use std::{collections::VecDeque, iter::once}; use anyhow::Result; use rustc_hash::FxHashSet; use turbo_rcstr::{RcStr, rcstr}; use turbo_tasks::{ Completion, FxIndexMap, FxIndexSet, ResolvedVc, State, TryJoinIterExt, Vc, fxindexset, }; use turbo_tasks_fs::FileSystemPath; use turbopack_core::{ asset::Asset, introspect::{Introspectable, IntrospectableChildren, output_asset::IntrospectableOutputAsset}, output::{OutputAsset, OutputAssetsSet}, }; use super::{ ContentSource, ContentSourceContent, ContentSourceData, ContentSourceSideEffect, GetContentSourceContent, route_tree::{BaseSegment, RouteTree, RouteTrees, RouteType}, }; #[turbo_tasks::value(transparent)] struct OutputAssetsMap(FxIndexMap>>); type ExpandedState = State>; #[turbo_tasks::value(serialization = "none", eq = "manual", cell = "new")] pub struct AssetGraphContentSource { root_path: FileSystemPath, root_assets: ResolvedVc, expanded: Option, } #[turbo_tasks::value_impl] impl AssetGraphContentSource { /// Serves all assets references by root_asset. #[turbo_tasks::function] pub fn new_eager( root_path: FileSystemPath, root_asset: ResolvedVc>, ) -> Vc { Self::cell(AssetGraphContentSource { root_path, root_assets: ResolvedVc::cell(fxindexset! { root_asset }), expanded: None, }) } /// Serves all assets references by root_asset. Only serve references of an /// asset when it has served its content before. #[turbo_tasks::function] pub fn new_lazy( root_path: FileSystemPath, root_asset: ResolvedVc>, ) -> Vc { Self::cell(AssetGraphContentSource { root_path, root_assets: ResolvedVc::cell(fxindexset! { root_asset }), expanded: Some(State::new(FxHashSet::default())), }) } /// Serves all assets references by all root_assets. #[turbo_tasks::function] pub fn new_eager_multiple( root_path: FileSystemPath, root_assets: ResolvedVc, ) -> Vc { Self::cell(AssetGraphContentSource { root_path, root_assets, expanded: None, }) } /// Serves all assets references by all root_assets. Only serve references /// of an asset when it has served its content before. #[turbo_tasks::function] pub fn new_lazy_multiple( root_path: FileSystemPath, root_assets: ResolvedVc, ) -> Vc { Self::cell(AssetGraphContentSource { root_path, root_assets, expanded: Some(State::new(FxHashSet::default())), }) } #[turbo_tasks::function] async fn all_assets_map(&self) -> Result> { Ok(Vc::cell( expand( &*self.root_assets.await?, &self.root_path, self.expanded.as_ref(), ) .await?, )) } } async fn expand( root_assets: &FxIndexSet>>, root_path: &FileSystemPath, expanded: Option<&ExpandedState>, ) -> Result>>> { let mut map = FxIndexMap::default(); let mut assets = Vec::new(); let mut queue = VecDeque::with_capacity(32); let mut assets_set = FxHashSet::default(); let root_assets_with_path = root_assets .iter() .map(|&asset| async move { let path = asset.path().await?; Ok((path, asset)) }) .try_join() .await?; if let Some(expanded) = &expanded { let expanded = expanded.get(); for (path, root_asset) in root_assets_with_path.into_iter() { if let Some(sub_path) = root_path.get_path_to(&path) { let (sub_paths_buffer, sub_paths) = get_sub_paths(sub_path); let expanded = sub_paths_buffer .iter() .take(sub_paths) .any(|sub_path| expanded.contains(sub_path)); for sub_path in sub_paths_buffer.into_iter().take(sub_paths) { assets.push((sub_path, root_asset)); } assets_set.insert(root_asset); if expanded { queue.push_back(root_asset.references()); } } } } else { for (path, root_asset) in root_assets_with_path.into_iter() { if let Some(sub_path) = root_path.get_path_to(&path) { let (sub_paths_buffer, sub_paths) = get_sub_paths(sub_path); for sub_path in sub_paths_buffer.into_iter().take(sub_paths) { assets.push((sub_path, root_asset)); } queue.push_back(root_asset.references()); assets_set.insert(root_asset); } } } while let Some(references) = queue.pop_front() { for asset in references.await?.iter() { if assets_set.insert(*asset) { let path = asset.path().await?; if let Some(sub_path) = root_path.get_path_to(&path) { let (sub_paths_buffer, sub_paths) = get_sub_paths(sub_path); let expanded = if let Some(expanded) = &expanded { let expanded = expanded.get(); sub_paths_buffer .iter() .take(sub_paths) .any(|sub_path| expanded.contains(sub_path)) } else { true }; if expanded { queue.push_back(asset.references()); } for sub_path in sub_paths_buffer.into_iter().take(sub_paths) { assets.push((sub_path, *asset)); } } } } } for (sub_path, asset) in assets { if &*sub_path == "index.html" { map.insert(rcstr!(""), asset); } else if let Some(p) = sub_path.strip_suffix("/index.html") { map.insert(p.into(), asset); map.insert(format!("{p}/").into(), asset); } else if let Some(p) = sub_path.strip_suffix(".html") { map.insert(p.into(), asset); } map.insert(sub_path, asset); } Ok(map) } fn get_sub_paths(sub_path: &str) -> ([RcStr; 3], usize) { let sub_paths_buffer: [RcStr; 3]; let n = if sub_path == "index.html" { sub_paths_buffer = [rcstr!(""), sub_path.into(), Default::default()]; 2 } else if let Some(p) = sub_path.strip_suffix("/index.html") { sub_paths_buffer = [p.into(), format!("{p}/").into(), sub_path.into()]; 3 } else if let Some(p) = sub_path.strip_suffix(".html") { sub_paths_buffer = [p.into(), sub_path.into(), Default::default()]; 2 } else { sub_paths_buffer = [sub_path.into(), Default::default(), Default::default()]; 1 }; (sub_paths_buffer, n) } #[turbo_tasks::function(operation)] fn all_assets_map_operation(source: ResolvedVc) -> Vc { source.all_assets_map() } #[turbo_tasks::value_impl] impl ContentSource for AssetGraphContentSource { #[turbo_tasks::function] async fn get_routes(self: ResolvedVc) -> Result> { let assets = all_assets_map_operation(self) .read_strongly_consistent() .await?; let mut paths = Vec::new(); let routes = assets .iter() .map(|(path, asset)| { paths.push(path.as_str()); RouteTree::new_route( BaseSegment::from_static_pathname(path).collect(), RouteType::Exact, Vc::upcast(AssetGraphGetContentSourceContent::new( *self, path.clone(), **asset, )), ) }) .map(|v| async move { v.to_resolved().await }) .try_join() .await?; Ok(Vc::::cell(routes).merge()) } } #[turbo_tasks::value] struct AssetGraphGetContentSourceContent { source: ResolvedVc, path: RcStr, asset: ResolvedVc>, } #[turbo_tasks::value_impl] impl AssetGraphGetContentSourceContent { #[turbo_tasks::function] pub fn new( source: ResolvedVc, path: RcStr, asset: ResolvedVc>, ) -> Vc { Self::cell(AssetGraphGetContentSourceContent { source, path, asset, }) } } #[turbo_tasks::value_impl] impl GetContentSourceContent for AssetGraphGetContentSourceContent { #[turbo_tasks::function] async fn get( self: ResolvedVc, _path: RcStr, _data: ContentSourceData, ) -> Result> { let this = self.await?; turbo_tasks::emit(ResolvedVc::upcast::>(self)); Ok(ContentSourceContent::static_content( this.asset.versioned_content(), )) } } #[turbo_tasks::value_impl] impl ContentSourceSideEffect for AssetGraphGetContentSourceContent { #[turbo_tasks::function] async fn apply(&self) -> Result> { let source = self.source.await?; if let Some(expanded) = &source.expanded { expanded.update_conditionally(|expanded| expanded.insert(self.path.clone())); } Ok(Completion::new()) } } #[turbo_tasks::value_impl] impl Introspectable for AssetGraphContentSource { #[turbo_tasks::function] fn ty(&self) -> Vc { Vc::cell(rcstr!("asset graph content source")) } #[turbo_tasks::function] fn title(&self) -> Vc { self.root_path.value_to_string() } #[turbo_tasks::function] fn details(&self) -> Vc { Vc::cell(if let Some(expanded) = &self.expanded { format!("{} assets expanded", expanded.get().len()).into() } else { rcstr!("eager") }) } #[turbo_tasks::function] async fn children(self: Vc) -> Result> { let this = self.await?; let root_assets = this.root_assets.await?; let root_asset_children = root_assets .iter() .map(|&asset| async move { Ok(( rcstr!("root"), IntrospectableOutputAsset::new(*ResolvedVc::upcast(asset)) .to_resolved() .await?, )) }) .try_join() .await?; let expanded_assets = self.all_assets_map().await?; let expanded_asset_children = expanded_assets .values() .filter(|&a| !root_assets.contains(a)) .map(|&asset| async move { Ok(( rcstr!("inner"), IntrospectableOutputAsset::new(*ResolvedVc::upcast(asset)) .to_resolved() .await?, )) }) .try_join() .await?; Ok(Vc::cell( root_asset_children .into_iter() .chain(expanded_asset_children) .chain(once(( rcstr!("expanded"), ResolvedVc::upcast(FullyExpanded(self.to_resolved().await?).resolved_cell()), ))) .collect(), )) } } #[turbo_tasks::value] struct FullyExpanded(ResolvedVc); #[turbo_tasks::value_impl] impl Introspectable for FullyExpanded { #[turbo_tasks::function] fn ty(&self) -> Vc { Vc::cell(rcstr!("fully expanded asset graph content source")) } #[turbo_tasks::function] async fn title(&self) -> Result> { Ok(self.0.await?.root_path.value_to_string()) } #[turbo_tasks::function] async fn children(&self) -> Result> { let source = self.0.await?; let expanded_assets = expand(&*source.root_assets.await?, &source.root_path, None).await?; let children = expanded_assets .iter() .map(|(_k, &v)| async move { Ok(( rcstr!("asset"), IntrospectableOutputAsset::new(*v).to_resolved().await?, )) }) .try_join() .await? .into_iter() .collect(); Ok(Vc::cell(children)) } }