import { isEqual, memoize, merge, omit, omitBy, pickBy, size, sum, } from 'lodash'; import { ObservableStore } from '@metamask/obs-store'; import { bufferToHex, keccak } from 'ethereumjs-util'; import { v4 as uuidv4 } from 'uuid'; import { ENVIRONMENT_TYPE_BACKGROUND } from '../../../shared/constants/app'; import { METAMETRICS_ANONYMOUS_ID, METAMETRICS_BACKGROUND_PAGE_OBJECT, MetaMetricsUserTrait, } from '../../../shared/constants/metametrics'; import { SECOND } from '../../../shared/constants/time'; import { isManifestV3 } from '../../../shared/modules/mv3.utils'; import { METAMETRICS_FINALIZE_EVENT_FRAGMENT_ALARM } from '../../../shared/constants/alarms'; import { checkAlarmExists, generateRandomId, isValidDate } from '../lib/util'; const EXTENSION_UNINSTALL_URL = 'https://metamask.io/uninstalled'; const defaultCaptureException = (err) => { // throw error on clean stack so its captured by platform integrations (eg sentry) // but does not interrupt the call stack setTimeout(() => { throw err; }); }; // The function is used to build a unique messageId for segment messages // It uses actionId and uniqueIdentifier from event if present const buildUniqueMessageId = (args) => { const messageIdParts = []; if (args.uniqueIdentifier) { messageIdParts.push(args.uniqueIdentifier); } if (args.actionId) { messageIdParts.push(args.actionId); } if (messageIdParts.length && args.isDuplicateAnonymizedEvent) { messageIdParts.push('0x000'); } if (messageIdParts.length) { return messageIdParts.join('-'); } return generateRandomId(); }; const exceptionsToFilter = { [`You must pass either an "anonymousId" or a "userId".`]: true, }; /** * @typedef {import('../../../shared/constants/metametrics').MetaMetricsContext} MetaMetricsContext * @typedef {import('../../../shared/constants/metametrics').MetaMetricsEventPayload} MetaMetricsEventPayload * @typedef {import('../../../shared/constants/metametrics').MetaMetricsEventOptions} MetaMetricsEventOptions * @typedef {import('../../../shared/constants/metametrics').SegmentEventPayload} SegmentEventPayload * @typedef {import('../../../shared/constants/metametrics').SegmentInterface} SegmentInterface * @typedef {import('../../../shared/constants/metametrics').MetaMetricsPagePayload} MetaMetricsPagePayload * @typedef {import('../../../shared/constants/metametrics').MetaMetricsPageOptions} MetaMetricsPageOptions * @typedef {import('../../../shared/constants/metametrics').MetaMetricsEventFragment} MetaMetricsEventFragment * @typedef {import('../../../shared/constants/metametrics').MetaMetricsTraits} MetaMetricsTraits */ /** * @typedef {object} MetaMetricsControllerState * @property {string} [metaMetricsId] - The user's metaMetricsId that will be * attached to all non-anonymized event payloads * @property {boolean} [participateInMetaMetrics] - The user's preference for * participating in the MetaMetrics analytics program. This setting controls * whether or not events are tracked * @property {{[string]: MetaMetricsEventFragment}} [fragments] - Object keyed * by UUID with stored fragments as values. * @property {Array} [eventsBeforeMetricsOptIn] - Array of queued events added before * a user opts into metrics. * @property {object} [traits] - Traits that are not derived from other state keys. * @property {Record} [previousUserTraits] - The user traits the last * time they were computed. */ export default class MetaMetricsController { /** * @param {object} options * @param {object} options.segment - an instance of analytics for tracking * events that conform to the new MetaMetrics tracking plan. * @param {object} options.preferencesStore - The preferences controller store, used * to access and subscribe to preferences that will be attached to events * @param {Function} options.onNetworkDidChange - Used to attach a listener to the * networkDidChange event emitted by the networkController * @param {Function} options.getCurrentChainId - Gets the current chain id from the * network controller * @param {string} options.version - The version of the extension * @param {string} options.environment - The environment the extension is running in * @param {string} options.extension - webextension-polyfill * @param {MetaMetricsControllerState} options.initState - State to initialized with * @param options.captureException */ constructor({ segment, preferencesStore, onNetworkDidChange, getCurrentChainId, version, environment, initState, extension, captureException = defaultCaptureException, }) { this._captureException = (err) => { // This is a temporary measure. Currently there are errors flooding sentry due to a problem in how we are tracking anonymousId // We intend on removing this as soon as we understand how to correctly solve that problem. if (!exceptionsToFilter[err.message]) { captureException(err); } }; const prefState = preferencesStore.getState(); this.chainId = getCurrentChainId(); this.locale = prefState.currentLocale.replace('_', '-'); this.version = environment === 'production' ? version : `${version}-${environment}`; this.extension = extension; this.environment = environment; const abandonedFragments = omitBy(initState?.fragments, 'persist'); const segmentApiCalls = initState?.segmentApiCalls || {}; this.store = new ObservableStore({ participateInMetaMetrics: null, metaMetricsId: null, eventsBeforeMetricsOptIn: [], traits: {}, ...initState, fragments: { ...initState?.fragments, }, segmentApiCalls: { ...segmentApiCalls, }, }); preferencesStore.subscribe(({ currentLocale }) => { this.locale = currentLocale.replace('_', '-'); }); onNetworkDidChange(() => { this.chainId = getCurrentChainId(); }); this.segment = segment; // Track abandoned fragments that weren't properly cleaned up. // Abandoned fragments are those that were stored in persistent memory // and are available at controller instance creation, but do not have the // 'persist' flag set. This means anytime the extension is unlocked, any // fragments that are not marked as persistent will be purged and the // failure event will be emitted. Object.values(abandonedFragments).forEach((fragment) => { this.finalizeEventFragment(fragment.id, { abandoned: true }); }); // Code below submits any pending segmentApiCalls to Segment if/when the controller is re-instantiated if (isManifestV3) { Object.values(segmentApiCalls).forEach(({ eventType, payload }) => { this._submitSegmentAPICall(eventType, payload); }); } // Close out event fragments that were created but not progressed. An // interval is used to routinely check if a fragment has not been updated // within the fragment's timeout window. When creating a new event fragment // a timeout can be specified that will cause an abandoned event to be // tracked if the event isn't progressed within that amount of time. if (isManifestV3) { /* eslint-disable no-undef */ chrome.alarms.getAll((alarms) => { const hasAlarm = checkAlarmExists( alarms, METAMETRICS_FINALIZE_EVENT_FRAGMENT_ALARM, ); if (!hasAlarm) { chrome.alarms.create(METAMETRICS_FINALIZE_EVENT_FRAGMENT_ALARM, { delayInMinutes: 1, periodInMinutes: 1, }); } }); chrome.alarms.onAlarm.addListener((alarmInfo) => { if (alarmInfo.name === METAMETRICS_FINALIZE_EVENT_FRAGMENT_ALARM) { this.finalizeAbandonedFragments(); } }); } else { setInterval(() => { this.finalizeAbandonedFragments(); }, SECOND * 30); } } finalizeAbandonedFragments() { Object.values(this.store.getState().fragments).forEach((fragment) => { if ( fragment.timeout && Date.now() - fragment.lastUpdated / 1000 > fragment.timeout ) { this.finalizeEventFragment(fragment.id, { abandoned: true }); } }); } generateMetaMetricsId() { return bufferToHex( keccak( Buffer.from( String(Date.now()) + String(Math.round(Math.random() * Number.MAX_SAFE_INTEGER)), ), ), ); } /** * Create an event fragment in state and returns the event fragment object. * * @param {MetaMetricsEventFragment} options - Fragment settings and properties * to initiate the fragment with. * @returns {MetaMetricsEventFragment} */ createEventFragment(options) { if (!options.successEvent || !options.category) { throw new Error( `Must specify success event and category. Success event was: ${ options.event }. Category was: ${options.category}. Payload keys were: ${Object.keys( options, )}. ${ typeof options.properties === 'object' ? `Payload property keys were: ${Object.keys(options.properties)}` : '' }`, ); } const { fragments } = this.store.getState(); const id = options.uniqueIdentifier ?? uuidv4(); const fragment = { id, ...options, lastUpdated: Date.now(), }; this.store.updateState({ fragments: { ...fragments, [id]: fragment, }, }); if (options.initialEvent) { this.trackEvent({ event: fragment.initialEvent, category: fragment.category, properties: fragment.properties, sensitiveProperties: fragment.sensitiveProperties, page: fragment.page, referrer: fragment.referrer, revenue: fragment.revenue, value: fragment.value, currency: fragment.currency, environmentType: fragment.environmentType, actionId: options.actionId, uniqueIdentifier: options.uniqueIdentifier, }); } return fragment; } /** * Returns the fragment stored in memory with provided id or undefined if it * does not exist. * * @param {string} id - id of fragment to retrieve * @returns {[MetaMetricsEventFragment]} */ getEventFragmentById(id) { const { fragments } = this.store.getState(); const fragment = fragments[id]; return fragment; } /** * Updates an event fragment in state * * @param {string} id - The fragment id to update * @param {MetaMetricsEventFragment} payload - Fragment settings and * properties to initiate the fragment with. */ updateEventFragment(id, payload) { const { fragments } = this.store.getState(); const fragment = fragments[id]; if (!fragment) { throw new Error(`Event fragment with id ${id} does not exist.`); } this.store.updateState({ fragments: { ...fragments, [id]: merge(fragments[id], { ...payload, lastUpdated: Date.now(), }), }, }); } /** * Finalizes a fragment, tracking either a success event or failure Event * and then removes the fragment from state. * * @param {string} id - UUID of the event fragment to be closed * @param {object} options * @param {boolean} [options.abandoned] - if true track the failure * event instead of the success event * @param {MetaMetricsContext.page} [options.page] - page the final event * occurred on. This will override whatever is set on the fragment * @param {MetaMetricsContext.referrer} [options.referrer] - Dapp that * originated the fragment. This is for fallback only, the fragment referrer * property will take precedence. */ finalizeEventFragment(id, { abandoned = false, page, referrer } = {}) { const fragment = this.store.getState().fragments[id]; if (!fragment) { throw new Error(`Funnel with id ${id} does not exist.`); } const eventName = abandoned ? fragment.failureEvent : fragment.successEvent; this.trackEvent({ event: eventName, category: fragment.category, properties: fragment.properties, sensitiveProperties: fragment.sensitiveProperties, page: page ?? fragment.page, referrer: fragment.referrer ?? referrer, revenue: fragment.revenue, value: fragment.value, currency: fragment.currency, environmentType: fragment.environmentType, actionId: fragment.actionId, // We append success or failure to the unique-identifier so that the // messageId can still be idempotent, but so that it differs from the // initial event fired. The initial event was preventing new events from // making it to mixpanel because they were using the same unique ID as // the events processed in other parts of the fragment lifecycle. uniqueIdentifier: fragment.uniqueIdentifier ? `${fragment.uniqueIdentifier}-${abandoned ? 'failure' : 'success'}` : undefined, }); const { fragments } = this.store.getState(); delete fragments[id]; this.store.updateState({ fragments }); } /** * Calls this._identify with validated metaMetricsId and user traits if user is participating * in the MetaMetrics analytics program * * @param {object} userTraits */ identify(userTraits) { const { metaMetricsId, participateInMetaMetrics } = this.state; if (!participateInMetaMetrics || !metaMetricsId || !userTraits) { return; } if (typeof userTraits !== 'object') { console.warn( `MetaMetricsController#identify: userTraits parameter must be an object. Received type: ${typeof userTraits}`, ); return; } const allValidTraits = this._buildValidTraits(userTraits); this._identify(allValidTraits); } // It sets an uninstall URL ("Sorry to see you go!" page), // which is opened if a user uninstalls the extension. updateExtensionUninstallUrl(participateInMetaMetrics, metaMetricsId) { const query = {}; if (participateInMetaMetrics) { // We only want to track these things if a user opted into metrics. query.mmi = Buffer.from(metaMetricsId).toString('base64'); query.env = this.environment; query.av = this.version; } const queryString = new URLSearchParams(query); // this.extension not currently defined in tests if (this.extension && this.extension.runtime) { this.extension.runtime.setUninstallURL( `${EXTENSION_UNINSTALL_URL}?${queryString}`, ); } } /** * Setter for the `participateInMetaMetrics` property * * @param {boolean} participateInMetaMetrics - Whether or not the user wants * to participate in MetaMetrics * @returns {string|null} the string of the new metametrics id, or null * if not set */ setParticipateInMetaMetrics(participateInMetaMetrics) { let { metaMetricsId } = this.state; if (participateInMetaMetrics && !metaMetricsId) { metaMetricsId = this.generateMetaMetricsId(); } else if (participateInMetaMetrics === false) { metaMetricsId = null; } this.store.updateState({ participateInMetaMetrics, metaMetricsId }); if (participateInMetaMetrics) { this.trackEventsAfterMetricsOptIn(); this.clearEventsAfterMetricsOptIn(); } this.updateExtensionUninstallUrl(participateInMetaMetrics, metaMetricsId); return metaMetricsId; } get state() { return this.store.getState(); } /** * track a page view with Segment * * @param {MetaMetricsPagePayload} payload - details of the page viewed * @param {MetaMetricsPageOptions} [options] - options for handling the page * view */ trackPage( { name, params, environmentType, page, referrer, actionId }, options, ) { try { if (this.state.participateInMetaMetrics === false) { return; } if ( this.state.participateInMetaMetrics === null && !options?.isOptInPath ) { return; } const { metaMetricsId } = this.state; const idTrait = metaMetricsId ? 'userId' : 'anonymousId'; const idValue = metaMetricsId ?? METAMETRICS_ANONYMOUS_ID; this._submitSegmentAPICall('page', { messageId: buildUniqueMessageId({ actionId }), [idTrait]: idValue, name, properties: { params, locale: this.locale, chain_id: this.chainId, environment_type: environmentType, }, context: this._buildContext(referrer, page), }); } catch (err) { this._captureException(err); } } /** * submits a metametrics event, not waiting for it to complete or allowing its error to bubble up * * @param {MetaMetricsEventPayload} payload - details of the event * @param {MetaMetricsEventOptions} [options] - options for handling/routing the event */ trackEvent(payload, options) { // validation is not caught and handled this.validatePayload(payload); this.submitEvent(payload, options).catch((err) => this._captureException(err), ); } /** * submits (or queues for submission) a metametrics event, performing necessary payload manipulation and * routing the event to the appropriate segment source. Will split events * with sensitiveProperties into two events, tracking the sensitiveProperties * with the anonymousId only. * * @param {MetaMetricsEventPayload} payload - details of the event * @param {MetaMetricsEventOptions} [options] - options for handling/routing the event * @returns {Promise} */ async submitEvent(payload, options) { this.validatePayload(payload); if (!this.state.participateInMetaMetrics && !options?.isOptIn) { return; } // We might track multiple events if sensitiveProperties is included, this array will hold // the promises returned from this._track. const events = []; if (payload.sensitiveProperties) { // sensitiveProperties will only be tracked using the anonymousId property and generic id // If the event options already specify to exclude the metaMetricsId we throw an error as // a signal to the developer that the event was implemented incorrectly if (options?.excludeMetaMetricsId === true) { throw new Error( 'sensitiveProperties was specified in an event payload that also set the excludeMetaMetricsId flag', ); } const combinedProperties = merge( payload.sensitiveProperties, payload.properties, ); events.push( this._track( this._buildEventPayload({ ...payload, properties: combinedProperties, isDuplicateAnonymizedEvent: true, }), { ...options, excludeMetaMetricsId: true }, ), ); } events.push(this._track(this._buildEventPayload(payload), options)); await Promise.all(events); } /** * validates a metametrics event * * @param {MetaMetricsEventPayload} payload - details of the event */ validatePayload(payload) { // event and category are required fields for all payloads if (!payload.event || !payload.category) { throw new Error( `Must specify event and category. Event was: ${ payload.event }. Category was: ${payload.category}. Payload keys were: ${Object.keys( payload, )}. ${ typeof payload.properties === 'object' ? `Payload property keys were: ${Object.keys(payload.properties)}` : '' }`, ); } } handleMetaMaskStateUpdate(newState) { const userTraits = this._buildUserTraitsObject(newState); if (userTraits) { this.identify(userTraits); } } // Track all queued events after a user opted into metrics. trackEventsAfterMetricsOptIn() { const { eventsBeforeMetricsOptIn } = this.store.getState(); eventsBeforeMetricsOptIn.forEach((eventBeforeMetricsOptIn) => { this.trackEvent(eventBeforeMetricsOptIn); }); } // Once we track queued events after a user opts into metrics, we want to clear the event queue. clearEventsAfterMetricsOptIn() { this.store.updateState({ eventsBeforeMetricsOptIn: [], }); } // It adds an event into a queue, which is only tracked if a user opts into metrics. addEventBeforeMetricsOptIn(event) { const prevState = this.store.getState().eventsBeforeMetricsOptIn; this.store.updateState({ eventsBeforeMetricsOptIn: [...prevState, event], }); } // Add or update traits for tracking. updateTraits(newTraits) { const { traits } = this.store.getState(); this.store.updateState({ traits: { ...traits, ...newTraits }, }); } /** PRIVATE METHODS */ /** * Build the context object to attach to page and track events. * * @private * @param {Pick} [referrer] - dapp origin that initialized * the notification window. * @param {Pick} [page] - page object describing the current * view of the extension. Defaults to the background-process object. * @returns {MetaMetricsContext} */ _buildContext(referrer, page = METAMETRICS_BACKGROUND_PAGE_OBJECT) { return { app: { name: 'MetaMask Extension', version: this.version, }, userAgent: window.navigator.userAgent, page, referrer, }; } /** * Build's the event payload, processing all fields into a format that can be * fed to Segment's track method * * @private * @param { * Omit * } rawPayload - raw payload provided to trackEvent * @returns {SegmentEventPayload} formatted event payload for segment */ _buildEventPayload(rawPayload) { const { event, properties, revenue, value, currency, category, page, referrer, environmentType = ENVIRONMENT_TYPE_BACKGROUND, } = rawPayload; return { event, messageId: buildUniqueMessageId(rawPayload), properties: { // These values are omitted from properties because they have special meaning // in segment. https://segment.com/docs/connections/spec/track/#properties. // to avoid accidentally using these inappropriately, you must add them as top // level properties on the event payload. We also exclude locale to prevent consumers // from overwriting this context level property. We track it as a property // because not all destinations map locale from context. ...omit(properties, ['revenue', 'locale', 'currency', 'value']), revenue, value, currency, category, locale: this.locale, chain_id: properties?.chain_id ?? this.chainId, environment_type: environmentType, }, context: this._buildContext(referrer, page), }; } /** * This method generates the MetaMetrics user traits object, omitting any * traits that have not changed since the last invocation of this method. * * @param {object} metamaskState - Full metamask state object. * @returns {MetaMetricsTraits | null} traits that have changed since last update */ _buildUserTraitsObject(metamaskState) { const { traits, previousUserTraits } = this.store.getState(); /** @type {MetaMetricsTraits} */ const currentTraits = { [MetaMetricsUserTrait.AddressBookEntries]: sum( Object.values(metamaskState.addressBook).map(size), ), [MetaMetricsUserTrait.InstallDateExt]: traits[MetaMetricsUserTrait.InstallDateExt] || '', [MetaMetricsUserTrait.LedgerConnectionType]: metamaskState.ledgerTransportType, [MetaMetricsUserTrait.NetworksAdded]: Object.values( metamaskState.networkConfigurations, ).map((networkConfiguration) => networkConfiguration.chainId), [MetaMetricsUserTrait.NetworksWithoutTicker]: Object.values( metamaskState.networkConfigurations, ) .filter(({ ticker }) => !ticker) .map(({ chainId }) => chainId), [MetaMetricsUserTrait.NftAutodetectionEnabled]: metamaskState.useNftDetection, [MetaMetricsUserTrait.NumberOfAccounts]: Object.values( metamaskState.identities, ).length, [MetaMetricsUserTrait.NumberOfNftCollections]: this._getAllUniqueNFTAddressesLength(metamaskState.allNfts), [MetaMetricsUserTrait.NumberOfNfts]: this._getAllNFTsFlattened( metamaskState.allNfts, ).length, [MetaMetricsUserTrait.NumberOfTokens]: this._getNumberOfTokens(metamaskState), [MetaMetricsUserTrait.OpenseaApiEnabled]: metamaskState.openSeaEnabled, [MetaMetricsUserTrait.ThreeBoxEnabled]: false, // deprecated, hard-coded as false [MetaMetricsUserTrait.Theme]: metamaskState.theme || 'default', [MetaMetricsUserTrait.TokenDetectionEnabled]: metamaskState.useTokenDetection, ///: BEGIN:ONLY_INCLUDE_IN(flask) [MetaMetricsUserTrait.DesktopEnabled]: metamaskState.desktopEnabled || false, ///: END:ONLY_INCLUDE_IN [MetaMetricsUserTrait.SecurityProviders]: metamaskState.transactionSecurityCheckEnabled ? ['opensea'] : [], }; if (!previousUserTraits) { this.store.updateState({ previousUserTraits: currentTraits }); return currentTraits; } if (previousUserTraits && !isEqual(previousUserTraits, currentTraits)) { const updates = pickBy( currentTraits, (v, k) => !isEqual(previousUserTraits[k], v), ); this.store.updateState({ previousUserTraits: currentTraits }); return updates; } return null; } /** * Returns a new object of all valid user traits. For dates, we transform them into ISO-8601 timestamp strings. * * @see {@link https://segment.com/docs/connections/spec/common/#timestamps} * @param {object} userTraits * @returns {object} */ _buildValidTraits(userTraits) { return Object.entries(userTraits).reduce((validTraits, [key, value]) => { if (this._isValidTraitDate(value)) { validTraits[key] = value.toISOString(); } else if (this._isValidTrait(value)) { validTraits[key] = value; } else { console.warn( `MetaMetricsController: "${key}" value is not a valid trait type`, ); } return validTraits; }, {}); } /** * Returns an array of all of the NFTs the user * possesses across all networks and accounts. * * @param {object} allNfts * @returns {[]} */ _getAllNFTsFlattened = memoize((allNfts = {}) => { return Object.values(allNfts).reduce((result, chainNFTs) => { return result.concat(...Object.values(chainNFTs)); }, []); }); /** * Returns the number of unique NFT addresses the user * possesses across all networks and accounts. * * @param {object} allNfts * @returns {number} */ _getAllUniqueNFTAddressesLength(allNfts = {}) { const allNFTAddresses = this._getAllNFTsFlattened(allNfts).map( (nft) => nft.address, ); const uniqueAddresses = new Set(allNFTAddresses); return uniqueAddresses.size; } /** * @param {object} metamaskState * @returns number of unique token addresses */ _getNumberOfTokens(metamaskState) { return Object.values(metamaskState.allTokens).reduce( (result, accountsByChain) => { return result + sum(Object.values(accountsByChain).map(size)); }, 0, ); } /** * Calls segment.identify with given user traits * * @see {@link https://segment.com/docs/connections/sources/catalog/libraries/server/node/#identify} * @private * @param {object} userTraits */ _identify(userTraits) { const { metaMetricsId } = this.state; if (!userTraits || Object.keys(userTraits).length === 0) { console.warn('MetaMetricsController#_identify: No userTraits found'); return; } try { this._submitSegmentAPICall('identify', { userId: metaMetricsId, traits: userTraits, }); } catch (err) { this._captureException(err); } } /** * Validates the trait value. Segment accepts any data type. We are adding validation here to * support data types for our Segment destination(s) e.g. MixPanel * * @param {*} value * @returns {boolean} */ _isValidTrait(value) { const type = typeof value; return ( type === 'string' || type === 'boolean' || type === 'number' || this._isValidTraitArray(value) || this._isValidTraitDate(value) ); } /** * Segment accepts any data type value. We have special logic to validate arrays. * * @param {*} value * @returns {boolean} */ _isValidTraitArray = (value) => { return ( Array.isArray(value) && (value.every((element) => { return typeof element === 'string'; }) || value.every((element) => { return typeof element === 'boolean'; }) || value.every((element) => { return typeof element === 'number'; })) ); }; /** * Returns true if the value is an accepted date type * * @param {*} value * @returns {boolean} */ _isValidTraitDate = (value) => { return Object.prototype.toString.call(value) === '[object Date]'; }; /** * Perform validation on the payload and update the id type to use before * sending to Segment. Also examines the options to route and handle the * event appropriately. * * @private * @param {SegmentEventPayload} payload - properties to attach to event * @param {MetaMetricsEventOptions} [options] - options for routing and * handling the event * @returns {Promise} */ _track(payload, options) { const { isOptIn, metaMetricsId: metaMetricsIdOverride, matomoEvent, flushImmediately, } = options || {}; let idType = 'userId'; let idValue = this.state.metaMetricsId; let excludeMetaMetricsId = options?.excludeMetaMetricsId ?? false; // This is carried over from the old implementation, and will likely need // to be updated to work with the new tracking plan. I think we should use // a config setting for this instead of trying to match the event name const isSendFlow = Boolean(payload.event.match(/^send|^confirm/iu)); if (isSendFlow) { excludeMetaMetricsId = true; } // If we are tracking sensitive data we will always use the anonymousId // property as well as our METAMETRICS_ANONYMOUS_ID. This prevents us from // associating potentially identifiable information with a specific id. // During the opt in flow we will track all events, but do so with the // anonymous id. The one exception to that rule is after the user opts in // to MetaMetrics. When that happens we receive back the user's new // MetaMetrics id before it is fully persisted to state. To avoid a race // condition we explicitly pass the new id to the track method. In that // case we will track the opt in event to the user's id. In all other cases // we use the metaMetricsId from state. if (excludeMetaMetricsId || (isOptIn && !metaMetricsIdOverride)) { idType = 'anonymousId'; idValue = METAMETRICS_ANONYMOUS_ID; } else if (isOptIn && metaMetricsIdOverride) { idValue = metaMetricsIdOverride; } payload[idType] = idValue; // If this is an event on the old matomo schema, add a key to the payload // to designate it as such if (matomoEvent === true) { payload.properties.legacy_event = true; } // Promises will only resolve when the event is sent to segment. For any // event that relies on this promise being fulfilled before performing UI // updates, or otherwise delaying user interaction, supply the // 'flushImmediately' flag to the trackEvent method. return new Promise((resolve, reject) => { const callback = (err) => { if (err) { // The error that segment gives us has some manipulation done to it // that seemingly breaks with lockdown enabled. Creating a new error // here prevents the system from freezing when the network request to // segment fails for any reason. const safeError = new Error(err.message); safeError.stack = err.stack; return reject(safeError); } return resolve(); }; this._submitSegmentAPICall('track', payload, callback); if (flushImmediately) { this.segment.flush(); } }); } // Method below submits the request to analytics SDK. // It will also add event to controller store // and pass a callback to remove it from store once request is submitted to segment // Saving segmentApiCalls in controller store in MV3 ensures that events are tracked // even if service worker terminates before events are submiteed to segment. _submitSegmentAPICall(eventType, payload, callback) { const { metaMetricsId, participateInMetaMetrics } = this.state; if (!participateInMetaMetrics || !metaMetricsId) { return; } const messageId = payload.messageId || generateRandomId(); let timestamp = new Date(); if (payload.timestamp) { const payloadDate = new Date(payload.timestamp); if (isValidDate(payloadDate)) { timestamp = payloadDate; } } const modifiedPayload = { ...payload, messageId, timestamp }; this.store.updateState({ segmentApiCalls: { ...this.store.getState().segmentApiCalls, [messageId]: { eventType, payload: { ...modifiedPayload, timestamp: modifiedPayload.timestamp.toString(), }, }, }, }); const modifiedCallback = (result) => { const { segmentApiCalls } = this.store.getState(); delete segmentApiCalls[messageId]; this.store.updateState({ segmentApiCalls, }); return callback?.(result); }; this.segment[eventType](modifiedPayload, modifiedCallback); } }