deno/test/some_path.ts", &deps).unwrap(), Some("npm:@deno/test@~0.2/some_path.ts".to_string()), ); // matches the start, but doesn't have the same length or a path assert_eq!(resolve("@deno/testing", &deps).unwrap(), None,); // alias assert_eq!( resolve("package-alias", &deps).unwrap(), Some("npm:package@^1.2".to_string()), ); // non-existent bare specifier assert_eq!(resolve("non-existent", &deps).unwrap(), None); } }