"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); 0 && (module.exports = { collectMetadata: null, resolveMetadataItems: null, accumulateMetadata: null, accumulateViewport: null, resolveMetadata: null }); function _export(target, all) { for(var name in all)Object.defineProperty(target, name, { enumerable: true, get: all[name] }); } _export(exports, { collectMetadata: function() { return collectMetadata; }, resolveMetadataItems: function() { return resolveMetadataItems; }, accumulateMetadata: function() { return accumulateMetadata; }, accumulateViewport: function() { return accumulateViewport; }, resolveMetadata: function() { return resolveMetadata; } }); const _defaultmetadata = require("./default-metadata"); const _resolveopengraph = require("./resolvers/resolve-opengraph"); const _resolvetitle = require("./resolvers/resolve-title"); const _utils = require("./generate/utils"); const _clientreference = require("../client-reference"); const _appdirmodule = require("../../server/lib/app-dir-module"); const _interopdefault = require("../interop-default"); const _resolvebasics = require("./resolvers/resolve-basics"); const _resolveicons = require("./resolvers/resolve-icons"); const _tracer = require("../../server/lib/trace/tracer"); const _constants = require("../../server/lib/trace/constants"); const _segment = require("../../shared/lib/segment"); const _log = /*#__PURE__*/ _interop_require_wildcard(require("../../build/output/log")); function _getRequireWildcardCache(nodeInterop) { if (typeof WeakMap !== "function") return null; var cacheBabelInterop = new WeakMap(); var cacheNodeInterop = new WeakMap(); return (_getRequireWildcardCache = function(nodeInterop) { return nodeInterop ? cacheNodeInterop : cacheBabelInterop; })(nodeInterop); } function _interop_require_wildcard(obj, nodeInterop) { if (!nodeInterop && obj && obj.__esModule) { return obj; } if (obj === null || typeof obj !== "object" && typeof obj !== "function") { return { default: obj }; } var cache = _getRequireWildcardCache(nodeInterop); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for(var key in obj){ if (key !== "default" && Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; } function hasIconsProperty(icons, prop) { if (!icons) return false; if (prop === "icon") { // Detect if icons.icon will be presented, icons array and icons string will all be merged into icons.icon return !!(typeof icons === "string" || icons instanceof URL || Array.isArray(icons) || prop in icons && icons[prop]); } else { // Detect if icons.apple will be presented, only icons.apple will be merged into icons.apple return !!(typeof icons === "object" && prop in icons && icons[prop]); } } function mergeStaticMetadata(source, target, staticFilesMetadata, metadataContext, titleTemplates) { var _source_twitter, _source_openGraph; if (!staticFilesMetadata) return; const { icon, apple, openGraph, twitter, manifest } = staticFilesMetadata; // file based metadata is specified and current level metadata icons is not specified if (icon && !hasIconsProperty(source == null ? void 0 : source.icons, "icon") || apple && !hasIconsProperty(source == null ? void 0 : source.icons, "apple")) { target.icons = { icon: icon || [], apple: apple || [] }; } // file based metadata is specified and current level metadata twitter.images is not specified if (twitter && !(source == null ? void 0 : (_source_twitter = source.twitter) == null ? void 0 : _source_twitter.hasOwnProperty("images"))) { const resolvedTwitter = (0, _resolveopengraph.resolveTwitter)({ ...target.twitter, images: twitter }, target.metadataBase, titleTemplates.twitter); target.twitter = resolvedTwitter; } // file based metadata is specified and current level metadata openGraph.images is not specified if (openGraph && !(source == null ? void 0 : (_source_openGraph = source.openGraph) == null ? void 0 : _source_openGraph.hasOwnProperty("images"))) { const resolvedOpenGraph = (0, _resolveopengraph.resolveOpenGraph)({ ...target.openGraph, images: openGraph }, target.metadataBase, metadataContext, titleTemplates.openGraph); target.openGraph = resolvedOpenGraph; } if (manifest) { target.manifest = manifest; } return target; } // Merge the source metadata into the resolved target metadata. function mergeMetadata({ source, target, staticFilesMetadata, titleTemplates, metadataContext, buildState }) { // If there's override metadata, prefer it otherwise fallback to the default metadata. const metadataBase = typeof (source == null ? void 0 : source.metadataBase) !== "undefined" ? source.metadataBase : target.metadataBase; for(const key_ in source){ const key = key_; switch(key){ case "title": { target.title = (0, _resolvetitle.resolveTitle)(source.title, titleTemplates.title); break; } case "alternates": { target.alternates = (0, _resolvebasics.resolveAlternates)(source.alternates, metadataBase, metadataContext); break; } case "openGraph": { target.openGraph = (0, _resolveopengraph.resolveOpenGraph)(source.openGraph, metadataBase, metadataContext, titleTemplates.openGraph); break; } case "twitter": { target.twitter = (0, _resolveopengraph.resolveTwitter)(source.twitter, metadataBase, titleTemplates.twitter); break; } case "verification": target.verification = (0, _resolvebasics.resolveVerification)(source.verification); break; case "icons": { target.icons = (0, _resolveicons.resolveIcons)(source.icons); break; } case "appleWebApp": target.appleWebApp = (0, _resolvebasics.resolveAppleWebApp)(source.appleWebApp); break; case "appLinks": target.appLinks = (0, _resolvebasics.resolveAppLinks)(source.appLinks); break; case "robots": { target.robots = (0, _resolvebasics.resolveRobots)(source.robots); break; } case "archives": case "assets": case "bookmarks": case "keywords": { target[key] = (0, _utils.resolveAsArrayOrUndefined)(source[key]); break; } case "authors": { target[key] = (0, _utils.resolveAsArrayOrUndefined)(source.authors); break; } case "itunes": { target[key] = (0, _resolvebasics.resolveItunes)(source.itunes, metadataBase, metadataContext); break; } // directly assign fields that fallback to null case "applicationName": case "description": case "generator": case "creator": case "publisher": case "category": case "classification": case "referrer": case "formatDetection": case "manifest": // @ts-ignore TODO: support inferring target[key] = source[key] || null; break; case "other": target.other = Object.assign({}, target.other, source.other); break; case "metadataBase": target.metadataBase = metadataBase; break; default: { if (key === "viewport" || key === "themeColor" || key === "colorScheme") { buildState.warnings.add(`Unsupported metadata ${key} is configured in metadata export in ${metadataContext.pathname}. Please move it to viewport export instead.\nRead more: https://nextjs.org/docs/app/api-reference/functions/generate-viewport`); } break; } } } mergeStaticMetadata(source, target, staticFilesMetadata, metadataContext, titleTemplates); } function mergeViewport({ target, source }) { if (!source) return; for(const key_ in source){ const key = key_; switch(key){ case "themeColor": { target.themeColor = (0, _resolvebasics.resolveThemeColor)(source.themeColor); break; } case "colorScheme": target.colorScheme = source.colorScheme || null; break; default: if (typeof source[key] !== "undefined") { // @ts-ignore viewport properties target[key] = source[key]; } break; } } } async function getDefinedViewport(mod, props, tracingProps) { if ((0, _clientreference.isClientReference)(mod)) { return null; } if (typeof mod.generateViewport === "function") { const { route } = tracingProps; return (parent)=>(0, _tracer.getTracer)().trace(_constants.ResolveMetadataSpan.generateViewport, { spanName: `generateViewport ${route}`, attributes: { "next.page": route } }, ()=>mod.generateViewport(props, parent)); } return mod.viewport || null; } async function getDefinedMetadata(mod, props, tracingProps) { // Layer is a client component, we just skip it. It can't have metadata exported. // Return early to avoid accessing properties error for client references. if ((0, _clientreference.isClientReference)(mod)) { return null; } if (typeof mod.generateMetadata === "function") { const { route } = tracingProps; return (parent)=>(0, _tracer.getTracer)().trace(_constants.ResolveMetadataSpan.generateMetadata, { spanName: `generateMetadata ${route}`, attributes: { "next.page": route } }, ()=>mod.generateMetadata(props, parent)); } return mod.metadata || null; } async function collectStaticImagesFiles(metadata, props, type) { var _this; if (!(metadata == null ? void 0 : metadata[type])) return undefined; const iconPromises = metadata[type].map(async (imageModule)=>(0, _interopdefault.interopDefault)(await imageModule(props))); return (iconPromises == null ? void 0 : iconPromises.length) > 0 ? (_this = await Promise.all(iconPromises)) == null ? void 0 : _this.flat() : undefined; } async function resolveStaticMetadata(components, props) { const { metadata } = components; if (!metadata) return null; const [icon, apple, openGraph, twitter] = await Promise.all([ collectStaticImagesFiles(metadata, props, "icon"), collectStaticImagesFiles(metadata, props, "apple"), collectStaticImagesFiles(metadata, props, "openGraph"), collectStaticImagesFiles(metadata, props, "twitter") ]); const staticMetadata = { icon, apple, openGraph, twitter, manifest: metadata.manifest }; return staticMetadata; } async function collectMetadata({ tree, metadataItems, errorMetadataItem, props, route, errorConvention }) { let mod; let modType; const hasErrorConventionComponent = Boolean(errorConvention && tree[2][errorConvention]); if (errorConvention) { mod = await (0, _appdirmodule.getComponentTypeModule)(tree, "layout"); modType = errorConvention; } else { [mod, modType] = await (0, _appdirmodule.getLayoutOrPageModule)(tree); } if (modType) { route += `/${modType}`; } const staticFilesMetadata = await resolveStaticMetadata(tree[2], props); const metadataExport = mod ? await getDefinedMetadata(mod, props, { route }) : null; const viewportExport = mod ? await getDefinedViewport(mod, props, { route }) : null; metadataItems.push([ metadataExport, staticFilesMetadata, viewportExport ]); if (hasErrorConventionComponent && errorConvention) { const errorMod = await (0, _appdirmodule.getComponentTypeModule)(tree, errorConvention); const errorViewportExport = errorMod ? await getDefinedViewport(errorMod, props, { route }) : null; const errorMetadataExport = errorMod ? await getDefinedMetadata(errorMod, props, { route }) : null; errorMetadataItem[0] = errorMetadataExport; errorMetadataItem[1] = staticFilesMetadata; errorMetadataItem[2] = errorViewportExport; } } async function resolveMetadataItems({ tree, parentParams, metadataItems, errorMetadataItem, treePrefix = [], getDynamicParamFromSegment, searchParams, errorConvention }) { const [segment, parallelRoutes, { page }] = tree; const currentTreePrefix = [ ...treePrefix, segment ]; const isPage = typeof page !== "undefined"; // Handle dynamic segment params. const segmentParam = getDynamicParamFromSegment(segment); /** * Create object holding the parent params and current params */ const currentParams = // Handle null case where dynamic param is optional segmentParam && segmentParam.value !== null ? { ...parentParams, [segmentParam.param]: segmentParam.value } : parentParams; const layerProps = { params: currentParams, ...isPage && { searchParams } }; await collectMetadata({ tree, metadataItems, errorMetadataItem, errorConvention, props: layerProps, route: currentTreePrefix// __PAGE__ shouldn't be shown in a route .filter((s)=>s !== _segment.PAGE_SEGMENT_KEY).join("/") }); for(const key in parallelRoutes){ const childTree = parallelRoutes[key]; await resolveMetadataItems({ tree: childTree, metadataItems, errorMetadataItem, parentParams: currentParams, treePrefix: currentTreePrefix, searchParams, getDynamicParamFromSegment, errorConvention }); } if (Object.keys(parallelRoutes).length === 0 && errorConvention) { // If there are no parallel routes, place error metadata as the last item. // e.g. layout -> layout -> not-found metadataItems.push(errorMetadataItem); } return metadataItems; } const hasTitle = (metadata)=>{ var _metadata_title; return !!(metadata == null ? void 0 : (_metadata_title = metadata.title) == null ? void 0 : _metadata_title.absolute); }; function inheritFromMetadata(metadata, target) { if (target) { if (!hasTitle(target) && hasTitle(metadata)) { target.title = metadata.title; } if (!target.description && metadata.description) { target.description = metadata.description; } } } const commonOgKeys = [ "title", "description", "images" ]; function postProcessMetadata(metadata, titleTemplates) { const { openGraph, twitter } = metadata; // If there's no title and description configured in openGraph or twitter, // use the title and description from metadata. inheritFromMetadata(metadata, openGraph); inheritFromMetadata(metadata, twitter); if (openGraph) { // If there's openGraph information but not configured in twitter, // inherit them from openGraph metadata. let autoFillProps = {}; const hasTwTitle = hasTitle(twitter); const hasTwDescription = twitter == null ? void 0 : twitter.description; const hasTwImages = Boolean((twitter == null ? void 0 : twitter.hasOwnProperty("images")) && twitter.images); if (!hasTwTitle) autoFillProps.title = openGraph.title; if (!hasTwDescription) autoFillProps.description = openGraph.description; if (!hasTwImages) autoFillProps.images = openGraph.images; if (Object.keys(autoFillProps).length > 0) { const partialTwitter = (0, _resolveopengraph.resolveTwitter)(autoFillProps, metadata.metadataBase, titleTemplates.twitter); if (metadata.twitter) { metadata.twitter = Object.assign({}, metadata.twitter, { ...!hasTwTitle && { title: partialTwitter == null ? void 0 : partialTwitter.title }, ...!hasTwDescription && { description: partialTwitter == null ? void 0 : partialTwitter.description }, ...!hasTwImages && { images: partialTwitter == null ? void 0 : partialTwitter.images } }); } else { metadata.twitter = partialTwitter; } } } return metadata; } function collectMetadataExportPreloading(results, dynamicMetadataExportFn, resolvers) { results.push(dynamicMetadataExportFn(new Promise((resolve)=>{ resolvers.push(resolve); }))); } async function getMetadataFromExport(getPreloadMetadataExport, dynamicMetadataResolveState, metadataItems, currentIndex, resolvedMetadata, metadataResults) { const metadataExport = getPreloadMetadataExport(metadataItems[currentIndex]); const dynamicMetadataResolvers = dynamicMetadataResolveState.resolvers; let metadata = null; if (typeof metadataExport === "function") { // Only preload at the beginning when resolves are empty if (!dynamicMetadataResolvers.length) { for(let j = currentIndex; j < metadataItems.length; j++){ const preloadMetadataExport = getPreloadMetadataExport(metadataItems[j]) // metadataItems[j][0] ; // call each `generateMetadata function concurrently and stash their resolver if (typeof preloadMetadataExport === "function") { collectMetadataExportPreloading(metadataResults, preloadMetadataExport, dynamicMetadataResolvers); } } } const resolveParent = dynamicMetadataResolvers[dynamicMetadataResolveState.resolvingIndex]; const metadataResult = metadataResults[dynamicMetadataResolveState.resolvingIndex++]; // In dev we clone and freeze to prevent relying on mutating resolvedMetadata directly. // In prod we just pass resolvedMetadata through without any copying. const currentResolvedMetadata = process.env.NODE_ENV === "development" ? Object.freeze(require("./clone-metadata").cloneMetadata(resolvedMetadata)) : resolvedMetadata; // This resolve should unblock the generateMetadata function if it awaited the parent // argument. If it didn't await the parent argument it might already have a value since it was // called concurrently. Regardless we await the return value before continuing on to the next layer resolveParent(currentResolvedMetadata); metadata = metadataResult instanceof Promise ? await metadataResult : metadataResult; } else if (metadataExport !== null && typeof metadataExport === "object") { // This metadataExport is the object form metadata = metadataExport; } return metadata; } async function accumulateMetadata(metadataItems, metadataContext) { const resolvedMetadata = (0, _defaultmetadata.createDefaultMetadata)(); const metadataResults = []; let titleTemplates = { title: null, twitter: null, openGraph: null }; // Loop over all metadata items again, merging synchronously any static object exports, // awaiting any static promise exports, and resolving parent metadata and awaiting any generated metadata const dynamicMetadataResolvers = { resolvers: [], resolvingIndex: 0 }; const buildState = { warnings: new Set() }; for(let i = 0; i < metadataItems.length; i++){ const staticFilesMetadata = metadataItems[i][1]; const metadata = await getMetadataFromExport((metadataItem)=>metadataItem[0], dynamicMetadataResolvers, metadataItems, i, resolvedMetadata, metadataResults); mergeMetadata({ target: resolvedMetadata, source: metadata, metadataContext, staticFilesMetadata, titleTemplates, buildState }); // If the layout is the same layer with page, skip the leaf layout and leaf page // The leaf layout and page are the last two items if (i < metadataItems.length - 2) { var _resolvedMetadata_title, _resolvedMetadata_openGraph, _resolvedMetadata_twitter; titleTemplates = { title: ((_resolvedMetadata_title = resolvedMetadata.title) == null ? void 0 : _resolvedMetadata_title.template) || null, openGraph: ((_resolvedMetadata_openGraph = resolvedMetadata.openGraph) == null ? void 0 : _resolvedMetadata_openGraph.title.template) || null, twitter: ((_resolvedMetadata_twitter = resolvedMetadata.twitter) == null ? void 0 : _resolvedMetadata_twitter.title.template) || null }; } } // Only log warnings if there are any, and only once after the metadata resolving process is finished if (buildState.warnings.size > 0) { for (const warning of buildState.warnings){ _log.warn(warning); } } return postProcessMetadata(resolvedMetadata, titleTemplates); } async function accumulateViewport(metadataItems) { const resolvedViewport = (0, _defaultmetadata.createDefaultViewport)(); const viewportResults = []; const dynamicMetadataResolvers = { resolvers: [], resolvingIndex: 0 }; for(let i = 0; i < metadataItems.length; i++){ const viewport = await getMetadataFromExport((metadataItem)=>metadataItem[2], dynamicMetadataResolvers, metadataItems, i, resolvedViewport, viewportResults); mergeViewport({ target: resolvedViewport, source: viewport }); } return resolvedViewport; } async function resolveMetadata({ tree, parentParams, metadataItems, errorMetadataItem, getDynamicParamFromSegment, searchParams, errorConvention, metadataContext }) { const resolvedMetadataItems = await resolveMetadataItems({ tree, parentParams, metadataItems, errorMetadataItem, getDynamicParamFromSegment, searchParams, errorConvention }); let error; let metadata = (0, _defaultmetadata.createDefaultMetadata)(); let viewport = (0, _defaultmetadata.createDefaultViewport)(); try { viewport = await accumulateViewport(resolvedMetadataItems); metadata = await accumulateMetadata(resolvedMetadataItems, metadataContext); } catch (err) { error = err; } return [ error, metadata, viewport ]; } //# sourceMappingURL=resolve-metadata.js.map