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	use anyhow::{Context, Result, bail};
	use next_core::{
	all_assets_from_entries,
	app_segment_config::NextSegmentConfig,
	app_structure::{
	AppPageLoaderTree, Entrypoint as AppEntrypoint, Entrypoints as AppEntrypoints,
	FileSystemPathVec, MetadataItem, get_entrypoints,
	},
	get_edge_resolve_options_context, get_next_package,
	next_app::{
	AppEntry, AppPage, get_app_client_references_chunks, get_app_client_shared_chunk_group,
	get_app_page_entry, get_app_route_entry, metadata::route::get_app_metadata_route_entry,
	},
	next_client::{
	ClientContextType, RuntimeEntries, get_client_module_options_context,
	get_client_resolve_options_context, get_client_runtime_entries,
	},
	next_client_reference::{
	ClientReferenceGraphResult, NextCssClientReferenceTransition,
	NextEcmascriptClientReferenceTransition, ServerEntries, find_server_entries,
	},
	next_config::NextConfig,
	next_dynamic::NextDynamicTransition,
	next_edge::route_regex::get_named_middleware_regex,
	next_manifests::{
	AppBuildManifest, AppPathsManifest, BuildManifest, ClientReferenceManifest,
	EdgeFunctionDefinition, MiddlewareMatcher, MiddlewaresManifestV2, PagesManifest, Regions,
	client_reference_manifest::ClientReferenceManifestOptions,
	},
	next_server::{
	ServerContextType, get_server_module_options_context, get_server_resolve_options_context,
	get_server_runtime_entries,
	},
	next_server_utility::{NEXT_SERVER_UTILITY_MERGE_TAG, NextServerUtilityTransition},
	parse_segment_config_from_source,
	util::NextRuntime,
	};
	use serde::{Deserialize, Serialize};
	use tracing::Instrument;
	use turbo_rcstr::{RcStr, rcstr};
	use turbo_tasks::{
	Completion, FxIndexSet, NonLocalValue, ResolvedVc, TryJoinIterExt, ValueToString, Vc,
	fxindexmap, fxindexset, trace::TraceRawVcs,
	};
	use turbo_tasks_env::{CustomProcessEnv, ProcessEnv};
	use turbo_tasks_fs::{File, FileContent, FileSystemPath};
	use turbopack::{
	ModuleAssetContext,
	module_options::{ModuleOptionsContext, RuleCondition, transition_rule::TransitionRule},
	resolve_options_context::ResolveOptionsContext,
	transition::{FullContextTransition, Transition, TransitionOptions},
	};
	use turbopack_core::{
	asset::AssetContent,
	chunk::{
	ChunkGroupResult, ChunkingContext, ChunkingContextExt, EvaluatableAsset, EvaluatableAssets,
	availability_info::AvailabilityInfo,
	},
	file_source::FileSource,
	ident::{AssetIdent, Layer},
	module::Module,
	module_graph::{
	GraphEntries, ModuleGraph, SingleModuleGraph, VisitedModules,
	chunk_group_info::{ChunkGroup, ChunkGroupEntry},
	},
	output::{OutputAsset, OutputAssets},
	raw_output::RawOutput,
	reference_type::{CssReferenceSubType, ReferenceType},
	resolve::{origin::PlainResolveOrigin, parse::Request, pattern::Pattern},
	source::Source,
	virtual_output::VirtualOutputAsset,
	};
	use turbopack_ecmascript::resolve::cjs_resolve;

	use crate::{
	dynamic_imports::{NextDynamicChunkAvailability, collect_next_dynamic_chunks},
	font::create_font_manifest,
	loadable_manifest::create_react_loadable_manifest,
	module_graph::get_global_information_for_endpoint,
	nft_json::NftJsonAsset,
	paths::{
	all_paths_in_root, all_server_paths, get_asset_paths_from_root, get_js_paths_from_root,
	get_wasm_paths_from_root, paths_to_bindings, wasm_paths_to_bindings,
	},
	project::{BaseAndFullModuleGraph, Project},
	route::{
	AppPageRoute, Endpoint, EndpointOutput, EndpointOutputPaths, ModuleGraphs, Route, Routes,
	},
	server_actions::{build_server_actions_loader, create_server_actions_manifest},
	webpack_stats::generate_webpack_stats,
	};

	#[turbo_tasks::value]
	pub struct AppProject {
	project: ResolvedVc<Project>,
	app_dir: FileSystemPath,
	}

	#[turbo_tasks::value(transparent)]
	pub struct OptionAppProject(Option<ResolvedVc<AppProject>>);

	impl AppProject {}

	fn styles_rule_condition() -> RuleCondition {
	RuleCondition::any(vec![
	RuleCondition::all(vec![
	RuleCondition::ResourcePathEndsWith(".css".into()),
	RuleCondition::not(RuleCondition::ResourcePathEndsWith(".module.css".into())),
	]),
	RuleCondition::all(vec![
	RuleCondition::ResourcePathEndsWith(".scss".into()),
	RuleCondition::not(RuleCondition::ResourcePathEndsWith(".module.scss".into())),
	]),
	RuleCondition::all(vec![
	RuleCondition::ResourcePathEndsWith(".sass".into()),
	RuleCondition::not(RuleCondition::ResourcePathEndsWith(".module.sass".into())),
	]),
	RuleCondition::all(vec![
	RuleCondition::ContentTypeStartsWith("text/css".into()),
	RuleCondition::not(RuleCondition::ContentTypeStartsWith(
	"text/css+module".into(),
	)),
	]),
	])
	}
	fn module_styles_rule_condition() -> RuleCondition {
	RuleCondition::any(vec![
	RuleCondition::ResourcePathEndsWith(".module.css".into()),
	RuleCondition::ResourcePathEndsWith(".module.scss".into()),
	RuleCondition::ResourcePathEndsWith(".module.sass".into()),
	RuleCondition::ContentTypeStartsWith("text/css+module".into()),
	])
	}
	impl AppProject {
	pub fn client_transition_name() -> RcStr {
	rcstr!("next-ecmascript-client-reference")
	}
	}

	#[turbo_tasks::value_impl]
	impl AppProject {
	#[turbo_tasks::function]
	pub fn new(project: ResolvedVc<Project>, app_dir: FileSystemPath) -> Vc<Self> {
	AppProject { project, app_dir }.cell()
	}

	#[turbo_tasks::function]
	fn project(&self) -> Vc<Project> {
	*self.project
	}

	#[turbo_tasks::function]
	fn app_dir(&self) -> Vc<FileSystemPath> {
	self.app_dir.clone().cell()
	}

	#[turbo_tasks::function]
	fn client_ty(&self) -> Vc<ClientContextType> {
	ClientContextType::App {
	app_dir: self.app_dir.clone(),
	}
	.cell()
	}

	#[turbo_tasks::function]
	async fn rsc_ty(self: Vc<Self>) -> Result<Vc<ServerContextType>> {
	let this = self.await?;
	Ok(ServerContextType::AppRSC {
	app_dir: this.app_dir.clone(),
	client_transition: Some(ResolvedVc::upcast(
	self.client_transition().to_resolved().await?,
	)),
	ecmascript_client_reference_transition_name: Some(Self::client_transition_name()),
	}
	.cell())
	}

	#[turbo_tasks::function]
	async fn route_ty(self: Vc<Self>) -> Result<Vc<ServerContextType>> {
	let this = self.await?;
	Ok(ServerContextType::AppRoute {
	app_dir: this.app_dir.clone(),
	ecmascript_client_reference_transition_name: Some(Self::client_transition_name()),
	}
	.cell())
	}

	#[turbo_tasks::function]
	fn ssr_ty(&self) -> Vc<ServerContextType> {
	ServerContextType::AppSSR {
	app_dir: self.app_dir.clone(),
	}
	.cell()
	}

	#[turbo_tasks::function]
	fn app_entrypoints(&self) -> Vc<AppEntrypoints> {
	let conf = self.project.next_config();
	get_entrypoints(
	self.app_dir.clone(),
	conf.page_extensions(),
	conf.is_global_not_found_enabled(),
	)
	}

	#[turbo_tasks::function]
	async fn client_module_options_context(self: Vc<Self>) -> Result<Vc<ModuleOptionsContext>> {
	Ok(get_client_module_options_context(
	self.project().project_path().owned().await?,
	self.project().execution_context(),
	self.project().client_compile_time_info().environment(),
	self.client_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().encryption_key(),
	))
	}

	#[turbo_tasks::function]
	async fn client_resolve_options_context(self: Vc<Self>) -> Result<Vc<ResolveOptionsContext>> {
	Ok(get_client_resolve_options_context(
	self.project().project_path().owned().await?,
	self.client_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	))
	}

	#[turbo_tasks::function]
	fn client_transition(self: Vc<Self>) -> Vc<FullContextTransition> {
	let module_context = self.client_module_context();
	FullContextTransition::new(module_context)
	}

	#[turbo_tasks::function]
	async fn rsc_module_options_context(self: Vc<Self>) -> Result<Vc<ModuleOptionsContext>> {
	Ok(get_server_module_options_context(
	self.project().project_path().owned().await?,
	self.project().execution_context(),
	self.rsc_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	NextRuntime::NodeJs,
	self.project().encryption_key(),
	self.project().server_compile_time_info().environment(),
	))
	}

	#[turbo_tasks::function]
	async fn edge_rsc_module_options_context(self: Vc<Self>) -> Result<Vc<ModuleOptionsContext>> {
	Ok(get_server_module_options_context(
	self.project().project_path().owned().await?,
	self.project().execution_context(),
	self.rsc_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	NextRuntime::Edge,
	self.project().encryption_key(),
	self.project().edge_compile_time_info().environment(),
	))
	}

	#[turbo_tasks::function]
	async fn route_module_options_context(self: Vc<Self>) -> Result<Vc<ModuleOptionsContext>> {
	Ok(get_server_module_options_context(
	self.project().project_path().owned().await?,
	self.project().execution_context(),
	self.route_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	NextRuntime::NodeJs,
	self.project().encryption_key(),
	self.project().server_compile_time_info().environment(),
	))
	}

	#[turbo_tasks::function]
	async fn edge_route_module_options_context(self: Vc<Self>) -> Result<Vc<ModuleOptionsContext>> {
	Ok(get_server_module_options_context(
	self.project().project_path().owned().await?,
	self.project().execution_context(),
	self.route_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	NextRuntime::Edge,
	self.project().encryption_key(),
	self.project().edge_compile_time_info().environment(),
	))
	}

	#[turbo_tasks::function]
	async fn rsc_resolve_options_context(self: Vc<Self>) -> Result<Vc<ResolveOptionsContext>> {
	Ok(get_server_resolve_options_context(
	self.project().project_path().owned().await?,
	self.rsc_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	))
	}

	#[turbo_tasks::function]
	async fn edge_rsc_resolve_options_context(self: Vc<Self>) -> Result<Vc<ResolveOptionsContext>> {
	Ok(get_edge_resolve_options_context(
	self.project().project_path().owned().await?,
	self.rsc_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	))
	}

	#[turbo_tasks::function]
	async fn route_resolve_options_context(self: Vc<Self>) -> Result<Vc<ResolveOptionsContext>> {
	Ok(get_server_resolve_options_context(
	self.project().project_path().owned().await?,
	self.route_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	))
	}

	#[turbo_tasks::function]
	async fn edge_route_resolve_options_context(
	self: Vc<Self>,
	) -> Result<Vc<ResolveOptionsContext>> {
	Ok(get_edge_resolve_options_context(
	self.project().project_path().owned().await?,
	self.route_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	))
	}

	#[turbo_tasks::function]
	pub fn ecmascript_client_reference_transition(self: Vc<Self>) -> Vc<Box<dyn Transition>> {
	Vc::upcast(NextEcmascriptClientReferenceTransition::new(
	Vc::upcast(self.client_transition()),
	Vc::upcast(self.ssr_transition()),
	))
	}

	#[turbo_tasks::function]
	pub fn edge_ecmascript_client_reference_transition(self: Vc<Self>) -> Vc<Box<dyn Transition>> {
	Vc::upcast(NextEcmascriptClientReferenceTransition::new(
	Vc::upcast(self.client_transition()),
	Vc::upcast(self.edge_ssr_transition()),
	))
	}

	#[turbo_tasks::function]
	pub fn css_client_reference_transition(self: Vc<Self>) -> Vc<Box<dyn Transition>> {
	Vc::upcast(NextCssClientReferenceTransition::new(Vc::upcast(
	self.client_transition(),
	)))
	}

	#[turbo_tasks::function]
	async fn get_rsc_transitions(
	self: Vc<Self>,
	ecmascript_client_reference_transition: Vc<Box<dyn Transition>>,
	ssr_transition: Vc<Box<dyn Transition>>,
	shared_transition: Vc<Box<dyn Transition>>,
	) -> Result<Vc<TransitionOptions>> {
	Ok(TransitionOptions {
	named_transitions: [
	(
	AppProject::client_transition_name(),
	ecmascript_client_reference_transition.to_resolved().await?,
	),
	(
	rcstr!("next-dynamic"),
	ResolvedVc::upcast(NextDynamicTransition::new_marker().to_resolved().await?),
	),
	(
	rcstr!("next-dynamic-client"),
	ResolvedVc::upcast(
	NextDynamicTransition::new_client(Vc::upcast(self.client_transition()))
	.to_resolved()
	.await?,
	),
	),
	(rcstr!("next-ssr"), ssr_transition.to_resolved().await?),
	(
	rcstr!("next-shared"),
	shared_transition.to_resolved().await?,
	),
	(
	rcstr!("next-server-utility"),
	ResolvedVc::upcast(NextServerUtilityTransition::new().to_resolved().await?),
	),
	]
	.into_iter()
	.collect(),
	transition_rules: vec![
	// Mark as client reference (and exclude from RSC chunking) the edge from the
	// CSS Module to the actual CSS
	TransitionRule::new_internal(
	RuleCondition::all(vec![
	RuleCondition::ReferenceType(ReferenceType::Css(
	CssReferenceSubType::Internal,
	)),
	module_styles_rule_condition(),
	]),
	ResolvedVc::upcast(self.css_client_reference_transition().to_resolved().await?),
	),
	// Don't wrap in marker module but change context, this is used to determine
	// the list of CSS module classes.
	TransitionRule::new(
	RuleCondition::all(vec![
	RuleCondition::ReferenceType(ReferenceType::Css(
	CssReferenceSubType::Analyze,
	)),
	module_styles_rule_condition(),
	]),
	ResolvedVc::upcast(self.client_transition().to_resolved().await?),
	),
	// Mark as client reference all regular CSS imports
	TransitionRule::new(
	styles_rule_condition(),
	ResolvedVc::upcast(self.css_client_reference_transition().to_resolved().await?),
	),
	],
	..Default::default()
	}
	.cell())
	}

	#[turbo_tasks::function]
	fn rsc_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	Ok(ModuleAssetContext::new(
	self.get_rsc_transitions(
	self.ecmascript_client_reference_transition(),
	Vc::upcast(self.ssr_transition()),
	Vc::upcast(self.shared_transition()),
	),
	self.project().server_compile_time_info(),
	self.rsc_module_options_context(),
	self.rsc_resolve_options_context(),
	Layer::new_with_user_friendly_name(rcstr!("app-rsc"), rcstr!("Server Component")),
	))
	}

	#[turbo_tasks::function]
	fn edge_rsc_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	Ok(ModuleAssetContext::new(
	self.get_rsc_transitions(
	self.edge_ecmascript_client_reference_transition(),
	Vc::upcast(self.edge_ssr_transition()),
	Vc::upcast(self.edge_shared_transition()),
	),
	self.project().edge_compile_time_info(),
	self.edge_rsc_module_options_context(),
	self.edge_rsc_resolve_options_context(),
	Layer::new_with_user_friendly_name(
	rcstr!("app-edge-rsc"),
	rcstr!("Edge Server Component"),
	),
	))
	}

	#[turbo_tasks::function]
	async fn route_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	let transitions = [
	(
	AppProject::client_transition_name(),
	self.ecmascript_client_reference_transition()
	.to_resolved()
	.await?,
	),
	(
	rcstr!("next-dynamic"),
	ResolvedVc::upcast(NextDynamicTransition::new_marker().to_resolved().await?),
	),
	(
	rcstr!("next-dynamic-client"),
	ResolvedVc::upcast(
	NextDynamicTransition::new_client(Vc::upcast(self.client_transition()))
	.to_resolved()
	.await?,
	),
	),
	(
	rcstr!("next-ssr"),
	ResolvedVc::upcast(self.ssr_transition().to_resolved().await?),
	),
	(
	rcstr!("next-shared"),
	ResolvedVc::upcast(self.shared_transition().to_resolved().await?),
	),
	(
	rcstr!("next-server-utility"),
	ResolvedVc::upcast(NextServerUtilityTransition::new().to_resolved().await?),
	),
	]
	.into_iter()
	.collect();

	Ok(ModuleAssetContext::new(
	TransitionOptions {
	// TODO use get_rsc_transitions as well?
	named_transitions: transitions,
	..Default::default()
	}
	.cell(),
	self.project().server_compile_time_info(),
	self.route_module_options_context(),
	self.route_resolve_options_context(),
	Layer::new_with_user_friendly_name(rcstr!("app-route"), rcstr!("App Route")),
	))
	}

	#[turbo_tasks::function]
	async fn edge_route_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	let transitions = [
	(
	AppProject::client_transition_name(),
	self.edge_ecmascript_client_reference_transition()
	.to_resolved()
	.await?,
	),
	(
	rcstr!("next-dynamic"),
	ResolvedVc::upcast(NextDynamicTransition::new_marker().to_resolved().await?),
	),
	(
	rcstr!("next-dynamic-client"),
	ResolvedVc::upcast(
	NextDynamicTransition::new_client(Vc::upcast(self.client_transition()))
	.to_resolved()
	.await?,
	),
	),
	(
	rcstr!("next-ssr"),
	ResolvedVc::upcast(self.edge_ssr_transition().to_resolved().await?),
	),
	(
	rcstr!("next-shared"),
	ResolvedVc::upcast(self.edge_shared_transition().to_resolved().await?),
	),
	(
	rcstr!("next-server-utility"),
	ResolvedVc::upcast(NextServerUtilityTransition::new().to_resolved().await?),
	),
	]
	.into_iter()
	.collect();
	Ok(ModuleAssetContext::new(
	TransitionOptions {
	// TODO use get_rsc_transitions as well?
	named_transitions: transitions,
	..Default::default()
	}
	.cell(),
	self.project().edge_compile_time_info(),
	self.edge_route_module_options_context(),
	self.edge_route_resolve_options_context(),
	Layer::new_with_user_friendly_name(rcstr!("app-edge-route"), rcstr!("Edge App Route")),
	))
	}

	#[turbo_tasks::function]
	async fn client_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	let transitions = [
	(
	rcstr!("next-dynamic"),
	ResolvedVc::upcast(NextDynamicTransition::new_marker().to_resolved().await?),
	),
	(
	rcstr!("next-dynamic-client"),
	ResolvedVc::upcast(NextDynamicTransition::new_marker().to_resolved().await?),
	),
	]
	.into_iter()
	.collect();
	Ok(ModuleAssetContext::new(
	TransitionOptions {
	named_transitions: transitions,
	..Default::default()
	}
	.cell(),
	self.project().client_compile_time_info(),
	self.client_module_options_context(),
	self.client_resolve_options_context(),
	Layer::new_with_user_friendly_name(
	rcstr!("app-client"),
	rcstr!("Client Component Browser"),
	),
	))
	}

	#[turbo_tasks::function]
	async fn ssr_module_options_context(self: Vc<Self>) -> Result<Vc<ModuleOptionsContext>> {
	Ok(get_server_module_options_context(
	self.project().project_path().owned().await?,
	self.project().execution_context(),
	self.ssr_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	NextRuntime::NodeJs,
	self.project().encryption_key(),
	self.project().server_compile_time_info().environment(),
	))
	}

	#[turbo_tasks::function]
	async fn edge_ssr_module_options_context(self: Vc<Self>) -> Result<Vc<ModuleOptionsContext>> {
	Ok(get_server_module_options_context(
	self.project().project_path().owned().await?,
	self.project().execution_context(),
	self.ssr_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	NextRuntime::Edge,
	self.project().encryption_key(),
	self.project().edge_compile_time_info().environment(),
	))
	}

	#[turbo_tasks::function]
	async fn ssr_resolve_options_context(self: Vc<Self>) -> Result<Vc<ResolveOptionsContext>> {
	Ok(get_server_resolve_options_context(
	self.project().project_path().owned().await?,
	self.ssr_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	))
	}

	#[turbo_tasks::function]
	async fn edge_ssr_resolve_options_context(self: Vc<Self>) -> Result<Vc<ResolveOptionsContext>> {
	Ok(get_edge_resolve_options_context(
	self.project().project_path().owned().await?,
	self.ssr_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	))
	}

	#[turbo_tasks::function]
	async fn ssr_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	let transitions = [
	(
	rcstr!("next-dynamic"),
	ResolvedVc::upcast(NextDynamicTransition::new_marker().to_resolved().await?),
	),
	(
	rcstr!("next-dynamic-client"),
	ResolvedVc::upcast(
	NextDynamicTransition::new_client(Vc::upcast(self.client_transition()))
	.to_resolved()
	.await?,
	),
	),
	(
	rcstr!("next-shared"),
	ResolvedVc::upcast(self.shared_transition().to_resolved().await?),
	),
	]
	.into_iter()
	.collect();
	Ok(ModuleAssetContext::new(
	TransitionOptions {
	named_transitions: transitions,
	..Default::default()
	}
	.cell(),
	self.project().server_compile_time_info(),
	self.ssr_module_options_context(),
	self.ssr_resolve_options_context(),
	Layer::new_with_user_friendly_name(rcstr!("app-ssr"), rcstr!("Client Component SSR")),
	))
	}

	#[turbo_tasks::function]
	fn ssr_transition(self: Vc<Self>) -> Vc<FullContextTransition> {
	let module_context = self.ssr_module_context();
	FullContextTransition::new(module_context)
	}

	#[turbo_tasks::function]
	fn shared_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	Ok(ModuleAssetContext::new(
	TransitionOptions {
	..Default::default()
	}
	.cell(),
	self.project().server_compile_time_info(),
	self.ssr_module_options_context(),
	self.ssr_resolve_options_context(),
	Layer::new(rcstr!("app-shared")),
	))
	}

	#[turbo_tasks::function]
	fn shared_transition(self: Vc<Self>) -> Vc<Box<dyn Transition>> {
	Vc::upcast(FullContextTransition::new(self.shared_module_context()))
	}

	#[turbo_tasks::function]
	async fn edge_ssr_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	let transitions = [
	(
	rcstr!("next-dynamic"),
	ResolvedVc::upcast(NextDynamicTransition::new_marker().to_resolved().await?),
	),
	(
	rcstr!("next-dynamic-client"),
	ResolvedVc::upcast(
	NextDynamicTransition::new_client(Vc::upcast(self.client_transition()))
	.to_resolved()
	.await?,
	),
	),
	(
	rcstr!("next-shared"),
	ResolvedVc::upcast(self.edge_shared_transition().to_resolved().await?),
	),
	]
	.into_iter()
	.collect();
	Ok(ModuleAssetContext::new(
	TransitionOptions {
	named_transitions: transitions,
	..Default::default()
	}
	.cell(),
	self.project().edge_compile_time_info(),
	self.edge_ssr_module_options_context(),
	self.edge_ssr_resolve_options_context(),
	Layer::new_with_user_friendly_name(
	rcstr!("app-edge-ssr"),
	rcstr!("Client Component SSR - Edge"),
	),
	))
	}

	#[turbo_tasks::function]
	fn edge_ssr_transition(self: Vc<Self>) -> Vc<FullContextTransition> {
	let module_context = self.edge_ssr_module_context();
	FullContextTransition::new(module_context)
	}

	#[turbo_tasks::function]
	fn edge_shared_module_context(self: Vc<Self>) -> Result<Vc<ModuleAssetContext>> {
	Ok(ModuleAssetContext::new(
	TransitionOptions {
	..Default::default()
	}
	.cell(),
	self.project().edge_compile_time_info(),
	self.edge_ssr_module_options_context(),
	self.edge_ssr_resolve_options_context(),
	Layer::new(rcstr!("app-edge-shared")),
	))
	}

	#[turbo_tasks::function]
	fn edge_shared_transition(self: Vc<Self>) -> Vc<Box<dyn Transition>> {
	Vc::upcast(FullContextTransition::new(
	self.edge_shared_module_context(),
	))
	}

	#[turbo_tasks::function]
	async fn runtime_entries(self: Vc<Self>) -> Result<Vc<RuntimeEntries>> {
	Ok(get_server_runtime_entries(
	self.rsc_ty().owned().await?,
	self.project().next_mode(),
	))
	}

	#[turbo_tasks::function]
	fn rsc_runtime_entries(self: Vc<Self>) -> Vc<EvaluatableAssets> {
	self.runtime_entries()
	.resolve_entries(Vc::upcast(self.rsc_module_context()))
	}

	#[turbo_tasks::function]
	fn edge_rsc_runtime_entries(self: Vc<Self>) -> Vc<EvaluatableAssets> {
	self.runtime_entries()
	.resolve_entries(Vc::upcast(self.edge_rsc_module_context()))
	}

	#[turbo_tasks::function]
	fn client_env(self: Vc<Self>) -> Vc<Box<dyn ProcessEnv>> {
	Vc::upcast(CustomProcessEnv::new(
	self.project().env(),
	self.project().next_config().env(),
	))
	}

	#[turbo_tasks::function]
	async fn client_runtime_entries(self: Vc<Self>) -> Result<Vc<EvaluatableAssets>> {
	Ok(get_client_runtime_entries(
	self.project().project_path().owned().await?,
	self.client_ty().owned().await?,
	self.project().next_mode(),
	self.project().next_config(),
	self.project().execution_context(),
	)
	.resolve_entries(Vc::upcast(self.client_module_context())))
	}

	#[turbo_tasks::function]
	pub async fn routes(self: Vc<Self>) -> Result<Vc<Routes>> {
	let app_entrypoints = self.app_entrypoints();
	Ok(Vc::cell(
	app_entrypoints
	.await?
	.iter()
	.map(\|(pathname, app_entrypoint)\| async {
	Ok((
	pathname.to_string().into(),
	app_entry_point_to_route(self, app_entrypoint.clone())
	.owned()
	.await?,
	))
	})
	.try_join()
	.await?
	.into_iter()
	.collect(),
	))
	}

	#[turbo_tasks::function]
	pub async fn client_main_module(self: Vc<Self>) -> Result<Vc<Box<dyn Module>>> {
	let client_module_context = Vc::upcast(self.client_module_context());

	let client_main_module = cjs_resolve(
	Vc::upcast(PlainResolveOrigin::new(
	client_module_context,
	self.project().project_path().await?.join("_")?,
	)),
	Request::parse(Pattern::Constant(rcstr!(
	"next/dist/client/app-next-turbopack.js"
	))),
	None,
	false,
	)
	.resolve()
	.await?
	.first_module()
	.await?
	.context("expected Next.js client runtime to resolve to a module")?;

	Ok(*client_main_module)
	}

	#[turbo_tasks::function]
	pub async fn app_module_graphs(
	&self,
	endpoint: Vc<AppEndpoint>,
	rsc_entry: ResolvedVc<Box<dyn Module>>,
	client_shared_entries: Vc<EvaluatableAssets>,
	has_layout_segments: bool,
	) -> Result<Vc<BaseAndFullModuleGraph>> {
	if *self.project.per_page_module_graph().await? {
	let should_trace = self.project.next_mode().await?.is_production();
	let client_shared_entries = client_shared_entries
	.await?
	.into_iter()
	.map(\|m\| ResolvedVc::upcast(*m))
	.collect();
	// Implements layout segment optimization to compute a graph "chain" for each layout
	// segment
	async move {
	let rsc_entry_chunk_group =
	ChunkGroupEntry::Entry(vec![ResolvedVc::upcast(rsc_entry)]);

	let mut graphs = vec![];
	let mut visited_modules = if has_layout_segments {
	let ServerEntries {
	server_utils,
	server_component_entries,
	} = &find_server_entries(rsc_entry, should_trace).await?;

	let graph = SingleModuleGraph::new_with_entries_visited_intern(
	vec![
	ChunkGroupEntry::SharedMerged {
	parent: Box::new(rsc_entry_chunk_group.clone()),
	merge_tag: NEXT_SERVER_UTILITY_MERGE_TAG.clone(),
	entries: server_utils
	.iter()
	.map(async \|m\| Ok(ResolvedVc::upcast(m.await?.module)))
	.try_join()
	.await?,
	},
	ChunkGroupEntry::Entry(client_shared_entries),
	],
	VisitedModules::empty(),
	should_trace,
	);
	graphs.push(graph);
	let mut visited_modules = VisitedModules::from_graph(graph);

	// Skip the last server component, which is the page itself, because that one
	// won't have it's visited modules added, and will be visited in the next step
	// as part of rsc_entry
	for module in server_component_entries
	.iter()
	.take(server_component_entries.len().saturating_sub(1))
	{
	let graph = SingleModuleGraph::new_with_entries_visited_intern(
	// This should really be ChunkGroupEntry::Shared(module.await?.module),
	// but that breaks everything for some reason.
	vec![ChunkGroupEntry::Entry(vec![ResolvedVc::upcast(*module)])],
	visited_modules,
	should_trace,
	);
	graphs.push(graph);
	let is_layout = module.server_path().await?.file_stem() == Some("layout");
	visited_modules = if is_layout {
	// Only propagate the visited_modules of the parent layout(s), not
	// across siblings such as loading.js and
	// page.js.
	visited_modules.concatenate(graph)
	} else {
	// Prevents graph index from getting out of sync.
	// TODO We should remove VisitedModule entirely in favor of lookups
	// in SingleModuleGraph
	visited_modules.with_incremented_index()
	};
	}
	visited_modules
	} else {
	let graph = SingleModuleGraph::new_with_entries_visited_intern(
	vec![ChunkGroupEntry::Entry(client_shared_entries)],
	VisitedModules::empty(),
	should_trace,
	);
	graphs.push(graph);
	VisitedModules::from_graph(graph)
	};

	let graph = SingleModuleGraph::new_with_entries_visited_intern(
	vec![rsc_entry_chunk_group],
	visited_modules,
	should_trace,
	);
	graphs.push(graph);
	visited_modules = visited_modules.concatenate(graph);

	let base = ModuleGraph::from_graphs(graphs.clone());
	let additional_entries = endpoint.additional_entries(base);
	let additional_module_graph = SingleModuleGraph::new_with_entries_visited_intern(
	additional_entries.owned().await?,
	visited_modules,
	should_trace,
	);
	graphs.push(additional_module_graph);

	let full = ModuleGraph::from_graphs(graphs);
	Ok(BaseAndFullModuleGraph {
	base: base.to_resolved().await?,
	full: full.to_resolved().await?,
	}
	.cell())
	}
	.instrument(tracing::info_span!("module graph for endpoint"))
	.await
	} else {
	Ok(self.project.whole_app_module_graphs())
	}
	}
	}

	#[turbo_tasks::function]
	pub fn app_entry_point_to_route(
	app_project: ResolvedVc<AppProject>,
	entrypoint: AppEntrypoint,
	) -> Vc<Route> {
	match entrypoint {
	AppEntrypoint::AppPage { pages, loader_tree } => Route::AppPage(
	pages
	.into_iter()
	.map(\|page\| AppPageRoute {
	original_name: RcStr::from(page.to_string()),
	html_endpoint: ResolvedVc::upcast(
	AppEndpoint {
	ty: AppEndpointType::Page {
	ty: AppPageEndpointType::Html,
	loader_tree,
	},
	app_project,
	page: page.clone(),
	}
	.resolved_cell(),
	),
	rsc_endpoint: ResolvedVc::upcast(
	AppEndpoint {
	ty: AppEndpointType::Page {
	ty: AppPageEndpointType::Rsc,
	loader_tree,
	},
	app_project,
	page,
	}
	.resolved_cell(),
	),
	})
	.collect(),
	),
	AppEntrypoint::AppRoute {
	page,
	path,
	root_layouts,
	} => Route::AppRoute {
	original_name: page.to_string().into(),
	endpoint: ResolvedVc::upcast(
	AppEndpoint {
	ty: AppEndpointType::Route { path, root_layouts },
	app_project,
	page,
	}
	.resolved_cell(),
	),
	},
	AppEntrypoint::AppMetadata { page, metadata } => Route::AppRoute {
	original_name: page.to_string().into(),
	endpoint: ResolvedVc::upcast(
	AppEndpoint {
	ty: AppEndpointType::Metadata { metadata },
	app_project,
	page,
	}
	.resolved_cell(),
	),
	},
	}
	.cell()
	}

	#[turbo_tasks::value(transparent)]
	struct OutputAssetsWithAvailability((ResolvedVc<OutputAssets>, AvailabilityInfo));

	#[derive(Copy, Clone, Serialize, Deserialize, PartialEq, Eq, Debug, TraceRawVcs, NonLocalValue)]
	enum AppPageEndpointType {
	Html,
	Rsc,
	}

	#[derive(Clone, Serialize, Deserialize, PartialEq, Eq, Debug, TraceRawVcs, NonLocalValue)]
	enum AppEndpointType {
	Page {
	ty: AppPageEndpointType,
	loader_tree: ResolvedVc<AppPageLoaderTree>,
	},
	Route {
	path: FileSystemPath,
	root_layouts: ResolvedVc<FileSystemPathVec>,
	},
	Metadata {
	metadata: MetadataItem,
	},
	}

	#[turbo_tasks::value]
	struct AppEndpoint {
	ty: AppEndpointType,
	app_project: ResolvedVc<AppProject>,
	page: AppPage,
	}

	#[turbo_tasks::value_impl]
	impl AppEndpoint {
	#[turbo_tasks::function]
	async fn app_page_entry(&self, loader_tree: Vc<AppPageLoaderTree>) -> Result<Vc<AppEntry>> {
	Ok(get_app_page_entry(
	self.app_project.rsc_module_context(),
	self.app_project.edge_rsc_module_context(),
	loader_tree,
	self.page.clone(),
	self.app_project.project().project_path().owned().await?,
	self.app_project.project().next_config(),
	))
	}

	#[turbo_tasks::function]
	async fn app_route_entry(
	&self,
	path: FileSystemPath,
	root_layouts: Vc<FileSystemPathVec>,
	next_config: Vc<NextConfig>,
	) -> Result<Vc<AppEntry>> {
	let root_layouts = root_layouts.await?;
	let config = if root_layouts.is_empty() {
	None
	} else {
	let mut config = NextSegmentConfig::default();

	for layout in root_layouts.iter().rev() {
	let source = Vc::upcast(FileSource::new(layout.clone()));
	let layout_config = parse_segment_config_from_source(source);
	config.apply_parent_config(&*layout_config.await?);
	}

	Some(config.cell())
	};

	Ok(get_app_route_entry(
	self.app_project.route_module_context(),
	self.app_project.edge_route_module_context(),
	Vc::upcast(FileSource::new(path)),
	self.page.clone(),
	self.app_project.project().project_path().owned().await?,
	config,
	next_config,
	))
	}

	#[turbo_tasks::function]
	async fn app_metadata_entry(
	&self,
	metadata: MetadataItem,
	next_config: Vc<NextConfig>,
	) -> Result<Vc<AppEntry>> {
	Ok(get_app_metadata_route_entry(
	self.app_project.rsc_module_context(),
	self.app_project.edge_rsc_module_context(),
	self.app_project.project().project_path().owned().await?,
	self.page.clone(),
	*self.app_project.project().next_mode().await?,
	metadata,
	next_config,
	))
	}

	#[turbo_tasks::function]
	async fn app_endpoint_entry(self: Vc<Self>) -> Result<Vc<AppEntry>> {
	let this = self.await?;

	let next_config = self.await?.app_project.project().next_config();
	let app_entry = match &this.ty {
	AppEndpointType::Page { loader_tree, .. } => self.app_page_entry(**loader_tree),
	AppEndpointType::Route { path, root_layouts } => {
	self.app_route_entry(path.clone(), **root_layouts, next_config)
	}
	AppEndpointType::Metadata { metadata } => {
	self.app_metadata_entry(metadata.clone(), next_config)
	}
	};

	Ok(app_entry)
	}

	#[turbo_tasks::function]
	async fn output(self: Vc<Self>) -> Result<Vc<AppEndpointOutput>> {
	let this = self.await?;
	let project = this.app_project.project();

	let app_entry = self.app_endpoint_entry().await?;

	#[derive(Debug, PartialEq, Eq)]
	enum EmitManifests {
	/// Don't emit any manifests (needed for the RSC endpoints)
	None,
	/// Emit the manifest for basic Next.js functionality (e.g. app-build-manifest.json)
	Minimal,
	/// All manifests: `Minimal` plus next-font, next-dynamic, ...
	Full,
	}
	let (process_client_assets, process_ssr, emit_manifests, emit_rsc_manifests) =
	match &this.ty {
	AppEndpointType::Page { ty, .. } => (
	true,
	matches!(ty, AppPageEndpointType::Html),
	if matches!(ty, AppPageEndpointType::Html) {
	EmitManifests::Full
	} else {
	EmitManifests::None
	},
	matches!(ty, AppPageEndpointType::Html),
	),
	AppEndpointType::Route { .. } => (false, false, EmitManifests::Minimal, true),
	AppEndpointType::Metadata { metadata } => (
	false,
	false,
	if matches!(metadata, MetadataItem::Dynamic { .. }) {
	EmitManifests::Full
	} else {
	EmitManifests::Minimal
	},
	matches!(metadata, MetadataItem::Dynamic { .. }),
	),
	};

	let node_root = project.node_root().owned().await?;
	let client_relative_path = project.client_relative_path().owned().await?;
	let server_path = node_root.join("server")?;

	let mut server_assets = fxindexset![];
	let mut client_assets = fxindexset![];
	// assets to add to the middleware manifest (to be loaded in the edge runtime).
	let mut middleware_assets = fxindexset![];

	let runtime = app_entry.config.await?.runtime.unwrap_or_default();

	let rsc_entry = app_entry.rsc_entry;
	let module_graphs = this
	.app_project
	.app_module_graphs(
	self,
	*rsc_entry,
	this.app_project.client_runtime_entries(),
	matches!(this.ty, AppEndpointType::Page { .. }),
	)
	.await?;

	let client_chunking_context = project.client_chunking_context().to_resolved().await?;

	let ssr_chunking_context = if process_ssr {
	Some(
	match runtime {
	NextRuntime::NodeJs => Vc::upcast(project.server_chunking_context(true)),
	NextRuntime::Edge => this
	.app_project
	.project()
	.edge_chunking_context(process_client_assets),
	}
	.to_resolved()
	.await?,
	)
	} else {
	None
	};

	let client_shared_chunk_group = get_app_client_shared_chunk_group(
	AssetIdent::from_path(project.project_path().owned().await?)
	.with_modifier(rcstr!("client-shared-chunks")),
	this.app_project.client_runtime_entries(),
	*module_graphs.full,
	*client_chunking_context,
	)
	.await?;

	let mut client_shared_chunks = vec![];
	for chunk in client_shared_chunk_group.assets.await?.iter().copied() {
	client_assets.insert(chunk);

	let chunk_path = chunk.path().await?;
	if chunk_path.has_extension(".js") {
	client_shared_chunks.push(chunk);
	}
	}
	let client_shared_availability_info = client_shared_chunk_group.availability_info;

	let global_information = get_global_information_for_endpoint(
	*module_graphs.base,
	*project.per_page_module_graph().await?,
	);
	let next_dynamic_imports = global_information
	.get_next_dynamic_imports_for_endpoint(*rsc_entry)
	.await?;

	let client_references = global_information
	.get_client_references_for_endpoint(
	*rsc_entry,
	matches!(this.ty, AppEndpointType::Page { .. }),
	project.next_mode().await?.is_production(),
	)
	.to_resolved()
	.await?;

	let client_references_chunks = get_app_client_references_chunks(
	*client_references,
	*module_graphs.full,
	*client_chunking_context,
	client_shared_availability_info,
	ssr_chunking_context.map(\|ctx\| *ctx),
	)
	.to_resolved()
	.await?;
	let client_references_chunks_ref = client_references_chunks.await?;

	let mut entry_client_chunks = FxIndexSet::default();
	// TODO(alexkirsz) In which manifest does this go?
	let mut entry_ssr_chunks = FxIndexSet::default();
	for chunks in client_references_chunks_ref
	.layout_segment_client_chunks
	.values()
	{
	entry_client_chunks.extend(chunks.await?.iter().copied());
	}
	for (chunks, _) in client_references_chunks_ref
	.client_component_client_chunks
	.values()
	{
	client_assets.extend(chunks.await?.iter().copied());
	}
	for (chunks, _) in client_references_chunks_ref
	.client_component_ssr_chunks
	.values()
	{
	entry_ssr_chunks.extend(chunks.await?.iter().copied());
	}

	client_assets.extend(entry_client_chunks.iter().copied());
	server_assets.extend(entry_ssr_chunks.iter().copied());

	let manifest_path_prefix = &app_entry.original_name;

	if emit_manifests != EmitManifests::None {
	let app_build_manifest = AppBuildManifest {
	pages: fxindexmap!(
	app_entry.original_name.clone() => ResolvedVc::cell(entry_client_chunks
	.iter()
	.chain(client_shared_chunks.iter())
	.copied()
	.collect())
	),
	};
	let app_build_manifest_output = app_build_manifest
	.build_output(
	node_root.join(&format!(
	"server/app{manifest_path_prefix}/app-build-manifest.json",
	))?,
	client_relative_path.clone(),
	)
	.await?
	.to_resolved()
	.await?;

	server_assets.insert(app_build_manifest_output);
	}

	// polyfill-nomodule.js is a pre-compiled asset distributed as part of next,
	// load it as a RawModule.
	let next_package = get_next_package(project.project_path().owned().await?)
	.owned()
	.await?;
	let polyfill_source =
	FileSource::new(next_package.join("dist/build/polyfills/polyfill-nomodule.js")?);
	let polyfill_output_path = client_chunking_context
	.chunk_path(
	Some(Vc::upcast(polyfill_source)),
	polyfill_source.ident(),
	None,
	rcstr!(".js"),
	)
	.owned()
	.await?;
	let polyfill_output_asset = ResolvedVc::upcast(
	RawOutput::new(polyfill_output_path, Vc::upcast(polyfill_source))
	.to_resolved()
	.await?,
	);
	client_assets.insert(polyfill_output_asset);

	if emit_manifests != EmitManifests::None {
	if *this
	.app_project
	.project()
	.should_create_webpack_stats()
	.await?
	{
	let webpack_stats = generate_webpack_stats(
	*module_graphs.base,
	app_entry.original_name.clone(),
	client_assets.iter().copied(),
	)
	.await?;
	let stats_output = VirtualOutputAsset::new(
	node_root.join(&format!(
	"server/app{manifest_path_prefix}/webpack-stats.json",
	))?,
	AssetContent::file(
	File::from(serde_json::to_string_pretty(&webpack_stats)?).into(),
	),
	)
	.to_resolved()
	.await?;
	server_assets.insert(ResolvedVc::upcast(stats_output));
	}

	let build_manifest = BuildManifest {
	root_main_files: client_shared_chunks,
	polyfill_files: vec![polyfill_output_asset],
	..Default::default()
	};
	let build_manifest_output = ResolvedVc::upcast(
	build_manifest
	.build_output(
	node_root.join(&format!(
	"server/app{manifest_path_prefix}/build-manifest.json",
	))?,
	client_relative_path.clone(),
	)
	.await?
	.to_resolved()
	.await?,
	);
	server_assets.insert(build_manifest_output);
	}

	if runtime == NextRuntime::Edge {
	// as the edge runtime doesn't support chunk loading we need to add all client
	// references to the middleware manifest so they get loaded during runtime
	// initialization
	let client_references_chunks = &*client_references_chunks.await?;

	for (ssr_chunks, _) in client_references_chunks
	.client_component_ssr_chunks
	.values()
	{
	let ssr_chunks = ssr_chunks.await?;
	middleware_assets.extend(ssr_chunks);
	}
	}

	let actions = global_information.get_server_actions_for_endpoint(
	*rsc_entry,
	match runtime {
	NextRuntime::Edge => Vc::upcast(this.app_project.edge_rsc_module_context()),
	NextRuntime::NodeJs => Vc::upcast(this.app_project.rsc_module_context()),
	},
	);

	let server_action_manifest = create_server_actions_manifest(
	actions,
	project.project_path().owned().await?,
	node_root.clone(),
	app_entry.original_name.clone(),
	runtime,
	match runtime {
	NextRuntime::Edge => Vc::upcast(this.app_project.edge_rsc_module_context()),
	NextRuntime::NodeJs => Vc::upcast(this.app_project.rsc_module_context()),
	},
	*module_graphs.full,
	this.app_project
	.project()
	.runtime_chunking_context(process_client_assets, runtime),
	)
	.await?;
	if emit_rsc_manifests {
	server_assets.insert(server_action_manifest.manifest);
	}

	let server_action_manifest_loader = server_action_manifest.loader;

	let app_entry_chunks = self
	.app_entry_chunks(
	*client_references,
	*server_action_manifest_loader,
	server_path.clone(),
	process_client_assets,
	*module_graphs.full,
	)
	.to_resolved()
	.await?;
	let app_entry_chunks_ref = app_entry_chunks.await?;
	server_assets.extend(app_entry_chunks_ref.iter().copied());

	let client_assets = OutputAssets::new(client_assets.iter().map(\|asset\| **asset).collect())
	.to_resolved()
	.await?;

	// these references are important for turbotrace
	let mut client_reference_manifest = None;

	if emit_rsc_manifests {
	let entry_manifest =
	ClientReferenceManifest::build_output(ClientReferenceManifestOptions {
	node_root: node_root.clone(),
	client_relative_path: client_relative_path.clone(),
	entry_name: app_entry.original_name.clone(),
	client_references,
	client_references_chunks,
	client_chunking_context,
	ssr_chunking_context,
	async_module_info: module_graphs.full.async_module_info().to_resolved().await?,
	next_config: project.next_config().to_resolved().await?,
	runtime,
	mode: *project.next_mode().await?,
	})
	.to_resolved()
	.await?;
	server_assets.insert(entry_manifest);
	if runtime == NextRuntime::Edge {
	middleware_assets.insert(entry_manifest);
	}
	client_reference_manifest = Some(entry_manifest);
	}
	if emit_manifests == EmitManifests::Full {
	let next_font_manifest_output = create_font_manifest(
	project.client_root().owned().await?,
	node_root.clone(),
	this.app_project.app_dir().owned().await?,
	&app_entry.original_name,
	&app_entry.original_name,
	&app_entry.original_name,
	*client_assets,
	true,
	)
	.await?;
	server_assets.insert(next_font_manifest_output);
	}

	let endpoint_output = match runtime {
	NextRuntime::Edge => {
	// the next-edge-ssr-loader templates expect the manifests to be stored in
	// global variables defined in these files
	//
	// they are created in `setup-dev-bundler.ts`
	let mut file_paths_from_root = fxindexset![
	rcstr!("server/middleware-build-manifest.js"),
	rcstr!("server/interception-route-rewrite-manifest.js"),
	];
	if emit_manifests == EmitManifests::Full {
	file_paths_from_root.insert(rcstr!("server/next-font-manifest.js"));
	};
	if emit_rsc_manifests {
	file_paths_from_root.insert(rcstr!("server/server-reference-manifest.js"));
	}

	let mut wasm_paths_from_root = fxindexset![];

	let node_root_value = node_root.clone();

	file_paths_from_root
	.extend(get_js_paths_from_root(&node_root_value, &middleware_assets).await?);
	file_paths_from_root
	.extend(get_js_paths_from_root(&node_root_value, &app_entry_chunks_ref).await?);

	let all_output_assets = all_assets_from_entries(*app_entry_chunks).await?;

	wasm_paths_from_root
	.extend(get_wasm_paths_from_root(&node_root_value, &middleware_assets).await?);
	wasm_paths_from_root
	.extend(get_wasm_paths_from_root(&node_root_value, &all_output_assets).await?);

	let all_assets =
	get_asset_paths_from_root(&node_root_value, &all_output_assets).await?;

	let entry_file = rcstr!("app-edge-has-no-entrypoint");

	if emit_manifests == EmitManifests::Full {
	let dynamic_import_entries = collect_next_dynamic_chunks(
	*module_graphs.full,
	*ResolvedVc::upcast(client_chunking_context),
	next_dynamic_imports,
	NextDynamicChunkAvailability::ClientReferences(
	&*(client_references_chunks.await?),
	),
	)
	.await?;

	let loadable_manifest_output = create_react_loadable_manifest(
	*dynamic_import_entries,
	client_relative_path.clone(),
	node_root.join(&format!(
	"server/app{}/react-loadable-manifest",
	&app_entry.original_name
	))?,
	NextRuntime::Edge,
	)
	.await?;

	server_assets.extend(loadable_manifest_output.iter().copied());
	file_paths_from_root.extend(
	get_js_paths_from_root(&node_root_value, &loadable_manifest_output).await?,
	);
	}
	if emit_manifests != EmitManifests::None {
	// create middleware manifest
	let named_regex = get_named_middleware_regex(&app_entry.pathname);
	let matchers = MiddlewareMatcher {
	regexp: Some(named_regex.into()),
	original_source: app_entry.pathname.clone(),
	..Default::default()
	};
	let edge_function_definition = EdgeFunctionDefinition {
	files: file_paths_from_root.into_iter().collect(),
	wasm: wasm_paths_to_bindings(wasm_paths_from_root).await?,
	assets: paths_to_bindings(all_assets),
	name: app_entry.pathname.clone(),
	page: app_entry.original_name.clone(),
	regions: app_entry
	.config
	.await?
	.preferred_region
	.clone()
	.map(Regions::Multiple),
	matchers: vec![matchers],
	env: project.edge_env().owned().await?,
	};
	let middleware_manifest_v2 = MiddlewaresManifestV2 {
	sorted_middleware: vec![app_entry.original_name.clone()],
	functions: [(app_entry.original_name.clone(), edge_function_definition)]
	.into_iter()
	.collect(),
	..Default::default()
	};
	let manifest_path_prefix = &app_entry.original_name;
	let middleware_manifest_v2 = ResolvedVc::upcast(
	VirtualOutputAsset::new(
	node_root.join(&format!(
	"server/app{manifest_path_prefix}/middleware-manifest.json",
	))?,
	AssetContent::file(
	FileContent::Content(File::from(serde_json::to_string_pretty(
	&middleware_manifest_v2,
	)?))
	.cell(),
	),
	)
	.to_resolved()
	.await?,
	);
	server_assets.insert(middleware_manifest_v2);
	}
	if emit_manifests != EmitManifests::None {
	// create app paths manifest
	let app_paths_manifest_output = create_app_paths_manifest(
	node_root.clone(),
	&app_entry.original_name,
	entry_file,
	)
	.await?;
	server_assets.insert(app_paths_manifest_output);
	}

	AppEndpointOutput::Edge {
	files: app_entry_chunks,
	server_assets: ResolvedVc::cell(
	server_assets.iter().cloned().collect::<Vec<_>>(),
	),
	client_assets,
	}
	}
	NextRuntime::NodeJs => {
	// For node, there will be exactly one asset in this
	let rsc_chunk = *app_entry_chunks_ref.first().unwrap();

	if emit_manifests != EmitManifests::None {
	// create app paths manifest
	let app_paths_manifest_output = create_app_paths_manifest(
	node_root.clone(),
	&app_entry.original_name,
	server_path
	.get_path_to(&*rsc_chunk.path().await?)
	.context(
	"RSC chunk path should be within app paths manifest directory",
	)?
	.into(),
	)
	.await?;
	server_assets.insert(app_paths_manifest_output);
	}

	let loadable_manifest_output = if emit_manifests == EmitManifests::Full {
	// create react-loadable-manifest for next/dynamic
	let dynamic_import_entries = collect_next_dynamic_chunks(
	*module_graphs.full,
	*ResolvedVc::upcast(client_chunking_context),
	next_dynamic_imports,
	NextDynamicChunkAvailability::ClientReferences(
	&*(client_references_chunks.await?),
	),
	)
	.await?;

	let loadable_manifest_output = create_react_loadable_manifest(
	*dynamic_import_entries,
	client_relative_path.clone(),
	node_root.join(&format!(
	"server/app{}/react-loadable-manifest",
	&app_entry.original_name
	))?,
	NextRuntime::NodeJs,
	)
	.await?;

	server_assets.extend(loadable_manifest_output.iter().copied());
	Some(loadable_manifest_output)
	} else {
	None
	};

	if this
	.app_project
	.project()
	.next_mode()
	.await?
	.is_production()
	{
	let page_name = app_entry.pathname.clone();
	server_assets.insert(ResolvedVc::upcast(
	NftJsonAsset::new(
	project,
	Some(page_name),
	*rsc_chunk,
	client_reference_manifest
	.iter()
	.copied()
	.chain(loadable_manifest_output.iter().flat_map(\|m\| &**m).copied())
	.map(\|m\| *m)
	.collect(),
	)
	.to_resolved()
	.await?,
	));
	}

	AppEndpointOutput::NodeJs {
	rsc_chunk,
	server_assets: ResolvedVc::cell(
	server_assets.iter().cloned().collect::<Vec<_>>(),
	),
	client_assets,
	}
	}
	}
	.cell();

	Ok(endpoint_output)
	}

	#[turbo_tasks::function]
	async fn app_entry_chunks(
	self: Vc<Self>,
	client_references: Vc<ClientReferenceGraphResult>,
	server_action_manifest_loader: ResolvedVc<Box<dyn EvaluatableAsset>>,
	server_path: FileSystemPath,
	process_client_assets: bool,
	module_graph: Vc<ModuleGraph>,
	) -> Result<Vc<OutputAssets>> {
	let this = self.await?;
	let project = this.app_project.project();
	let app_entry = self.app_endpoint_entry().await?;
	let runtime = app_entry.config.await?.runtime.unwrap_or_default();

	let chunking_context = project.runtime_chunking_context(process_client_assets, runtime);

	Ok(match runtime {
	NextRuntime::Edge => {
	let ChunkGroupResult {
	assets,
	availability_info,
	} = *chunking_context
	.evaluated_chunk_group(
	server_action_manifest_loader.ident(),
	ChunkGroup::Entry(
	[ResolvedVc::upcast(server_action_manifest_loader)]
	.into_iter()
	.collect(),
	),
	module_graph,
	AvailabilityInfo::Root,
	)
	.await?;

	let edge_rsc_runtime_entries = this.app_project.edge_rsc_runtime_entries().await?;
	let evaluatable_assets = edge_rsc_runtime_entries
	.iter()
	.map(\|m\| ResolvedVc::upcast(*m))
	.chain(std::iter::once(app_entry.rsc_entry));

	assets.concatenate(
	chunking_context
	.evaluated_chunk_group_assets(
	app_entry.rsc_entry.ident(),
	ChunkGroup::Entry(evaluatable_assets.collect()),
	module_graph,
	availability_info,
	)
	.resolve()
	.await?,
	)
	}
	NextRuntime::NodeJs => {
	let mut evaluatable_assets = this.app_project.rsc_runtime_entries().owned().await?;

	let Some(rsc_entry) = ResolvedVc::try_downcast(app_entry.rsc_entry) else {
	bail!("rsc_entry must be evaluatable");
	};

	evaluatable_assets.push(server_action_manifest_loader);
	evaluatable_assets.push(rsc_entry);

	async {
	let mut current_chunks = OutputAssets::empty();
	let mut current_availability_info = AvailabilityInfo::Root;

	let client_references = client_references.await?;
	let span = tracing::trace_span!("server utils");
	async {
	let server_utils = client_references
	.server_utils
	.iter()
	.map(async \|m\| Ok(ResolvedVc::upcast(m.await?.module)))
	.try_join()
	.await?;
	let chunk_group = chunking_context
	.chunk_group(
	AssetIdent::from_path(
	this.app_project.project().project_path().owned().await?,
	)
	.with_modifier(rcstr!("server-utils")),
	// TODO this should be ChunkGroup::Shared
	ChunkGroup::Entry(server_utils),
	module_graph,
	current_availability_info,
	)
	.await?;

	current_chunks = current_chunks
	.concatenate(*chunk_group.assets)
	.resolve()
	.await?;
	current_availability_info = chunk_group.availability_info;

	anyhow::Ok(())
	}
	.instrument(span)
	.await?;
	for server_component in client_references
	.server_component_entries
	.iter()
	.copied()
	.take(
	client_references
	.server_component_entries
	.len()
	.saturating_sub(1),
	)
	{
	let span = tracing::trace_span!(
	"layout segment",
	name = server_component.ident().to_string().await?.as_str()
	);
	async {
	let chunk_group = chunking_context
	.chunk_group(
	server_component.ident(),
	// TODO this should be ChunkGroup::Shared
	ChunkGroup::Entry(vec![ResolvedVc::upcast(
	server_component.await?.module,
	)]),
	module_graph,
	current_availability_info,
	)
	.await?;

	current_chunks = current_chunks
	.concatenate(*chunk_group.assets)
	.resolve()
	.await?;
	current_availability_info = chunk_group.availability_info;

	anyhow::Ok(())
	}
	.instrument(span)
	.await?;
	}

	anyhow::Ok(Vc::cell(vec![
	chunking_context
	.entry_chunk_group_asset(
	server_path.join(&format!(
	"app{original_name}.js",
	original_name = app_entry.original_name
	))?,
	Vc::cell(evaluatable_assets),
	module_graph,
	current_chunks,
	current_availability_info,
	)
	.to_resolved()
	.await?,
	]))
	}
	.instrument(tracing::trace_span!("server node entrypoint"))
	.await?
	}
	})
	}
	}

	async fn create_app_paths_manifest(
	node_root: FileSystemPath,
	original_name: &str,
	filename: RcStr,
	) -> Result<ResolvedVc<Box<dyn OutputAsset>>> {
	let manifest_path_prefix = original_name;
	let path = node_root.join(&format!(
	"server/app{manifest_path_prefix}/app-paths-manifest.json",
	))?;
	let app_paths_manifest = AppPathsManifest {
	node_server_app_paths: PagesManifest {
	pages: [(original_name.into(), filename)].into_iter().collect(),
	},
	..Default::default()
	};
	Ok(ResolvedVc::upcast(
	VirtualOutputAsset::new(
	path,
	AssetContent::file(
	File::from(serde_json::to_string_pretty(&app_paths_manifest)?).into(),
	),
	)
	.to_resolved()
	.await?,
	))
	}

	#[turbo_tasks::value_impl]
	impl Endpoint for AppEndpoint {
	#[turbo_tasks::function]
	async fn output(self: ResolvedVc<Self>) -> Result<Vc<EndpointOutput>> {
	let this = self.await?;
	let page_name = this.page.to_string();
	let span = match this.ty {
	AppEndpointType::Page {
	ty: AppPageEndpointType::Html,
	..
	} => {
	tracing::info_span!("app endpoint HTML", name = page_name)
	}
	AppEndpointType::Page {
	ty: AppPageEndpointType::Rsc,
	..
	} => {
	tracing::info_span!("app endpoint RSC", name = page_name)
	}
	AppEndpointType::Route { .. } => {
	tracing::info_span!("app endpoint route", name = page_name)
	}
	AppEndpointType::Metadata { .. } => {
	tracing::info_span!("app endpoint metadata", name = page_name)
	}
	};

	async move {
	let output = self.output();
	let output_assets = output.output_assets();
	let output = output.await?;
	let node_root = &*this.app_project.project().node_root().await?;

	let (server_paths, client_paths) = if this
	.app_project
	.project()
	.next_mode()
	.await?
	.is_development()
	{
	let node_root = this.app_project.project().node_root().owned().await?;
	let server_paths = all_server_paths(output_assets, node_root).owned().await?;

	let client_relative_root = this
	.app_project
	.project()
	.client_relative_path()
	.owned()
	.await?;
	let client_paths = all_paths_in_root(output_assets, client_relative_root)
	.owned()
	.instrument(tracing::info_span!("client_paths"))
	.await?;
	(server_paths, client_paths)
	} else {
	(vec![], vec![])
	};

	let written_endpoint = match *output {
	AppEndpointOutput::NodeJs { rsc_chunk, .. } => EndpointOutputPaths::NodeJs {
	server_entry_path: node_root
	.get_path_to(&*rsc_chunk.path().await?)
	.context("Node.js chunk entry path must be inside the node root")?
	.to_string(),
	server_paths,
	client_paths,
	},
	AppEndpointOutput::Edge { .. } => EndpointOutputPaths::Edge {
	server_paths,
	client_paths,
	},
	};

	anyhow::Ok(
	EndpointOutput {
	output_assets: output_assets.to_resolved().await?,
	output_paths: written_endpoint.resolved_cell(),
	project: this.app_project.project().to_resolved().await?,
	}
	.cell(),
	)
	}
	.instrument(span)
	.await
	.with_context(\|\| format!("Failed to write app endpoint {page_name}"))
	}

	#[turbo_tasks::function]
	async fn server_changed(self: Vc<Self>) -> Result<Vc<Completion>> {
	Ok(self
	.await?
	.app_project
	.project()
	.server_changed(self.output().server_assets()))
	}

	#[turbo_tasks::function]
	async fn client_changed(self: Vc<Self>) -> Result<Vc<Completion>> {
	Ok(self
	.await?
	.app_project
	.project()
	.client_changed(self.output().client_assets()))
	}

	#[turbo_tasks::function]
	async fn entries(self: Vc<Self>) -> Result<Vc<GraphEntries>> {
	let this = self.await?;
	Ok(Vc::cell(vec![
	ChunkGroupEntry::Entry(vec![self.app_endpoint_entry().await?.rsc_entry]),
	ChunkGroupEntry::Entry(
	this.app_project
	.client_runtime_entries()
	.await?
	.iter()
	.copied()
	.map(ResolvedVc::upcast)
	.collect(),
	),
	]))
	}

	#[turbo_tasks::function]
	async fn additional_entries(
	self: Vc<Self>,
	graph: Vc<ModuleGraph>,
	) -> Result<Vc<GraphEntries>> {
	let this = self.await?;
	let app_entry = self.app_endpoint_entry().await?;
	let rsc_entry = app_entry.rsc_entry;
	let runtime = app_entry.config.await?.runtime.unwrap_or_default();

	let actions = get_global_information_for_endpoint(
	graph,
	*this.app_project.project().per_page_module_graph().await?,
	)
	.get_server_actions_for_endpoint(
	*rsc_entry,
	match runtime {
	NextRuntime::Edge => Vc::upcast(this.app_project.edge_rsc_module_context()),
	NextRuntime::NodeJs => Vc::upcast(this.app_project.rsc_module_context()),
	},
	);

	let server_actions_loader = ResolvedVc::upcast(
	build_server_actions_loader(
	this.app_project.project().project_path().owned().await?,
	app_entry.original_name.clone(),
	actions,
	match runtime {
	NextRuntime::Edge => Vc::upcast(this.app_project.edge_rsc_module_context()),
	NextRuntime::NodeJs => Vc::upcast(this.app_project.rsc_module_context()),
	},
	)
	.to_resolved()
	.await?,
	);

	Ok(Vc::cell(vec![ChunkGroupEntry::Entry(vec![
	server_actions_loader,
	])]))
	}

	#[turbo_tasks::function]
	async fn module_graphs(self: Vc<Self>) -> Result<Vc<ModuleGraphs>> {
	let this = self.await?;
	let app_entry = self.app_endpoint_entry().await?;
	let module_graphs = this
	.app_project
	.app_module_graphs(
	self,
	*app_entry.rsc_entry,
	this.app_project.client_runtime_entries(),
	matches!(this.ty, AppEndpointType::Page { .. }),
	)
	.await?;
	Ok(Vc::cell(vec![module_graphs.full]))
	}
	}

	#[turbo_tasks::value]
	enum AppEndpointOutput {
	NodeJs {
	rsc_chunk: ResolvedVc<Box<dyn OutputAsset>>,
	server_assets: ResolvedVc<OutputAssets>,
	client_assets: ResolvedVc<OutputAssets>,
	},
	Edge {
	files: ResolvedVc<OutputAssets>,
	server_assets: ResolvedVc<OutputAssets>,
	client_assets: ResolvedVc<OutputAssets>,
	},
	}

	#[turbo_tasks::value_impl]
	impl AppEndpointOutput {
	#[turbo_tasks::function]
	pub async fn output_assets(self: Vc<Self>) -> Result<Vc<OutputAssets>> {
	let server_assets = self.server_assets().await?;
	let client_assets = self.client_assets().await?;
	Ok(Vc::cell(
	server_assets
	.iter()
	.cloned()
	.chain(client_assets.iter().cloned())
	.collect(),
	))
	}

	#[turbo_tasks::function]
	pub fn server_assets(&self) -> Vc<OutputAssets> {
	match *self {
	AppEndpointOutput::NodeJs { server_assets, .. }
	\| AppEndpointOutput::Edge { server_assets, .. } => *server_assets,
	}
	}

	#[turbo_tasks::function]
	pub fn client_assets(&self) -> Vc<OutputAssets> {
	match *self {
	AppEndpointOutput::NodeJs { client_assets, .. }
	\| AppEndpointOutput::Edge { client_assets, .. } => *client_assets,
	}
	}
	}