use anyhow::Result; use turbo_rcstr::rcstr; use turbo_tasks::{ResolvedVc, Vc}; use turbo_tasks_fs::{FileSystem, FileSystemPath}; use turbopack_core::resolve::{ AliasMap, AliasPattern, ExternalTraced, ExternalType, FindContextFileResult, find_context_file, options::{ ConditionValue, ImportMap, ImportMapping, ResolutionConditions, ResolveInPackage, ResolveIntoPackage, ResolveModules, ResolveOptions, }, }; use crate::{ resolve_options_context::ResolveOptionsContext, typescript::{apply_tsconfig_resolve_options, tsconfig, tsconfig_resolve_options}, }; const NODE_EXTERNALS: [&str; 64] = [ "assert", "assert/strict", "async_hooks", "buffer", "child_process", "cluster", "console", "constants", "crypto", "dgram", "diagnostics_channel", "dns", "dns/promises", "domain", "events", "fs", "fs/promises", "http", "http2", "https", "inspector", "module", "net", "os", "path", "path/posix", "path/win32", "perf_hooks", "process", "punycode", "querystring", "readline", "repl", "stream", "stream/promises", "stream/web", "string_decoder", "sys", "timers", "timers/promises", "tls", "trace_events", "tty", "url", "util", "util/types", "v8", "vm", "wasi", "worker_threads", "zlib", "pnpapi", "_http_agent", "_http_client", "_http_common", "_http_incoming", "_http_outgoing", "_http_server", "_stream_duplex", "_stream_passthrough", "_stream_readable", "_stream_transform", "_stream_wrap", "_stream_writable", ]; const EDGE_NODE_EXTERNALS: [&str; 5] = ["buffer", "events", "assert", "util", "async_hooks"]; #[turbo_tasks::function] async fn base_resolve_options( fs: ResolvedVc>, options_context: Vc, ) -> Result> { let opt = options_context.await?; let emulating = opt.emulate_environment; let root = fs.root().owned().await?; let mut direct_mappings = AliasMap::new(); let node_externals = if let Some(environment) = emulating { environment.node_externals().owned().await? } else { opt.enable_node_externals }; if node_externals || opt.enable_edge_node_externals { let untraced_external_cell = ImportMapping::External(None, ExternalType::CommonJs, ExternalTraced::Untraced) .resolved_cell(); if node_externals { for req in NODE_EXTERNALS { direct_mappings.insert(AliasPattern::exact(req), untraced_external_cell); direct_mappings.insert( AliasPattern::exact(format!("node:{req}")), untraced_external_cell, ); } } if opt.enable_edge_node_externals { for req in EDGE_NODE_EXTERNALS { direct_mappings.insert( AliasPattern::exact(req), ImportMapping::External( Some(format!("node:{req}").into()), ExternalType::CommonJs, ExternalTraced::Untraced, ) .resolved_cell(), ); direct_mappings.insert( AliasPattern::exact(format!("node:{req}")), untraced_external_cell, ); } } } let mut import_map = ImportMap::new(direct_mappings); if let Some(additional_import_map) = opt.import_map { let additional_import_map = additional_import_map.await?; import_map.extend_ref(&additional_import_map); } let import_map = import_map.resolved_cell(); let conditions = { let mut conditions: ResolutionConditions = [ (rcstr!("import"), ConditionValue::Unknown), (rcstr!("require"), ConditionValue::Unknown), ] .into_iter() .collect(); if opt.browser { conditions.insert(rcstr!("browser"), ConditionValue::Set); } if opt.module { conditions.insert(rcstr!("module"), ConditionValue::Set); } if let Some(environment) = emulating { for condition in environment.resolve_conditions().await?.iter() { conditions.insert(condition.clone(), ConditionValue::Set); } } for condition in opt.custom_conditions.iter() { conditions.insert(condition.clone(), ConditionValue::Set); } // Infer some well-known conditions let dev = conditions.get("development").cloned(); let prod = conditions.get("production").cloned(); if prod.is_none() { conditions.insert( rcstr!("production"), if matches!(dev, Some(ConditionValue::Set)) { ConditionValue::Unset } else { ConditionValue::Unknown }, ); } if dev.is_none() { conditions.insert( rcstr!("development"), if matches!(prod, Some(ConditionValue::Set)) { ConditionValue::Unset } else { ConditionValue::Unknown }, ); } conditions }; let extensions = if let Some(custom_extension) = &opt.custom_extensions { custom_extension.clone() } else if let Some(environment) = emulating { environment.resolve_extensions().owned().await? } else { let mut ext = Vec::new(); if opt.enable_typescript && opt.enable_react { ext.push(rcstr!(".tsx")); } if opt.enable_typescript { ext.push(rcstr!(".ts")); } if opt.enable_react { ext.push(rcstr!(".jsx")); } ext.push(rcstr!(".js")); if opt.enable_mjs_extension { ext.push(rcstr!(".mjs")); } if opt.enable_node_native_modules { ext.push(rcstr!(".node")); } ext.push(rcstr!(".json")); ext }; Ok(ResolveOptions { extensions, modules: if let Some(environment) = emulating { if *environment.resolve_node_modules().await? { vec![ResolveModules::Nested( root.clone(), vec![rcstr!("node_modules")], )] } else { Vec::new() } } else { let mut mods = Vec::new(); if let Some(dir) = &opt.enable_node_modules { mods.push(ResolveModules::Nested( dir.clone(), vec![rcstr!("node_modules")], )); } mods }, into_package: { let mut resolve_into = vec![ResolveIntoPackage::ExportsField { conditions: conditions.clone(), unspecified_conditions: ConditionValue::Unset, }]; if opt.browser { resolve_into.push(ResolveIntoPackage::MainField { field: rcstr!("browser"), }); } if opt.module { resolve_into.push(ResolveIntoPackage::MainField { field: rcstr!("module"), }); } resolve_into.push(ResolveIntoPackage::MainField { field: rcstr!("main"), }); resolve_into }, in_package: { let mut resolve_in = vec![ResolveInPackage::ImportsField { conditions, unspecified_conditions: ConditionValue::Unset, }]; if opt.browser { resolve_in.push(ResolveInPackage::AliasField(rcstr!("browser"))); } resolve_in }, default_files: vec![rcstr!("index")], import_map: Some(import_map), resolved_map: opt.resolved_map, after_resolve_plugins: opt.after_resolve_plugins.clone(), before_resolve_plugins: opt.before_resolve_plugins.clone(), loose_errors: opt.loose_errors, ..Default::default() } .into()) } #[turbo_tasks::function] pub async fn resolve_options( resolve_path: FileSystemPath, options_context: Vc, ) -> Result> { let options_context_value = options_context.await?; if !options_context_value.rules.is_empty() { for (condition, new_options_context) in options_context_value.rules.iter() { if condition.matches(&resolve_path) { return Ok(resolve_options(resolve_path, **new_options_context)); } } } let resolve_options = base_resolve_options(*resolve_path.fs, options_context); let resolve_options = if options_context_value.enable_typescript { let find_tsconfig = async || { // Otherwise, attempt to find a tsconfig up the file tree let tsconfig = find_context_file(resolve_path.clone(), tsconfig()).await?; anyhow::Ok::>(match &*tsconfig { FindContextFileResult::Found(path, _) => apply_tsconfig_resolve_options( resolve_options, tsconfig_resolve_options(path.clone()), ), FindContextFileResult::NotFound(_) => resolve_options, }) }; // Use a specified tsconfig path if provided. In Next.js, this is always provided by the // default config, at the very least. if let Some(tsconfig_path) = &options_context_value.tsconfig_path { let meta = tsconfig_path.metadata().await; if meta.is_ok() { // If the file exists, use it. apply_tsconfig_resolve_options( resolve_options, tsconfig_resolve_options(tsconfig_path.clone()), ) } else { // Otherwise, try and find one. // TODO: If the user provides a tsconfig.json explicitly, this should fail // explicitly. Currently implemented this way for parity with webpack. find_tsconfig().await? } } else { find_tsconfig().await? } } else { resolve_options }; // Make sure to always apply `options_context.import_map` last, so it properly // overwrites any other mappings. let resolve_options = options_context_value .import_map .map(|import_map| resolve_options.with_extended_import_map(*import_map)) .unwrap_or(resolve_options); // And the same for the fallback_import_map let resolve_options = options_context_value .fallback_import_map .map(|fallback_import_map| { resolve_options.with_extended_fallback_import_map(*fallback_import_map) }) .unwrap_or(resolve_options); Ok(resolve_options) }