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voyage/apps/public-web/node_modules/next/dist/server/app-render/manifests-singleton.js
PascalSchattenburg d147843c76 feat(blog): add file-based blog with dynamic slugs, MDX content and layout shell 
- Introduced blog routing using Next.js App Router
- Implemented dynamic [slug] pages for blog posts
- Added MDX-based content loading via lib/posts
- Integrated shared TopBar layout with navigation
- Established clear content, lib and component separation
2026-01-22 14:14:15 +01:00

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"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
0 && (module.exports = {
getClientReferenceManifest: null,
getServerActionsManifest: null,
getServerModuleMap: null,
selectWorkerForForwarding: null,
setManifestsSingleton: null
});
function _export(target, all) {
for(var name in all)Object.defineProperty(target, name, {
enumerable: true,
get: all[name]
});
}
_export(exports, {
getClientReferenceManifest: function() {
return getClientReferenceManifest;
},
getServerActionsManifest: function() {
return getServerActionsManifest;
},
getServerModuleMap: function() {
return getServerModuleMap;
},
selectWorkerForForwarding: function() {
return selectWorkerForForwarding;
},
setManifestsSingleton: function() {
return setManifestsSingleton;
}
});
const _invarianterror = require("../../shared/lib/invariant-error");
const _apppaths = require("../../shared/lib/router/utils/app-paths");
const _pathhasprefix = require("../../shared/lib/router/utils/path-has-prefix");
const _removepathprefix = require("../../shared/lib/router/utils/remove-path-prefix");
const _workasyncstorageexternal = require("./work-async-storage.external");
// This is a global singleton that is, among other things, also used to
// encode/decode bound args of server function closures. This can't be using a
// AsyncLocalStorage as it might happen at the module level.
const MANIFESTS_SINGLETON = Symbol.for('next.server.manifests');
const globalThisWithManifests = globalThis;
function createProxiedClientReferenceManifest(clientReferenceManifestsPerRoute) {
const createMappingProxy = (prop)=>{
return new Proxy({}, {
get (_, id) {
const workStore = _workasyncstorageexternal.workAsyncStorage.getStore();
if (workStore) {
const currentManifest = clientReferenceManifestsPerRoute.get(workStore.route);
if (currentManifest == null ? void 0 : currentManifest[prop][id]) {
return currentManifest[prop][id];
}
// In development, we also check all other manifests to see if the
// module exists there. This is to support a scenario where React's
// I/O tracking (dev-only) creates a connection from one page to
// another through an emitted async I/O node that references client
// components from the other page, e.g. in owner props.
// TODO: Maybe we need to add a `debugBundlerConfig` option to React
// to avoid this workaround. The current workaround has the
// disadvantage that one might accidentally or intentionally share
// client references across pages (e.g. by storing them in a global
// variable), which would then only be caught in production.
if (process.env.NODE_ENV !== 'production') {
for (const [route, manifest] of clientReferenceManifestsPerRoute){
if (route === workStore.route) {
continue;
}
const entry = manifest[prop][id];
if (entry !== undefined) {
return entry;
}
}
}
} else {
// If there's no work store defined, we can assume that a client
// reference manifest is needed during module evaluation, e.g. to
// create a server function using a higher-order function. This
// might also use client components which need to be serialized by
// Flight, and therefore client references need to be resolvable. In
// that case we search all page manifests to find the module.
for (const manifest of clientReferenceManifestsPerRoute.values()){
const entry = manifest[prop][id];
if (entry !== undefined) {
return entry;
}
}
}
return undefined;
}
});
};
const mappingProxies = new Map();
return new Proxy({}, {
get (_, prop) {
const workStore = _workasyncstorageexternal.workAsyncStorage.getStore();
switch(prop){
case 'moduleLoading':
case 'entryCSSFiles':
case 'entryJSFiles':
{
if (!workStore) {
throw Object.defineProperty(new _invarianterror.InvariantError(`Cannot access "${prop}" without a work store.`), "__NEXT_ERROR_CODE", {
value: "E952",
enumerable: false,
configurable: true
});
}
const currentManifest = clientReferenceManifestsPerRoute.get(workStore.route);
if (!currentManifest) {
throw Object.defineProperty(new _invarianterror.InvariantError(`The client reference manifest for route "${workStore.route}" does not exist.`), "__NEXT_ERROR_CODE", {
value: "E951",
enumerable: false,
configurable: true
});
}
return currentManifest[prop];
}
case 'clientModules':
case 'rscModuleMapping':
case 'edgeRscModuleMapping':
case 'ssrModuleMapping':
case 'edgeSSRModuleMapping':
{
let proxy = mappingProxies.get(prop);
if (!proxy) {
proxy = createMappingProxy(prop);
mappingProxies.set(prop, proxy);
}
return proxy;
}
default:
{
throw Object.defineProperty(new _invarianterror.InvariantError(`This is a proxied client reference manifest. The property "${String(prop)}" is not handled.`), "__NEXT_ERROR_CODE", {
value: "E953",
enumerable: false,
configurable: true
});
}
}
}
});
}
/**
* This function creates a Flight-acceptable server module map proxy from our
* Server Reference Manifest similar to our client module map. This is because
* our manifest contains a lot of internal Next.js data that are relevant to the
* runtime, workers, etc. that React doesn't need to know.
*/ function createServerModuleMap() {
return new Proxy({}, {
get: (_, id)=>{
var _getServerActionsManifest__id, _getServerActionsManifest_;
const workers = (_getServerActionsManifest_ = getServerActionsManifest()[process.env.NEXT_RUNTIME === 'edge' ? 'edge' : 'node']) == null ? void 0 : (_getServerActionsManifest__id = _getServerActionsManifest_[id]) == null ? void 0 : _getServerActionsManifest__id.workers;
if (!workers) {
return undefined;
}
const workStore = _workasyncstorageexternal.workAsyncStorage.getStore();
let workerEntry;
if (workStore) {
workerEntry = workers[normalizeWorkerPageName(workStore.page)];
} else {
// If there's no work store defined, we can assume that a server
// module map is needed during module evaluation, e.g. to create a
// server action using a higher-order function. Therefore it should be
// safe to return any entry from the manifest that matches the action
// ID. They all refer to the same module ID, which must also exist in
// the current page bundle. TODO: This is currently not guaranteed in
// Turbopack, and needs to be fixed.
workerEntry = Object.values(workers).at(0);
}
if (!workerEntry) {
return undefined;
}
const { moduleId, async } = workerEntry;
return {
id: moduleId,
name: id,
chunks: [],
async
};
}
});
}
/**
* The flight entry loader keys actions by bundlePath. bundlePath corresponds
* with the relative path (including 'app') to the page entrypoint.
*/ function normalizeWorkerPageName(pageName) {
if ((0, _pathhasprefix.pathHasPrefix)(pageName, 'app')) {
return pageName;
}
return 'app' + pageName;
}
/**
* Converts a bundlePath (relative path to the entrypoint) to a routable page
* name.
*/ function denormalizeWorkerPageName(bundlePath) {
return (0, _apppaths.normalizeAppPath)((0, _removepathprefix.removePathPrefix)(bundlePath, 'app'));
}
function selectWorkerForForwarding(actionId, pageName) {
var _serverActionsManifest__actionId;
const serverActionsManifest = getServerActionsManifest();
const workers = (_serverActionsManifest__actionId = serverActionsManifest[process.env.NEXT_RUNTIME === 'edge' ? 'edge' : 'node'][actionId]) == null ? void 0 : _serverActionsManifest__actionId.workers;
// There are no workers to handle this action, nothing to forward to.
if (!workers) {
return;
}
// If there is an entry for the current page, we don't need to forward.
if (workers[normalizeWorkerPageName(pageName)]) {
return;
}
// Otherwise, grab the first worker that has a handler for this action id.
return denormalizeWorkerPageName(Object.keys(workers)[0]);
}
function setManifestsSingleton({ page, clientReferenceManifest, serverActionsManifest }) {
const existingSingleton = globalThisWithManifests[MANIFESTS_SINGLETON];
if (existingSingleton) {
existingSingleton.clientReferenceManifestsPerRoute.set((0, _apppaths.normalizeAppPath)(page), clientReferenceManifest);
existingSingleton.serverActionsManifest = serverActionsManifest;
} else {
const clientReferenceManifestsPerRoute = new Map([
[
(0, _apppaths.normalizeAppPath)(page),
clientReferenceManifest
]
]);
const proxiedClientReferenceManifest = createProxiedClientReferenceManifest(clientReferenceManifestsPerRoute);
globalThisWithManifests[MANIFESTS_SINGLETON] = {
clientReferenceManifestsPerRoute,
proxiedClientReferenceManifest,
serverActionsManifest,
serverModuleMap: createServerModuleMap()
};
}
}
function getManifestsSingleton() {
const manifestSingleton = globalThisWithManifests[MANIFESTS_SINGLETON];
if (!manifestSingleton) {
throw Object.defineProperty(new _invarianterror.InvariantError('The manifests singleton was not initialized.'), "__NEXT_ERROR_CODE", {
value: "E950",
enumerable: false,
configurable: true
});
}
return manifestSingleton;
}
function getClientReferenceManifest() {
return getManifestsSingleton().proxiedClientReferenceManifest;
}
function getServerActionsManifest() {
return getManifestsSingleton().serverActionsManifest;
}
function getServerModuleMap() {
return getManifestsSingleton().serverModuleMap;
}
//# sourceMappingURL=manifests-singleton.js.map
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