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react-code-dataset / next.js /crates /next-api /src /pages.rs
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 use anyhow::{Context, Result, bail};
use futures::future::BoxFuture;
use next_core::{
PageLoaderAsset, all_assets_from_entries, create_page_loader_entry_module,
get_asset_path_from_pathname, get_edge_resolve_options_context,
hmr_entry::HmrEntryModule,
mode::NextMode,
next_client::{
ClientContextType, RuntimeEntries, get_client_module_options_context,
get_client_resolve_options_context, get_client_runtime_entries,
},
next_dynamic::NextDynamicTransition,
next_edge::route_regex::get_named_middleware_regex,
next_manifests::{
BuildManifest, EdgeFunctionDefinition, MiddlewareMatcher, MiddlewaresManifestV2,
PagesManifest, Regions,
},
next_pages::create_page_ssr_entry_module,
next_server::{
ServerContextType, get_server_module_options_context, get_server_resolve_options_context,
get_server_runtime_entries,
},
pages_structure::{
PagesDirectoryStructure, PagesStructure, PagesStructureItem, find_pages_structure,
},
util::{NextRuntime, get_asset_prefix_from_pathname, parse_config_from_source},
};
use serde::{Deserialize, Serialize};
use tracing::Instrument;
use turbo_rcstr::{RcStr, rcstr};
use turbo_tasks::{
Completion, FxIndexMap, NonLocalValue, ResolvedVc, TaskInput, ValueToString, Vc, fxindexmap,
fxindexset, trace::TraceRawVcs,
};
use turbo_tasks_fs::{
self, File, FileContent, FileSystem, FileSystemPath, FileSystemPathOption, VirtualFileSystem,
};
use turbopack::{
ModuleAssetContext,
module_options::ModuleOptionsContext,
resolve_options_context::ResolveOptionsContext,
transition::{FullContextTransition, Transition, TransitionOptions},
};
use turbopack_core::{
asset::AssetContent,
chunk::{
ChunkGroupResult, ChunkingContext, ChunkingContextExt, EvaluatableAsset, EvaluatableAssets,
availability_info::AvailabilityInfo,
},
context::AssetContext,
file_source::FileSource,
ident::{AssetIdent, Layer},
module::Module,
module_graph::{
GraphEntries, ModuleGraph, SingleModuleGraph, VisitedModules,
chunk_group_info::{ChunkGroup, ChunkGroupEntry},
},
output::{OptionOutputAsset, OutputAsset, OutputAssets},
reference_type::{EcmaScriptModulesReferenceSubType, EntryReferenceSubType, ReferenceType},
resolve::{origin::PlainResolveOrigin, parse::Request, pattern::Pattern},
source::Source,
virtual_output::VirtualOutputAsset,
};
use turbopack_ecmascript::resolve::esm_resolve;
use turbopack_nodejs::NodeJsChunkingContext;
use crate::{
dynamic_imports::{
DynamicImportedChunks, 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::Project,
route::{Endpoint, EndpointOutput, EndpointOutputPaths, ModuleGraphs, Route, Routes},
webpack_stats::generate_webpack_stats,
};
#[turbo_tasks::value]
pub struct PagesProject {
project: ResolvedVc<Project>,
}
#[turbo_tasks::value_impl]
impl PagesProject {
#[turbo_tasks::function]
pub fn new(project: ResolvedVc<Project>) -> Vc<Self> {
PagesProject { project }.cell()
}
#[turbo_tasks::function]
pub async fn routes(self: Vc<Self>) -> Result<Vc<Routes>> {
let pages_structure = self.pages_structure();
let PagesStructure {
api,
pages,
app: _,
document: _,
error: _,
error_500: _,
} = &*pages_structure.await?;
let mut routes = FxIndexMap::default();
async fn add_page_to_routes(
routes: &mut FxIndexMap<RcStr, Route>,
page: Vc<PagesStructureItem>,
make_route: impl Fn(
RcStr,
RcStr,
Vc<PagesStructureItem>,
) -> BoxFuture<'static, Result<Route>>,
) -> Result<()> {
let PagesStructureItem {
next_router_path,
original_path,
..
} = &*page.await?;
let pathname: RcStr = format!("/{}", next_router_path.path).into();
let original_name = format!("/{}", original_path.path).into();
let route = make_route(pathname.clone(), original_name, page).await?;
routes.insert(pathname, route);
Ok(())
}
async fn add_dir_to_routes(
routes: &mut FxIndexMap<RcStr, Route>,
dir: Vc<PagesDirectoryStructure>,
make_route: impl Fn(
RcStr,
RcStr,
Vc<PagesStructureItem>,
) -> BoxFuture<'static, Result<Route>>,
) -> Result<()> {
let mut queue = vec![dir];
while let Some(dir) = queue.pop() {
let PagesDirectoryStructure {
ref items,
ref children,
next_router_path: _,
project_path: _,
} = *dir.await?;
for &item in items.iter() {
add_page_to_routes(routes, *item, &make_route).await?;
}
for &child in children.iter() {
queue.push(*child);
}
}
Ok(())
}
if let Some(api) = *api {
add_dir_to_routes(&mut routes, *api, |pathname, original_name, page| {
Box::pin(async move {
Ok(Route::PageApi {
endpoint: ResolvedVc::upcast(
PageEndpoint::new(
PageEndpointType::Api,
self,
pathname,
original_name,
page,
pages_structure,
)
.to_resolved()
.await?,
),
})
})
})
.await?;
}
let make_page_route = |pathname: RcStr, original_name: RcStr, page| -> BoxFuture<_> {
Box::pin(async move {
Ok(Route::Page {
html_endpoint: ResolvedVc::upcast(
PageEndpoint::new(
PageEndpointType::Html,
self,
pathname.clone(),
original_name.clone(),
page,
pages_structure,
)
.to_resolved()
.await?,
),
data_endpoint: ResolvedVc::upcast(
PageEndpoint::new(
PageEndpointType::Data,
self,
pathname,
original_name,
page,
pages_structure,
)
.to_resolved()
.await?,
),
})
})
};
if let Some(pages) = *pages {
add_dir_to_routes(&mut routes, *pages, make_page_route).await?;
}
Ok(Vc::cell(routes))
}
#[turbo_tasks::function]
async fn to_endpoint(
self: Vc<Self>,
item: Vc<PagesStructureItem>,
ty: PageEndpointType,
) -> Result<Vc<Box<dyn Endpoint>>> {
let PagesStructureItem {
next_router_path,
original_path,
..
} = &*item.await?;
let pathname: RcStr = format!("/{}", next_router_path.path).into();
let original_name = format!("/{}", original_path.path).into();
let endpoint = Vc::upcast(PageEndpoint::new(
ty,
self,
pathname,
original_name,
item,
self.pages_structure(),
));
Ok(endpoint)
}
#[turbo_tasks::function]
pub async fn document_endpoint(self: Vc<Self>) -> Result<Vc<Box<dyn Endpoint>>> {
Ok(self.to_endpoint(
*self.pages_structure().await?.document,
PageEndpointType::SsrOnly,
))
}
#[turbo_tasks::function]
pub async fn app_endpoint(self: Vc<Self>) -> Result<Vc<Box<dyn Endpoint>>> {
Ok(self.to_endpoint(*self.pages_structure().await?.app, PageEndpointType::Html))
}
#[turbo_tasks::function]
pub async fn error_endpoint(self: Vc<Self>) -> Result<Vc<Box<dyn Endpoint>>> {
Ok(self.to_endpoint(*self.pages_structure().await?.error, PageEndpointType::Html))
}
#[turbo_tasks::function]
fn project(&self) -> Vc<Project> {
*self.project
}
#[turbo_tasks::function]
async fn pages_structure(&self) -> Result<Vc<PagesStructure>> {
let next_router_fs = Vc::upcast::<Box<dyn FileSystem>>(VirtualFileSystem::new());
let next_router_root = next_router_fs.root().owned().await?;
Ok(find_pages_structure(
self.project.project_path().owned().await?,
next_router_root,
self.project.next_config().page_extensions(),
))
}
#[turbo_tasks::function]
async fn pages_dir(self: Vc<Self>) -> Result<Vc<FileSystemPath>> {
Ok(if let Some(pages) = self.pages_structure().await?.pages {
pages.project_path()
} else {
self.project().project_path().await?.join("pages")?.cell()
})
}
#[turbo_tasks::function]
async fn client_transitions(self: Vc<Self>) -> Result<Vc<TransitionOptions>> {
Ok(TransitionOptions {
named_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(),
..Default::default()
}
.cell())
}
#[turbo_tasks::function]
async fn server_transitions(self: Vc<Self>) -> Result<Vc<TransitionOptions>> {
Ok(TransitionOptions {
named_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?,
),
),
]
.into_iter()
.collect(),
..Default::default()
}
.cell())
}
#[turbo_tasks::function]
fn client_transition(self: Vc<Self>) -> Vc<Box<dyn Transition>> {
Vc::upcast(FullContextTransition::new(self.client_module_context()))
}
#[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(),
ClientContextType::Pages {
pages_dir: self.pages_dir().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?,
ClientContextType::Pages {
pages_dir: self.pages_dir().owned().await?,
},
self.project().next_mode(),
self.project().next_config(),
self.project().execution_context(),
))
}
#[turbo_tasks::function]
pub(super) fn client_module_context(self: Vc<Self>) -> Vc<ModuleAssetContext> {
ModuleAssetContext::new(
self.client_transitions(),
self.project().client_compile_time_info(),
self.client_module_options_context(),
self.client_resolve_options_context(),
Layer::new_with_user_friendly_name(rcstr!("client"), rcstr!("Browser")),
)
}
#[turbo_tasks::function]
pub(super) fn ssr_module_context(self: Vc<Self>) -> Vc<ModuleAssetContext> {
ModuleAssetContext::new(
self.server_transitions(),
self.project().server_compile_time_info(),
self.ssr_module_options_context(),
self.ssr_resolve_options_context(),
Layer::new_with_user_friendly_name(rcstr!("ssr"), rcstr!("SSR")),
)
}
/// Returns a context specific to pages/api.
/// This mimics the current configuration in [next-dev](https://github.com/vercel/next.js/blob/9b4b0847ed4a1025e73bec16a9ee11766e632e14/packages/next/src/build/webpack-config.ts#L1381-L1385)
#[turbo_tasks::function]
pub(super) fn api_module_context(self: Vc<Self>) -> Vc<ModuleAssetContext> {
ModuleAssetContext::new(
self.server_transitions(),
self.project().server_compile_time_info(),
self.api_module_options_context(),
self.ssr_resolve_options_context(),
Layer::new_with_user_friendly_name(rcstr!("api"), rcstr!("Route")),
)
}
#[turbo_tasks::function]
pub(super) fn ssr_data_module_context(self: Vc<Self>) -> Vc<ModuleAssetContext> {
ModuleAssetContext::new(
self.server_transitions(),
self.project().server_compile_time_info(),
self.ssr_data_module_options_context(),
self.ssr_resolve_options_context(),
Layer::new(rcstr!("ssr-data")),
)
}
#[turbo_tasks::function]
pub(super) fn edge_ssr_module_context(self: Vc<Self>) -> Vc<ModuleAssetContext> {
ModuleAssetContext::new(
Default::default(),
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!("edge-ssr"), rcstr!("Edge SSR")),
)
}
#[turbo_tasks::function]
pub(super) fn edge_api_module_context(self: Vc<Self>) -> Vc<ModuleAssetContext> {
ModuleAssetContext::new(
Default::default(),
self.project().edge_compile_time_info(),
self.edge_api_module_options_context(),
self.edge_ssr_resolve_options_context(),
Layer::new_with_user_friendly_name(rcstr!("edge-api"), rcstr!("Edge Route")),
)
}
#[turbo_tasks::function]
pub(super) fn edge_ssr_data_module_context(self: Vc<Self>) -> Vc<ModuleAssetContext> {
ModuleAssetContext::new(
Default::default(),
self.project().edge_compile_time_info(),
self.edge_ssr_data_module_options_context(),
self.edge_ssr_resolve_options_context(),
Layer::new(rcstr!("edge-ssr-data")),
)
}
#[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(),
ServerContextType::Pages {
pages_dir: self.pages_dir().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(),
ServerContextType::Pages {
pages_dir: self.pages_dir().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 api_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(),
ServerContextType::PagesApi {
pages_dir: self.pages_dir().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_api_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(),
ServerContextType::PagesApi {
pages_dir: self.pages_dir().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_data_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(),
ServerContextType::PagesData {
pages_dir: self.pages_dir().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_data_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(),
ServerContextType::PagesData {
pages_dir: self.pages_dir().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?,
// NOTE(alexkirsz) This could be `PagesData` for the data endpoint, but it doesn't
// matter (for now at least) because `get_server_resolve_options_context` doesn't
// differentiate between the two.
ServerContextType::Pages {
pages_dir: self.pages_dir().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?,
// NOTE(alexkirsz) This could be `PagesData` for the data endpoint, but it doesn't
// matter (for now at least) because `get_server_resolve_options_context` doesn't
// differentiate between the two.
ServerContextType::Pages {
pages_dir: self.pages_dir().owned().await?,
},
self.project().next_mode(),
self.project().next_config(),
self.project().execution_context(),
))
}
#[turbo_tasks::function]
async fn client_runtime_entries(self: Vc<Self>) -> Result<Vc<EvaluatableAssets>> {
let client_runtime_entries = get_client_runtime_entries(
self.project().project_path().owned().await?,
ClientContextType::Pages {
pages_dir: self.pages_dir().owned().await?,
},
self.project().next_mode(),
self.project().next_config(),
self.project().execution_context(),
);
Ok(client_runtime_entries.resolve_entries(Vc::upcast(self.client_module_context())))
}
#[turbo_tasks::function]
async fn runtime_entries(self: Vc<Self>) -> Result<Vc<RuntimeEntries>> {
Ok(get_server_runtime_entries(
ServerContextType::Pages {
pages_dir: self.pages_dir().owned().await?,
},
self.project().next_mode(),
))
}
#[turbo_tasks::function]
async fn data_runtime_entries(self: Vc<Self>) -> Result<Vc<RuntimeEntries>> {
Ok(get_server_runtime_entries(
ServerContextType::PagesData {
pages_dir: self.pages_dir().owned().await?,
},
self.project().next_mode(),
))
}
#[turbo_tasks::function]
fn ssr_runtime_entries(self: Vc<Self>) -> Vc<EvaluatableAssets> {
let ssr_runtime_entries = self.runtime_entries();
ssr_runtime_entries.resolve_entries(Vc::upcast(self.ssr_module_context()))
}
#[turbo_tasks::function]
fn ssr_data_runtime_entries(self: Vc<Self>) -> Vc<EvaluatableAssets> {
let ssr_data_runtime_entries = self.data_runtime_entries();
ssr_data_runtime_entries.resolve_entries(Vc::upcast(self.ssr_module_context()))
}
#[turbo_tasks::function]
fn edge_ssr_runtime_entries(self: Vc<Self>) -> Vc<EvaluatableAssets> {
let ssr_runtime_entries = self.runtime_entries();
ssr_runtime_entries.resolve_entries(Vc::upcast(self.edge_ssr_module_context()))
}
#[turbo_tasks::function]
fn edge_ssr_data_runtime_entries(self: Vc<Self>) -> Vc<EvaluatableAssets> {
let ssr_data_runtime_entries = self.data_runtime_entries();
ssr_data_runtime_entries.resolve_entries(Vc::upcast(self.edge_ssr_module_context()))
}
#[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 = esm_resolve(
Vc::upcast(PlainResolveOrigin::new(
client_module_context,
self.project().project_path().await?.join("_")?,
)),
Request::parse(Pattern::Constant(
match *self.project().next_mode().await? {
NextMode::Development => rcstr!("next/dist/client/next-dev-turbopack.js"),
NextMode::Build => rcstr!("next/dist/client/next-turbopack.js"),
},
)),
EcmaScriptModulesReferenceSubType::Undefined,
false,
None,
)
.await?
.first_module()
.await?
.context("expected Next.js client runtime to resolve to a module")?;
Ok(*client_main_module)
}
}
#[turbo_tasks::value]
struct PageEndpoint {
ty: PageEndpointType,
pages_project: ResolvedVc<PagesProject>,
pathname: RcStr,
original_name: RcStr,
page: ResolvedVc<PagesStructureItem>,
pages_structure: ResolvedVc<PagesStructure>,
}
#[derive(
Copy,
Clone,
Serialize,
Deserialize,
PartialEq,
Eq,
Hash,
Debug,
TaskInput,
TraceRawVcs,
NonLocalValue,
)]
enum PageEndpointType {
Api,
Html,
Data,
SsrOnly,
}
#[derive(
Copy, Clone, Serialize, Deserialize, PartialEq, Eq, Hash, Debug, TaskInput, TraceRawVcs,
)]
enum SsrChunkType {
Page,
Data,
Api,
}
#[derive(
Copy, Clone, Debug, PartialEq, Eq, Hash, Serialize, Deserialize, TaskInput, TraceRawVcs,
)]
enum EmitManifests {
/// Don't emit any manifests
None,
/// Emit the manifest for basic Next.js functionality (e.g. pages-manifest.json)
Minimal,
/// All manifests: `Minimal` plus server-reference-manifest, next/font, next/dynamic
Full,
}
#[turbo_tasks::value_impl]
impl PageEndpoint {
#[turbo_tasks::function]
fn new(
ty: PageEndpointType,
pages_project: ResolvedVc<PagesProject>,
pathname: RcStr,
original_name: RcStr,
page: ResolvedVc<PagesStructureItem>,
pages_structure: ResolvedVc<PagesStructure>,
) -> Vc<Self> {
PageEndpoint {
ty,
pages_project,
pathname,
original_name,
page,
pages_structure,
}
.cell()
}
#[turbo_tasks::function]
async fn source(&self) -> Result<Vc<Box<dyn Source>>> {
Ok(Vc::upcast(FileSource::new(
self.page.file_path().owned().await?,
)))
}
#[turbo_tasks::function]
async fn client_module(self: Vc<Self>) -> Result<Vc<Box<dyn Module>>> {
let this = self.await?;
let page_loader = create_page_loader_entry_module(
Vc::upcast(this.pages_project.client_module_context()),
self.source(),
this.pathname.clone(),
);
if matches!(
*this.pages_project.project().next_mode().await?,
NextMode::Development
) && let Some(chunkable) = Vc::try_resolve_downcast(page_loader).await?
{
return Ok(Vc::upcast(HmrEntryModule::new(
AssetIdent::from_path(this.page.await?.base_path.clone()),
chunkable,
)));
}
Ok(page_loader)
}
#[turbo_tasks::function]
async fn client_evaluatable_assets(self: Vc<Self>) -> Result<Vc<EvaluatableAssets>> {
let this = self.await?;
let client_module = self.client_module();
let client_main_module = this.pages_project.client_main_module();
let Some(client_module) =
Vc::try_resolve_sidecast::<Box<dyn EvaluatableAsset>>(client_module).await?
else {
bail!("expected an evaluateable asset");
};
let Some(client_main_module) =
Vc::try_resolve_sidecast::<Box<dyn EvaluatableAsset>>(client_main_module).await?
else {
bail!("expected an evaluateable asset");
};
let evaluatable_assets = this
.pages_project
.client_runtime_entries()
.with_entry(client_main_module)
.with_entry(client_module);
Ok(evaluatable_assets)
}
#[turbo_tasks::function]
async fn client_module_graph(self: Vc<Self>) -> Result<Vc<ModuleGraph>> {
let this = self.await?;
let project = this.pages_project.project();
let evaluatable_assets = self.client_evaluatable_assets();
Ok(project.module_graph_for_modules(evaluatable_assets))
}
#[turbo_tasks::function]
async fn ssr_module_graph(self: Vc<Self>) -> Result<Vc<ModuleGraph>> {
let this = self.await?;
let project = this.pages_project.project();
let should_trace = project.next_mode().await?.is_production();
if *project.per_page_module_graph().await? {
let ssr_chunk_module = self.internal_ssr_chunk_module().await?;
// Implements layout segment optimization to compute a graph "chain" for document, app,
// page
let mut graphs = vec![];
let mut visited_modules = VisitedModules::empty();
for module in [
ssr_chunk_module.document_module,
ssr_chunk_module.app_module,
]
.into_iter()
.flatten()
{
let graph = SingleModuleGraph::new_with_entries_visited_intern(
vec![ChunkGroupEntry::Shared(module)],
visited_modules,
should_trace,
);
graphs.push(graph);
visited_modules = visited_modules.concatenate(graph);
}
let graph = SingleModuleGraph::new_with_entries_visited_intern(
vec![ChunkGroupEntry::Entry(vec![ssr_chunk_module.ssr_module])],
visited_modules,
should_trace,
);
graphs.push(graph);
Ok(ModuleGraph::from_graphs(graphs))
} else {
Ok(*project.whole_app_module_graphs().await?.full)
}
}
#[turbo_tasks::function]
async fn client_chunks(self: Vc<Self>) -> Result<Vc<ChunkGroupResult>> {
async move {
let this = self.await?;
let project = this.pages_project.project();
let client_chunking_context = project.client_chunking_context();
let module_graph = self.client_module_graph();
let evaluatable_assets = self
.client_evaluatable_assets()
.await?
.iter()
.map(|m| ResolvedVc::upcast(*m))
.collect();
let client_chunk_group = client_chunking_context.evaluated_chunk_group(
AssetIdent::from_path(this.page.await?.base_path.clone()),
ChunkGroup::Entry(evaluatable_assets),
module_graph,
AvailabilityInfo::Root,
);
Ok(client_chunk_group)
}
.instrument(tracing::info_span!("page client side rendering"))
.await
}
#[turbo_tasks::function]
async fn page_loader(
self: Vc<Self>,
client_chunks: Vc<OutputAssets>,
) -> Result<Vc<Box<dyn OutputAsset>>> {
let this = self.await?;
let project = this.pages_project.project();
let node_root = project.client_root().owned().await?;
let client_relative_path = self.client_relative_path();
// In development mode, don't include a content hash and put the chunk at e.g.
// `static/chunks/pages/page2.js`, so that the dev runtime can request it at a known path.
// https://github.com/vercel/next.js/blob/84873e00874e096e6c4951dcf070e8219ed414e5/packages/next/src/client/route-loader.ts#L256-L271
let use_fixed_path = this
.pages_project
.project()
.next_mode()
.await?
.is_development();
let page_loader = PageLoaderAsset::new(
node_root,
this.pathname.clone(),
client_relative_path,
client_chunks,
project.client_chunking_context(),
use_fixed_path,
);
Ok(Vc::upcast(page_loader))
}
#[turbo_tasks::function]
async fn internal_ssr_chunk_module(self: Vc<Self>) -> Result<Vc<InternalSsrChunkModule>> {
let this = self.await?;
let (reference_type, project_root, module_context, edge_module_context) = match this.ty {
PageEndpointType::Html | PageEndpointType::SsrOnly => (
ReferenceType::Entry(EntryReferenceSubType::Page),
this.pages_project.project().project_path().owned().await?,
this.pages_project.ssr_module_context(),
this.pages_project.edge_ssr_module_context(),
),
PageEndpointType::Data => (
ReferenceType::Entry(EntryReferenceSubType::Page),
this.pages_project.project().project_path().owned().await?,
this.pages_project.ssr_data_module_context(),
this.pages_project.edge_ssr_data_module_context(),
),
PageEndpointType::Api => (
ReferenceType::Entry(EntryReferenceSubType::PagesApi),
this.pages_project.project().project_path().owned().await?,
this.pages_project.api_module_context(),
this.pages_project.edge_api_module_context(),
),
};
let ssr_module = module_context
.process(self.source(), reference_type.clone())
.module();
let config =
parse_config_from_source(self.source(), ssr_module, NextRuntime::default()).await?;
Ok(
// `/_app` and `/_document` never get rendered directly so they don't need to be
// wrapped in the route module, and don't need to be handled as edge runtime as the
// rendering for edge is part of the page bundle.
if this.pathname == "/_app" || this.pathname == "/_document" {
InternalSsrChunkModule {
ssr_module: ssr_module.to_resolved().await?,
app_module: None,
document_module: None,
// /_app and /_document are always rendered for Node.js for this case. For edge
// they're included in the page bundle.
runtime: NextRuntime::NodeJs,
regions: config.regions.clone(),
}
} else if config.runtime == NextRuntime::Edge {
let modules = create_page_ssr_entry_module(
this.pathname.clone(),
reference_type,
project_root,
Vc::upcast(edge_module_context),
self.source(),
this.original_name.clone(),
*this.pages_structure,
config.runtime,
this.pages_project.project().next_config(),
)
.await?;
InternalSsrChunkModule {
ssr_module: modules.ssr_module,
app_module: modules.app_module,
document_module: modules.document_module,
runtime: config.runtime,
regions: config.regions.clone(),
}
} else {
let modules = create_page_ssr_entry_module(
this.pathname.clone(),
reference_type,
project_root,
Vc::upcast(module_context),
self.source(),
this.original_name.clone(),
*this.pages_structure,
config.runtime,
this.pages_project.project().next_config(),
)
.await?;
InternalSsrChunkModule {
ssr_module: modules.ssr_module,
app_module: modules.app_module,
document_module: modules.document_module,
runtime: config.runtime,
regions: config.regions.clone(),
}
}
.cell(),
)
}
#[turbo_tasks::function]
async fn internal_ssr_chunk(
self: Vc<Self>,
ty: SsrChunkType,
emit_manifests: EmitManifests,
node_path: FileSystemPath,
node_chunking_context: Vc<NodeJsChunkingContext>,
edge_chunking_context: Vc<Box<dyn ChunkingContext>>,
runtime_entries: Vc<EvaluatableAssets>,
edge_runtime_entries: Vc<EvaluatableAssets>,
) -> Result<Vc<SsrChunk>> {
async move {
let this = self.await?;
let InternalSsrChunkModule {
ssr_module,
app_module,
document_module,
runtime,
ref regions,
} = *self.internal_ssr_chunk_module().await?;
let project = this.pages_project.project();
// The SSR and Client Graphs are not connected in Pages Router.
// We are only interested in get_next_dynamic_imports_for_endpoint at the
// moment, which only needs the client graph anyway.
let ssr_module_graph = self.ssr_module_graph();
let next_dynamic_imports = if let PageEndpointType::Html = this.ty {
let client_availability_info = self.client_chunks().await?.availability_info;
let client_module_graph = self.client_module_graph();
let global_information = get_global_information_for_endpoint(
client_module_graph,
*project.per_page_module_graph().await?,
);
// We only validate the global css imports when there is not a `app` folder at the
// root of the project.
if project.app_project().await?.is_none() {
// We recreate the app_module here because the one provided from the
// `internal_ssr_chunk_module` is not the same as the one
// provided from the `client_module_graph`. There can be cases where
// the `app_module` is None, and we are processing the `pages/_app.js` file
// as a page rather than the app module.
let app_module = project
.pages_project()
.client_module_context()
.process(
Vc::upcast(FileSource::new(
this.pages_structure.await?.app.file_path().owned().await?,
)),
ReferenceType::Entry(EntryReferenceSubType::Page),
)
.to_resolved()
.await?
.module();
global_information
.validate_pages_css_imports(self.client_module(), app_module)
.await?;
}
let next_dynamic_imports = global_information
.get_next_dynamic_imports_for_endpoint(self.client_module())
.await?;
Some((next_dynamic_imports, client_availability_info))
} else {
None
};
let dynamic_import_entries = if let Some((
next_dynamic_imports,
client_availability_info,
)) = next_dynamic_imports
{
collect_next_dynamic_chunks(
self.client_module_graph(),
Vc::upcast(project.client_chunking_context()),
next_dynamic_imports,
NextDynamicChunkAvailability::AvailabilityInfo(client_availability_info),
)
.await?
} else {
DynamicImportedChunks::default().resolved_cell()
};
let chunking_context: Vc<Box<dyn ChunkingContext>> = match runtime {
NextRuntime::NodeJs => Vc::upcast(node_chunking_context),
NextRuntime::Edge => Vc::upcast(edge_chunking_context),
};
let mut current_chunks = OutputAssets::empty();
let mut current_availability_info = AvailabilityInfo::Root;
for layout in [document_module, app_module].iter().flatten().copied() {
let span = tracing::trace_span!(
"layout segment",
name = display(layout.ident().to_string().await?)
);
async {
let chunk_group = chunking_context
.chunk_group(
layout.ident(),
ChunkGroup::Shared(layout),
ssr_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?;
}
let ssr_module_evaluatable = ResolvedVc::try_sidecast(ssr_module)
.context("could not process page loader entry module")?;
let is_edge = matches!(runtime, NextRuntime::Edge);
if is_edge {
let edge_runtime_entries = edge_runtime_entries.await?;
let evaluatable_assets = edge_runtime_entries
.iter()
.map(|m| ResolvedVc::upcast(*m))
.chain(std::iter::once(ResolvedVc::upcast(ssr_module_evaluatable)));
let edge_files = edge_chunking_context.evaluated_chunk_group_assets(
ssr_module.ident(),
ChunkGroup::Entry(evaluatable_assets.collect()),
ssr_module_graph,
current_availability_info,
);
Ok(SsrChunk::Edge {
files: current_chunks.concatenate(edge_files).to_resolved().await?,
dynamic_import_entries,
regions: regions.clone(),
}
.cell())
} else {
let pathname = &this.pathname;
let asset_path = get_asset_path_from_pathname(pathname, ".js");
let ssr_entry_chunk_path_string = format!("pages{asset_path}");
let ssr_entry_chunk_path = node_path.join(&ssr_entry_chunk_path_string)?;
let ssr_entry_chunk = node_chunking_context
.entry_chunk_group_asset(
ssr_entry_chunk_path,
runtime_entries.with_entry(*ssr_module_evaluatable),
ssr_module_graph,
current_chunks,
current_availability_info,
)
.to_resolved()
.await?;
let server_asset_trace_file = if this
.pages_project
.project()
.next_mode()
.await?
.is_production()
{
let additional_assets = if emit_manifests == EmitManifests::Full {
self.react_loadable_manifest(*dynamic_import_entries, NextRuntime::NodeJs)
.await?
.iter()
.map(|m| **m)
.collect()
} else {
vec![]
};
ResolvedVc::cell(Some(ResolvedVc::upcast(
NftJsonAsset::new(
project,
Some(this.original_name.clone()),
*ssr_entry_chunk,
additional_assets,
)
.to_resolved()
.await?,
)))
} else {
ResolvedVc::cell(None)
};
Ok(SsrChunk::NodeJs {
entry: ssr_entry_chunk,
dynamic_import_entries,
server_asset_trace_file,
}
.cell())
}
}
.instrument(match ty {
SsrChunkType::Page => tracing::info_span!("page server side rendering"),
SsrChunkType::Data => tracing::info_span!("server side data"),
SsrChunkType::Api => tracing::info_span!("server side api"),
})
.await
}
#[turbo_tasks::function]
async fn ssr_chunk(self: Vc<Self>, emit_manifests: EmitManifests) -> Result<Vc<SsrChunk>> {
let this = self.await?;
let project = this.pages_project.project();
Ok(self.internal_ssr_chunk(
SsrChunkType::Page,
emit_manifests,
this.pages_project
.project()
.node_root()
.await?
.join("server")?,
project.server_chunking_context(true),
project.edge_chunking_context(true),
this.pages_project.ssr_runtime_entries(),
this.pages_project.edge_ssr_runtime_entries(),
))
}
#[turbo_tasks::function]
async fn ssr_data_chunk(self: Vc<Self>, emit_manifests: EmitManifests) -> Result<Vc<SsrChunk>> {
let this = self.await?;
Ok(self.internal_ssr_chunk(
SsrChunkType::Data,
emit_manifests,
this.pages_project
.project()
.node_root()
.await?
.join("server/data")?,
this.pages_project.project().server_chunking_context(true),
this.pages_project.project().edge_chunking_context(true),
this.pages_project.ssr_data_runtime_entries(),
this.pages_project.edge_ssr_data_runtime_entries(),
))
}
#[turbo_tasks::function]
async fn api_chunk(self: Vc<Self>, emit_manifests: EmitManifests) -> Result<Vc<SsrChunk>> {
let this = self.await?;
Ok(self.internal_ssr_chunk(
SsrChunkType::Api,
emit_manifests,
this.pages_project
.project()
.node_root()
.await?
.join("server")?,
this.pages_project.project().server_chunking_context(false),
this.pages_project.project().edge_chunking_context(false),
this.pages_project.ssr_runtime_entries(),
this.pages_project.edge_ssr_runtime_entries(),
))
}
#[turbo_tasks::function]
async fn pages_manifest(
&self,
entry_chunk: Vc<Box<dyn OutputAsset>>,
) -> Result<Vc<Box<dyn OutputAsset>>> {
let node_root = self.pages_project.project().node_root().await?;
let chunk_path = entry_chunk.path().await?;
let asset_path = node_root
.join("server")?
.get_path_to(&chunk_path)
.context("ssr chunk entry path must be inside the node root")?;
let pages_manifest = PagesManifest {
pages: [(self.pathname.clone(), asset_path.into())]
.into_iter()
.collect(),
};
let manifest_path_prefix = get_asset_prefix_from_pathname(&self.pathname);
let asset = Vc::upcast(VirtualOutputAsset::new(
node_root.join(&format!(
"server/pages{manifest_path_prefix}/pages-manifest.json",
))?,
AssetContent::file(File::from(serde_json::to_string_pretty(&pages_manifest)?).into()),
));
Ok(asset)
}
#[turbo_tasks::function]
async fn react_loadable_manifest(
&self,
dynamic_import_entries: Vc<DynamicImportedChunks>,
runtime: NextRuntime,
) -> Result<Vc<OutputAssets>> {
let node_root = self.pages_project.project().node_root().owned().await?;
let client_relative_path = self
.pages_project
.project()
.client_relative_path()
.owned()
.await?;
let loadable_path_prefix = get_asset_prefix_from_pathname(&self.pathname);
Ok(create_react_loadable_manifest(
dynamic_import_entries,
client_relative_path,
node_root.join(&format!(
"server/pages{loadable_path_prefix}/react-loadable-manifest",
))?,
runtime,
))
}
#[turbo_tasks::function]
async fn build_manifest(
&self,
client_chunks: ResolvedVc<OutputAssets>,
) -> Result<Vc<Box<dyn OutputAsset>>> {
let node_root = self.pages_project.project().node_root().owned().await?;
let client_relative_path = self
.pages_project
.project()
.client_relative_path()
.owned()
.await?;
let build_manifest = BuildManifest {
pages: fxindexmap!(self.pathname.clone() => client_chunks),
..Default::default()
};
let manifest_path_prefix = get_asset_prefix_from_pathname(&self.pathname);
Ok(Vc::upcast(
build_manifest
.build_output(
node_root.join(&format!(
"server/pages{manifest_path_prefix}/build-manifest.json",
))?,
client_relative_path,
)
.await?,
))
}
#[turbo_tasks::function]
async fn client_build_manifest(
self: Vc<Self>,
page_loader: ResolvedVc<Box<dyn OutputAsset>>,
) -> Result<Vc<Box<dyn OutputAsset>>> {
let this = self.await?;
let node_root = this.pages_project.project().node_root().await?;
let client_relative_path = this.pages_project.project().client_relative_path().await?;
let page_loader_path = client_relative_path
.get_relative_path_to(&*page_loader.path().await?)
.context("failed to resolve client-relative path to page loader")?;
let client_build_manifest = fxindexmap!(this.pathname.clone() => vec![page_loader_path]);
let manifest_path_prefix = get_asset_prefix_from_pathname(&this.pathname);
Ok(Vc::upcast(VirtualOutputAsset::new_with_references(
node_root.join(&format!(
"server/pages{manifest_path_prefix}/client-build-manifest.json",
))?,
AssetContent::file(
File::from(serde_json::to_string_pretty(&client_build_manifest)?).into(),
),
Vc::cell(vec![page_loader]),
)))
}
#[turbo_tasks::function]
async fn output(self: Vc<Self>) -> Result<Vc<PageEndpointOutput>> {
let this = self.await?;
let mut server_assets = vec![];
let mut client_assets = vec![];
let emit_manifests = match this.ty {
PageEndpointType::Html | PageEndpointType::SsrOnly => EmitManifests::Full,
PageEndpointType::Api => EmitManifests::Minimal,
PageEndpointType::Data => EmitManifests::None,
};
let ssr_chunk = match this.ty {
PageEndpointType::Html => {
let client_chunks = *self.client_chunks().await?.assets;
client_assets.extend(client_chunks.await?.iter().map(|asset| **asset));
let build_manifest = self.build_manifest(client_chunks).to_resolved().await?;
let page_loader = self.page_loader(client_chunks);
let client_build_manifest = self
.client_build_manifest(page_loader)
.to_resolved()
.await?;
client_assets.push(page_loader);
server_assets.push(build_manifest);
server_assets.push(client_build_manifest);
self.ssr_chunk(emit_manifests)
}
PageEndpointType::Data => self.ssr_data_chunk(emit_manifests),
PageEndpointType::Api => self.api_chunk(emit_manifests),
PageEndpointType::SsrOnly => self.ssr_chunk(emit_manifests),
};
let pathname = &this.pathname;
let original_name = &this.original_name;
let client_assets = OutputAssets::new(client_assets).to_resolved().await?;
let manifest_path_prefix = get_asset_prefix_from_pathname(pathname);
let node_root = this.pages_project.project().node_root().owned().await?;
if emit_manifests == EmitManifests::Full {
let next_font_manifest_output = create_font_manifest(
this.pages_project.project().client_root().owned().await?,
node_root.clone(),
this.pages_project.pages_dir().owned().await?,
original_name,
&manifest_path_prefix,
pathname,
*client_assets,
false,
)
.await?;
server_assets.push(next_font_manifest_output);
}
if *this
.pages_project
.project()
.should_create_webpack_stats()
.await?
{
let webpack_stats = generate_webpack_stats(
self.client_module_graph(),
original_name.to_owned(),
client_assets.await?.iter().copied(),
)
.await?;
let stats_output = VirtualOutputAsset::new(
node_root.join(&format!(
"server/pages{manifest_path_prefix}/webpack-stats.json",
))?,
AssetContent::file(
File::from(serde_json::to_string_pretty(&webpack_stats)?).into(),
),
)
.to_resolved()
.await?;
server_assets.push(ResolvedVc::upcast(stats_output));
}
let page_output = match *ssr_chunk.await? {
SsrChunk::NodeJs {
entry,
dynamic_import_entries,
server_asset_trace_file,
} => {
server_assets.push(entry);
if let Some(server_asset_trace_file) = &*server_asset_trace_file.await? {
server_assets.push(*server_asset_trace_file);
}
if emit_manifests != EmitManifests::None {
let pages_manifest = self.pages_manifest(*entry).to_resolved().await?;
server_assets.push(pages_manifest);
}
if emit_manifests == EmitManifests::Full {
let loadable_manifest_output =
self.react_loadable_manifest(*dynamic_import_entries, NextRuntime::NodeJs);
server_assets.extend(loadable_manifest_output.await?.iter().copied());
}
PageEndpointOutput::NodeJs {
entry_chunk: entry,
server_assets: ResolvedVc::cell(server_assets),
client_assets,
}
}
SsrChunk::Edge {
files,
dynamic_import_entries,
ref regions,
} => {
let node_root = this.pages_project.project().node_root().owned().await?;
if emit_manifests != EmitManifests::None {
// 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 = if emit_manifests == EmitManifests::Full {
fxindexset![
rcstr!("server/server-reference-manifest.js"),
rcstr!("server/middleware-build-manifest.js"),
rcstr!("server/next-font-manifest.js"),
]
} else {
fxindexset![]
};
let files_value = files.await?;
if let Some(&file) = files_value.first() {
let pages_manifest = self.pages_manifest(*file).to_resolved().await?;
server_assets.push(pages_manifest);
}
server_assets.extend(files_value.iter().copied());
file_paths_from_root
.extend(get_js_paths_from_root(&node_root, &files_value).await?);
if emit_manifests == EmitManifests::Full {
let loadable_manifest_output = self
.react_loadable_manifest(*dynamic_import_entries, NextRuntime::Edge)
.await?;
server_assets.extend(loadable_manifest_output.iter().copied());
file_paths_from_root.extend(
get_js_paths_from_root(&node_root, &loadable_manifest_output).await?,
);
}
let all_output_assets = all_assets_from_entries(*files).await?;
let mut wasm_paths_from_root = fxindexset![];
wasm_paths_from_root
.extend(get_wasm_paths_from_root(&node_root, &all_output_assets).await?);
let all_assets =
get_asset_paths_from_root(&node_root, &all_output_assets).await?;
let named_regex = get_named_middleware_regex(pathname).into();
let matchers = MiddlewareMatcher {
regexp: Some(named_regex),
original_source: pathname.clone(),
..Default::default()
};
let regions = if let Some(regions) = regions.as_ref() {
if regions.len() == 1 {
regions
.first()
.map(|region| Regions::Single(region.clone()))
} else {
Some(Regions::Multiple(regions.clone()))
}
} else {
None
};
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: pathname.clone(),
page: this.original_name.clone(),
regions,
matchers: vec![matchers],
env: this.pages_project.project().edge_env().owned().await?,
};
let middleware_manifest_v2 = MiddlewaresManifestV2 {
sorted_middleware: vec![pathname.clone()],
functions: [(pathname.clone(), edge_function_definition)]
.into_iter()
.collect(),
..Default::default()
};
let manifest_path_prefix = get_asset_prefix_from_pathname(&this.pathname);
let middleware_manifest_v2 = VirtualOutputAsset::new(
node_root.join(&format!(
"server/pages{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.push(ResolvedVc::upcast(middleware_manifest_v2));
}
PageEndpointOutput::Edge {
files,
server_assets: ResolvedVc::cell(server_assets),
client_assets,
}
}
};
Ok(page_output.cell())
}
#[turbo_tasks::function]
async fn client_relative_path(&self) -> Result<Vc<FileSystemPathOption>> {
Ok(Vc::cell(Some(
self.pages_project
.project()
.client_relative_path()
.owned()
.await?,
)))
}
}
#[turbo_tasks::value]
pub struct InternalSsrChunkModule {
pub ssr_module: ResolvedVc<Box<dyn Module>>,
pub app_module: Option<ResolvedVc<Box<dyn Module>>>,
pub document_module: Option<ResolvedVc<Box<dyn Module>>>,
pub runtime: NextRuntime,
pub regions: Option<Vec<RcStr>>,
}
#[turbo_tasks::value_impl]
impl Endpoint for PageEndpoint {
#[turbo_tasks::function]
async fn output(self: ResolvedVc<Self>) -> Result<Vc<EndpointOutput>> {
let this = &*self.await?;
let original_name = &this.original_name;
let span = {
match &this.ty {
PageEndpointType::Html => {
tracing::info_span!("page endpoint HTML", name = original_name.to_string())
}
PageEndpointType::Data => {
tracing::info_span!("page endpoint data", name = original_name.to_string())
}
PageEndpointType::Api => {
tracing::info_span!("page endpoint API", name = original_name.to_string())
}
PageEndpointType::SsrOnly => {
tracing::info_span!("page endpoint SSR", name = original_name.to_string())
}
}
};
async move {
let output = self.output().await?;
let output_assets = self.output().output_assets();
let node_root = this.pages_project.project().node_root().owned().await?;
let (server_paths, client_paths) = if this
.pages_project
.project()
.next_mode()
.await?
.is_development()
{
let server_paths = all_server_paths(output_assets, node_root.clone())
.owned()
.await?;
let client_relative_root = this
.pages_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 node_root = node_root.clone();
let written_endpoint = match *output {
PageEndpointOutput::NodeJs { entry_chunk, .. } => EndpointOutputPaths::NodeJs {
server_entry_path: node_root
.get_path_to(&*entry_chunk.path().await?)
.context("ssr chunk entry path must be inside the node root")?
.to_string(),
server_paths,
client_paths,
},
PageEndpointOutput::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.pages_project.project().to_resolved().await?,
}
.cell(),
)
}
.instrument(span)
.await
.with_context(|| format!("Failed to write page endpoint {}", *original_name))
}
#[turbo_tasks::function]
async fn server_changed(self: Vc<Self>) -> Result<Vc<Completion>> {
Ok(self
.await?
.pages_project
.project()
.server_changed(self.output().server_assets()))
}
#[turbo_tasks::function]
async fn client_changed(self: Vc<Self>) -> Result<Vc<Completion>> {
Ok(self
.await?
.pages_project
.project()
.client_changed(self.output().client_assets()))
}
#[turbo_tasks::function]
async fn entries(self: Vc<Self>) -> Result<Vc<GraphEntries>> {
let this = self.await?;
let ssr_chunk_module = self.internal_ssr_chunk_module().await?;
let shared_entries = [
ssr_chunk_module.document_module,
ssr_chunk_module.app_module,
];
let modules = shared_entries
.into_iter()
.flatten()
.map(ChunkGroupEntry::Shared)
.chain(std::iter::once(ChunkGroupEntry::Entry(vec![
ssr_chunk_module.ssr_module,
])))
.chain(if this.ty == PageEndpointType::Html {
Some(ChunkGroupEntry::Entry(
self.client_evaluatable_assets()
.await?
.iter()
.map(|m| ResolvedVc::upcast(*m))
.collect(),
))
.into_iter()
} else {
None.into_iter()
})
.collect::<Vec<_>>();
Ok(Vc::cell(modules))
}
#[turbo_tasks::function]
async fn module_graphs(self: Vc<Self>) -> Result<Vc<ModuleGraphs>> {
let client_module_graph = self.client_module_graph().to_resolved().await?;
let ssr_module_graph = self.ssr_module_graph().to_resolved().await?;
Ok(Vc::cell(vec![client_module_graph, ssr_module_graph]))
}
}
#[turbo_tasks::value]
enum PageEndpointOutput {
NodeJs {
entry_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 PageEndpointOutput {
#[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 {
PageEndpointOutput::NodeJs { server_assets, .. }
| PageEndpointOutput::Edge { server_assets, .. } => *server_assets,
}
}
#[turbo_tasks::function]
pub fn client_assets(&self) -> Vc<OutputAssets> {
match *self {
PageEndpointOutput::NodeJs { client_assets, .. }
| PageEndpointOutput::Edge { client_assets, .. } => *client_assets,
}
}
}
#[turbo_tasks::value]
pub enum SsrChunk {
NodeJs {
entry: ResolvedVc<Box<dyn OutputAsset>>,
dynamic_import_entries: ResolvedVc<DynamicImportedChunks>,
server_asset_trace_file: ResolvedVc<OptionOutputAsset>,
},
Edge {
files: ResolvedVc<OutputAssets>,
dynamic_import_entries: ResolvedVc<DynamicImportedChunks>,
regions: Option<Vec<RcStr>>,
},
}