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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
const lazy = {};
ChromeUtils.defineESModuleGetters(lazy, {
ExperimentAPI: "resource://nimbus/ExperimentAPI.sys.mjs",
NimbusFeatures: "resource://nimbus/ExperimentAPI.sys.mjs",
NewTabUtils: "resource://gre/modules/NewTabUtils.sys.mjs",
pktApi: "chrome://pocket/content/pktApi.sys.mjs",
PersistentCache: "resource://activity-stream/lib/PersistentCache.sys.mjs",
Region: "resource://gre/modules/Region.sys.mjs",
ProfileAge: "resource://gre/modules/ProfileAge.sys.mjs",
});
// We use importESModule here instead of static import so that
// the Karma test environment won't choke on this module. This
// is because the Karma test environment already stubs out
// setTimeout / clearTimeout, and overrides importESModule
// to be a no-op (which can't be done for a static import statement).
// eslint-disable-next-line mozilla/use-static-import
const { setTimeout, clearTimeout } = ChromeUtils.importESModule(
"resource://gre/modules/Timer.sys.mjs"
);
import {
actionTypes as at,
actionCreators as ac,
} from "resource://activity-stream/common/Actions.mjs";
// `contextId` is a unique identifier used by Contextual Services
const CONTEXT_ID_PREF = "browser.contextual-services.contextId";
ChromeUtils.defineLazyGetter(lazy, "contextId", () => {
let _contextId = Services.prefs.getStringPref(CONTEXT_ID_PREF, null);
if (!_contextId) {
_contextId = String(Services.uuid.generateUUID());
Services.prefs.setStringPref(CONTEXT_ID_PREF, _contextId);
}
return _contextId;
});
const CACHE_KEY = "discovery_stream";
const STARTUP_CACHE_EXPIRE_TIME = 7 * 24 * 60 * 60 * 1000; // 1 week
const COMPONENT_FEEDS_UPDATE_TIME = 30 * 60 * 1000; // 30 minutes
const SPOCS_FEEDS_UPDATE_TIME = 30 * 60 * 1000; // 30 minutes
const DEFAULT_RECS_ROTATION_TIME = 60 * 60 * 1000; // 1 hour
const DEFAULT_RECS_IMPRESSION_EXPIRE_TIME = 7 * 24 * 60 * 60 * 1000; // 7 days
const MAX_LIFETIME_CAP = 500; // Guard against misconfiguration on the server
const SPOCS_CAP_DURATION = 24 * 60 * 60; // 1 day in seconds.
const FETCH_TIMEOUT = 45 * 1000;
const TOPIC_LOADING_TIMEOUT = 1 * 1000;
const TOPIC_SELECTION_DISPLAY_COUNT =
"discoverystream.topicSelection.onboarding.displayCount";
const TOPIC_SELECTION_LAST_DISPLAYED =
"discoverystream.topicSelection.onboarding.lastDisplayed";
const TOPIC_SELECTION_DISPLAY_TIMEOUT =
"discoverystream.topicSelection.onboarding.displayTimeout";
const FEED_URL =
const PREF_CONFIG = "discoverystream.config";
const PREF_ENDPOINTS = "discoverystream.endpoints";
const PREF_IMPRESSION_ID = "browser.newtabpage.activity-stream.impressionId";
const PREF_LAYOUT_EXPERIMENT_A = "newtabLayouts.variant-a";
const PREF_LAYOUT_EXPERIMENT_B = "newtabLayouts.variant-b";
const PREF_SPOC_PLACEMENTS = "discoverystream.placements.spocs";
const PREF_SPOC_COUNTS = "discoverystream.placements.spocs.counts";
const PREF_SPOC_POSITIONS = "discoverystream.spoc-positions";
const PREF_MERINO_FEED_EXPERIMENT =
"browser.newtabpage.activity-stream.discoverystream.merino-feed-experiment";
const PREF_ENABLED = "discoverystream.enabled";
const PREF_HARDCODED_BASIC_LAYOUT = "discoverystream.hardcoded-basic-layout";
const PREF_SPOCS_ENDPOINT = "discoverystream.spocs-endpoint";
const PREF_SPOCS_ENDPOINT_QUERY = "discoverystream.spocs-endpoint-query";
const PREF_REGION_BASIC_LAYOUT = "discoverystream.region-basic-layout";
const PREF_USER_TOPSTORIES = "feeds.section.topstories";
const PREF_SYSTEM_TOPSTORIES = "feeds.system.topstories";
const PREF_SYSTEM_TOPSITES = "feeds.system.topsites";
const PREF_UNIFIED_ADS_BLOCKED_LIST = "unifiedAds.blockedAds";
const PREF_UNIFIED_ADS_SPOCS_ENABLED = "unifiedAds.spocs.enabled";
const PREF_UNIFIED_ADS_ENDPOINT = "unifiedAds.endpoint";
const PREF_USER_TOPSITES = "feeds.topsites";
const PREF_SPOCS_CLEAR_ENDPOINT = "discoverystream.endpointSpocsClear";
const PREF_SHOW_SPONSORED = "showSponsored";
const PREF_SYSTEM_SHOW_SPONSORED = "system.showSponsored";
const PREF_SHOW_SPONSORED_TOPSITES = "showSponsoredTopSites";
// Nimbus variable to enable the SOV feature for sponsored tiles.
const NIMBUS_VARIABLE_CONTILE_SOV_ENABLED = "topSitesContileSovEnabled";
const PREF_SPOC_IMPRESSIONS = "discoverystream.spoc.impressions";
const PREF_FLIGHT_BLOCKS = "discoverystream.flight.blocks";
const PREF_COLLECTIONS_ENABLED =
"discoverystream.sponsored-collections.enabled";
const PREF_POCKET_BUTTON = "extensions.pocket.enabled";
const PREF_COLLECTION_DISMISSIBLE = "discoverystream.isCollectionDismissible";
const PREF_SELECTED_TOPICS = "discoverystream.topicSelection.selectedTopics";
const PREF_TOPIC_SELECTION_ENABLED = "discoverystream.topicSelection.enabled";
const PREF_TOPIC_SELECTION_PREVIOUS_SELECTED =
"discoverystream.topicSelection.hasBeenUpdatedPreviously";
const PREF_SPOCS_CACHE_TIMEOUT = "discoverystream.spocs.cacheTimeout";
const PREF_SPOCS_STARTUP_CACHE_ENABLED =
"discoverystream.spocs.startupCache.enabled";
const PREF_CONTEXTUAL_CONTENT_ENABLED =
"discoverystream.contextualContent.enabled";
const PREF_FAKESPOT_ENABLED =
"discoverystream.contextualContent.fakespot.enabled";
const PREF_CONTEXTUAL_CONTENT_SELECTED_FEED =
"discoverystream.contextualContent.selectedFeed";
const PREF_CONTEXTUAL_CONTENT_LISTFEED_TITLE =
"discoverystream.contextualContent.listFeedTitle";
const PREF_CONTEXTUAL_CONTENT_FAKESPOT_FOOTER =
"discoverystream.contextualContent.fakespot.footerCopy";
const PREF_CONTEXTUAL_CONTENT_FAKESPOT_CATEGORY =
"discoverystream.contextualContent.fakespot.defaultCategoryTitle";
const PREF_CONTEXTUAL_CONTENT_FAKESPOT_CTA_COPY =
"discoverystream.contextualContent.fakespot.ctaCopy";
const PREF_CONTEXTUAL_CONTENT_FAKESPOT_CTA_URL =
"discoverystream.contextualContent.fakespot.ctaUrl";
const PREF_SECTIONS_ENABLED = "discoverystream.sections.enabled";
let getHardcodedLayout;
export class DiscoveryStreamFeed {
constructor() {
// Internal state for checking if we've intialized all our data
this.loaded = false;
// Persistent cache for remote endpoint data.
this.cache = new lazy.PersistentCache(CACHE_KEY, true);
this.locale = Services.locale.appLocaleAsBCP47;
this._impressionId = this.getOrCreateImpressionId();
// Internal in-memory cache for parsing json prefs.
this._prefCache = {};
}
getOrCreateImpressionId() {
let impressionId = Services.prefs.getCharPref(PREF_IMPRESSION_ID, "");
if (!impressionId) {
impressionId = String(Services.uuid.generateUUID());
Services.prefs.setCharPref(PREF_IMPRESSION_ID, impressionId);
}
return impressionId;
}
get config() {
if (this._prefCache.config) {
return this._prefCache.config;
}
try {
this._prefCache.config = JSON.parse(
this.store.getState().Prefs.values[PREF_CONFIG]
);
} catch (e) {
// istanbul ignore next
this._prefCache.config = {};
// istanbul ignore next
console.error(
`Could not parse preference. Try resetting ${PREF_CONFIG} in about:config.`,
e
);
}
this._prefCache.config.enabled =
this._prefCache.config.enabled &&
this.store.getState().Prefs.values[PREF_ENABLED];
return this._prefCache.config;
}
resetConfigDefauts() {
this.store.dispatch({
type: at.CLEAR_PREF,
data: {
name: PREF_CONFIG,
},
});
}
get region() {
return lazy.Region.home;
}
get isBff() {
if (this._isBff === undefined) {
const pocketConfig =
this.store.getState().Prefs.values?.pocketConfig || {};
const preffedRegionBffConfigString = pocketConfig.regionBffConfig || "";
const preffedRegionBffConfig = preffedRegionBffConfigString
.split(",")
.map(s => s.trim());
const regionBff = preffedRegionBffConfig.includes(this.region);
this._isBff = regionBff;
}
return this._isBff;
}
get isMerino() {
if (this._isMerino === undefined) {
const pocketConfig =
this.store.getState().Prefs.values?.pocketConfig || {};
this._isMerino = pocketConfig.merinoProviderEnabled;
}
return this._isMerino;
}
get showSpocs() {
// High level overall sponsored check, if one of these is true,
// we know we need some sort of spoc control setup.
return this.showSponsoredStories || this.showSponsoredTopsites;
}
get showSponsoredStories() {
// Combine user-set sponsored opt-out with Mozilla-set config
return (
this.store.getState().Prefs.values[PREF_SHOW_SPONSORED] &&
this.store.getState().Prefs.values[PREF_SYSTEM_SHOW_SPONSORED]
);
}
get showSponsoredTopsites() {
const placements = this.getPlacements();
// Combine user-set sponsored opt-out with placement data
return !!(
this.store.getState().Prefs.values[PREF_SHOW_SPONSORED_TOPSITES] &&
placements.find(placement => placement.name === "sponsored-topsites")
);
}
get showStories() {
// Combine user-set stories opt-out with Mozilla-set config
return (
this.store.getState().Prefs.values[PREF_SYSTEM_TOPSTORIES] &&
this.store.getState().Prefs.values[PREF_USER_TOPSTORIES]
);
}
get showTopsites() {
// Combine user-set topsites opt-out with Mozilla-set config
return (
this.store.getState().Prefs.values[PREF_SYSTEM_TOPSITES] &&
this.store.getState().Prefs.values[PREF_USER_TOPSITES]
);
}
get personalized() {
return this.recommendationProvider.personalized;
}
get recommendationProvider() {
if (this._recommendationProvider) {
return this._recommendationProvider;
}
this._recommendationProvider = this.store.feeds.get(
"feeds.recommendationprovider"
);
return this._recommendationProvider;
}
setupConfig(isStartup = false) {
// Send the initial state of the pref on our reducer
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_CONFIG_SETUP,
data: this.config,
meta: {
isStartup,
},
})
);
}
async setupDevtoolsState(isStartup = false) {
const cachedData = (await this.cache.get()) || {};
let impressions = cachedData.recsImpressions || {};
let blocks = cachedData.recsBlocks || {};
this.store.dispatch({
type: at.DISCOVERY_STREAM_DEV_IMPRESSIONS,
data: impressions,
meta: {
isStartup,
},
});
this.store.dispatch({
type: at.DISCOVERY_STREAM_DEV_BLOCKS,
data: blocks,
meta: {
isStartup,
},
});
}
setupPrefs(isStartup = false) {
const pocketNewtabExperiment = lazy.ExperimentAPI.getExperimentMetaData({
featureId: "pocketNewtab",
});
const pocketNewtabRollout = lazy.ExperimentAPI.getRolloutMetaData({
featureId: "pocketNewtab",
});
// We want to know if the user is in an experiment or rollout,
// but we prioritize experiments over rollouts.
const experimentMetaData = pocketNewtabExperiment || pocketNewtabRollout;
let utmSource = "pocket-newtab";
let utmCampaign = experimentMetaData?.slug;
let utmContent = experimentMetaData?.branch?.slug;
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_EXPERIMENT_DATA,
data: {
utmSource,
utmCampaign,
utmContent,
},
meta: {
isStartup,
},
})
);
const pocketButtonEnabled = Services.prefs.getBoolPref(PREF_POCKET_BUTTON);
const nimbusConfig = this.store.getState().Prefs.values?.pocketConfig || {};
const { region } = this.store.getState().Prefs.values;
this.setupSpocsCacheUpdateTime();
const saveToPocketCardRegions = nimbusConfig.saveToPocketCardRegions
?.split(",")
.map(s => s.trim());
const saveToPocketCard =
pocketButtonEnabled &&
(nimbusConfig.saveToPocketCard ||
saveToPocketCardRegions?.includes(region));
const hideDescriptionsRegions = nimbusConfig.hideDescriptionsRegions
?.split(",")
.map(s => s.trim());
const hideDescriptions =
nimbusConfig.hideDescriptions ||
hideDescriptionsRegions?.includes(region);
// We don't BroadcastToContent for this, as the changes may
// shift around elements on an open newtab the user is currently reading.
// So instead we AlsoToPreloaded so the next tab is updated.
// This is because setupPrefs is called by the system and not a user interaction.
this.store.dispatch(
ac.AlsoToPreloaded({
type: at.DISCOVERY_STREAM_PREFS_SETUP,
data: {
recentSavesEnabled: nimbusConfig.recentSavesEnabled,
pocketButtonEnabled,
saveToPocketCard,
hideDescriptions,
compactImages: nimbusConfig.compactImages,
imageGradient: nimbusConfig.imageGradient,
newSponsoredLabel: nimbusConfig.newSponsoredLabel,
titleLines: nimbusConfig.titleLines,
descLines: nimbusConfig.descLines,
readTime: nimbusConfig.readTime,
},
meta: {
isStartup,
},
})
);
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_COLLECTION_DISMISSIBLE_TOGGLE,
data: {
value:
this.store.getState().Prefs.values[PREF_COLLECTION_DISMISSIBLE],
},
meta: {
isStartup,
},
})
);
}
async setupPocketState(target) {
let dispatch = action =>
this.store.dispatch(ac.OnlyToOneContent(action, target));
const isUserLoggedIn = lazy.pktApi.isUserLoggedIn();
dispatch({
type: at.DISCOVERY_STREAM_POCKET_STATE_SET,
data: {
isUserLoggedIn,
},
});
// If we're not logged in, don't bother fetching recent saves, we're done.
if (isUserLoggedIn) {
let recentSaves = await lazy.pktApi.getRecentSavesCache();
if (recentSaves) {
// We have cache, so we can use those.
dispatch({
type: at.DISCOVERY_STREAM_RECENT_SAVES,
data: {
recentSaves,
},
});
} else {
// We don't have cache, so fetch fresh stories.
lazy.pktApi.getRecentSaves({
success(data) {
dispatch({
type: at.DISCOVERY_STREAM_RECENT_SAVES,
data: {
recentSaves: data,
},
});
},
error() {},
});
}
}
}
uninitPrefs() {
// Reset in-memory cache
this._prefCache = {};
}
async fetchFromEndpoint(rawEndpoint, options = {}) {
if (!rawEndpoint) {
console.error("Tried to fetch endpoint but none was configured.");
return null;
}
const apiKeyPref = this.config.api_key_pref;
const apiKey = Services.prefs.getCharPref(apiKeyPref, "");
const endpoint = rawEndpoint
.replace("$apiKey", apiKey)
.replace("$locale", this.locale)
.replace("$region", this.region);
try {
// Make sure the requested endpoint is allowed
const allowed = this.store
.getState()
.Prefs.values[PREF_ENDPOINTS].split(",");
if (!allowed.some(prefix => endpoint.startsWith(prefix))) {
throw new Error(`Not one of allowed prefixes (${allowed})`);
}
const controller = new AbortController();
const { signal } = controller;
const fetchPromise = fetch(endpoint, {
...options,
credentials: "omit",
signal,
});
// istanbul ignore next
const timeoutId = setTimeout(() => {
controller.abort();
}, FETCH_TIMEOUT);
const response = await fetchPromise;
if (!response.ok) {
throw new Error(`Unexpected status (${response.status})`);
}
clearTimeout(timeoutId);
return response.json();
} catch (error) {
console.error(`Failed to fetch ${endpoint}:`, error.message);
}
return null;
}
get spocsCacheUpdateTime() {
if (this._spocsCacheUpdateTime) {
return this._spocsCacheUpdateTime;
}
this.setupSpocsCacheUpdateTime();
return this._spocsCacheUpdateTime;
}
setupSpocsCacheUpdateTime() {
const spocsCacheTimeout =
this.store.getState().Prefs.values[PREF_SPOCS_CACHE_TIMEOUT];
const MAX_TIMEOUT = 30;
const MIN_TIMEOUT = 5;
// We do a bit of min max checking the the configured value is between
// 5 and 30 minutes, to protect against unreasonable values.
if (
spocsCacheTimeout &&
spocsCacheTimeout <= MAX_TIMEOUT &&
spocsCacheTimeout >= MIN_TIMEOUT
) {
// This value is in minutes, but we want ms.
this._spocsCacheUpdateTime = spocsCacheTimeout * 60 * 1000;
} else {
// The const is already in ms.
this._spocsCacheUpdateTime = SPOCS_FEEDS_UPDATE_TIME;
}
}
/**
* Returns true if data in the cache for a particular key has expired or is missing.
* @param {object} cachedData data returned from cache.get()
* @param {string} key a cache key
* @param {string?} url for "feed" only, the URL of the feed.
* @param {boolean} is this check done at initial browser load
*/
isExpired({ cachedData, key, url, isStartup }) {
const { spocs, feeds } = cachedData;
const updateTimePerComponent = {
spocs: this.spocsCacheUpdateTime,
feed: COMPONENT_FEEDS_UPDATE_TIME,
};
const EXPIRATION_TIME = isStartup
? STARTUP_CACHE_EXPIRE_TIME
: updateTimePerComponent[key];
switch (key) {
case "spocs":
return !spocs || !(Date.now() - spocs.lastUpdated < EXPIRATION_TIME);
case "feed":
return (
!feeds ||
!feeds[url] ||
!(Date.now() - feeds[url].lastUpdated < EXPIRATION_TIME)
);
default:
// istanbul ignore next
throw new Error(`${key} is not a valid key`);
}
}
async _checkExpirationPerComponent() {
const cachedData = (await this.cache.get()) || {};
const { feeds } = cachedData;
return {
spocs: this.showSpocs && this.isExpired({ cachedData, key: "spocs" }),
feeds:
this.showStories &&
(!feeds ||
Object.keys(feeds).some(url =>
this.isExpired({ cachedData, key: "feed", url })
)),
};
}
/**
* Returns true if any data for the cached endpoints has expired or is missing.
*/
async checkIfAnyCacheExpired() {
const expirationPerComponent = await this._checkExpirationPerComponent();
return expirationPerComponent.spocs || expirationPerComponent.feeds;
}
updatePlacements(sendUpdate, layout, isStartup = false) {
const placements = [];
const placementsMap = {};
for (const row of layout.filter(r => r.components && r.components.length)) {
for (const component of row.components.filter(
c => c.placement && c.spocs
)) {
// If we find a valid placement, we set it to this value.
let placement;
// We need to check to see if this placement is on or not.
// If this placement has a prefs array, check against that.
if (component.spocs.prefs) {
// Check every pref in the array to see if this placement is turned on.
if (
component.spocs.prefs.length &&
component.spocs.prefs.every(
p => this.store.getState().Prefs.values[p]
)
) {
// This placement is on.
placement = component.placement;
}
} else if (this.showSponsoredStories) {
// If we do not have a prefs array, use old check.
// This is because Pocket spocs uses an old non pref method.
placement = component.placement;
}
// Validate this placement and check for dupes.
if (placement?.name && !placementsMap[placement.name]) {
placementsMap[placement.name] = placement;
placements.push(placement);
}
}
}
// Update placements data.
// Even if we have no placements, we still want to update it to clear it.
sendUpdate({
type: at.DISCOVERY_STREAM_SPOCS_PLACEMENTS,
data: { placements },
meta: {
isStartup,
},
});
}
/**
* Adds a query string to a URL.
* A query can be any string literal accepted by https://developer.mozilla.org/docs/Web/API/URLSearchParams
* Examples: "?foo=1&bar=2", "&foo=1&bar=2", "foo=1&bar=2", "?bar=2" or "bar=2"
*/
addEndpointQuery(url, query) {
if (!query) {
return url;
}
const urlObject = new URL(url);
const params = new URLSearchParams(query);
for (let [key, val] of params.entries()) {
urlObject.searchParams.append(key, val);
}
return urlObject.toString();
}
parseGridPositions(csvPositions) {
let gridPositions;
// Only accept parseable non-negative integers
try {
gridPositions = csvPositions.map(index => {
let parsedInt = parseInt(index, 10);
if (!isNaN(parsedInt) && parsedInt >= 0) {
return parsedInt;
}
throw new Error("Bad input");
});
} catch (e) {
// Catch spoc positions that are not numbers or negative, and do nothing.
// We have hard coded backup positions.
gridPositions = undefined;
}
return gridPositions;
}
generateFeedUrl() {
// check for experiment parameters
const hasParameters = lazy.NimbusFeatures.pocketNewtab.getVariable(
"pocketFeedParameters"
);
if (this.isMerino) {
"browser.newtabpage.activity-stream.discoverystream.merino-provider.endpoint"
)}/api/v1/curated-recommendations`;
} else if (this.isBff) {
"extensions.pocket.bffApi"
)}/desktop/v1/recommendations?locale=$locale®ion=$region&count=30${
hasParameters || ""
}`;
}
return FEED_URL;
}
loadLayout(sendUpdate, isStartup) {
let layoutData = {};
let url = "";
const isBasicLayout =
this.config.hardcoded_basic_layout ||
this.store.getState().Prefs.values[PREF_HARDCODED_BASIC_LAYOUT] ||
this.store.getState().Prefs.values[PREF_REGION_BASIC_LAYOUT];
const sponsoredCollectionsEnabled =
this.store.getState().Prefs.values[PREF_COLLECTIONS_ENABLED];
const pocketConfig = this.store.getState().Prefs.values?.pocketConfig || {};
const onboardingExperience =
this.isBff && pocketConfig.onboardingExperience;
// The Unified Ads API does not support the spoc topsite placement.
const unifiedAdsEnabled =
this.store.getState().Prefs.values[PREF_UNIFIED_ADS_SPOCS_ENABLED];
const spocTopsitesPlacementEnabled =
pocketConfig.spocTopsitesPlacementEnabled && !unifiedAdsEnabled;
const layoutExperiment =
this.store.getState().Prefs.values[PREF_LAYOUT_EXPERIMENT_A] ||
this.store.getState().Prefs.values[PREF_LAYOUT_EXPERIMENT_B];
let items = isBasicLayout ? 3 : 21;
if (
pocketConfig.fourCardLayout ||
pocketConfig.hybridLayout ||
layoutExperiment
) {
items = isBasicLayout ? 4 : 24;
}
const ctaButtonSponsors = pocketConfig.ctaButtonSponsors
?.split(",")
.map(s => s.trim().toLowerCase());
let ctaButtonVariant = "";
// We specifically against hard coded values, instead of applying whatever is in the pref.
// This is to ensure random class names from a user modified pref doesn't make it into the class list.
if (
pocketConfig.ctaButtonVariant === "variant-a" ||
pocketConfig.ctaButtonVariant === "variant-b"
) {
ctaButtonVariant = pocketConfig.ctaButtonVariant;
}
const topicSelectionHasBeenUpdatedPreviously =
this.store.getState().Prefs.values[
PREF_TOPIC_SELECTION_PREVIOUS_SELECTED
];
const selectedTopics =
this.store.getState().Prefs.values[PREF_SELECTED_TOPICS];
// Note: This requires a cache update to react to a pref update
const pocketStoriesHeadlineId =
topicSelectionHasBeenUpdatedPreviously || selectedTopics
? "newtab-section-header-todays-picks"
: "newtab-section-header-stories";
pocketConfig.pocketStoriesHeadlineId = pocketStoriesHeadlineId;
let spocMessageVariant = "";
if (
pocketConfig.spocMessageVariant === "variant-a" ||
pocketConfig.spocMessageVariant === "variant-b"
) {
spocMessageVariant = pocketConfig.spocMessageVariant;
}
const prepConfArr = arr => {
return arr
?.split(",")
.filter(item => item)
.map(item => parseInt(item, 10));
};
const spocAdTypes = prepConfArr(pocketConfig.spocAdTypes);
const spocZoneIds = prepConfArr(pocketConfig.spocZoneIds);
const spocTopsitesAdTypes = prepConfArr(pocketConfig.spocTopsitesAdTypes);
const spocTopsitesZoneIds = prepConfArr(pocketConfig.spocTopsitesZoneIds);
const { spocSiteId } = pocketConfig;
let spocPlacementData;
let spocTopsitesPlacementData;
let spocsUrl;
if (spocAdTypes?.length && spocZoneIds?.length) {
spocPlacementData = {
ad_types: spocAdTypes,
zone_ids: spocZoneIds,
};
}
if (spocTopsitesAdTypes?.length && spocTopsitesZoneIds?.length) {
spocTopsitesPlacementData = {
ad_types: spocTopsitesAdTypes,
zone_ids: spocTopsitesZoneIds,
};
}
if (spocSiteId) {
const newUrl = new URL(SPOCS_URL);
newUrl.searchParams.set("site", spocSiteId);
spocsUrl = newUrl.href;
}
let feedUrl = this.generateFeedUrl();
// Set layout config.
// Changing values in this layout in memory object is unnecessary.
layoutData = getHardcodedLayout({
spocsUrl,
feedUrl,
items,
sponsoredCollectionsEnabled,
spocPlacementData,
spocTopsitesPlacementEnabled,
spocTopsitesPlacementData,
spocPositions: this.parseGridPositions(
this.store.getState().Prefs.values[PREF_SPOC_POSITIONS]?.split(`,`)
),
spocTopsitesPositions: this.parseGridPositions(
pocketConfig.spocTopsitesPositions?.split(`,`)
),
widgetPositions: this.parseGridPositions(
pocketConfig.widgetPositions?.split(`,`)
),
widgetData: [
...(this.locale.startsWith("en-") ? [{ type: "TopicsWidget" }] : []),
],
hybridLayout: pocketConfig.hybridLayout,
hideCardBackground: pocketConfig.hideCardBackground,
fourCardLayout: pocketConfig.fourCardLayout,
newFooterSection: pocketConfig.newFooterSection,
compactGrid: pocketConfig.compactGrid,
// For now essentialReadsHeader and editorsPicksHeader are English only.
essentialReadsHeader:
this.locale.startsWith("en-") && pocketConfig.essentialReadsHeader,
editorsPicksHeader:
this.locale.startsWith("en-") && pocketConfig.editorsPicksHeader,
onboardingExperience,
// For now button variants are for experimentation and English only.
ctaButtonSponsors: this.locale.startsWith("en-") ? ctaButtonSponsors : [],
ctaButtonVariant: this.locale.startsWith("en-") ? ctaButtonVariant : "",
spocMessageVariant: this.locale.startsWith("en-")
? spocMessageVariant
: "",
pocketStoriesHeadlineId: pocketConfig.pocketStoriesHeadlineId,
});
sendUpdate({
type: at.DISCOVERY_STREAM_LAYOUT_UPDATE,
data: layoutData,
meta: {
isStartup,
},
});
if (layoutData.spocs) {
url =
this.store.getState().Prefs.values[PREF_SPOCS_ENDPOINT] ||
this.config.spocs_endpoint ||
layoutData.spocs.url;
const spocsEndpointQuery =
this.store.getState().Prefs.values[PREF_SPOCS_ENDPOINT_QUERY];
// For QA, testing, or debugging purposes, there may be a query string to add.
url = this.addEndpointQuery(url, spocsEndpointQuery);
if (
url &&
url !== this.store.getState().DiscoveryStream.spocs.spocs_endpoint
) {
sendUpdate({
type: at.DISCOVERY_STREAM_SPOCS_ENDPOINT,
data: {
url,
},
meta: {
isStartup,
},
});
this.updatePlacements(sendUpdate, layoutData.layout, isStartup);
}
}
}
/**
* buildFeedPromise - Adds the promise result to newFeeds and
* pushes a promise to newsFeedsPromises.
* @param {Object} Has both newFeedsPromises (Array) and newFeeds (Object)
* @param {Boolean} isStartup We have different cache handling for startup.
* @returns {Function} We return a function so we can contain
* the scope for isStartup and the promises object.
* Combines feed results and promises for each component with a feed.
*/
buildFeedPromise(
{ newFeedsPromises, newFeeds },
isStartup = false,
sendUpdate
) {
return component => {
const { url } = component.feed;
if (!newFeeds[url]) {
// We initially stub this out so we don't fetch dupes,
// we then fill in with the proper object inside the promise.
newFeeds[url] = {};
const feedPromise = this.getComponentFeed(url, isStartup);
feedPromise
.then(feed => {
// I think we could reduce doing this for cache fetches.
newFeeds[url] = this.filterRecommendations(feed);
sendUpdate({
type: at.DISCOVERY_STREAM_FEED_UPDATE,
data: {
feed: newFeeds[url],
url,
},
meta: {
isStartup,
},
});
})
.catch(
/* istanbul ignore next */ error => {
console.error(
`Error trying to load component feed ${url}:`,
error
);
}
);
newFeedsPromises.push(feedPromise);
}
};
}
// This filters just recommendations using NewTabUtils.blockedLinks only.
// This is essentially a sync blocked links filter. filterBlocked is async.
filterRecommendations(feed) {
if (feed?.data?.recommendations?.length) {
const recommendations = feed.data.recommendations.filter(item => {
const blocked = lazy.NewTabUtils.blockedLinks.isBlocked({
url: item.url,
});
return !blocked;
});
return {
...feed,
data: {
...feed.data,
recommendations,
},
};
}
return feed;
}
/**
* reduceFeedComponents - Filters out components with no feeds, and combines
* all feeds on this component with the feeds from other components.
* @param {Boolean} isStartup We have different cache handling for startup.
* @returns {Function} We return a function so we can contain the scope for isStartup.
* Reduces feeds into promises and feed data.
*/
reduceFeedComponents(isStartup, sendUpdate) {
return (accumulator, row) => {
row.components
.filter(component => component && component.feed)
.forEach(this.buildFeedPromise(accumulator, isStartup, sendUpdate));
return accumulator;
};
}
/**
* buildFeedPromises - Filters out rows with no components,
* and gets us a promise for each unique feed.
* @param {Object} layout This is the Discovery Stream layout object.
* @param {Boolean} isStartup We have different cache handling for startup.
* @returns {Object} An object with newFeedsPromises (Array) and newFeeds (Object),
* we can Promise.all newFeedsPromises to get completed data in newFeeds.
*/
buildFeedPromises(layout, isStartup, sendUpdate) {
const initialData = {
newFeedsPromises: [],
newFeeds: {},
};
return layout
.filter(row => row && row.components)
.reduce(this.reduceFeedComponents(isStartup, sendUpdate), initialData);
}
async loadComponentFeeds(sendUpdate, isStartup = false) {
const { DiscoveryStream } = this.store.getState();
if (!DiscoveryStream || !DiscoveryStream.layout) {
return;
}
// Reset the flag that indicates whether or not at least one API request
// was issued to fetch the component feed in `getComponentFeed()`.
this.componentFeedFetched = false;
const { newFeedsPromises, newFeeds } = this.buildFeedPromises(
DiscoveryStream.layout,
isStartup,
sendUpdate
);
// Each promise has a catch already built in, so no need to catch here.
await Promise.all(newFeedsPromises);
await this.cache.set("feeds", newFeeds);
sendUpdate({
type: at.DISCOVERY_STREAM_FEEDS_UPDATE,
meta: {
isStartup,
},
});
}
getPlacements() {
const { placements } = this.store.getState().DiscoveryStream.spocs;
return placements;
}
// I wonder, can this be better as a reducer?
placementsForEach(callback) {
this.getPlacements().forEach(callback);
}
// This involved moving the spocs array into an items prop.
// However, old data could still be returned, and cached data might also be old.
// For ths reason, we want to ensure if we don't find an items array,
// we use the previous array placement, and then stub out title and context to empty strings.
// We need to do this *after* both fresh fetches and cached data to reduce repetition.
// We want to maintain both implementations until we're done rollout out,
// so for now we are going to normlaize the new data to match the old data props,
// so we can change as little as possible. Once we commit to one, we can remove all this.
normalizeSpocsItems(spocs) {
const unifiedAdsEnabled =
this.store.getState().Prefs.values[PREF_UNIFIED_ADS_SPOCS_ENABLED];
if (unifiedAdsEnabled) {
return {
items: spocs.map(spoc => ({
format: spoc.format,
alt_text: spoc.alt_text,
id: spoc.caps?.cap_key,
flight_id: spoc.block_key,
block_key: spoc.block_key,
shim: spoc.callbacks,
caps: {
flight: {
count: spoc.caps?.day,
period: SPOCS_CAP_DURATION,
},
},
domain: spoc.domain,
excerpt: spoc.excerpt,
raw_image_src: spoc.image_url,
priority: spoc.ranking?.priority || 1,
personalization_models: spoc.ranking?.personalization_models,
item_score: spoc.ranking?.item_score,
sponsor: spoc.sponsor,
title: spoc.title,
url: spoc.url,
})),
};
}
const items = spocs.items || spocs;
const title = spocs.title || "";
const context = spocs.context || "";
const sponsor = spocs.sponsor || "";
// We do not stub sponsored_by_override with an empty string. It is an override, and an empty string
// explicitly means to override the client to display an empty string.
// An empty string is not an no op in this case. Undefined is the proper no op here.
const { sponsored_by_override } = spocs;
// Undefined is fine here. It's optional and only used by collections.
// If we leave it out, you get a collection that cannot be dismissed.
const { flight_id } = spocs;
return {
items,
title,
context,
sponsor,
sponsored_by_override,
...(flight_id ? { flight_id } : {}),
};
}
updateSponsoredCollectionsPref(collectionEnabled = false) {
const currentState =
this.store.getState().Prefs.values[PREF_COLLECTIONS_ENABLED];
// If the current state does not match the new state, update the pref.
if (currentState !== collectionEnabled) {
this.store.dispatch(
ac.SetPref(PREF_COLLECTIONS_ENABLED, collectionEnabled)
);
}
}
async loadSpocs(sendUpdate, isStartup) {
const cachedData = (await this.cache.get()) || {};
const unifiedAdsEnabled =
this.store.getState().Prefs.values[PREF_UNIFIED_ADS_SPOCS_ENABLED];
let spocsState = cachedData.spocs;
let placements = this.getPlacements();
let unifiedAdsPlacements = [];
if (
this.showSpocs &&
placements?.length &&
this.isExpired({ cachedData, key: "spocs", isStartup })
) {
// We optimistically set this to true, because if SOV is not ready, we fetch them.
let useTopsitesPlacement = true;
// If SOV is turned off or not available, we optimistically fetch sponsored topsites.
if (
lazy.NimbusFeatures.pocketNewtab.getVariable(
NIMBUS_VARIABLE_CONTILE_SOV_ENABLED
) &&
!unifiedAdsEnabled
) {
let { positions, ready } = this.store.getState().TopSites.sov;
if (ready) {
// We don't need to await here, because we don't need it now.
this.cache.set("sov", positions);
} else {
// If SOV is not available, and there is a SOV cache, use it.
positions = cachedData.sov;
}
if (positions?.length) {
// If SOV is ready and turned on, we can check if we need moz-sales position.
useTopsitesPlacement = positions.some(
allocation => allocation.assignedPartner === "moz-sales"
);
}
}
// We can filter out the topsite placement from the fetch.
if (!useTopsitesPlacement || unifiedAdsEnabled) {
placements = placements.filter(
placement => placement.name !== "sponsored-topsites"
);
}
if (placements?.length) {
const apiKeyPref = this.config.api_key_pref;
const apiKey = Services.prefs.getCharPref(apiKeyPref, "");
const state = this.store.getState();
let endpoint = state.DiscoveryStream.spocs.spocs_endpoint;
let body = {
pocket_id: this._impressionId,
version: 2,
consumer_key: apiKey,
...(placements.length ? { placements } : {}),
};
if (unifiedAdsEnabled) {
const endpointBaseUrl = state.Prefs.values[PREF_UNIFIED_ADS_ENDPOINT];
endpoint = `${endpointBaseUrl}v1/ads`;
const placementsArray = state.Prefs.values[
PREF_SPOC_PLACEMENTS
]?.split(`,`)
.map(s => s.trim())
.filter(item => item);
const countsArray = state.Prefs.values[PREF_SPOC_COUNTS]?.split(`,`)
.map(s => s.trim())
.filter(item => item)
.map(item => parseInt(item, 10));
unifiedAdsPlacements = placementsArray.map((placement, index) => ({
placement,
count: countsArray[index],
}));
const blockedSponsors =
this.store.getState().Prefs.values[PREF_UNIFIED_ADS_BLOCKED_LIST];
body = {
context_id: lazy.contextId,
placements: unifiedAdsPlacements,
blocks: blockedSponsors.split(","),
};
}
const headers = new Headers();
headers.append("content-type", "application/json");
const spocsResponse = await this.fetchFromEndpoint(endpoint, {
method: "POST",
headers,
body: JSON.stringify(body),
});
if (spocsResponse) {
const fetchTimestamp = Date.now();
spocsState = {
lastUpdated: fetchTimestamp,
spocs: {
...spocsResponse,
},
};
if (spocsResponse.settings && spocsResponse.settings.feature_flags) {
this.store.dispatch(
ac.OnlyToMain({
type: at.DISCOVERY_STREAM_PERSONALIZATION_OVERRIDE,
data: {
override: !spocsResponse.settings.feature_flags.spoc_v2,
},
})
);
this.updateSponsoredCollectionsPref(
spocsResponse.settings.feature_flags.collections
);
}
const spocsResultPromises = this.getPlacements().map(
async placement => {
let freshSpocs = spocsState.spocs[placement.name];
if (unifiedAdsEnabled) {
freshSpocs = unifiedAdsPlacements.reduce(
(accumulator, currentValue) => {
return accumulator.concat(
spocsState.spocs[currentValue.placement]
);
},
[]
);
}
if (!freshSpocs) {
return;
}
// spocs can be returns as an array, or an object with an items array.
// We want to normalize this so all our spocs have an items array.
// There can also be some meta data for title and context.
// This is mostly because of backwards compat.
const {
items: normalizedSpocsItems,
title,
context,
sponsor,
sponsored_by_override,
} = this.normalizeSpocsItems(freshSpocs);
if (!normalizedSpocsItems || !normalizedSpocsItems.length) {
// In the case of old data, we still want to ensure we normalize the data structure,
// even if it's empty. We expect the empty data to be an object with items array,
// and not just an empty array.
spocsState.spocs = {
...spocsState.spocs,
[placement.name]: {
title,
context,
items: [],
},
};
return;
}
// Migrate flight_id
const { data: migratedSpocs } =
this.migrateFlightId(normalizedSpocsItems);
const { data: capResult } = this.frequencyCapSpocs(migratedSpocs);
const { data: blockedResults } =
await this.filterBlocked(capResult);
const { data: spocsWithFetchTimestamp } = this.addFetchTimestamp(
blockedResults,
fetchTimestamp
);
const { data: scoredResults, personalized } =
await this.scoreItems(spocsWithFetchTimestamp, "spocs");
spocsState.spocs = {
...spocsState.spocs,
[placement.name]: {
title,
context,
sponsor,
sponsored_by_override,
personalized,
items: scoredResults,
},
};
}
);
await Promise.all(spocsResultPromises);
this.cleanUpFlightImpressionPref(spocsState.spocs);
} else {
console.error("No response for spocs_endpoint prop");
}
}
}
// Use good data if we have it, otherwise nothing.
// We can have no data if spocs set to off.
// We can have no data if request fails and there is no good cache.
// We want to send an update spocs or not, so client can render something.
spocsState =
spocsState && spocsState.spocs
? spocsState
: {
lastUpdated: Date.now(),
spocs: {},
};
await this.cache.set("spocs", {
lastUpdated: spocsState.lastUpdated,
spocs: spocsState.spocs,
});
sendUpdate({
type: at.DISCOVERY_STREAM_SPOCS_UPDATE,
data: {
lastUpdated: spocsState.lastUpdated,
spocs: spocsState.spocs,
},
meta: {
isStartup,
},
});
}
async clearSpocs() {
const state = this.store.getState();
let endpoint = state.Prefs.values[PREF_SPOCS_CLEAR_ENDPOINT];
const unifiedAdsEnabled =
state.Prefs.values[PREF_UNIFIED_ADS_SPOCS_ENABLED];
let body = {
pocket_id: this._impressionId,
};
if (unifiedAdsEnabled) {
const endpointBaseUrl = state.Prefs.values[PREF_UNIFIED_ADS_ENDPOINT];
if (!endpointBaseUrl) {
return;
}
endpoint = `${endpointBaseUrl}v1/delete_user`;
body = {
context_id: lazy.contextId,
};
}
if (!endpoint) {
return;
}
const headers = new Headers();
headers.append("content-type", "application/json");
await this.fetchFromEndpoint(endpoint, {
method: "DELETE",
headers,
body: JSON.stringify(body),
});
}
observe(subject, topic, data) {
switch (topic) {
case "nsPref:changed":
// If the Pocket button was turned on or off, we need to update the cards
// because cards show menu options for the Pocket button that need to be removed.
if (data === PREF_POCKET_BUTTON) {
this.configReset();
}
break;
}
}
/*
* This function is used to sort any type of story, both spocs and recs.
* This uses hierarchical sorting, first sorting by priority, then by score within a priority.
* This function could be sorting an array of spocs or an array of recs.
* A rec would have priority undefined, and a spoc would probably have a priority set.
* Priority is sorted ascending, so low numbers are the highest priority.
* Score is sorted descending, so high numbers are the highest score.
* Undefined priority values are considered the lowest priority.
* A negative priority is considered the same as undefined, lowest priority.
* A negative priority is unlikely and not currently supported or expected.
* A negative score is a possible use case.
*/
sortItem(a, b) {
// If the priorities are the same, sort based on score.
// If both item priorities are undefined,
// we can safely sort via score.
if (a.priority === b.priority) {
return b.score - a.score;
} else if (!a.priority || a.priority <= 0) {
// If priority is undefined or an unexpected value,
// consider it lowest priority.
return 1;
} else if (!b.priority || b.priority <= 0) {
// Also consider this case lowest priority.
return -1;
}
// Our primary sort for items with priority.
return a.priority - b.priority;
}
async scoreItems(items, type) {
const spocsPersonalized =
this.store.getState().Prefs.values?.pocketConfig?.spocsPersonalized;
const recsPersonalized =
this.store.getState().Prefs.values?.pocketConfig?.recsPersonalized;
const personalizedByType =
type === "feed" ? recsPersonalized : spocsPersonalized;
// If this is initialized, we are ready to go.
const personalized = this.store.getState().Personalization.initialized;
const data = (
await Promise.all(
items.map(item => this.scoreItem(item, personalizedByType))
)
)
// Sort by highest scores.
.sort(this.sortItem);
return { data, personalized };
}
async scoreItem(item, personalizedByType) {
item.score = item.item_score;
if (item.score !== 0 && !item.score) {
item.score = 1;
}
if (this.personalized && personalizedByType) {
await this.recommendationProvider.calculateItemRelevanceScore(item);
}
return item;
}
async filterBlocked(data) {
if (data?.length) {
let flights = this.readDataPref(PREF_FLIGHT_BLOCKS);
const cachedData = (await this.cache.get()) || {};
let blocks = cachedData.recsBlocks || {};
const filteredItems = data.filter(item => {
const blocked =
lazy.NewTabUtils.blockedLinks.isBlocked({ url: item.url }) ||
flights[item.flight_id] ||
blocks[item.id];
return !blocked;
});
return { data: filteredItems };
}
return { data };
}
// Add the fetch timestamp property to each spoc returned to communicate how
// old the spoc is in telemetry when it is used by the client
addFetchTimestamp(spocs, fetchTimestamp) {
if (spocs && spocs.length) {
return {
data: spocs.map(s => {
return {
...s,
fetchTimestamp,
};
}),
};
}
return { data: spocs };
}
// For backwards compatibility, older spoc endpoint don't have flight_id,
// but instead had campaign_id we can use
//
// @param {Object} data An object that might have a SPOCS array.
// @returns {Object} An object with a property `data` as the result.
migrateFlightId(spocs) {
if (spocs && spocs.length) {
return {
data: spocs.map(s => {
return {
...s,
...(s.flight_id || s.campaign_id
? {
flight_id: s.flight_id || s.campaign_id,
}
: {}),
...(s.caps
? {
caps: {
...s.caps,
flight: s.caps.flight || s.caps.campaign,
},
}
: {}),
};
}),
};
}
return { data: spocs };
}
// Filter spocs based on frequency caps
//
// @param {Object} data An object that might have a SPOCS array.
// @returns {Object} An object with a property `data` as the result, and a property
// `filterItems` as the frequency capped items.
frequencyCapSpocs(spocs) {
if (spocs?.length) {
const impressions = this.readDataPref(PREF_SPOC_IMPRESSIONS);
const caps = [];
const result = spocs.filter(s => {
const isBelow = this.isBelowFrequencyCap(impressions, s);
if (!isBelow) {
caps.push(s);
}
return isBelow;
});
// send caps to redux if any.
if (caps.length) {
this.store.dispatch({
type: at.DISCOVERY_STREAM_SPOCS_CAPS,
data: caps,
});
}
return { data: result, filtered: caps };
}
return { data: spocs, filtered: [] };
}
// Frequency caps are based on flight, which may include multiple spocs.
// We currently support two types of frequency caps:
// - lifetime: Indicates how many times spocs from a flight can be shown in total
// - period: Indicates how many times spocs from a flight can be shown within a period
//
// So, for example, the feed configuration below defines that for flight 1 no more
// than 5 spocs can be shown in total, and no more than 2 per hour.
// "flight_id": 1,
// "caps": {
// "lifetime": 5,
// "flight": {
// "count": 2,
// "period": 3600
// }
// }
isBelowFrequencyCap(impressions, spoc) {
const flightImpressions = impressions[spoc.flight_id];
if (!flightImpressions) {
return true;
}
const lifetime = spoc.caps && spoc.caps.lifetime;
const lifeTimeCap = Math.min(
lifetime || MAX_LIFETIME_CAP,
MAX_LIFETIME_CAP
);
const lifeTimeCapExceeded = flightImpressions.length >= lifeTimeCap;
if (lifeTimeCapExceeded) {
return false;
}
const flightCap = spoc.caps && spoc.caps.flight;
if (flightCap) {
const flightCapExceeded =
flightImpressions.filter(i => Date.now() - i < flightCap.period * 1000)
.length >= flightCap.count;
return !flightCapExceeded;
}
return true;
}
async retryFeed(feed) {
const { url } = feed;
const newFeed = await this.getComponentFeed(url);
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_FEED_UPDATE,
data: {
feed: newFeed,
url,
},
})
);
}
getExperimentInfo() {
const pocketNewtabExperiment = lazy.ExperimentAPI.getExperimentMetaData({
featureId: "pocketNewtab",
});
const pocketNewtabRollout = lazy.ExperimentAPI.getRolloutMetaData({
featureId: "pocketNewtab",
});
// We want to know if the user is in an experiment or rollout,
// but we prioritize experiments over rollouts.
const experimentMetaData = pocketNewtabExperiment || pocketNewtabRollout;
let experimentName = experimentMetaData?.slug || "";
let experimentBranch = experimentMetaData?.branch?.slug || "";
return {
experimentName,
experimentBranch,
};
}
// eslint-disable-next-line max-statements
async getComponentFeed(feedUrl, isStartup) {
const cachedData = (await this.cache.get()) || {};
const prefs = this.store.getState().Prefs.values;
const sectionsEnabled = prefs[PREF_SECTIONS_ENABLED];
let isFakespot;
const selectedFeedPref = prefs[PREF_CONTEXTUAL_CONTENT_SELECTED_FEED];
let sections = [];
const { feeds } = cachedData;
let feed = feeds ? feeds[feedUrl] : null;
if (this.isExpired({ cachedData, key: "feed", url: feedUrl, isStartup })) {
const options = this.formatComponentFeedRequest();
const feedResponse = await this.fetchFromEndpoint(feedUrl, options);
if (feedResponse) {
const { settings = {} } = feedResponse;
let { recommendations } = feedResponse;
if (this.isMerino) {
recommendations = feedResponse.data.map(item => ({
id: item.corpusItemId || item.scheduledCorpusItemId || item.tileId,
scheduled_corpus_item_id: item.scheduledCorpusItemId,
corpus_item_id: item.corpusItemId,
url: item.url,
title: item.title,
topic: item.topic,
excerpt: item.excerpt,
publisher: item.publisher,
raw_image_src: item.imageUrl,
received_rank: item.receivedRank,
recommended_at: feedResponse.recommendedAt,
}));
if (feedResponse.feeds && selectedFeedPref && !sectionsEnabled) {
isFakespot = selectedFeedPref === "fakespot";
const keyName = isFakespot ? "products" : "recommendations";
const selectedFeedResponse = feedResponse.feeds[selectedFeedPref];
selectedFeedResponse?.[keyName]?.forEach(item =>
recommendations.push({
id: isFakespot
? item.id
: item.corpusItemId ||
item.scheduledCorpusItemId ||
item.tileId,
scheduled_corpus_item_id: item.scheduledCorpusItemId,
corpus_item_id: item.corpusItemId,
url: item.url,
title: item.title,
topic: item.topic,
excerpt: item.excerpt,
publisher: item.publisher,
raw_image_src: item.imageUrl,
received_rank: item.receivedRank,
recommended_at: feedResponse.recommendedAt,
// property to determine if rec is used in ListFeed or not
feedName: selectedFeedPref,
category: item.category,
})
);
const prevTitle = prefs[PREF_CONTEXTUAL_CONTENT_LISTFEED_TITLE];
const feedTitle = isFakespot
? selectedFeedResponse.headerCopy
: selectedFeedResponse.title;
if (feedTitle && feedTitle !== prevTitle) {
this.handleListfeedStrings(selectedFeedResponse, isFakespot);
}
}
if (sectionsEnabled) {
for (const [sectionKey, sectionData] of Object.entries(
feedResponse.feeds
)) {
if (sectionData) {
for (const item of sectionData.recommendations) {
recommendations.push({
id:
item.corpusItemId ||
item.scheduledCorpusItemId ||
item.tileId,
scheduled_corpus_item_id: item.scheduledCorpusItemId,
corpus_item_id: item.corpusItemId,
url: item.url,
title: item.title,
topic: item.topic,
excerpt: item.excerpt,
publisher: item.publisher,
raw_image_src: item.imageUrl,
received_rank: item.receivedRank,
recommended_at: feedResponse.recommendedAt,
// property to determine if rec is used in ListFeed or not
section: sectionKey,
});
}
sections.push({
sectionKey,
title: sectionData.title,
subtitle: sectionData.subtitle || "",
receivedRank: sectionData.receivedFeedRank,
layout: sectionData.layout,
});
}
}
}
} else if (this.isBff) {
recommendations = feedResponse.data.map(item => ({
id: item.tileId,
url: item.url,
title: item.title,
excerpt: item.excerpt,
publisher: item.publisher,
time_to_read: item.timeToRead,
raw_image_src: item.imageUrl,
recommendation_id: item.recommendationId,
}));
}
const { data: scoredItems, personalized } = await this.scoreItems(
recommendations,
"feed"
);
// We can cleanup any impressions we have that are old before we rotate.
// In theory we can do this anywhere, but doing it just before rotate is optimal.
// Rotate is also the only place that uses these impressions.
await this.cleanUpTopRecImpressions();
const rotatedItems = await this.rotate(scoredItems);
const { data: filteredResults } =
await this.filterBlocked(rotatedItems);
this.componentFeedFetched = true;
feed = {
lastUpdated: Date.now(),
personalized,
data: {
settings,
sections,
recommendations: filteredResults,
status: "success",
},
};
} else {
console.error("No response for feed");
}
}
// If we have no feed at this point, both fetch and cache failed for some reason.
return (
feed || {
data: {
status: "failed",
},
}
);
}
handleListfeedStrings(feedResponse, isFakespot) {
if (isFakespot) {
this.store.dispatch(
ac.SetPref(
PREF_CONTEXTUAL_CONTENT_LISTFEED_TITLE,
feedResponse.headerCopy
)
);
this.store.dispatch(
ac.SetPref(
PREF_CONTEXTUAL_CONTENT_FAKESPOT_CATEGORY,
feedResponse.defaultCategoryName
)
);
this.store.dispatch(
ac.SetPref(
PREF_CONTEXTUAL_CONTENT_FAKESPOT_FOOTER,
feedResponse.footerCopy
)
);
this.store.dispatch(
ac.SetPref(
PREF_CONTEXTUAL_CONTENT_FAKESPOT_CTA_COPY,
feedResponse.cta.ctaCopy
)
);
this.store.dispatch(
ac.SetPref(
PREF_CONTEXTUAL_CONTENT_FAKESPOT_CTA_URL,
feedResponse.cta.url
)
);
} else {
this.store.dispatch(
ac.SetPref(PREF_CONTEXTUAL_CONTENT_LISTFEED_TITLE, feedResponse.title)
);
}
}
formatComponentFeedRequest() {
const prefs = this.store.getState().Prefs.values;
const headers = new Headers();
if (this.isMerino) {
const topicSelectionEnabled = prefs[PREF_TOPIC_SELECTION_ENABLED];
const topicsString = prefs[PREF_SELECTED_TOPICS];
const topics = topicSelectionEnabled
? topicsString
.split(",")
.map(s => s.trim())
.filter(item => item)
: [];
// Should we pass the experiment branch and slug to the Merino feed request.
const prefMerinoFeedExperiment = Services.prefs.getBoolPref(
PREF_MERINO_FEED_EXPERIMENT
);
headers.append("content-type", "application/json");
let body = {
...(prefMerinoFeedExperiment ? this.getExperimentInfo() : {}),
locale: this.locale,
region: this.region,
topics,
};
const sectionsEnabled = prefs[PREF_SECTIONS_ENABLED];
// Should we pass the feed param to the merino request
const contextualContentEnabled = prefs[PREF_CONTEXTUAL_CONTENT_ENABLED];
const selectedFeed = prefs[PREF_CONTEXTUAL_CONTENT_SELECTED_FEED];
const isFakespot = selectedFeed === "fakespot";
const fakespotEnabled = prefs[PREF_FAKESPOT_ENABLED];
const shouldFetchTBRFeed =
(contextualContentEnabled && !isFakespot) ||
(contextualContentEnabled && isFakespot && fakespotEnabled);
if (shouldFetchTBRFeed) {
body.feeds = [selectedFeed];
}
if (sectionsEnabled) {
// if sections is enabled, it should override the TBR feed
body.feeds = ["sections"];
}
return {
method: "POST",
headers,
body: JSON.stringify(body),
};
} else if (this.isBff) {
const oAuthConsumerKey = Services.prefs.getStringPref(
"extensions.pocket.oAuthConsumerKeyBff"
);
headers.append("consumer_key", oAuthConsumerKey);
return {
method: "GET",
headers,
};
}
return {};
}
/**
* Called at startup to update cached data in the background.
*/
async _maybeUpdateCachedData() {
const expirationPerComponent = await this._checkExpirationPerComponent();
// Pass in `store.dispatch` to send the updates only to main
if (expirationPerComponent.spocs) {
await this.loadSpocs(this.store.dispatch);
}
if (expirationPerComponent.feeds) {
await this.loadComponentFeeds(this.store.dispatch);
}
}
async scoreFeeds(feedsState) {
if (feedsState.data) {
const feeds = {};
const feedsPromises = Object.keys(feedsState.data).map(url => {
let feed = feedsState.data[url];
if (feed.personalized) {
// Feed was previously personalized then cached, we don't need to do this again.
return Promise.resolve();
}
const feedPromise = this.scoreItems(feed.data.recommendations, "feed");
feedPromise.then(({ data: scoredItems, personalized }) => {
feed = {
...feed,
personalized,
data: {
...feed.data,
recommendations: scoredItems,
},
};
feeds[url] = feed;
this.store.dispatch(
ac.AlsoToPreloaded({
type: at.DISCOVERY_STREAM_FEED_UPDATE,
data: {
feed,
url,
},
})
);
});
return feedPromise;
});
await Promise.all(feedsPromises);
await this.cache.set("feeds", feeds);
}
}
async scoreSpocs(spocsState) {
const spocsResultPromises = this.getPlacements().map(async placement => {
const nextSpocs = spocsState.data[placement.name] || {};
const { items } = nextSpocs;
if (nextSpocs.personalized || !items || !items.length) {
return;
}
const { data: scoreResult, personalized } = await this.scoreItems(
items,
"spocs"
);
spocsState.data = {
...spocsState.data,
[placement.name]: {
...nextSpocs,
personalized,
items: scoreResult,
},
};
});
await Promise.all(spocsResultPromises);
// Update cache here so we don't need to re calculate scores on loads from cache.
await this.cache.set("spocs", {
lastUpdated: spocsState.lastUpdated,
spocs: spocsState.data,
});
this.store.dispatch(
ac.AlsoToPreloaded({
type: at.DISCOVERY_STREAM_SPOCS_UPDATE,
data: {
lastUpdated: spocsState.lastUpdated,
spocs: spocsState.data,
},
})
);
}
/**
* @typedef {Object} RefreshAll
* @property {boolean} updateOpenTabs - Sends updates to open tabs immediately if true,
* updates in background if false
* @property {boolean} isStartup - When the function is called at browser startup
*
* Refreshes component feeds, and spocs in order if caches have expired.
* @param {RefreshAll} options
*/
async refreshAll(options = {}) {
const { updateOpenTabs, isStartup } = options;
const dispatch = updateOpenTabs
? action => this.store.dispatch(ac.BroadcastToContent(action))
: this.store.dispatch;
this.loadLayout(dispatch, isStartup);
if (this.showStories || this.showTopsites) {
const spocsStartupCacheEnabled =
this.store.getState().Prefs.values[PREF_SPOCS_STARTUP_CACHE_ENABLED];
const promises = [];
// We could potentially have either or both sponsored topsites or stories.
// We only make one fetch, and control which to request when we fetch.
// So for now we only care if we need to make this request at all.
const spocsPromise = this.loadSpocs(
dispatch,
isStartup && spocsStartupCacheEnabled
).catch(error =>
console.error("Error trying to load spocs feeds:", error)
);
promises.push(spocsPromise);
if (this.showStories) {
const storiesPromise = this.loadComponentFeeds(
dispatch,
isStartup
).catch(error =>
console.error("Error trying to load component feeds:", error)
);
promises.push(storiesPromise);
}
await Promise.all(promises);
if (isStartup) {
// We don't pass isStartup in _maybeUpdateCachedData on purpose,
// because startup loads have a longer cache timer,
// and we want this to update in the background sooner.
await this._maybeUpdateCachedData();
}
}
}
// We have to rotate stories on the client so that
// active stories are at the front of the list, followed by stories that have expired
// impressions i.e. have been displayed for longer than DEFAULT_RECS_ROTATION_TIME.
async rotate(recommendations) {
const cachedData = (await this.cache.get()) || {};
const impressions = cachedData.recsImpressions;
// If we have no impressions, don't bother checking.
if (!impressions) {
return recommendations;
}
const expired = [];
const active = [];
for (const item of recommendations) {
if (
impressions[item.id] &&
Date.now() - impressions[item.id] >= DEFAULT_RECS_ROTATION_TIME
) {
expired.push(item);
} else {
active.push(item);
}
}
return active.concat(expired);
}
enableStories() {
if (this.config.enabled) {
// If stories are being re enabled, ensure we have stories.
this.refreshAll({ updateOpenTabs: true });
}
}
async enable(options = {}) {
await this.refreshAll(options);
this.loaded = true;
}
async reset() {
this.resetDataPrefs();
await this.resetCache();
this.resetState();
}
async resetCache() {
await this.resetAllCache();
}
async resetContentCache() {
await this.cache.set("feeds", {});
await this.cache.set("spocs", {});
await this.cache.set("sov", {});
await this.cache.set("recsImpressions", {});
}
async resetBlocks() {
await this.cache.set("recsBlocks", {});
const cachedData = (await this.cache.get()) || {};
let blocks = cachedData.recsBlocks || {};
this.store.dispatch({
type: at.DISCOVERY_STREAM_DEV_BLOCKS,
data: blocks,
});
// Update newtab after clearing blocks.
await this.refreshAll({ updateOpenTabs: true });
}
async resetContentFeed() {
await this.cache.set("feeds", {});
}
async resetAllCache() {
await this.resetContentCache();
// Reset in-memory caches.
this._isBff = undefined;
this._isMerino = undefined;
this._spocsCacheUpdateTime = undefined;
}
resetDataPrefs() {
this.writeDataPref(PREF_SPOC_IMPRESSIONS, {});
this.writeDataPref(PREF_FLIGHT_BLOCKS, {});
}
resetState() {
// Reset reducer
this.store.dispatch(
ac.BroadcastToContent({ type: at.DISCOVERY_STREAM_LAYOUT_RESET })
);
this.setupPrefs(false /* isStartup */);
this.loaded = false;
}
async onPrefChange() {
// We always want to clear the cache/state if the pref has changed
await this.reset();
if (this.config.enabled) {
// Load data from all endpoints
await this.enable({ updateOpenTabs: true });
}
}
// This is a request to change the config from somewhere.
// Can be from a specific pref related to Discovery Stream,
// or can be a generic request from an external feed that
// something changed.
configReset() {
this._prefCache.config = null;
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_CONFIG_CHANGE,
data: this.config,
})
);
}
recordFlightImpression(flightId) {
let impressions = this.readDataPref(PREF_SPOC_IMPRESSIONS);
const timeStamps = impressions[flightId] || [];
timeStamps.push(Date.now());
impressions = { ...impressions, [flightId]: timeStamps };
this.writeDataPref(PREF_SPOC_IMPRESSIONS, impressions);
}
async recordTopRecImpression(recId) {
const cachedData = (await this.cache.get()) || {};
let impressions = cachedData.recsImpressions || {};
if (!impressions[recId]) {
impressions = { ...impressions, [recId]: Date.now() };
await this.cache.set("recsImpressions", impressions);
this.store.dispatch({
type: at.DISCOVERY_STREAM_DEV_IMPRESSIONS,
data: impressions,
});
}
}
async recordBlockRecId(recId) {
const cachedData = (await this.cache.get()) || {};
let blocks = cachedData.recsBlocks || {};
if (!blocks[recId]) {
blocks[recId] = 1;
await this.cache.set("recsBlocks", blocks);
this.store.dispatch({
type: at.DISCOVERY_STREAM_DEV_BLOCKS,
data: blocks,
});
}
}
recordBlockFlightId(flightId) {
const unifiedAdsEnabled =
this.store.getState().Prefs.values[PREF_UNIFIED_ADS_SPOCS_ENABLED];
const flights = this.readDataPref(PREF_FLIGHT_BLOCKS);
if (!flights[flightId]) {
flights[flightId] = 1;
this.writeDataPref(PREF_FLIGHT_BLOCKS, flights);
if (unifiedAdsEnabled) {
let blockList =
this.store.getState().Prefs.values[PREF_UNIFIED_ADS_BLOCKED_LIST];
let blockedAdsArray = [];
// If prev ads have been blocked, convert CSV string to array
if (blockList !== "") {
blockedAdsArray = blockList
.split(",")
.map(s => s.trim())
.filter(item => item);
}
blockedAdsArray.push(flightId);
this.store.dispatch(
ac.SetPref(PREF_UNIFIED_ADS_BLOCKED_LIST, blockedAdsArray.join(","))
);
}
}
}
cleanUpFlightImpressionPref(data) {
let flightIds = [];
this.placementsForEach(placement => {
const newSpocs = data[placement.name];
if (!newSpocs) {
return;
}
const items = newSpocs.items || [];
flightIds = [...flightIds, ...items.map(s => `${s.flight_id}`)];
});
if (flightIds && flightIds.length) {
this.cleanUpImpressionPref(
id => !flightIds.includes(id),
PREF_SPOC_IMPRESSIONS
);
}
}
// Clean up rec impressions that are old.
async cleanUpTopRecImpressions() {
await this.cleanUpImpressionCache(
impression =>
Date.now() - impression >= DEFAULT_RECS_IMPRESSION_EXPIRE_TIME,
"recsImpressions"
);
}
writeDataPref(pref, impressions) {
this.store.dispatch(ac.SetPref(pref, JSON.stringify(impressions)));
}
readDataPref(pref) {
const prefVal = this.store.getState().Prefs.values[pref];
return prefVal ? JSON.parse(prefVal) : {};
}
async cleanUpImpressionCache(isExpired, cacheKey) {
const cachedData = (await this.cache.get()) || {};
let impressions = cachedData[cacheKey];
let changed = false;
if (impressions) {
Object.keys(impressions).forEach(id => {
if (isExpired(impressions[id])) {
changed = true;
delete impressions[id];
}
});
if (changed) {
await this.cache.set(cacheKey, impressions);
this.store.dispatch({
type: at.DISCOVERY_STREAM_DEV_IMPRESSIONS,
data: impressions,
});
}
}
}
cleanUpImpressionPref(isExpired, pref) {
const impressions = this.readDataPref(pref);
let changed = false;
Object.keys(impressions).forEach(id => {
if (isExpired(id)) {
changed = true;
delete impressions[id];
}
});
if (changed) {
this.writeDataPref(pref, impressions);
}
}
onCollectionsChanged() {
// Update layout, and reload any off screen tabs.
// This does not change any existing open tabs.
// It also doesn't update any spoc or rec data, just the layout.
const dispatch = action => this.store.dispatch(ac.AlsoToPreloaded(action));
this.loadLayout(dispatch, false);
}
async retreiveProfileAge() {
let profileAccessor = await lazy.ProfileAge();
let profileCreateTime = await profileAccessor.created;
let timeNow = new Date().getTime();
let profileAge = timeNow - profileCreateTime;
// Convert milliseconds to days
return profileAge / 1000 / 60 / 60 / 24;
}
topicSelectionImpressionEvent() {
let counter =
this.store.getState().Prefs.values[TOPIC_SELECTION_DISPLAY_COUNT];
const newCount = counter + 1;
this.store.dispatch(ac.SetPref(TOPIC_SELECTION_DISPLAY_COUNT, newCount));
this.store.dispatch(
ac.SetPref(TOPIC_SELECTION_LAST_DISPLAYED, `${new Date().getTime()}`)
);
}
topicSelectionMaybeLaterEvent() {
const age = this.retreiveProfileAge();
const newProfile = age <= 1;
const day = 24 * 60 * 60 * 1000;
this.store.dispatch(
ac.SetPref(
TOPIC_SELECTION_DISPLAY_TIMEOUT,
newProfile ? 3 * day : 7 * day
)
);
}
async onPrefChangedAction(action) {
switch (action.data.name) {
case PREF_CONFIG:
case PREF_ENABLED:
case PREF_HARDCODED_BASIC_LAYOUT:
case PREF_SPOCS_ENDPOINT:
case PREF_SPOCS_ENDPOINT_QUERY:
case PREF_SPOCS_CLEAR_ENDPOINT:
case PREF_ENDPOINTS:
case PREF_LAYOUT_EXPERIMENT_A:
case PREF_LAYOUT_EXPERIMENT_B:
case PREF_SPOC_POSITIONS:
case PREF_UNIFIED_ADS_SPOCS_ENABLED:
case PREF_CONTEXTUAL_CONTENT_ENABLED:
case PREF_CONTEXTUAL_CONTENT_SELECTED_FEED:
case PREF_SECTIONS_ENABLED:
// This is a config reset directly related to Discovery Stream pref.
this.configReset();
break;
case PREF_COLLECTIONS_ENABLED:
this.onCollectionsChanged();
break;
case PREF_SELECTED_TOPICS:
this.store.dispatch(
ac.BroadcastToContent({ type: at.DISCOVERY_STREAM_LAYOUT_RESET })
);
// Ensure at least a little bit of loading is seen, if this is too fast,
// it's not clear to the user what just happened.
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_TOPICS_LOADING,
data: true,
})
);
setTimeout(() => {
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_TOPICS_LOADING,
data: false,
})
);
}, TOPIC_LOADING_TIMEOUT);
this.loadLayout(
a => this.store.dispatch(ac.BroadcastToContent(a)),
false
);
// when topics have been updated, make a new request from merino and clear impression cap
await this.cache.set("recsImpressions", {});
await this.resetContentFeed();
this.refreshAll({ updateOpenTabs: true });
break;
case PREF_USER_TOPSITES:
case PREF_SYSTEM_TOPSITES:
if (
!(
this.showTopsites ||
(this.showStories && this.showSponsoredStories)
)
) {
// Ensure we delete any remote data potentially related to spocs.
this.clearSpocs();
}
break;
case PREF_USER_TOPSTORIES:
case PREF_SYSTEM_TOPSTORIES:
if (
!(
this.showStories ||
(this.showTopsites && this.showSponsoredTopsites)
)
) {
// Ensure we delete any remote data potentially related to spocs.
this.clearSpocs();
}
if (action.data.value) {
this.enableStories();
}
break;
// Check if spocs was disabled. Remove them if they were.
case PREF_SHOW_SPONSORED:
case PREF_SHOW_SPONSORED_TOPSITES: {
const dispatch = update =>
this.store.dispatch(ac.BroadcastToContent(update));
// We refresh placements data because one of the spocs were turned off.
this.updatePlacements(
dispatch,
this.store.getState().DiscoveryStream.layout
);
// Currently the order of this is important.
// We need to check this after updatePlacements is called,
// because some of the spoc logic depends on the result of placement updates.
if (
!(
(this.showSponsoredStories ||
(this.showTopsites && this.showSponsoredTopsites)) &&
(this.showSponsoredTopsites ||
(this.showStories && this.showSponsoredStories))
)
) {
// Ensure we delete any remote data potentially related to spocs.
this.clearSpocs();
}
// Placements have changed so consider spocs expired, and reload them.
await this.cache.set("spocs", {});
await this.loadSpocs(dispatch);
break;
}
}
}
async onAction(action) {
switch (action.type) {
case at.INIT:
// During the initialization of Firefox:
// 1. Set-up listeners and initialize the redux state for config;
this.setupConfig(true /* isStartup */);
this.setupPrefs(true /* isStartup */);
// 2. If config.enabled is true, start loading data.
if (this.config.enabled) {
await this.enable({ updateOpenTabs: true, isStartup: true });
}
Services.prefs.addObserver(PREF_POCKET_BUTTON, this);
// This function is async but just for devtools,
// so we don't need to wait for it.
this.setupDevtoolsState(true /* isStartup */);
break;
case at.TOPIC_SELECTION_MAYBE_LATER:
this.topicSelectionMaybeLaterEvent();
break;
case at.DISCOVERY_STREAM_DEV_BLOCKS_RESET:
await this.resetBlocks();
break;
case at.DISCOVERY_STREAM_DEV_SYSTEM_TICK:
case at.SYSTEM_TICK:
// Only refresh if we loaded once in .enable()
if (
this.config.enabled &&
this.loaded &&
(await this.checkIfAnyCacheExpired())
) {
await this.refreshAll({ updateOpenTabs: false });
}
break;
case at.DISCOVERY_STREAM_DEV_SYNC_RS:
lazy.RemoteSettings.pollChanges();
break;
case at.DISCOVERY_STREAM_DEV_EXPIRE_CACHE:
// Personalization scores update at a slower interval than content, so in order to debug,
// we want to be able to expire just content to trigger the earlier expire times.
await this.resetContentCache();
break;
case at.DISCOVERY_STREAM_DEV_SHOW_PLACEHOLDER: {
// We want to display the loading state permanently, for dev purposes.
// We do this by resetting everything, loading the layout, and nothing else.
// This essentially hangs because we never triggered the content load.
await this.reset();
this.loadLayout(
a => this.store.dispatch(ac.BroadcastToContent(a)),
false
);
break;
}
case at.DISCOVERY_STREAM_CONFIG_SET_VALUE:
// Use the original string pref to then set a value instead of
// this.config which has some modifications
this.store.dispatch(
ac.SetPref(
PREF_CONFIG,
JSON.stringify({
...JSON.parse(this.store.getState().Prefs.values[PREF_CONFIG]),
[action.data.name]: action.data.value,
})
)
);
break;
case at.DISCOVERY_STREAM_POCKET_STATE_INIT:
this.setupPocketState(action.meta.fromTarget);
break;
case at.DISCOVERY_STREAM_PERSONALIZATION_UPDATED:
if (this.personalized) {
const { feeds, spocs } = this.store.getState().DiscoveryStream;
const spocsPersonalized =
this.store.getState().Prefs.values?.pocketConfig?.spocsPersonalized;
const recsPersonalized =
this.store.getState().Prefs.values?.pocketConfig?.recsPersonalized;
if (recsPersonalized && feeds.loaded) {
this.scoreFeeds(feeds);
}
if (spocsPersonalized && spocs.loaded) {
this.scoreSpocs(spocs);
}
}
break;
case at.DISCOVERY_STREAM_CONFIG_RESET:
// This is a generic config reset likely related to an external feed pref.
this.configReset();
break;
case at.DISCOVERY_STREAM_CONFIG_RESET_DEFAULTS:
this.resetConfigDefauts();
break;
case at.DISCOVERY_STREAM_RETRY_FEED:
this.retryFeed(action.data.feed);
break;
case at.DISCOVERY_STREAM_CONFIG_CHANGE:
// When the config pref changes, load or unload data as needed.
await this.onPrefChange();
break;
case at.DISCOVERY_STREAM_IMPRESSION_STATS:
if (
action.data.tiles &&
action.data.tiles[0] &&
action.data.tiles[0].id
) {
this.recordTopRecImpression(action.data.tiles[0].id);
}
break;
case at.DISCOVERY_STREAM_SPOC_IMPRESSION:
if (this.showSpocs) {
this.recordFlightImpression(action.data.flightId);
// Apply frequency capping to SPOCs in the redux store, only update the
// store if the SPOCs are changed.
const spocsState = this.store.getState().DiscoveryStream.spocs;
let frequencyCapped = [];
this.placementsForEach(placement => {
const spocs = spocsState.data[placement.name];
if (!spocs || !spocs.items) {
return;
}
const { data: capResult, filtered } = this.frequencyCapSpocs(
spocs.items
);
frequencyCapped = [...frequencyCapped, ...filtered];
spocsState.data = {
...spocsState.data,
[placement.name]: {
...spocs,
items: capResult,
},
};
});
if (frequencyCapped.length) {
// Update cache here so we don't need to re calculate frequency caps on loads from cache.
await this.cache.set("spocs", {
lastUpdated: spocsState.lastUpdated,
spocs: spocsState.data,
});
this.store.dispatch(
ac.AlsoToPreloaded({
type: at.DISCOVERY_STREAM_SPOCS_UPDATE,
data: {
lastUpdated: spocsState.lastUpdated,
spocs: spocsState.data,
},
})
);
}
}
break;
// This is fired from the browser, it has no concept of spocs, flights or pocket.
// We match the blocked url with our available story urls to see if there is a match.
// I suspect we *could* instead do this in BLOCK_URL but I'm not sure.
case at.PLACES_LINK_BLOCKED: {
const feedsState = this.store.getState().DiscoveryStream.feeds;
const feeds = {};
for (const url of Object.keys(feedsState.data)) {
let feed = feedsState.data[url];
const { data: filteredResults } = await this.filterBlocked(
feed.data.recommendations
);
feed = {
...feed,
data: {
...feed.data,
recommendations: filteredResults,
},
};
feeds[url] = feed;
}
await this.cache.set("feeds", feeds);
if (this.showSpocs) {
let blockedItems = [];
const spocsState = this.store.getState().DiscoveryStream.spocs;
this.placementsForEach(placement => {
const spocs = spocsState.data[placement.name];
if (spocs && spocs.items && spocs.items.length) {
const blockedResults = [];
const blocks = spocs.items.filter(s => {
const blocked = s.url === action.data.url;
if (!blocked) {
blockedResults.push(s);
}
return blocked;
});
blockedItems = [...blockedItems, ...blocks];
spocsState.data = {
...spocsState.data,
[placement.name]: {
...spocs,
items: blockedResults,
},
};
}
});
if (blockedItems.length) {
// Update cache here so we don't need to re calculate blocks on loads from cache.
await this.cache.set("spocs", {
lastUpdated: spocsState.lastUpdated,
spocs: spocsState.data,
});
// If we're blocking a spoc, we want open tabs to have
// a slightly different treatment from future tabs.
// AlsoToPreloaded updates the source data and preloaded tabs with a new spoc.
// BroadcastToContent updates open tabs with a non spoc instead of a new spoc.
this.store.dispatch(
ac.AlsoToPreloaded({
type: at.DISCOVERY_STREAM_LINK_BLOCKED,
data: action.data,
})
);
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_SPOC_BLOCKED,
data: action.data,
})
);
break;
}
}
this.store.dispatch(
ac.BroadcastToContent({
type: at.DISCOVERY_STREAM_LINK_BLOCKED,
data: action.data,
})
);
break;
}
case at.UNINIT:
// When this feed is shutting down:
this.uninitPrefs();
this._recommendationProvider = null;
Services.prefs.removeObserver(PREF_POCKET_BUTTON, this);
break;
case at.BLOCK_URL: {
// If we block a story that also has a flight_id
// we want to record that as blocked too.
// This is because a single flight might have slightly different urls.
for (const site of action.data) {
const { flight_id, tile_id } = site;
if (flight_id) {
this.recordBlockFlightId(flight_id);
}
if (tile_id) {
await this.recordBlockRecId(tile_id);
}
}
break;
}
case at.PREF_CHANGED:
await this.onPrefChangedAction(action);
if (action.data.name === "pocketConfig") {
await this.onPrefChange();
this.setupPrefs(false /* isStartup */);
}
break;
case at.TOPIC_SELECTION_IMPRESSION:
this.topicSelectionImpressionEvent();
break;
}
}
}
/* This function generates a hardcoded layout each call.
This is because modifying the original object would
persist across pref changes and system_tick updates.
NOTE: There is some branching logic in the template.
`spocsUrl` Changing the url for spocs is used for adding a siteId query param.
`feedUrl` Where to fetch stories from.
`items` How many items to include in the primary card grid.
`spocPositions` Changes the position of spoc cards.
`spocTopsitesPositions` Changes the position of spoc topsites.
`spocPlacementData` Used to set the spoc content.
`spocTopsitesPlacementEnabled` Tuns on and off the sponsored topsites placement.
`spocTopsitesPlacementData` Used to set spoc content for topsites.
`sponsoredCollectionsEnabled` Tuns on and off the sponsored collection section.
`hybridLayout` Changes cards to smaller more compact cards only for specific breakpoints.
`hideCardBackground` Removes Pocket card background and borders.
`fourCardLayout` Enable four Pocket cards per row.
`newFooterSection` Changes the layout of the topics section.
`compactGrid` Reduce the number of pixels between the Pocket cards.
`essentialReadsHeader` Updates the Pocket section header and title to say "Today’s Essential Reads", moves the "Recommended by Pocket" header to the right side.
`editorsPicksHeader` Updates the Pocket section header and title to say "Editor’s Picks", if used with essentialReadsHeader, creates a second section 2 rows down for editorsPicks.
`onboardingExperience` Show new users some UI explaining Pocket above the Pocket section.
`ctaButtonSponsors` An array of sponsors we want to show a cta button on the card for.
`ctaButtonVariant` Sets the variant for the cta sponsor button.
`spocMessageVariant` Sets the variant for the sponsor message dialog.
*/
getHardcodedLayout = ({
spocsUrl = SPOCS_URL,
feedUrl = FEED_URL,
items = 21,
spocPositions = [1, 5, 7, 11, 18, 20],
spocTopsitesPositions = [1],
spocPlacementData = { ad_types: [3617], zone_ids: [217758, 217995] },
spocTopsitesPlacementEnabled = false,
spocTopsitesPlacementData = { ad_types: [3120], zone_ids: [280143] },
widgetPositions = [],
widgetData = [],
sponsoredCollectionsEnabled = false,
hybridLayout = false,
hideCardBackground = false,
fourCardLayout = false,
newFooterSection = false,
compactGrid = false,
essentialReadsHeader = false,
editorsPicksHeader = false,
onboardingExperience = false,
ctaButtonSponsors = [],
ctaButtonVariant = "",
spocMessageVariant = "",
pocketStoriesHeadlineId = "newtab-section-header-stories",
}) => ({
lastUpdate: Date.now(),
spocs: {
url: spocsUrl,
},
layout: [
{
width: 12,
components: [
{
type: "TopSites",
header: {
title: {
id: "newtab-section-header-topsites",
},
},
...(spocTopsitesPlacementEnabled && spocTopsitesPlacementData
? {
placement: {
name: "sponsored-topsites",
ad_types: spocTopsitesPlacementData.ad_types,
zone_ids: spocTopsitesPlacementData.zone_ids,
},
spocs: {
probability: 1,
prefs: [PREF_SHOW_SPONSORED_TOPSITES],
positions: spocTopsitesPositions.map(position => {
return { index: position };
}),
},
}
: {}),
properties: {},
},
...(sponsoredCollectionsEnabled
? [
{
type: "CollectionCardGrid",
properties: {
items: 3,
},
header: {
title: "",
},
placement: {
name: "sponsored-collection",
ad_types: [3617],
zone_ids: [217759, 218031],
},
spocs: {
probability: 1,
positions: [
{
index: 0,
},
{
index: 1,
},
{
index: 2,
},
],
},
},
]
: []),
{
type: "Message",
essentialReadsHeader,
editorsPicksHeader,
header: {
title: {
id: pocketStoriesHeadlineId,
},
subtitle: "",
link_text: {
id: "newtab-pocket-learn-more",
},
link_url: "",
icon: "chrome://global/skin/icons/pocket.svg",
},
properties: {
spocMessageVariant,
},
styles: {
".ds-message": "margin-bottom: -20px",
},
},
{
type: "CardGrid",
properties: {
items,
hybridLayout,
hideCardBackground,
fourCardLayout,
compactGrid,
essentialReadsHeader,
editorsPicksHeader,
onboardingExperience,
ctaButtonSponsors,
ctaButtonVariant,
spocMessageVariant,
},
widgets: {
positions: widgetPositions.map(position => {
return { index: position };
}),
data: widgetData,
},
cta_variant: "link",
header: {
title: "",
},
placement: {
name: "newtab_spocs",
ad_types: spocPlacementData.ad_types,
zone_ids: spocPlacementData.zone_ids,
},
feed: {
embed_reference: null,
url: feedUrl,
},
spocs: {
probability: 1,
positions: spocPositions.map(position => {
return { index: position };
}),
},
},
{
type: "Navigation",
newFooterSection,
properties: {
alignment: "left-align",
extraLinks: [
{
name: "Career",
},
{
name: "Technology",
},
],
privacyNoticeURL: {
title: {
id: "newtab-section-menu-privacy-notice",
},
},
},
styles: {
".ds-navigation": "margin-top: -10px;",
},
},
...(newFooterSection
? [
{
type: "PrivacyLink",
properties: {
title: {
id: "newtab-section-menu-privacy-notice",
},
},
},
]
: []),
],
},
],
});