use anyhow::Result; use serde::{Deserialize, Serialize}; use swc_core::{ common::util::take::Take, ecma::ast::{CallExpr, Expr, ExprOrSpread, Lit}, quote, }; use turbo_rcstr::RcStr; use turbo_tasks::{ NonLocalValue, ResolvedVc, ValueToString, Vc, debug::ValueDebugFormat, trace::TraceRawVcs, }; use turbopack_core::{ chunk::{ChunkableModuleReference, ChunkingContext}, issue::IssueSource, reference::ModuleReference, resolve::{ModuleResolveResult, origin::ResolveOrigin, parse::Request}, }; use turbopack_resolve::ecmascript::cjs_resolve; use crate::{ code_gen::{CodeGen, CodeGeneration, IntoCodeGenReference}, create_visitor, references::{ AstPath, pattern_mapping::{PatternMapping, ResolveType}, }, runtime_functions::TURBOPACK_CACHE, }; #[turbo_tasks::value] #[derive(Hash, Debug)] pub struct CjsAssetReference { pub origin: ResolvedVc>, pub request: ResolvedVc, pub issue_source: IssueSource, pub in_try: bool, } #[turbo_tasks::value_impl] impl CjsAssetReference { #[turbo_tasks::function] pub fn new( origin: ResolvedVc>, request: ResolvedVc, issue_source: IssueSource, in_try: bool, ) -> Result> { Ok(Self::cell(CjsAssetReference { origin, request, issue_source, in_try, })) } } #[turbo_tasks::value_impl] impl ModuleReference for CjsAssetReference { #[turbo_tasks::function] fn resolve_reference(&self) -> Vc { cjs_resolve( *self.origin, *self.request, Some(self.issue_source), self.in_try, ) } } #[turbo_tasks::value_impl] impl ValueToString for CjsAssetReference { #[turbo_tasks::function] async fn to_string(&self) -> Result> { Ok(Vc::cell( format!("generic commonjs {}", self.request.to_string().await?,).into(), )) } } #[turbo_tasks::value_impl] impl ChunkableModuleReference for CjsAssetReference {} #[turbo_tasks::value] #[derive(Hash, Debug)] pub struct CjsRequireAssetReference { pub origin: ResolvedVc>, pub request: ResolvedVc, pub issue_source: IssueSource, pub in_try: bool, } impl CjsRequireAssetReference { pub fn new( origin: ResolvedVc>, request: ResolvedVc, issue_source: IssueSource, in_try: bool, ) -> Self { CjsRequireAssetReference { origin, request, issue_source, in_try, } } } #[turbo_tasks::value_impl] impl ModuleReference for CjsRequireAssetReference { #[turbo_tasks::function] fn resolve_reference(&self) -> Vc { cjs_resolve( *self.origin, *self.request, Some(self.issue_source), self.in_try, ) } } #[turbo_tasks::value_impl] impl ValueToString for CjsRequireAssetReference { #[turbo_tasks::function] async fn to_string(&self) -> Result> { Ok(Vc::cell( format!("require {}", self.request.to_string().await?,).into(), )) } } #[turbo_tasks::value_impl] impl ChunkableModuleReference for CjsRequireAssetReference {} impl IntoCodeGenReference for CjsRequireAssetReference { fn into_code_gen_reference( self, path: AstPath, ) -> (ResolvedVc>, CodeGen) { let reference = self.resolved_cell(); ( ResolvedVc::upcast(reference), CodeGen::CjsRequireAssetReferenceCodeGen(CjsRequireAssetReferenceCodeGen { reference, path, }), ) } } #[derive(PartialEq, Eq, Serialize, Deserialize, TraceRawVcs, ValueDebugFormat, NonLocalValue)] pub struct CjsRequireAssetReferenceCodeGen { reference: ResolvedVc, path: AstPath, } impl CjsRequireAssetReferenceCodeGen { pub async fn code_generation( &self, chunking_context: Vc>, ) -> Result { let reference = self.reference.await?; let pm = PatternMapping::resolve_request( *reference.request, *reference.origin, Vc::upcast(chunking_context), self.reference.resolve_reference(), ResolveType::ChunkItem, ) .await?; let mut visitors = Vec::new(); visitors.push(create_visitor!( self.path, visit_mut_expr, |expr: &mut Expr| { let old_expr = expr.take(); let message = if let Expr::Call(CallExpr { args, .. }) = old_expr { match args.into_iter().next() { Some(ExprOrSpread { spread: None, expr: key_expr, }) => { *expr = pm.create_require(*key_expr); return; } Some(ExprOrSpread { spread: Some(_), expr: _, }) => "spread operator is not analyse-able in require() expressions.", _ => "require() expressions require at least 1 argument", } } else { "visitor must be executed on a CallExpr" }; *expr = quote!( "(() => { throw new Error($message); })()" as Expr, message: Expr = Expr::Lit(Lit::Str(message.into())) ); } )); Ok(CodeGeneration::visitors(visitors)) } } #[turbo_tasks::value] #[derive(Hash, Debug)] pub struct CjsRequireResolveAssetReference { pub origin: ResolvedVc>, pub request: ResolvedVc, pub issue_source: IssueSource, pub in_try: bool, } impl CjsRequireResolveAssetReference { pub fn new( origin: ResolvedVc>, request: ResolvedVc, issue_source: IssueSource, in_try: bool, ) -> Self { CjsRequireResolveAssetReference { origin, request, issue_source, in_try, } } } #[turbo_tasks::value_impl] impl ModuleReference for CjsRequireResolveAssetReference { #[turbo_tasks::function] fn resolve_reference(&self) -> Vc { cjs_resolve( *self.origin, *self.request, Some(self.issue_source), self.in_try, ) } } #[turbo_tasks::value_impl] impl ValueToString for CjsRequireResolveAssetReference { #[turbo_tasks::function] async fn to_string(&self) -> Result> { Ok(Vc::cell( format!("require.resolve {}", self.request.to_string().await?,).into(), )) } } #[turbo_tasks::value_impl] impl ChunkableModuleReference for CjsRequireResolveAssetReference {} impl IntoCodeGenReference for CjsRequireResolveAssetReference { fn into_code_gen_reference( self, path: AstPath, ) -> (ResolvedVc>, CodeGen) { let reference = self.resolved_cell(); ( ResolvedVc::upcast(reference), CodeGen::CjsRequireResolveAssetReferenceCodeGen( CjsRequireResolveAssetReferenceCodeGen { reference, path }, ), ) } } #[derive(PartialEq, Eq, Serialize, Deserialize, TraceRawVcs, ValueDebugFormat, NonLocalValue)] pub struct CjsRequireResolveAssetReferenceCodeGen { reference: ResolvedVc, path: AstPath, } impl CjsRequireResolveAssetReferenceCodeGen { pub async fn code_generation( &self, chunking_context: Vc>, ) -> Result { let reference = self.reference.await?; let pm = PatternMapping::resolve_request( *reference.request, *reference.origin, Vc::upcast(chunking_context), self.reference.resolve_reference(), ResolveType::ChunkItem, ) .await?; let mut visitors = Vec::new(); // Inline the result of the `require.resolve` call as a literal. visitors.push(create_visitor!( self.path, visit_mut_expr, |expr: &mut Expr| { if let Expr::Call(call_expr) = expr { let args = std::mem::take(&mut call_expr.args); *expr = match args.into_iter().next() { Some(ExprOrSpread { expr, spread: None }) => pm.create_id(*expr), other => { let message = match other { // These are SWC bugs: https://github.com/swc-project/swc/issues/5394 Some(ExprOrSpread { spread: Some(_), expr: _, }) => { "spread operator is not analyse-able in require() expressions." } _ => "require() expressions require at least 1 argument", }; quote!( "(() => { throw new Error($message); })()" as Expr, message: Expr = Expr::Lit(Lit::Str(message.into())) ) } }; } // CjsRequireResolveAssetReference will only be used for Expr::Call. // Due to eventual consistency the path might match something else, // but we can ignore that as it will be recomputed anyway. } )); Ok(CodeGeneration::visitors(visitors)) } } #[derive(PartialEq, Eq, Serialize, Deserialize, TraceRawVcs, ValueDebugFormat, NonLocalValue)] pub struct CjsRequireCacheAccess { pub path: AstPath, } impl CjsRequireCacheAccess { pub fn new(path: AstPath) -> Self { CjsRequireCacheAccess { path } } pub async fn code_generation( &self, _chunking_context: Vc>, ) -> Result { let mut visitors = Vec::new(); visitors.push(create_visitor!( self.path, visit_mut_expr, |expr: &mut Expr| { if let Expr::Member(_) = expr { *expr = TURBOPACK_CACHE.into(); } else { unreachable!("`CjsRequireCacheAccess` is only created from `MemberExpr`"); } } )); Ok(CodeGeneration::visitors(visitors)) } } impl From for CodeGen { fn from(val: CjsRequireCacheAccess) -> Self { CodeGen::CjsRequireCacheAccess(val) } }