"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); 0 && (module.exports = { createParamsFromClient: null, createPrerenderParamsForClientSegment: null, createServerParamsForMetadata: null, createServerParamsForRoute: null, createServerParamsForServerSegment: null }); function _export(target, all) { for(var name in all)Object.defineProperty(target, name, { enumerable: true, get: all[name] }); } _export(exports, { createParamsFromClient: function() { return createParamsFromClient; }, createPrerenderParamsForClientSegment: function() { return createPrerenderParamsForClientSegment; }, createServerParamsForMetadata: function() { return createServerParamsForMetadata; }, createServerParamsForRoute: function() { return createServerParamsForRoute; }, createServerParamsForServerSegment: function() { return createServerParamsForServerSegment; } }); const _workasyncstorageexternal = require("../app-render/work-async-storage.external"); const _reflect = require("../web/spec-extension/adapters/reflect"); const _dynamicrendering = require("../app-render/dynamic-rendering"); const _workunitasyncstorageexternal = require("../app-render/work-unit-async-storage.external"); const _invarianterror = require("../../shared/lib/invariant-error"); const _reflectutils = require("../../shared/lib/utils/reflect-utils"); const _dynamicrenderingutils = require("../dynamic-rendering-utils"); const _creatededupedbycallsiteservererrorlogger = require("../create-deduped-by-callsite-server-error-logger"); const _dynamicaccessasyncstorageexternal = require("../app-render/dynamic-access-async-storage.external"); function createParamsFromClient(underlyingParams, workStore) { const workUnitStore = _workunitasyncstorageexternal.workUnitAsyncStorage.getStore(); if (workUnitStore) { switch(workUnitStore.type){ case 'prerender': case 'prerender-client': case 'prerender-ppr': case 'prerender-legacy': return createStaticPrerenderParams(underlyingParams, workStore, workUnitStore); case 'cache': case 'private-cache': case 'unstable-cache': throw Object.defineProperty(new _invarianterror.InvariantError('createParamsFromClient should not be called in cache contexts.'), "__NEXT_ERROR_CODE", { value: "E736", enumerable: false, configurable: true }); case 'prerender-runtime': throw Object.defineProperty(new _invarianterror.InvariantError('createParamsFromClient should not be called in a runtime prerender.'), "__NEXT_ERROR_CODE", { value: "E770", enumerable: false, configurable: true }); case 'request': if (process.env.NODE_ENV === 'development') { // Semantically we only need the dev tracking when running in `next dev` // but since you would never use next dev with production NODE_ENV we use this // as a proxy so we can statically exclude this code from production builds. const devFallbackParams = workUnitStore.devFallbackParams; return createRenderParamsInDev(underlyingParams, devFallbackParams, workStore); } else { return createRenderParamsInProd(underlyingParams); } default: workUnitStore; } } (0, _workunitasyncstorageexternal.throwInvariantForMissingStore)(); } const createServerParamsForMetadata = createServerParamsForServerSegment; function createServerParamsForRoute(underlyingParams, workStore) { const workUnitStore = _workunitasyncstorageexternal.workUnitAsyncStorage.getStore(); if (workUnitStore) { switch(workUnitStore.type){ case 'prerender': case 'prerender-client': case 'prerender-ppr': case 'prerender-legacy': return createStaticPrerenderParams(underlyingParams, workStore, workUnitStore); case 'cache': case 'private-cache': case 'unstable-cache': throw Object.defineProperty(new _invarianterror.InvariantError('createServerParamsForRoute should not be called in cache contexts.'), "__NEXT_ERROR_CODE", { value: "E738", enumerable: false, configurable: true }); case 'prerender-runtime': return createRuntimePrerenderParams(underlyingParams, workUnitStore); case 'request': if (process.env.NODE_ENV === 'development') { // Semantically we only need the dev tracking when running in `next dev` // but since you would never use next dev with production NODE_ENV we use this // as a proxy so we can statically exclude this code from production builds. const devFallbackParams = workUnitStore.devFallbackParams; return createRenderParamsInDev(underlyingParams, devFallbackParams, workStore); } else { return createRenderParamsInProd(underlyingParams); } default: workUnitStore; } } (0, _workunitasyncstorageexternal.throwInvariantForMissingStore)(); } function createServerParamsForServerSegment(underlyingParams, workStore) { const workUnitStore = _workunitasyncstorageexternal.workUnitAsyncStorage.getStore(); if (workUnitStore) { switch(workUnitStore.type){ case 'prerender': case 'prerender-client': case 'prerender-ppr': case 'prerender-legacy': return createStaticPrerenderParams(underlyingParams, workStore, workUnitStore); case 'cache': case 'private-cache': case 'unstable-cache': throw Object.defineProperty(new _invarianterror.InvariantError('createServerParamsForServerSegment should not be called in cache contexts.'), "__NEXT_ERROR_CODE", { value: "E743", enumerable: false, configurable: true }); case 'prerender-runtime': return createRuntimePrerenderParams(underlyingParams, workUnitStore); case 'request': if (process.env.NODE_ENV === 'development') { // Semantically we only need the dev tracking when running in `next dev` // but since you would never use next dev with production NODE_ENV we use this // as a proxy so we can statically exclude this code from production builds. const devFallbackParams = workUnitStore.devFallbackParams; return createRenderParamsInDev(underlyingParams, devFallbackParams, workStore); } else { return createRenderParamsInProd(underlyingParams); } default: workUnitStore; } } (0, _workunitasyncstorageexternal.throwInvariantForMissingStore)(); } function createPrerenderParamsForClientSegment(underlyingParams) { const workStore = _workasyncstorageexternal.workAsyncStorage.getStore(); if (!workStore) { throw Object.defineProperty(new _invarianterror.InvariantError('Missing workStore in createPrerenderParamsForClientSegment'), "__NEXT_ERROR_CODE", { value: "E773", enumerable: false, configurable: true }); } const workUnitStore = _workunitasyncstorageexternal.workUnitAsyncStorage.getStore(); if (workUnitStore) { switch(workUnitStore.type){ case 'prerender': case 'prerender-client': const fallbackParams = workUnitStore.fallbackRouteParams; if (fallbackParams) { for(let key in underlyingParams){ if (fallbackParams.has(key)) { // This params object has one or more fallback params, so we need // to consider the awaiting of this params object "dynamic". Since // we are in cacheComponents mode we encode this as a promise that never // resolves. return (0, _dynamicrenderingutils.makeHangingPromise)(workUnitStore.renderSignal, workStore.route, '`params`'); } } } break; case 'cache': case 'private-cache': case 'unstable-cache': throw Object.defineProperty(new _invarianterror.InvariantError('createPrerenderParamsForClientSegment should not be called in cache contexts.'), "__NEXT_ERROR_CODE", { value: "E734", enumerable: false, configurable: true }); case 'prerender-ppr': case 'prerender-legacy': case 'prerender-runtime': case 'request': break; default: workUnitStore; } } // We're prerendering in a mode that does not abort. We resolve the promise without // any tracking because we're just transporting a value from server to client where the tracking // will be applied. return Promise.resolve(underlyingParams); } function createStaticPrerenderParams(underlyingParams, workStore, prerenderStore) { switch(prerenderStore.type){ case 'prerender': case 'prerender-client': { const fallbackParams = prerenderStore.fallbackRouteParams; if (fallbackParams) { for(const key in underlyingParams){ if (fallbackParams.has(key)) { // This params object has one or more fallback params, so we need // to consider the awaiting of this params object "dynamic". Since // we are in cacheComponents mode we encode this as a promise that never // resolves. return makeHangingParams(underlyingParams, workStore, prerenderStore); } } } break; } case 'prerender-ppr': { const fallbackParams = prerenderStore.fallbackRouteParams; if (fallbackParams) { for(const key in underlyingParams){ if (fallbackParams.has(key)) { return makeErroringExoticParams(underlyingParams, fallbackParams, workStore, prerenderStore); } } } break; } case 'prerender-legacy': break; default: prerenderStore; } if (process.env.__NEXT_CACHE_COMPONENTS) { return makeUntrackedParams(underlyingParams); } else { return makeUntrackedExoticParams(underlyingParams); } } function createRuntimePrerenderParams(underlyingParams, workUnitStore) { return (0, _dynamicrendering.delayUntilRuntimeStage)(workUnitStore, process.env.__NEXT_CACHE_COMPONENTS ? makeUntrackedParams(underlyingParams) : makeUntrackedExoticParams(underlyingParams)); } function createRenderParamsInProd(underlyingParams) { if (process.env.__NEXT_CACHE_COMPONENTS) { return makeUntrackedParams(underlyingParams); } return makeUntrackedExoticParams(underlyingParams); } function createRenderParamsInDev(underlyingParams, devFallbackParams, workStore) { let hasFallbackParams = false; if (devFallbackParams) { for(let key in underlyingParams){ if (devFallbackParams.has(key)) { hasFallbackParams = true; break; } } } if (process.env.__NEXT_CACHE_COMPONENTS) { return makeDynamicallyTrackedParamsWithDevWarnings(underlyingParams, hasFallbackParams, workStore); } return makeDynamicallyTrackedExoticParamsWithDevWarnings(underlyingParams, hasFallbackParams, workStore); } const CachedParams = new WeakMap(); const fallbackParamsProxyHandler = { get: function get(target, prop, receiver) { if (prop === 'then' || prop === 'catch' || prop === 'finally') { const originalMethod = _reflect.ReflectAdapter.get(target, prop, receiver); return ({ [prop]: (...args)=>{ const store = _dynamicaccessasyncstorageexternal.dynamicAccessAsyncStorage.getStore(); if (store) { store.abortController.abort(Object.defineProperty(new Error(`Accessed fallback \`params\` during prerendering.`), "__NEXT_ERROR_CODE", { value: "E691", enumerable: false, configurable: true })); } return new Proxy(originalMethod.apply(target, args), fallbackParamsProxyHandler); } })[prop]; } return _reflect.ReflectAdapter.get(target, prop, receiver); } }; function makeHangingParams(underlyingParams, workStore, prerenderStore) { const cachedParams = CachedParams.get(underlyingParams); if (cachedParams) { return cachedParams; } const promise = new Proxy((0, _dynamicrenderingutils.makeHangingPromise)(prerenderStore.renderSignal, workStore.route, '`params`'), fallbackParamsProxyHandler); CachedParams.set(underlyingParams, promise); return promise; } function makeErroringExoticParams(underlyingParams, fallbackParams, workStore, prerenderStore) { const cachedParams = CachedParams.get(underlyingParams); if (cachedParams) { return cachedParams; } const augmentedUnderlying = { ...underlyingParams }; // We don't use makeResolvedReactPromise here because params // supports copying with spread and we don't want to unnecessarily // instrument the promise with spreadable properties of ReactPromise. const promise = Promise.resolve(augmentedUnderlying); CachedParams.set(underlyingParams, promise); Object.keys(underlyingParams).forEach((prop)=>{ if (_reflectutils.wellKnownProperties.has(prop)) { // These properties cannot be shadowed because they need to be the // true underlying value for Promises to work correctly at runtime } else { if (fallbackParams.has(prop)) { Object.defineProperty(augmentedUnderlying, prop, { get () { const expression = (0, _reflectutils.describeStringPropertyAccess)('params', prop); // In most dynamic APIs we also throw if `dynamic = "error"` however // for params is only dynamic when we're generating a fallback shell // and even when `dynamic = "error"` we still support generating dynamic // fallback shells // TODO remove this comment when cacheComponents is the default since there // will be no `dynamic = "error"` if (prerenderStore.type === 'prerender-ppr') { // PPR Prerender (no cacheComponents) (0, _dynamicrendering.postponeWithTracking)(workStore.route, expression, prerenderStore.dynamicTracking); } else { // Legacy Prerender (0, _dynamicrendering.throwToInterruptStaticGeneration)(expression, workStore, prerenderStore); } }, enumerable: true }); Object.defineProperty(promise, prop, { get () { const expression = (0, _reflectutils.describeStringPropertyAccess)('params', prop); // In most dynamic APIs we also throw if `dynamic = "error"` however // for params is only dynamic when we're generating a fallback shell // and even when `dynamic = "error"` we still support generating dynamic // fallback shells // TODO remove this comment when cacheComponents is the default since there // will be no `dynamic = "error"` if (prerenderStore.type === 'prerender-ppr') { // PPR Prerender (no cacheComponents) (0, _dynamicrendering.postponeWithTracking)(workStore.route, expression, prerenderStore.dynamicTracking); } else { // Legacy Prerender (0, _dynamicrendering.throwToInterruptStaticGeneration)(expression, workStore, prerenderStore); } }, set (newValue) { Object.defineProperty(promise, prop, { value: newValue, writable: true, enumerable: true }); }, enumerable: true, configurable: true }); } else { ; promise[prop] = underlyingParams[prop]; } } }); return promise; } function makeUntrackedExoticParams(underlyingParams) { const cachedParams = CachedParams.get(underlyingParams); if (cachedParams) { return cachedParams; } // We don't use makeResolvedReactPromise here because params // supports copying with spread and we don't want to unnecessarily // instrument the promise with spreadable properties of ReactPromise. const promise = Promise.resolve(underlyingParams); CachedParams.set(underlyingParams, promise); Object.keys(underlyingParams).forEach((prop)=>{ if (_reflectutils.wellKnownProperties.has(prop)) { // These properties cannot be shadowed because they need to be the // true underlying value for Promises to work correctly at runtime } else { ; promise[prop] = underlyingParams[prop]; } }); return promise; } function makeUntrackedParams(underlyingParams) { const cachedParams = CachedParams.get(underlyingParams); if (cachedParams) { return cachedParams; } const promise = Promise.resolve(underlyingParams); CachedParams.set(underlyingParams, promise); return promise; } function makeDynamicallyTrackedExoticParamsWithDevWarnings(underlyingParams, hasFallbackParams, store) { const cachedParams = CachedParams.get(underlyingParams); if (cachedParams) { return cachedParams; } // We don't use makeResolvedReactPromise here because params // supports copying with spread and we don't want to unnecessarily // instrument the promise with spreadable properties of ReactPromise. const promise = hasFallbackParams ? (0, _dynamicrenderingutils.makeDevtoolsIOAwarePromise)(underlyingParams) : Promise.resolve(underlyingParams); const proxiedProperties = new Set(); const unproxiedProperties = []; Object.keys(underlyingParams).forEach((prop)=>{ if (_reflectutils.wellKnownProperties.has(prop)) { // These properties cannot be shadowed because they need to be the // true underlying value for Promises to work correctly at runtime unproxiedProperties.push(prop); } else { proxiedProperties.add(prop); promise[prop] = underlyingParams[prop]; } }); const proxiedPromise = new Proxy(promise, { get (target, prop, receiver) { if (typeof prop === 'string') { if (// We are accessing a property that was proxied to the promise instance proxiedProperties.has(prop)) { const expression = (0, _reflectutils.describeStringPropertyAccess)('params', prop); syncIODev(store.route, expression); } } return _reflect.ReflectAdapter.get(target, prop, receiver); }, set (target, prop, value, receiver) { if (typeof prop === 'string') { proxiedProperties.delete(prop); } return _reflect.ReflectAdapter.set(target, prop, value, receiver); }, ownKeys (target) { const expression = '`...params` or similar expression'; syncIODev(store.route, expression, unproxiedProperties); return Reflect.ownKeys(target); } }); CachedParams.set(underlyingParams, proxiedPromise); return proxiedPromise; } // Similar to `makeDynamicallyTrackedExoticParamsWithDevWarnings`, but just // logging the sync access without actually defining the params on the promise. function makeDynamicallyTrackedParamsWithDevWarnings(underlyingParams, hasFallbackParams, store) { const cachedParams = CachedParams.get(underlyingParams); if (cachedParams) { return cachedParams; } // We don't use makeResolvedReactPromise here because params // supports copying with spread and we don't want to unnecessarily // instrument the promise with spreadable properties of ReactPromise. const promise = hasFallbackParams ? (0, _dynamicrenderingutils.makeDevtoolsIOAwarePromise)(underlyingParams) : Promise.resolve(underlyingParams); const proxiedProperties = new Set(); const unproxiedProperties = []; Object.keys(underlyingParams).forEach((prop)=>{ if (_reflectutils.wellKnownProperties.has(prop)) { // These properties cannot be shadowed because they need to be the // true underlying value for Promises to work correctly at runtime unproxiedProperties.push(prop); } else { proxiedProperties.add(prop); } }); const proxiedPromise = new Proxy(promise, { get (target, prop, receiver) { if (typeof prop === 'string') { if (// We are accessing a property that was proxied to the promise instance proxiedProperties.has(prop)) { const expression = (0, _reflectutils.describeStringPropertyAccess)('params', prop); warnForSyncAccess(store.route, expression); } } return _reflect.ReflectAdapter.get(target, prop, receiver); }, set (target, prop, value, receiver) { if (typeof prop === 'string') { proxiedProperties.delete(prop); } return _reflect.ReflectAdapter.set(target, prop, value, receiver); }, ownKeys (target) { const expression = '`...params` or similar expression'; warnForIncompleteEnumeration(store.route, expression, unproxiedProperties); return Reflect.ownKeys(target); } }); CachedParams.set(underlyingParams, proxiedPromise); return proxiedPromise; } function syncIODev(route, expression, missingProperties) { const workUnitStore = _workunitasyncstorageexternal.workUnitAsyncStorage.getStore(); if (workUnitStore) { switch(workUnitStore.type){ case 'request': if (workUnitStore.prerenderPhase === true) { // When we're rendering dynamically in dev, we need to advance out of // the Prerender environment when we read Request data synchronously. (0, _dynamicrendering.trackSynchronousRequestDataAccessInDev)(workUnitStore); } break; case 'prerender': case 'prerender-client': case 'prerender-runtime': case 'prerender-ppr': case 'prerender-legacy': case 'cache': case 'private-cache': case 'unstable-cache': break; default: workUnitStore; } } // In all cases we warn normally if (missingProperties && missingProperties.length > 0) { warnForIncompleteEnumeration(route, expression, missingProperties); } else { warnForSyncAccess(route, expression); } } const warnForSyncAccess = (0, _creatededupedbycallsiteservererrorlogger.createDedupedByCallsiteServerErrorLoggerDev)(createParamsAccessError); const warnForIncompleteEnumeration = (0, _creatededupedbycallsiteservererrorlogger.createDedupedByCallsiteServerErrorLoggerDev)(createIncompleteEnumerationError); function createParamsAccessError(route, expression) { const prefix = route ? `Route "${route}" ` : 'This route '; return Object.defineProperty(new Error(`${prefix}used ${expression}. ` + `\`params\` should be awaited before using its properties. ` + `Learn more: https://nextjs.org/docs/messages/sync-dynamic-apis`), "__NEXT_ERROR_CODE", { value: "E307", enumerable: false, configurable: true }); } function createIncompleteEnumerationError(route, expression, missingProperties) { const prefix = route ? `Route "${route}" ` : 'This route '; return Object.defineProperty(new Error(`${prefix}used ${expression}. ` + `\`params\` should be awaited before using its properties. ` + `The following properties were not available through enumeration ` + `because they conflict with builtin property names: ` + `${describeListOfPropertyNames(missingProperties)}. ` + `Learn more: https://nextjs.org/docs/messages/sync-dynamic-apis`), "__NEXT_ERROR_CODE", { value: "E482", enumerable: false, configurable: true }); } function describeListOfPropertyNames(properties) { switch(properties.length){ case 0: throw Object.defineProperty(new _invarianterror.InvariantError('Expected describeListOfPropertyNames to be called with a non-empty list of strings.'), "__NEXT_ERROR_CODE", { value: "E531", enumerable: false, configurable: true }); case 1: return `\`${properties[0]}\``; case 2: return `\`${properties[0]}\` and \`${properties[1]}\``; default: { let description = ''; for(let i = 0; i < properties.length - 1; i++){ description += `\`${properties[i]}\`, `; } description += `, and \`${properties[properties.length - 1]}\``; return description; } } } //# sourceMappingURL=params.js.map