diff --git a/keyserver/src/push/send.js b/keyserver/src/push/send.js index 79d581f65..c97aed99f 100644 --- a/keyserver/src/push/send.js +++ b/keyserver/src/push/send.js @@ -1,1811 +1,1801 @@ // @flow import apn from '@parse/node-apn'; import type { ResponseFailure } from '@parse/node-apn'; import invariant from 'invariant'; import _cloneDeep from 'lodash/fp/cloneDeep.js'; import _flow from 'lodash/fp/flow.js'; import _groupBy from 'lodash/fp/groupBy.js'; import _mapValues from 'lodash/fp/mapValues.js'; import _pickBy from 'lodash/fp/pickBy.js'; import type { QueryResults } from 'mysql'; import t from 'tcomb'; import uuidv4 from 'uuid/v4.js'; import { oldValidUsernameRegex } from 'lib/shared/account-utils.js'; import { isUserMentioned } from 'lib/shared/mention-utils.js'; import { createMessageInfo, sortMessageInfoList, shimUnsupportedRawMessageInfos, } from 'lib/shared/message-utils.js'; import { messageSpecs } from 'lib/shared/messages/message-specs.js'; import { notifTextsForMessageInfo } from 'lib/shared/notif-utils.js'; -import { isStaff } from 'lib/shared/staff-utils.js'; import { rawThreadInfoFromServerThreadInfo, threadInfoFromRawThreadInfo, } from 'lib/shared/thread-utils.js'; import { hasMinCodeVersion } from 'lib/shared/version-utils.js'; import type { Platform, PlatformDetails } from 'lib/types/device-types.js'; import { messageTypes } from 'lib/types/message-types-enum.js'; import { type RawMessageInfo, type MessageData, } from 'lib/types/message-types.js'; import { rawMessageInfoValidator } from 'lib/types/message-types.js'; import type { ResolvedNotifTexts } from 'lib/types/notif-types.js'; import { resolvedNotifTextsValidator } from 'lib/types/notif-types.js'; import type { ServerThreadInfo, ThreadInfo } from 'lib/types/thread-types.js'; import { updateTypes } from 'lib/types/update-types-enum.js'; import { type GlobalUserInfo } from 'lib/types/user-types.js'; -import { isDev } from 'lib/utils/dev-utils.js'; import { values } from 'lib/utils/objects.js'; import { tID, tPlatformDetails, tShape } from 'lib/utils/validation-utils.js'; import { prepareEncryptedAPNsNotifications, prepareEncryptedAndroidNotifications, prepareEncryptedWebNotifications, prepareEncryptedWNSNotifications, } from './crypto.js'; import { getAPNsNotificationTopic } from './providers.js'; import { rescindPushNotifs } from './rescind.js'; import type { NotificationTargetDevice, TargetedAPNsNotification, TargetedAndroidNotification, TargetedWebNotification, TargetedWNSNotification, AndroidNotification, } from './types.js'; import { apnPush, fcmPush, getUnreadCounts, apnMaxNotificationPayloadByteSize, fcmMaxNotificationPayloadByteSize, wnsMaxNotificationPayloadByteSize, webPush, wnsPush, type WebPushError, type WNSPushError, } from './utils.js'; import createIDs from '../creators/id-creator.js'; import { createUpdates } from '../creators/update-creator.js'; import { dbQuery, SQL, mergeOrConditions } from '../database/database.js'; import type { CollapsableNotifInfo } from '../fetchers/message-fetchers.js'; import { fetchCollapsableNotifs } from '../fetchers/message-fetchers.js'; import { fetchServerThreadInfos } from '../fetchers/thread-fetchers.js'; import { fetchUserInfos } from '../fetchers/user-fetchers.js'; import type { Viewer } from '../session/viewer.js'; import { getENSNames } from '../utils/ens-cache.js'; import { validateOutput } from '../utils/validation-utils.js'; export type Device = { +platform: Platform, +deviceToken: string, +cookieID: string, +codeVersion: ?number, +stateVersion: ?number, +majorDesktopVersion: ?number, }; export type PushUserInfo = { +devices: Device[], // messageInfos and messageDatas have the same key +messageInfos: RawMessageInfo[], +messageDatas: MessageData[], }; type Delivery = PushDelivery | { collapsedInto: string }; type NotificationRow = { +dbID: string, +userID: string, +threadID?: ?string, +messageID?: ?string, +collapseKey?: ?string, +deliveries: Delivery[], }; export type PushInfo = { [userID: string]: PushUserInfo }; async function sendPushNotifs(pushInfo: PushInfo) { if (Object.keys(pushInfo).length === 0) { return; } const [ unreadCounts, { usersToCollapsableNotifInfo, serverThreadInfos, userInfos }, dbIDs, ] = await Promise.all([ getUnreadCounts(Object.keys(pushInfo)), fetchInfos(pushInfo), createDBIDs(pushInfo), ]); const preparePromises: Array>> = []; const notifications: Map = new Map(); for (const userID in usersToCollapsableNotifInfo) { const threadInfos = _flow( _mapValues((serverThreadInfo: ServerThreadInfo) => { const rawThreadInfo = rawThreadInfoFromServerThreadInfo( serverThreadInfo, userID, ); if (!rawThreadInfo) { return null; } return threadInfoFromRawThreadInfo(rawThreadInfo, userID, userInfos); }), _pickBy(threadInfo => threadInfo), )(serverThreadInfos); for (const notifInfo of usersToCollapsableNotifInfo[userID]) { preparePromises.push( preparePushNotif({ notifInfo, userID, pushUserInfo: pushInfo[userID], unreadCount: unreadCounts[userID], threadInfos, userInfos, dbIDs, rowsToSave: notifications, }), ); } } const prepareResults = await Promise.all(preparePromises); const flattenedPrepareResults = prepareResults.filter(Boolean).flat(); const deliveryResults = await deliverPushNotifsInEncryptionOrder( flattenedPrepareResults, ); const cleanUpPromise = (async () => { if (dbIDs.length === 0) { return; } const query = SQL`DELETE FROM ids WHERE id IN (${dbIDs})`; await dbQuery(query); })(); await Promise.all([ cleanUpPromise, saveNotifResults(deliveryResults, notifications, true), ]); } type PreparePushResult = { +platform: Platform, +notificationInfo: NotificationInfo, +notification: | TargetedAPNsNotification | TargetedAndroidNotification | TargetedWebNotification | TargetedWNSNotification, }; async function preparePushNotif(input: { notifInfo: CollapsableNotifInfo, userID: string, pushUserInfo: PushUserInfo, unreadCount: number, threadInfos: { +[threadID: string]: ThreadInfo }, userInfos: { +[userID: string]: GlobalUserInfo }, dbIDs: string[], // mutable rowsToSave: Map, // mutable }): Promise> { const { notifInfo, userID, pushUserInfo, unreadCount, threadInfos, userInfos, dbIDs, rowsToSave, } = input; const hydrateMessageInfo = (rawMessageInfo: RawMessageInfo) => createMessageInfo(rawMessageInfo, userID, userInfos, threadInfos); const newMessageInfos = []; const newRawMessageInfos = []; for (const newRawMessageInfo of notifInfo.newMessageInfos) { const newMessageInfo = hydrateMessageInfo(newRawMessageInfo); if (newMessageInfo) { newMessageInfos.push(newMessageInfo); newRawMessageInfos.push(newRawMessageInfo); } } if (newMessageInfos.length === 0) { return null; } const existingMessageInfos = notifInfo.existingMessageInfos .map(hydrateMessageInfo) .filter(Boolean); const allMessageInfos = sortMessageInfoList([ ...newMessageInfos, ...existingMessageInfos, ]); const [firstNewMessageInfo, ...remainingNewMessageInfos] = newMessageInfos; const { threadID } = firstNewMessageInfo; const threadInfo = threadInfos[threadID]; const parentThreadInfo = threadInfo.parentThreadID ? threadInfos[threadInfo.parentThreadID] : null; const updateBadge = threadInfo.currentUser.subscription.home; const displayBanner = threadInfo.currentUser.subscription.pushNotifs; const username = userInfos[userID] && userInfos[userID].username; let resolvedUsername; if (getENSNames) { const userInfosWithENSNames = await getENSNames([userInfos[userID]]); resolvedUsername = userInfosWithENSNames[0].username; } const userWasMentioned = username && threadInfo.currentUser.role && oldValidUsernameRegex.test(username) && newMessageInfos.some(newMessageInfo => { const unwrappedMessageInfo = newMessageInfo.type === messageTypes.SIDEBAR_SOURCE ? newMessageInfo.sourceMessage : newMessageInfo; return ( unwrappedMessageInfo.type === messageTypes.TEXT && (isUserMentioned(username, unwrappedMessageInfo.text) || (resolvedUsername && isUserMentioned(resolvedUsername, unwrappedMessageInfo.text))) ); }); if (!updateBadge && !displayBanner && !userWasMentioned) { return null; } const badgeOnly = !displayBanner && !userWasMentioned; const notifTargetUserInfo = { id: userID, username }; const notifTexts = await notifTextsForMessageInfo( allMessageInfos, threadInfo, parentThreadInfo, notifTargetUserInfo, getENSNames, ); if (!notifTexts) { return null; } const dbID = dbIDs.shift(); invariant(dbID, 'should have sufficient DB IDs'); const byPlatform = getDevicesByPlatform(pushUserInfo.devices); const firstMessageID = firstNewMessageInfo.id; invariant(firstMessageID, 'RawMessageInfo.id should be set on server'); const notificationInfo = { source: 'new_message', dbID, userID, threadID, messageID: firstMessageID, collapseKey: notifInfo.collapseKey, }; const preparePromises: Array>> = []; const iosVersionsToTokens = byPlatform.get('ios'); if (iosVersionsToTokens) { for (const [versionKey, devices] of iosVersionsToTokens) { const { codeVersion, stateVersion } = stringToVersionKey(versionKey); const platformDetails: PlatformDetails = { platform: 'ios', codeVersion, stateVersion, }; const shimmedNewRawMessageInfos = shimUnsupportedRawMessageInfos( newRawMessageInfos, platformDetails, ); const preparePromise: Promise<$ReadOnlyArray> = (async () => { const targetedNotifications = await prepareAPNsNotification( { notifTexts, newRawMessageInfos: shimmedNewRawMessageInfos, threadID: threadInfo.id, collapseKey: notifInfo.collapseKey, badgeOnly, unreadCount, platformDetails, }, devices, ); return targetedNotifications.map(notification => ({ notification, platform: 'ios', notificationInfo: { ...notificationInfo, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } const androidVersionsToTokens = byPlatform.get('android'); if (androidVersionsToTokens) { for (const [versionKey, devices] of androidVersionsToTokens) { const { codeVersion, stateVersion } = stringToVersionKey(versionKey); const platformDetails = { platform: 'android', codeVersion, stateVersion, }; const shimmedNewRawMessageInfos = shimUnsupportedRawMessageInfos( newRawMessageInfos, platformDetails, ); const preparePromise: Promise<$ReadOnlyArray> = (async () => { const targetedNotifications = await prepareAndroidNotification( { notifTexts, newRawMessageInfos: shimmedNewRawMessageInfos, threadID: threadInfo.id, collapseKey: notifInfo.collapseKey, badgeOnly, unreadCount, platformDetails, dbID, }, devices, ); return targetedNotifications.map(notification => ({ notification, platform: 'android', notificationInfo: { ...notificationInfo, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } const webVersionsToTokens = byPlatform.get('web'); if (webVersionsToTokens) { for (const [versionKey, devices] of webVersionsToTokens) { const { codeVersion, stateVersion } = stringToVersionKey(versionKey); const platformDetails = { platform: 'web', codeVersion, stateVersion, }; const preparePromise: Promise<$ReadOnlyArray> = (async () => { const targetedNotifications = await prepareWebNotification( { notifTexts, threadID: threadInfo.id, unreadCount, platformDetails, }, devices, ); return targetedNotifications.map(notification => ({ notification, platform: 'web', notificationInfo: { ...notificationInfo, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } const macosVersionsToTokens = byPlatform.get('macos'); if (macosVersionsToTokens) { for (const [versionKey, devices] of macosVersionsToTokens) { const { codeVersion, stateVersion, majorDesktopVersion } = stringToVersionKey(versionKey); const platformDetails = { platform: 'macos', codeVersion, stateVersion, majorDesktopVersion, }; const shimmedNewRawMessageInfos = shimUnsupportedRawMessageInfos( newRawMessageInfos, platformDetails, ); const preparePromise: Promise<$ReadOnlyArray> = (async () => { const targetedNotifications = await prepareAPNsNotification( { notifTexts, newRawMessageInfos: shimmedNewRawMessageInfos, threadID: threadInfo.id, collapseKey: notifInfo.collapseKey, badgeOnly, unreadCount, platformDetails, }, devices, ); return targetedNotifications.map(notification => ({ notification, platform: 'macos', notificationInfo: { ...notificationInfo, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } const windowsVersionsToTokens = byPlatform.get('windows'); if (windowsVersionsToTokens) { for (const [versionKey, devices] of windowsVersionsToTokens) { const { codeVersion, stateVersion, majorDesktopVersion } = stringToVersionKey(versionKey); const platformDetails = { platform: 'windows', codeVersion, stateVersion, majorDesktopVersion, }; const preparePromise: Promise<$ReadOnlyArray> = (async () => { - const targetedNotifications = await prepareWNSNotification( - userID, - devices, - { - notifTexts, - threadID: threadInfo.id, - unreadCount, - platformDetails, - }, - ); + const targetedNotifications = await prepareWNSNotification(devices, { + notifTexts, + threadID: threadInfo.id, + unreadCount, + platformDetails, + }); return targetedNotifications.map(notification => ({ notification, platform: 'windows', notificationInfo: { ...notificationInfo, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } for (const newMessageInfo of remainingNewMessageInfos) { const newDBID = dbIDs.shift(); invariant(newDBID, 'should have sufficient DB IDs'); const messageID = newMessageInfo.id; invariant(messageID, 'RawMessageInfo.id should be set on server'); rowsToSave.set(newDBID, { dbID: newDBID, userID, threadID: newMessageInfo.threadID, messageID, collapseKey: notifInfo.collapseKey, deliveries: [{ collapsedInto: dbID }], }); } const prepareResults = await Promise.all(preparePromises); return prepareResults.flat(); } // For better readability we don't differentiate between // encrypted and unencrypted notifs and order them together function compareEncryptionOrder( pushNotif1: PreparePushResult, pushNotif2: PreparePushResult, ): number { const order1 = pushNotif1.notification.encryptionOrder ?? 0; const order2 = pushNotif2.notification.encryptionOrder ?? 0; return order1 - order2; } async function deliverPushNotifsInEncryptionOrder( preparedPushNotifs: $ReadOnlyArray, ): Promise<$ReadOnlyArray> { const deliveryPromises: Array>> = []; const groupedByDevice = _groupBy( preparedPushNotif => preparedPushNotif.deviceToken, )(preparedPushNotifs); for (const preparedPushNotifsForDevice of values(groupedByDevice)) { const orderedPushNotifsForDevice = preparedPushNotifsForDevice.sort( compareEncryptionOrder, ); const deviceDeliveryPromise = (async () => { const deliveries = []; for (const preparedPushNotif of orderedPushNotifsForDevice) { const { platform, notification, notificationInfo } = preparedPushNotif; let delivery: PushResult; if (platform === 'ios' || platform === 'macos') { delivery = await sendAPNsNotification( platform, [notification], notificationInfo, ); } else if (platform === 'android') { delivery = await sendAndroidNotification( [notification], notificationInfo, ); } else if (platform === 'web') { delivery = await sendWebNotifications( [notification], notificationInfo, ); } else if (platform === 'windows') { delivery = await sendWNSNotification( [notification], notificationInfo, ); } if (delivery) { deliveries.push(delivery); } } return deliveries; })(); deliveryPromises.push(deviceDeliveryPromise); } const deliveryResults = await Promise.all(deliveryPromises); return deliveryResults.flat(); } async function sendRescindNotifs(rescindInfo: PushInfo) { if (Object.keys(rescindInfo).length === 0) { return; } const usersToCollapsableNotifInfo = await fetchCollapsableNotifs(rescindInfo); const promises = []; for (const userID in usersToCollapsableNotifInfo) { for (const notifInfo of usersToCollapsableNotifInfo[userID]) { for (const existingMessageInfo of notifInfo.existingMessageInfos) { const rescindCondition = SQL` n.user = ${userID} AND n.thread = ${existingMessageInfo.threadID} AND n.message = ${existingMessageInfo.id} `; promises.push(rescindPushNotifs(rescindCondition)); } } } await Promise.all(promises); } // The results in deliveryResults will be combined with the rows // in rowsToSave and then written to the notifications table async function saveNotifResults( deliveryResults: $ReadOnlyArray, inputRowsToSave: Map, rescindable: boolean, ) { const rowsToSave = new Map(inputRowsToSave); const allInvalidTokens = []; for (const deliveryResult of deliveryResults) { const { info, delivery, invalidTokens } = deliveryResult; const { dbID, userID } = info; const curNotifRow = rowsToSave.get(dbID); if (curNotifRow) { curNotifRow.deliveries.push(delivery); } else { // Ternary expressions for Flow const threadID = info.threadID ? info.threadID : null; const messageID = info.messageID ? info.messageID : null; const collapseKey = info.collapseKey ? info.collapseKey : null; rowsToSave.set(dbID, { dbID, userID, threadID, messageID, collapseKey, deliveries: [delivery], }); } if (invalidTokens) { allInvalidTokens.push({ userID, tokens: invalidTokens, }); } } const notificationRows = []; for (const notification of rowsToSave.values()) { notificationRows.push([ notification.dbID, notification.userID, notification.threadID, notification.messageID, notification.collapseKey, JSON.stringify(notification.deliveries), Number(!rescindable), ]); } const dbPromises: Array> = []; if (allInvalidTokens.length > 0) { dbPromises.push(removeInvalidTokens(allInvalidTokens)); } if (notificationRows.length > 0) { const query = SQL` INSERT INTO notifications (id, user, thread, message, collapse_key, delivery, rescinded) VALUES ${notificationRows} `; dbPromises.push(dbQuery(query)); } if (dbPromises.length > 0) { await Promise.all(dbPromises); } } async function fetchInfos(pushInfo: PushInfo) { const usersToCollapsableNotifInfo = await fetchCollapsableNotifs(pushInfo); const threadIDs = new Set(); const threadWithChangedNamesToMessages = new Map>(); const addThreadIDsFromMessageInfos = (rawMessageInfo: RawMessageInfo) => { const threadID = rawMessageInfo.threadID; threadIDs.add(threadID); const messageSpec = messageSpecs[rawMessageInfo.type]; if (messageSpec.threadIDs) { for (const id of messageSpec.threadIDs(rawMessageInfo)) { threadIDs.add(id); } } if ( rawMessageInfo.type === messageTypes.CHANGE_SETTINGS && rawMessageInfo.field === 'name' ) { const messages = threadWithChangedNamesToMessages.get(threadID); if (messages) { messages.push(rawMessageInfo.id); } else { threadWithChangedNamesToMessages.set(threadID, [rawMessageInfo.id]); } } }; for (const userID in usersToCollapsableNotifInfo) { for (const notifInfo of usersToCollapsableNotifInfo[userID]) { for (const rawMessageInfo of notifInfo.existingMessageInfos) { addThreadIDsFromMessageInfos(rawMessageInfo); } for (const rawMessageInfo of notifInfo.newMessageInfos) { addThreadIDsFromMessageInfos(rawMessageInfo); } } } // These threadInfos won't have currentUser set const threadPromise = fetchServerThreadInfos({ threadIDs }); const oldNamesPromise: Promise = (async () => { if (threadWithChangedNamesToMessages.size === 0) { return undefined; } const typesThatAffectName = [ messageTypes.CHANGE_SETTINGS, messageTypes.CREATE_THREAD, ]; const oldNameQuery = SQL` SELECT IF( JSON_TYPE(JSON_EXTRACT(m.content, "$.name")) = 'NULL', "", JSON_UNQUOTE(JSON_EXTRACT(m.content, "$.name")) ) AS name, m.thread FROM ( SELECT MAX(id) AS id FROM messages WHERE type IN (${typesThatAffectName}) AND JSON_EXTRACT(content, "$.name") IS NOT NULL AND`; const threadClauses = []; for (const [threadID, messages] of threadWithChangedNamesToMessages) { threadClauses.push( SQL`(thread = ${threadID} AND id NOT IN (${messages}))`, ); } oldNameQuery.append(mergeOrConditions(threadClauses)); oldNameQuery.append(SQL` GROUP BY thread ) x LEFT JOIN messages m ON m.id = x.id `); return await dbQuery(oldNameQuery); })(); const [threadResult, oldNames] = await Promise.all([ threadPromise, oldNamesPromise, ]); const serverThreadInfos = { ...threadResult.threadInfos }; if (oldNames) { const [result] = oldNames; for (const row of result) { const threadID = row.thread.toString(); serverThreadInfos[threadID] = { ...serverThreadInfos[threadID], name: row.name, }; } } const userInfos = await fetchNotifUserInfos( serverThreadInfos, usersToCollapsableNotifInfo, ); return { usersToCollapsableNotifInfo, serverThreadInfos, userInfos }; } async function fetchNotifUserInfos( serverThreadInfos: { +[threadID: string]: ServerThreadInfo }, usersToCollapsableNotifInfo: { +[userID: string]: CollapsableNotifInfo[] }, ) { const missingUserIDs = new Set(); for (const threadID in serverThreadInfos) { const serverThreadInfo = serverThreadInfos[threadID]; for (const member of serverThreadInfo.members) { missingUserIDs.add(member.id); } } const addUserIDsFromMessageInfos = (rawMessageInfo: RawMessageInfo) => { missingUserIDs.add(rawMessageInfo.creatorID); const userIDs = messageSpecs[rawMessageInfo.type].userIDs?.(rawMessageInfo) ?? []; for (const userID of userIDs) { missingUserIDs.add(userID); } }; for (const userID in usersToCollapsableNotifInfo) { missingUserIDs.add(userID); for (const notifInfo of usersToCollapsableNotifInfo[userID]) { for (const rawMessageInfo of notifInfo.existingMessageInfos) { addUserIDsFromMessageInfos(rawMessageInfo); } for (const rawMessageInfo of notifInfo.newMessageInfos) { addUserIDsFromMessageInfos(rawMessageInfo); } } } return await fetchUserInfos([...missingUserIDs]); } async function createDBIDs(pushInfo: PushInfo): Promise { let numIDsNeeded = 0; for (const userID in pushInfo) { numIDsNeeded += pushInfo[userID].messageInfos.length; } return await createIDs('notifications', numIDsNeeded); } type VersionKey = { +codeVersion: number, +stateVersion: number, +majorDesktopVersion?: number, }; const versionKeyRegex: RegExp = new RegExp(/^-?\d+\|-?\d+(\|-?\d+)?$/); function versionKeyToString(versionKey: VersionKey): string { const baseStringVersionKey = `${versionKey.codeVersion}|${versionKey.stateVersion}`; if (!versionKey.majorDesktopVersion) { return baseStringVersionKey; } return `${baseStringVersionKey}|${versionKey.majorDesktopVersion}`; } function stringToVersionKey(versionKeyString: string): VersionKey { invariant( versionKeyRegex.test(versionKeyString), 'should pass correct version key string', ); const [codeVersion, stateVersion, majorDesktopVersion] = versionKeyString .split('|') .map(Number); return { codeVersion, stateVersion, majorDesktopVersion }; } function getDevicesByPlatform( devices: $ReadOnlyArray, ): Map>> { const byPlatform = new Map< Platform, Map>, >(); for (const device of devices) { let innerMap = byPlatform.get(device.platform); if (!innerMap) { innerMap = new Map>(); byPlatform.set(device.platform, innerMap); } const codeVersion: number = device.codeVersion !== null && device.codeVersion !== undefined ? device.codeVersion : -1; const stateVersion: number = device.stateVersion ?? -1; let versionsObject = { codeVersion, stateVersion }; if (device.majorDesktopVersion) { versionsObject = { ...versionsObject, majorDesktopVersion: device.majorDesktopVersion, }; } const versionKey = versionKeyToString(versionsObject); let innerMostArrayTmp: ?Array = innerMap.get(versionKey); if (!innerMostArrayTmp) { innerMostArrayTmp = []; innerMap.set(versionKey, innerMostArrayTmp); } const innerMostArray = innerMostArrayTmp; innerMostArray.push({ cookieID: device.cookieID, deviceToken: device.deviceToken, }); } return byPlatform; } type APNsNotifInputData = { +notifTexts: ResolvedNotifTexts, +newRawMessageInfos: RawMessageInfo[], +threadID: string, +collapseKey: ?string, +badgeOnly: boolean, +unreadCount: number, +platformDetails: PlatformDetails, }; const apnsNotifInputDataValidator = tShape({ notifTexts: resolvedNotifTextsValidator, newRawMessageInfos: t.list(rawMessageInfoValidator), threadID: tID, collapseKey: t.maybe(t.String), badgeOnly: t.Boolean, unreadCount: t.Number, platformDetails: tPlatformDetails, }); async function prepareAPNsNotification( inputData: APNsNotifInputData, devices: $ReadOnlyArray, ): Promise<$ReadOnlyArray> { const convertedData = validateOutput( inputData.platformDetails, apnsNotifInputDataValidator, inputData, ); const { notifTexts, newRawMessageInfos, threadID, collapseKey, badgeOnly, unreadCount, platformDetails, } = convertedData; const canDecryptNonCollapsibleTextIOSNotifs = platformDetails.codeVersion && platformDetails.codeVersion > 222; const isNonCollapsibleTextNotification = newRawMessageInfos.every( newRawMessageInfo => newRawMessageInfo.type === messageTypes.TEXT, ) && !collapseKey; const canDecryptAllIOSNotifs = platformDetails.codeVersion && platformDetails.codeVersion >= 267; const canDecryptIOSNotif = platformDetails.platform === 'ios' && (canDecryptAllIOSNotifs || (isNonCollapsibleTextNotification && canDecryptNonCollapsibleTextIOSNotifs)); const canDecryptMacOSNotifs = platformDetails.platform === 'macos' && hasMinCodeVersion(platformDetails, { web: 47, majorDesktop: 9, }); const shouldBeEncrypted = canDecryptIOSNotif || canDecryptMacOSNotifs; const uniqueID = uuidv4(); const notification = new apn.Notification(); notification.topic = getAPNsNotificationTopic(platformDetails); const { merged, ...rest } = notifTexts; // We don't include alert's body on macos because we // handle displaying the notification ourselves and // we don't want macOS to display it automatically. if (!badgeOnly && platformDetails.platform !== 'macos') { notification.body = merged; notification.sound = 'default'; } notification.payload = { ...notification.payload, ...rest, }; notification.badge = unreadCount; notification.threadId = threadID; notification.id = uniqueID; notification.pushType = 'alert'; notification.payload.id = uniqueID; notification.payload.threadID = threadID; if (platformDetails.codeVersion && platformDetails.codeVersion > 198) { notification.mutableContent = true; } if (collapseKey && (canDecryptAllIOSNotifs || canDecryptMacOSNotifs)) { notification.payload.collapseID = collapseKey; } else if (collapseKey) { notification.collapseId = collapseKey; } const messageInfos = JSON.stringify(newRawMessageInfos); // We make a copy before checking notification's length, because calling // length compiles the notification and makes it immutable. Further // changes to its properties won't be reflected in the final plaintext // data that is sent. const copyWithMessageInfos = _cloneDeep(notification); copyWithMessageInfos.payload = { ...copyWithMessageInfos.payload, messageInfos, }; const notificationSizeValidator = (notif: apn.Notification) => notif.length() <= apnMaxNotificationPayloadByteSize; if (!shouldBeEncrypted) { const notificationToSend = notificationSizeValidator( _cloneDeep(copyWithMessageInfos), ) ? copyWithMessageInfos : notification; return devices.map(({ deviceToken }) => ({ notification: notificationToSend, deviceToken, })); } const notifsWithMessageInfos = await prepareEncryptedAPNsNotifications( devices, copyWithMessageInfos, platformDetails.codeVersion, notificationSizeValidator, ); const devicesWithExcessiveSize = notifsWithMessageInfos .filter(({ payloadSizeExceeded }) => payloadSizeExceeded) .map(({ deviceToken, cookieID }) => ({ deviceToken, cookieID })); if (devicesWithExcessiveSize.length === 0) { return notifsWithMessageInfos.map( ({ notification: notif, deviceToken, encryptedPayloadHash, encryptionOrder, }) => ({ notification: notif, deviceToken, encryptedPayloadHash, encryptionOrder, }), ); } const notifsWithoutMessageInfos = await prepareEncryptedAPNsNotifications( devicesWithExcessiveSize, notification, platformDetails.codeVersion, ); const targetedNotifsWithMessageInfos = notifsWithMessageInfos .filter(({ payloadSizeExceeded }) => !payloadSizeExceeded) .map( ({ notification: notif, deviceToken, encryptedPayloadHash, encryptionOrder, }) => ({ notification: notif, deviceToken, encryptedPayloadHash, encryptionOrder, }), ); const targetedNotifsWithoutMessageInfos = notifsWithoutMessageInfos.map( ({ notification: notif, deviceToken, encryptedPayloadHash, encryptionOrder, }) => ({ notification: notif, deviceToken, encryptedPayloadHash, encryptionOrder, }), ); return [ ...targetedNotifsWithMessageInfos, ...targetedNotifsWithoutMessageInfos, ]; } type AndroidNotifInputData = { ...APNsNotifInputData, +dbID: string, }; const androidNotifInputDataValidator = tShape({ ...apnsNotifInputDataValidator.meta.props, dbID: t.String, }); async function prepareAndroidNotification( inputData: AndroidNotifInputData, devices: $ReadOnlyArray, ): Promise<$ReadOnlyArray> { const convertedData = validateOutput( inputData.platformDetails, androidNotifInputDataValidator, inputData, ); const { notifTexts, newRawMessageInfos, threadID, collapseKey, badgeOnly, unreadCount, platformDetails: { codeVersion }, dbID, } = convertedData; const canDecryptNonCollapsibleTextNotifs = codeVersion && codeVersion > 228; const isNonCollapsibleTextNotif = newRawMessageInfos.every( newRawMessageInfo => newRawMessageInfo.type === messageTypes.TEXT, ) && !collapseKey; const canDecryptAllNotifTypes = codeVersion && codeVersion >= 267; const shouldBeEncrypted = canDecryptAllNotifTypes || (canDecryptNonCollapsibleTextNotifs && isNonCollapsibleTextNotif); const { merged, ...rest } = notifTexts; const notification = { data: { badge: unreadCount.toString(), ...rest, threadID, }, }; let notifID; if (collapseKey && canDecryptAllNotifTypes) { notifID = dbID; notification.data = { ...notification.data, collapseKey, }; } else if (collapseKey) { notifID = collapseKey; } else { notifID = dbID; } // The reason we only include `badgeOnly` for newer clients is because older // clients don't know how to parse it. The reason we only include `id` for // newer clients is that if the older clients see that field, they assume // the notif has a full payload, and then crash when trying to parse it. // By skipping `id` we allow old clients to still handle in-app notifs and // badge updating. if (!badgeOnly || (codeVersion && codeVersion >= 69)) { notification.data = { ...notification.data, id: notifID, badgeOnly: badgeOnly ? '1' : '0', }; } const messageInfos = JSON.stringify(newRawMessageInfos); const copyWithMessageInfos = { ...notification, data: { ...notification.data, messageInfos }, }; if (!shouldBeEncrypted) { const notificationToSend = Buffer.byteLength(JSON.stringify(copyWithMessageInfos)) <= fcmMaxNotificationPayloadByteSize ? copyWithMessageInfos : notification; return devices.map(({ deviceToken }) => ({ notification: notificationToSend, deviceToken, })); } const notificationsSizeValidator = (notif: AndroidNotification) => { const serializedNotif = JSON.stringify(notif); return ( !serializedNotif || Buffer.byteLength(serializedNotif) <= fcmMaxNotificationPayloadByteSize ); }; const notifsWithMessageInfos = await prepareEncryptedAndroidNotifications( devices, copyWithMessageInfos, notificationsSizeValidator, ); const devicesWithExcessiveSize = notifsWithMessageInfos .filter(({ payloadSizeExceeded }) => payloadSizeExceeded) .map(({ cookieID, deviceToken }) => ({ cookieID, deviceToken })); if (devicesWithExcessiveSize.length === 0) { return notifsWithMessageInfos.map( ({ notification: notif, deviceToken, encryptionOrder }) => ({ notification: notif, deviceToken, encryptionOrder, }), ); } const notifsWithoutMessageInfos = await prepareEncryptedAndroidNotifications( devicesWithExcessiveSize, notification, ); const targetedNotifsWithMessageInfos = notifsWithMessageInfos .filter(({ payloadSizeExceeded }) => !payloadSizeExceeded) .map(({ notification: notif, deviceToken, encryptionOrder }) => ({ notification: notif, deviceToken, encryptionOrder, })); const targetedNotifsWithoutMessageInfos = notifsWithoutMessageInfos.map( ({ notification: notif, deviceToken, encryptionOrder }) => ({ notification: notif, deviceToken, encryptionOrder, }), ); return [ ...targetedNotifsWithMessageInfos, ...targetedNotifsWithoutMessageInfos, ]; } type WebNotifInputData = { +notifTexts: ResolvedNotifTexts, +threadID: string, +unreadCount: number, +platformDetails: PlatformDetails, }; const webNotifInputDataValidator = tShape({ notifTexts: resolvedNotifTextsValidator, threadID: tID, unreadCount: t.Number, platformDetails: tPlatformDetails, }); async function prepareWebNotification( inputData: WebNotifInputData, devices: $ReadOnlyArray, ): Promise<$ReadOnlyArray> { const convertedData = validateOutput( inputData.platformDetails, webNotifInputDataValidator, inputData, ); const { notifTexts, threadID, unreadCount } = convertedData; const id = uuidv4(); const { merged, ...rest } = notifTexts; const notification = { ...rest, unreadCount, id, threadID, }; const shouldBeEncrypted = hasMinCodeVersion(convertedData.platformDetails, { web: 43, }); if (!shouldBeEncrypted) { return devices.map(({ deviceToken }) => ({ deviceToken, notification })); } return prepareEncryptedWebNotifications(devices, notification); } type WNSNotifInputData = { +notifTexts: ResolvedNotifTexts, +threadID: string, +unreadCount: number, +platformDetails: PlatformDetails, }; const wnsNotifInputDataValidator = tShape({ notifTexts: resolvedNotifTextsValidator, threadID: tID, unreadCount: t.Number, platformDetails: tPlatformDetails, }); async function prepareWNSNotification( - userID: string, devices: $ReadOnlyArray, inputData: WNSNotifInputData, ): Promise<$ReadOnlyArray> { const convertedData = validateOutput( inputData.platformDetails, wnsNotifInputDataValidator, inputData, ); const { notifTexts, threadID, unreadCount } = convertedData; const { merged, ...rest } = notifTexts; const notification = { ...rest, unreadCount, threadID, }; if ( Buffer.byteLength(JSON.stringify(notification)) > wnsMaxNotificationPayloadByteSize ) { console.warn('WNS notification exceeds size limit'); } - const isStaffOrDev = isStaff(userID) || isDev; - const shouldBeEncrypted = - isStaffOrDev && - hasMinCodeVersion(inputData.platformDetails, { - majorDesktop: 10, - }); + const shouldBeEncrypted = hasMinCodeVersion(inputData.platformDetails, { + majorDesktop: 10, + }); if (!shouldBeEncrypted) { return devices.map(({ deviceToken }) => ({ deviceToken, notification, })); } return await prepareEncryptedWNSNotifications(devices, notification); } type NotificationInfo = | { +source: 'new_message', +dbID: string, +userID: string, +threadID: string, +messageID: string, +collapseKey: ?string, +codeVersion: number, +stateVersion: number, } | { +source: 'mark_as_unread' | 'mark_as_read' | 'activity_update', +dbID: string, +userID: string, +codeVersion: number, +stateVersion: number, }; type APNsDelivery = { +source: $PropertyType, +deviceType: 'ios' | 'macos', +iosID: string, +deviceTokens: $ReadOnlyArray, +codeVersion: number, +stateVersion: number, +errors?: $ReadOnlyArray, +encryptedPayloadHashes?: $ReadOnlyArray, +deviceTokensToPayloadHash?: { +[deviceToken: string]: string, }, }; type APNsResult = { info: NotificationInfo, delivery: APNsDelivery, invalidTokens?: $ReadOnlyArray, }; async function sendAPNsNotification( platform: 'ios' | 'macos', targetedNotifications: $ReadOnlyArray, notificationInfo: NotificationInfo, ): Promise { const { source, codeVersion, stateVersion } = notificationInfo; const response = await apnPush({ targetedNotifications, platformDetails: { platform, codeVersion }, }); invariant( new Set(targetedNotifications.map(({ notification }) => notification.id)) .size === 1, 'Encrypted versions of the same notification must share id value', ); const iosID = targetedNotifications[0].notification.id; const deviceTokens = targetedNotifications.map( ({ deviceToken }) => deviceToken, ); let delivery: APNsDelivery = { source, deviceType: platform, iosID, deviceTokens, codeVersion, stateVersion, }; if (response.errors) { delivery = { ...delivery, errors: response.errors, }; } const deviceTokensToPayloadHash: { [string]: string } = {}; for (const targetedNotification of targetedNotifications) { if (targetedNotification.encryptedPayloadHash) { deviceTokensToPayloadHash[targetedNotification.deviceToken] = targetedNotification.encryptedPayloadHash; } } if (Object.keys(deviceTokensToPayloadHash).length !== 0) { delivery = { ...delivery, deviceTokensToPayloadHash, }; } const result: APNsResult = { info: notificationInfo, delivery, }; if (response.invalidTokens) { result.invalidTokens = response.invalidTokens; } return result; } type PushResult = AndroidResult | APNsResult | WebResult | WNSResult; type PushDelivery = AndroidDelivery | APNsDelivery | WebDelivery | WNSDelivery; type AndroidDelivery = { source: $PropertyType, deviceType: 'android', androidIDs: $ReadOnlyArray, deviceTokens: $ReadOnlyArray, codeVersion: number, stateVersion: number, errors?: $ReadOnlyArray, }; type AndroidResult = { info: NotificationInfo, delivery: AndroidDelivery, invalidTokens?: $ReadOnlyArray, }; async function sendAndroidNotification( targetedNotifications: $ReadOnlyArray, notificationInfo: NotificationInfo, ): Promise { const collapseKey = notificationInfo.collapseKey ? notificationInfo.collapseKey : null; // for Flow... const { source, codeVersion, stateVersion } = notificationInfo; const response = await fcmPush({ targetedNotifications, collapseKey, codeVersion, }); const deviceTokens = targetedNotifications.map( ({ deviceToken }) => deviceToken, ); const androidIDs = response.fcmIDs ? response.fcmIDs : []; const delivery: AndroidDelivery = { source, deviceType: 'android', androidIDs, deviceTokens, codeVersion, stateVersion, }; if (response.errors) { delivery.errors = response.errors; } const result: AndroidResult = { info: notificationInfo, delivery, }; if (response.invalidTokens) { result.invalidTokens = response.invalidTokens; } return result; } type WebDelivery = { +source: $PropertyType, +deviceType: 'web', +deviceTokens: $ReadOnlyArray, +codeVersion?: number, +stateVersion: number, +errors?: $ReadOnlyArray, }; type WebResult = { +info: NotificationInfo, +delivery: WebDelivery, +invalidTokens?: $ReadOnlyArray, }; async function sendWebNotifications( targetedNotifications: $ReadOnlyArray, notificationInfo: NotificationInfo, ): Promise { const { source, codeVersion, stateVersion } = notificationInfo; const response = await webPush(targetedNotifications); const deviceTokens = targetedNotifications.map( ({ deviceToken }) => deviceToken, ); const delivery: WebDelivery = { source, deviceType: 'web', deviceTokens, codeVersion, errors: response.errors, stateVersion, }; const result: WebResult = { info: notificationInfo, delivery, invalidTokens: response.invalidTokens, }; return result; } type WNSDelivery = { +source: $PropertyType, +deviceType: 'windows', +wnsIDs: $ReadOnlyArray, +deviceTokens: $ReadOnlyArray, +codeVersion?: number, +stateVersion: number, +errors?: $ReadOnlyArray, }; type WNSResult = { +info: NotificationInfo, +delivery: WNSDelivery, +invalidTokens?: $ReadOnlyArray, }; async function sendWNSNotification( targetedNotifications: $ReadOnlyArray, notificationInfo: NotificationInfo, ): Promise { const { source, codeVersion, stateVersion } = notificationInfo; const response = await wnsPush(targetedNotifications); const deviceTokens = targetedNotifications.map( ({ deviceToken }) => deviceToken, ); const wnsIDs = response.wnsIDs ?? []; const delivery: WNSDelivery = { source, deviceType: 'windows', wnsIDs, deviceTokens, codeVersion, errors: response.errors, stateVersion, }; const result: WNSResult = { info: notificationInfo, delivery, invalidTokens: response.invalidTokens, }; return result; } type InvalidToken = { +userID: string, +tokens: $ReadOnlyArray, }; async function removeInvalidTokens( invalidTokens: $ReadOnlyArray, ): Promise { const sqlTuples = invalidTokens.map( invalidTokenUser => SQL`( user = ${invalidTokenUser.userID} AND device_token IN (${invalidTokenUser.tokens}) )`, ); const sqlCondition = mergeOrConditions(sqlTuples); const selectQuery = SQL` SELECT id, user, device_token FROM cookies WHERE `; selectQuery.append(sqlCondition); const [result] = await dbQuery(selectQuery); const userCookiePairsToInvalidDeviceTokens = new Map>(); for (const row of result) { const userCookiePair = `${row.user}|${row.id}`; const existing = userCookiePairsToInvalidDeviceTokens.get(userCookiePair); if (existing) { existing.add(row.device_token); } else { userCookiePairsToInvalidDeviceTokens.set( userCookiePair, new Set([row.device_token]), ); } } const time = Date.now(); const promises: Array> = []; for (const entry of userCookiePairsToInvalidDeviceTokens) { const [userCookiePair, deviceTokens] = entry; const [userID, cookieID] = userCookiePair.split('|'); const updateDatas = [...deviceTokens].map(deviceToken => ({ type: updateTypes.BAD_DEVICE_TOKEN, userID, time, deviceToken, targetCookie: cookieID, })); promises.push(createUpdates(updateDatas)); } const updateQuery = SQL` UPDATE cookies SET device_token = NULL WHERE `; updateQuery.append(sqlCondition); promises.push(dbQuery(updateQuery)); await Promise.all(promises); } async function updateBadgeCount( viewer: Viewer, source: 'mark_as_unread' | 'mark_as_read' | 'activity_update', ) { const { userID } = viewer; const deviceTokenQuery = SQL` SELECT platform, device_token, versions, id FROM cookies WHERE user = ${userID} AND device_token IS NOT NULL `; if (viewer.data.cookieID) { deviceTokenQuery.append(SQL`AND id != ${viewer.cookieID} `); } const [unreadCounts, [deviceTokenResult], [dbID]] = await Promise.all([ getUnreadCounts([userID]), dbQuery(deviceTokenQuery), createIDs('notifications', 1), ]); const unreadCount = unreadCounts[userID]; const devices = deviceTokenResult.map(row => { const versions = JSON.parse(row.versions); return { platform: row.platform, cookieID: row.id, deviceToken: row.device_token, codeVersion: versions?.codeVersion, stateVersion: versions?.stateVersion, }; }); const byPlatform = getDevicesByPlatform(devices); const preparePromises: Array>> = []; const iosVersionsToTokens = byPlatform.get('ios'); if (iosVersionsToTokens) { for (const [versionKey, deviceInfos] of iosVersionsToTokens) { const { codeVersion, stateVersion } = stringToVersionKey(versionKey); const notification = new apn.Notification(); notification.topic = getAPNsNotificationTopic({ platform: 'ios', codeVersion, stateVersion, }); notification.badge = unreadCount; notification.pushType = 'alert'; const preparePromise: Promise = (async () => { let targetedNotifications: $ReadOnlyArray; if (codeVersion > 222) { const notificationsArray = await prepareEncryptedAPNsNotifications( deviceInfos, notification, codeVersion, ); targetedNotifications = notificationsArray.map( ({ notification: notif, deviceToken, encryptionOrder }) => ({ notification: notif, deviceToken, encryptionOrder, }), ); } else { targetedNotifications = deviceInfos.map(({ deviceToken }) => ({ notification, deviceToken, })); } return targetedNotifications.map(targetedNotification => ({ notification: targetedNotification, platform: 'ios', notificationInfo: { source, dbID, userID, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } const androidVersionsToTokens = byPlatform.get('android'); if (androidVersionsToTokens) { for (const [versionKey, deviceInfos] of androidVersionsToTokens) { const { codeVersion, stateVersion } = stringToVersionKey(versionKey); const notificationData = codeVersion < 69 ? { badge: unreadCount.toString() } : { badge: unreadCount.toString(), badgeOnly: '1' }; const notification = { data: notificationData }; const preparePromise: Promise = (async () => { let targetedNotifications: $ReadOnlyArray; if (codeVersion > 222) { const notificationsArray = await prepareEncryptedAndroidNotifications( deviceInfos, notification, ); targetedNotifications = notificationsArray.map( ({ notification: notif, deviceToken, encryptionOrder }) => ({ notification: notif, deviceToken, encryptionOrder, }), ); } else { targetedNotifications = deviceInfos.map(({ deviceToken }) => ({ deviceToken, notification, })); } return targetedNotifications.map(targetedNotification => ({ notification: targetedNotification, platform: 'android', notificationInfo: { source, dbID, userID, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } const macosVersionsToTokens = byPlatform.get('macos'); if (macosVersionsToTokens) { for (const [versionKey, deviceInfos] of macosVersionsToTokens) { const { codeVersion, stateVersion, majorDesktopVersion } = stringToVersionKey(versionKey); const notification = new apn.Notification(); notification.topic = getAPNsNotificationTopic({ platform: 'macos', codeVersion, stateVersion, majorDesktopVersion, }); notification.badge = unreadCount; notification.pushType = 'alert'; const preparePromise: Promise = (async () => { const shouldBeEncrypted = hasMinCodeVersion(viewer.platformDetails, { web: 47, majorDesktop: 9, }); let targetedNotifications: $ReadOnlyArray; if (shouldBeEncrypted) { const notificationsArray = await prepareEncryptedAPNsNotifications( deviceInfos, notification, codeVersion, ); targetedNotifications = notificationsArray.map( ({ notification: notif, deviceToken, encryptionOrder }) => ({ notification: notif, deviceToken, encryptionOrder, }), ); } else { targetedNotifications = deviceInfos.map(({ deviceToken }) => ({ deviceToken, notification, })); } return targetedNotifications.map(targetedNotification => ({ notification: targetedNotification, platform: 'macos', notificationInfo: { source, dbID, userID, codeVersion, stateVersion, }, })); })(); preparePromises.push(preparePromise); } } const prepareResults = await Promise.all(preparePromises); const flattenedPrepareResults = prepareResults.filter(Boolean).flat(); const deliveryResults = await deliverPushNotifsInEncryptionOrder( flattenedPrepareResults, ); await saveNotifResults(deliveryResults, new Map(), false); } export { sendPushNotifs, sendRescindNotifs, updateBadgeCount }; diff --git a/keyserver/src/session/cookies.js b/keyserver/src/session/cookies.js index 4604460ff..3683a7539 100644 --- a/keyserver/src/session/cookies.js +++ b/keyserver/src/session/cookies.js @@ -1,831 +1,826 @@ // @flow import crypto from 'crypto'; import type { $Response, $Request } from 'express'; import invariant from 'invariant'; import url from 'url'; -import { isStaff } from 'lib/shared/staff-utils.js'; import { hasMinCodeVersion } from 'lib/shared/version-utils.js'; import type { SignedIdentityKeysBlob } from 'lib/types/crypto-types.js'; import { type Platform, type PlatformDetails, isDeviceType, } from 'lib/types/device-types.js'; import type { CalendarQuery } from 'lib/types/entry-types.js'; import { type ServerSessionChange, cookieLifetime, cookieTypes, sessionIdentifierTypes, type SessionIdentifierType, } from 'lib/types/session-types.js'; import type { SIWESocialProof } from 'lib/types/siwe-types.js'; import type { InitialClientSocketMessage } from 'lib/types/socket-types.js'; import type { UserInfo } from 'lib/types/user-types.js'; -import { isDev } from 'lib/utils/dev-utils.js'; import { ignorePromiseRejections } from 'lib/utils/promises.js'; import { isBcryptHash, getCookieHash, verifyCookieHash, } from './cookie-hash.js'; import { Viewer } from './viewer.js'; import type { AnonymousViewerData, UserViewerData } from './viewer.js'; import createIDs from '../creators/id-creator.js'; import { createSession } from '../creators/session-creator.js'; import { dbQuery, SQL } from '../database/database.js'; import { deleteCookie } from '../deleters/cookie-deleters.js'; import { clearDeviceToken } from '../updaters/device-token-updaters.js'; import { assertSecureRequest } from '../utils/security-utils.js'; import { type AppURLFacts, getAppURLFactsFromRequestURL, } from '../utils/urls.js'; function cookieIsExpired(lastUsed: number) { return lastUsed + cookieLifetime <= Date.now(); } type SessionParameterInfo = { isSocket: boolean, sessionID: ?string, sessionIdentifierType: SessionIdentifierType, ipAddress: string, userAgent: ?string, }; type FetchViewerResult = | { +type: 'valid', +viewer: Viewer } | InvalidFetchViewerResult; type InvalidFetchViewerResult = | { +type: 'nonexistant', +cookieName: ?string, +sessionParameterInfo: SessionParameterInfo, } | { +type: 'invalidated', +cookieName: string, +cookieID: string, +sessionParameterInfo: SessionParameterInfo, +platformDetails: ?PlatformDetails, +deviceToken: ?string, }; async function fetchUserViewer( cookie: string, sessionParameterInfo: SessionParameterInfo, ): Promise { const [cookieID, cookiePassword] = cookie.split(':'); if (!cookieID || !cookiePassword) { return { type: 'nonexistant', cookieName: cookieTypes.USER, sessionParameterInfo, }; } const query = SQL` SELECT hash, user, last_used, platform, device_token, versions FROM cookies WHERE id = ${cookieID} AND user IS NOT NULL `; const [[result], allSessionInfo] = await Promise.all([ dbQuery(query), fetchSessionInfo(sessionParameterInfo, cookieID), ]); if (result.length === 0) { return { type: 'nonexistant', cookieName: cookieTypes.USER, sessionParameterInfo, }; } let sessionID = null, sessionInfo = null; if (allSessionInfo) { ({ sessionID, ...sessionInfo } = allSessionInfo); } const cookieRow = result[0]; let platformDetails; let versions = null; if (cookieRow.versions) { versions = JSON.parse(cookieRow.versions); platformDetails = { platform: cookieRow.platform, codeVersion: versions.codeVersion, stateVersion: versions.stateVersion, }; } else { platformDetails = { platform: cookieRow.platform }; } if (versions && versions.majorDesktopVersion) { platformDetails = { ...platformDetails, majorDesktopVersion: versions.majorDesktopVersion, }; } const deviceToken = cookieRow.device_token; const cookieHash = cookieRow.hash; if ( !verifyCookieHash(cookiePassword, cookieHash) || cookieIsExpired(cookieRow.last_used) ) { return { type: 'invalidated', cookieName: cookieTypes.USER, cookieID, sessionParameterInfo, platformDetails, deviceToken, }; } const userID = cookieRow.user.toString(); const viewer = new Viewer({ isSocket: sessionParameterInfo.isSocket, loggedIn: true, id: userID, platformDetails, deviceToken, userID, cookieID, cookiePassword, cookieHash, sessionIdentifierType: sessionParameterInfo.sessionIdentifierType, sessionID, sessionInfo, isScriptViewer: false, ipAddress: sessionParameterInfo.ipAddress, userAgent: sessionParameterInfo.userAgent, }); return { type: 'valid', viewer }; } async function fetchAnonymousViewer( cookie: string, sessionParameterInfo: SessionParameterInfo, ): Promise { const [cookieID, cookiePassword] = cookie.split(':'); if (!cookieID || !cookiePassword) { return { type: 'nonexistant', cookieName: cookieTypes.ANONYMOUS, sessionParameterInfo, }; } const query = SQL` SELECT last_used, hash, platform, device_token, versions FROM cookies WHERE id = ${cookieID} AND user IS NULL `; const [[result], allSessionInfo] = await Promise.all([ dbQuery(query), fetchSessionInfo(sessionParameterInfo, cookieID), ]); if (result.length === 0) { return { type: 'nonexistant', cookieName: cookieTypes.ANONYMOUS, sessionParameterInfo, }; } let sessionID = null, sessionInfo = null; if (allSessionInfo) { ({ sessionID, ...sessionInfo } = allSessionInfo); } const cookieRow = result[0]; let platformDetails = null; let versions = null; if (cookieRow.platform && cookieRow.versions) { versions = JSON.parse(cookieRow.versions); platformDetails = { platform: cookieRow.platform, codeVersion: versions.codeVersion, stateVersion: versions.stateVersion, }; } else if (cookieRow.platform) { platformDetails = { platform: cookieRow.platform }; } if (platformDetails && versions && versions.majorDesktopVersion) { platformDetails = { ...platformDetails, majorDesktopVersion: versions.majorDesktopVersion, }; } const deviceToken = cookieRow.device_token; const cookieHash = cookieRow.hash; if ( !verifyCookieHash(cookiePassword, cookieHash) || cookieIsExpired(cookieRow.last_used) ) { return { type: 'invalidated', cookieName: cookieTypes.ANONYMOUS, cookieID, sessionParameterInfo, platformDetails, deviceToken, }; } const viewer = new Viewer({ isSocket: sessionParameterInfo.isSocket, loggedIn: false, id: cookieID, platformDetails, deviceToken, cookieID, cookiePassword, cookieHash, sessionIdentifierType: sessionParameterInfo.sessionIdentifierType, sessionID, sessionInfo, isScriptViewer: false, ipAddress: sessionParameterInfo.ipAddress, userAgent: sessionParameterInfo.userAgent, }); return { type: 'valid', viewer }; } type SessionInfo = { +sessionID: ?string, +lastValidated: number, +lastUpdate: number, +calendarQuery: CalendarQuery, }; async function fetchSessionInfo( sessionParameterInfo: SessionParameterInfo, cookieID: string, ): Promise { const { sessionID } = sessionParameterInfo; const session = sessionID !== undefined ? sessionID : cookieID; if (!session) { return null; } const query = SQL` SELECT query, last_validated, last_update FROM sessions WHERE id = ${session} AND cookie = ${cookieID} `; const [result] = await dbQuery(query); if (result.length === 0) { return null; } return { sessionID, lastValidated: result[0].last_validated, lastUpdate: result[0].last_update, calendarQuery: JSON.parse(result[0].query), }; } async function fetchViewerFromRequestBody( body: mixed, sessionParameterInfo: SessionParameterInfo, ): Promise { if (!body || typeof body !== 'object') { return { type: 'nonexistant', cookieName: null, sessionParameterInfo, }; } const cookiePair = body.cookie; if (cookiePair === null || cookiePair === '') { return { type: 'nonexistant', cookieName: null, sessionParameterInfo, }; } if (!cookiePair || typeof cookiePair !== 'string') { return { type: 'nonexistant', cookieName: null, sessionParameterInfo, }; } const [type, cookie] = cookiePair.split('='); if (type === cookieTypes.USER && cookie) { return await fetchUserViewer(cookie, sessionParameterInfo); } else if (type === cookieTypes.ANONYMOUS && cookie) { return await fetchAnonymousViewer(cookie, sessionParameterInfo); } return { type: 'nonexistant', cookieName: null, sessionParameterInfo, }; } function getRequestIPAddress(req: $Request) { const { proxy } = getAppURLFactsFromRequestURL(req.originalUrl); let ipAddress; if (proxy === 'none') { ipAddress = req.socket.remoteAddress; } else if (proxy === 'apache') { ipAddress = req.get('X-Forwarded-For'); } invariant(ipAddress, 'could not determine requesting IP address'); return ipAddress; } function getSessionParameterInfoFromRequestBody( req: $Request, ): SessionParameterInfo { const body = (req.body: any); let sessionID = body.sessionID !== undefined || req.method !== 'GET' ? body.sessionID : null; if (sessionID === '') { sessionID = null; } const sessionIdentifierType = req.method === 'GET' || sessionID !== undefined ? sessionIdentifierTypes.BODY_SESSION_ID : sessionIdentifierTypes.COOKIE_ID; return { isSocket: false, sessionID, sessionIdentifierType, ipAddress: getRequestIPAddress(req), userAgent: req.get('User-Agent'), }; } async function fetchViewerForJSONRequest(req: $Request): Promise { assertSecureRequest(req); const sessionParameterInfo = getSessionParameterInfoFromRequestBody(req); const result = await fetchViewerFromRequestBody( req.body, sessionParameterInfo, ); return await handleFetchViewerResult(result); } async function fetchViewerForSocket( req: $Request, clientMessage: InitialClientSocketMessage, ): Promise { assertSecureRequest(req); const { sessionIdentification } = clientMessage.payload; const { sessionID } = sessionIdentification; const sessionParameterInfo = { isSocket: true, sessionID, sessionIdentifierType: sessionID !== undefined ? sessionIdentifierTypes.BODY_SESSION_ID : sessionIdentifierTypes.COOKIE_ID, ipAddress: getRequestIPAddress(req), userAgent: req.get('User-Agent'), }; const result = await fetchViewerFromRequestBody( clientMessage.payload.sessionIdentification, sessionParameterInfo, ); if (result.type === 'valid') { return result.viewer; } const anonymousViewerDataPromise: Promise = (async () => { const platformDetails = result.type === 'invalidated' ? result.platformDetails : null; const deviceToken = result.type === 'invalidated' ? result.deviceToken : null; return await createNewAnonymousCookie({ platformDetails, deviceToken, }); })(); const deleteCookiePromise = (async () => { if (result.type === 'invalidated') { await deleteCookie(result.cookieID); } })(); const [anonymousViewerData] = await Promise.all([ anonymousViewerDataPromise, deleteCookiePromise, ]); return createViewerForInvalidFetchViewerResult(result, anonymousViewerData); } async function handleFetchViewerResult( result: FetchViewerResult, inputPlatformDetails?: PlatformDetails, ) { if (result.type === 'valid') { return result.viewer; } let platformDetails: ?PlatformDetails = inputPlatformDetails; if (!platformDetails && result.type === 'invalidated') { platformDetails = result.platformDetails; } const deviceToken = result.type === 'invalidated' ? result.deviceToken : null; const deleteCookiePromise = (async () => { if (result.type === 'invalidated') { await deleteCookie(result.cookieID); } })(); const [anonymousViewerData] = await Promise.all([ createNewAnonymousCookie({ platformDetails, deviceToken }), deleteCookiePromise, ]); return createViewerForInvalidFetchViewerResult(result, anonymousViewerData); } function createViewerForInvalidFetchViewerResult( result: InvalidFetchViewerResult, anonymousViewerData: AnonymousViewerData, ): Viewer { const viewer = new Viewer({ ...anonymousViewerData, sessionIdentifierType: result.sessionParameterInfo.sessionIdentifierType, isSocket: result.sessionParameterInfo.isSocket, ipAddress: result.sessionParameterInfo.ipAddress, userAgent: result.sessionParameterInfo.userAgent, }); viewer.sessionChanged = true; // If cookieName is falsey, that tells us that there was no cookie specified // in the request, which means we can't be invalidating anything. if (result.cookieName) { viewer.cookieInvalidated = true; viewer.initialCookieName = result.cookieName; } return viewer; } function addSessionChangeInfoToResult( viewer: Viewer, res: $Response, result: Object, ) { let threadInfos = {}, userInfos: $ReadOnlyArray = []; if (result.cookieChange) { ({ threadInfos, userInfos } = result.cookieChange); } let sessionChange; if (viewer.cookieInvalidated) { sessionChange = ({ cookieInvalidated: true, threadInfos, userInfos, currentUserInfo: { anonymous: true, }, }: ServerSessionChange); } else { sessionChange = ({ cookieInvalidated: false, threadInfos, userInfos, }: ServerSessionChange); } sessionChange.cookie = viewer.cookiePairString; if (viewer.sessionIdentifierType === sessionIdentifierTypes.BODY_SESSION_ID) { sessionChange.sessionID = viewer.sessionID ? viewer.sessionID : null; } result.cookieChange = sessionChange; } type AnonymousCookieCreationParams = Partial<{ +platformDetails: ?PlatformDetails, +deviceToken: ?string, }>; const defaultPlatformDetails = {}; // The result of this function should not be passed directly to the Viewer // constructor. Instead, it should be passed to viewer.setNewCookie. There are // several fields on AnonymousViewerData that are not set by this function: // sessionIdentifierType, ipAddress, and userAgent. These parameters all depend // on the initial request. If the result of this function is passed to the // Viewer constructor directly, the resultant Viewer object will throw whenever // anybody attempts to access the relevant properties. async function createNewAnonymousCookie( params: AnonymousCookieCreationParams, ): Promise { const { platformDetails, deviceToken } = params; const { platform, ...versions } = platformDetails || defaultPlatformDetails; const versionsString = Object.keys(versions).length > 0 ? JSON.stringify(versions) : null; const time = Date.now(); const cookiePassword = crypto.randomBytes(32).toString('hex'); const cookieHash = getCookieHash(cookiePassword); const [[id]] = await Promise.all([ createIDs('cookies', 1), deviceToken ? clearDeviceToken(deviceToken) : undefined, ]); const cookieRow = [ id, cookieHash, null, platform, time, time, deviceToken, versionsString, ]; const query = SQL` INSERT INTO cookies(id, hash, user, platform, creation_time, last_used, device_token, versions) VALUES ${[cookieRow]} `; await dbQuery(query); return { loggedIn: false, id, platformDetails, deviceToken, cookieID: id, cookiePassword, cookieHash, sessionID: undefined, sessionInfo: null, cookieInsertedThisRequest: true, isScriptViewer: false, }; } type UserCookieCreationParams = { +platformDetails: PlatformDetails, +deviceToken?: ?string, +socialProof?: ?SIWESocialProof, +signedIdentityKeysBlob?: ?SignedIdentityKeysBlob, }; // The result of this function should never be passed directly to the Viewer // constructor. Instead, it should be passed to viewer.setNewCookie. There are // several fields on UserViewerData that are not set by this function: // sessionID, sessionIdentifierType, and ipAddress. These parameters all depend // on the initial request. If the result of this function is passed to the // Viewer constructor directly, the resultant Viewer object will throw whenever // anybody attempts to access the relevant properties. async function createNewUserCookie( userID: string, params: UserCookieCreationParams, ): Promise { const { platformDetails, deviceToken, socialProof, signedIdentityKeysBlob } = params; const { platform, ...versions } = platformDetails || defaultPlatformDetails; const versionsString = Object.keys(versions).length > 0 ? JSON.stringify(versions) : null; const time = Date.now(); const cookiePassword = crypto.randomBytes(32).toString('hex'); const cookieHash = getCookieHash(cookiePassword); const [[cookieID]] = await Promise.all([ createIDs('cookies', 1), deviceToken ? clearDeviceToken(deviceToken) : undefined, ]); const cookieRow = [ cookieID, cookieHash, userID, platform, time, time, deviceToken, versionsString, JSON.stringify(socialProof), signedIdentityKeysBlob ? JSON.stringify(signedIdentityKeysBlob) : null, ]; const query = SQL` INSERT INTO cookies(id, hash, user, platform, creation_time, last_used, device_token, versions, social_proof, signed_identity_keys) VALUES ${[cookieRow]} `; await dbQuery(query); return { loggedIn: true, id: userID, platformDetails, deviceToken, userID, cookieID, sessionID: undefined, sessionInfo: null, cookiePassword, cookieHash, cookieInsertedThisRequest: true, isScriptViewer: false, }; } // This gets called after createNewUserCookie and from websiteResponder. If the // Viewer's sessionIdentifierType is COOKIE_ID then the cookieID is used as the // session identifier; otherwise, a new ID is created for the session. async function setNewSession( viewer: Viewer, calendarQuery: CalendarQuery, initialLastUpdate: number, ): Promise { if (viewer.sessionIdentifierType !== sessionIdentifierTypes.COOKIE_ID) { const [sessionID] = await createIDs('sessions', 1); viewer.setSessionID(sessionID); } await createSession(viewer, calendarQuery, initialLastUpdate); } async function updateCookie(viewer: Viewer) { const time = Date.now(); const { cookieID, cookieHash, cookiePassword } = viewer; const updateObj: { [string]: string | number } = {}; updateObj.last_used = time; if (isBcryptHash(cookieHash)) { updateObj.hash = getCookieHash(cookiePassword); } const query = SQL` UPDATE cookies SET ${updateObj} WHERE id = ${cookieID} `; await dbQuery(query); } function addCookieToJSONResponse( viewer: Viewer, res: $Response, result: Object, expectCookieInvalidation: boolean, ) { if (expectCookieInvalidation) { viewer.cookieInvalidated = false; } if (!viewer.getData().cookieInsertedThisRequest) { ignorePromiseRejections(updateCookie(viewer)); } if (viewer.sessionChanged) { addSessionChangeInfoToResult(viewer, res, result); } } function addCookieToHomeResponse( req: $Request, res: $Response, appURLFacts: AppURLFacts, ) { const { user, anonymous } = req.cookies; if (user) { res.cookie(cookieTypes.USER, user, getCookieOptions(appURLFacts)); } if (anonymous) { res.cookie(cookieTypes.ANONYMOUS, anonymous, getCookieOptions(appURLFacts)); } } function getCookieOptions(appURLFacts: AppURLFacts) { const { baseDomain, basePath, https } = appURLFacts; const domainAsURL = new url.URL(baseDomain); return { domain: domainAsURL.hostname, path: basePath, httpOnly: false, secure: https, maxAge: cookieLifetime, sameSite: 'Strict', }; } async function setCookieSignedIdentityKeysBlob( cookieID: string, signedIdentityKeysBlob: SignedIdentityKeysBlob, ) { const signedIdentityKeysStr = JSON.stringify(signedIdentityKeysBlob); const query = SQL` UPDATE cookies SET signed_identity_keys = ${signedIdentityKeysStr} WHERE id = ${cookieID} `; await dbQuery(query); } // Returns `true` if row with `id = cookieID` exists AND // `signed_identity_keys` is `NULL`. Otherwise, returns `false`. async function isCookieMissingSignedIdentityKeysBlob( cookieID: string, ): Promise { const query = SQL` SELECT signed_identity_keys FROM cookies WHERE id = ${cookieID} `; const [queryResult] = await dbQuery(query); return ( queryResult.length === 1 && queryResult[0].signed_identity_keys === null ); } async function isCookieMissingOlmNotificationsSession( viewer: Viewer, ): Promise { const isDeviceSupportingE2ENotifs = isDeviceType(viewer.platformDetails?.platform) && hasMinCodeVersion(viewer.platformDetails, { native: 222 }); - const isStaffOrDev = isStaff(viewer.userID) || isDev; - const isWebSupportingE2ENotifs = viewer.platformDetails?.platform === 'web' && hasMinCodeVersion(viewer.platformDetails, { web: 43 }); const isMacOSSupportingE2ENotifs = viewer.platformDetails?.platform === 'macos' && hasMinCodeVersion(viewer.platformDetails, { web: 43, majorDesktop: 9 }); const isWindowsSupportingE2ENotifs = - isStaffOrDev && viewer.platformDetails?.platform === 'windows' && hasMinCodeVersion(viewer.platformDetails, { majorDesktop: 10, }); if ( !isDeviceSupportingE2ENotifs && !isWebSupportingE2ENotifs && !isMacOSSupportingE2ENotifs && !isWindowsSupportingE2ENotifs ) { return false; } const query = SQL` SELECT COUNT(*) AS count FROM olm_sessions WHERE cookie_id = ${viewer.cookieID} AND is_content = FALSE `; const [queryResult] = await dbQuery(query); return queryResult[0].count === 0; } async function setCookiePlatform( viewer: Viewer, platform: Platform, ): Promise { const newPlatformDetails = { ...viewer.platformDetails, platform }; viewer.setPlatformDetails(newPlatformDetails); const query = SQL` UPDATE cookies SET platform = ${platform} WHERE id = ${viewer.cookieID} `; await dbQuery(query); } async function setCookiePlatformDetails( viewer: Viewer, platformDetails: PlatformDetails, ): Promise { viewer.setPlatformDetails(platformDetails); const { platform, ...versions } = platformDetails; const versionsString = Object.keys(versions).length > 0 ? JSON.stringify(versions) : null; const query = SQL` UPDATE cookies SET platform = ${platform}, versions = ${versionsString} WHERE id = ${viewer.cookieID} `; await dbQuery(query); } export { fetchViewerForJSONRequest, fetchViewerForSocket, createNewAnonymousCookie, createNewUserCookie, setNewSession, updateCookie, addCookieToJSONResponse, addCookieToHomeResponse, setCookieSignedIdentityKeysBlob, isCookieMissingSignedIdentityKeysBlob, setCookiePlatform, setCookiePlatformDetails, isCookieMissingOlmNotificationsSession, };