import PromiseKit import Sodium import SessionUtilitiesKit import SessionSnodeKit @objc(SNOpenGroupManager) public final class OpenGroupManager: NSObject { public class Cache { public var defaultRoomsPromise: Promise<[OpenGroupAPI.Room]>? fileprivate var groupImagePromises: [String: Promise] = [:] /// Server URL to room ID to set of user IDs fileprivate var moderators: [String: [String: Set]] = [:] fileprivate var admins: [String: [String: Set]] = [:] /// Server URL to value public var hasPerformedInitialPoll: [String: Bool] = [:] public var timeSinceLastPoll: [String: TimeInterval] = [:] fileprivate var _timeSinceLastOpen: TimeInterval? public func getTimeSinceLastOpen(using dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies()) -> TimeInterval { if let storedTimeSinceLastOpen: TimeInterval = _timeSinceLastOpen { return storedTimeSinceLastOpen } guard let lastOpen: Date = dependencies.standardUserDefaults[.lastOpen] else { _timeSinceLastOpen = .greatestFiniteMagnitude return .greatestFiniteMagnitude } _timeSinceLastOpen = dependencies.date.timeIntervalSince(lastOpen) return dependencies.date.timeIntervalSince(lastOpen) } } // MARK: - Variables @objc public static let shared: OpenGroupManager = OpenGroupManager() public let mutableCache: Atomic = Atomic(Cache()) public var cache: Cache { return mutableCache.wrappedValue } private var pollers: [String: OpenGroupAPI.Poller] = [:] // One for each server private var isPolling = false // MARK: - Polling @objc public func startPolling() { guard !isPolling else { return } isPolling = true pollers = Set(Storage.shared.getAllOpenGroups().values.map { $0.server }) .reduce(into: [:]) { prev, server in pollers[server]?.stop() // Should never occur let poller = OpenGroupAPI.Poller(for: server) poller.startIfNeeded() prev[server] = poller } } @objc public func stopPolling() { pollers.forEach { (_, openGroupPoller) in openGroupPoller.stop() } pollers.removeAll() } // MARK: - Adding & Removing public func add(roomToken: String, server: String, publicKey: String, isConfigMessage: Bool, using transaction: YapDatabaseReadWriteTransaction, dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies()) -> Promise { // If we are currently polling for this server and already have a TSGroupThread for this room the do nothing let groupId: Data = LKGroupUtilities.getEncodedOpenGroupIDAsData("\(server).\(roomToken)") if OpenGroupManager.shared.pollers[server] != nil && TSGroupThread.fetch(uniqueId: TSGroupThread.threadId(fromGroupId: groupId), transaction: transaction) != nil { SNLog("Ignoring join open group attempt (already joined), user initiated: \(!isConfigMessage)") return Promise.value(()) } // Clear any existing data if needed dependencies.storage.removeOpenGroupSequenceNumber(for: roomToken, on: server, using: transaction) // Store the public key dependencies.storage.setOpenGroupPublicKey(for: server, to: publicKey, using: transaction) let (promise, seal) = Promise.pending() transaction.addCompletionQueue(DispatchQueue.global(qos: .userInitiated)) { OpenGroupAPI.capabilitiesAndRoom(for: roomToken, on: server, using: dependencies) .done(on: DispatchQueue.global(qos: .userInitiated)) { (capabilitiesResponse: (info: OnionRequestResponseInfoType, data: OpenGroupAPI.Capabilities?), roomResponse: (info: OnionRequestResponseInfoType, data: OpenGroupAPI.Room?)) in guard let capabilities: OpenGroupAPI.Capabilities = capabilitiesResponse.data, let room: OpenGroupAPI.Room = roomResponse.data else { SNLog("Failed to join open group due to invalid data.") seal.reject(HTTP.Error.generic) return } dependencies.storage.write { anyTransactionas in guard let transaction: YapDatabaseReadWriteTransaction = anyTransactionas as? YapDatabaseReadWriteTransaction else { return } // Store the capabilities first OpenGroupManager.handleCapabilities( capabilities, on: server, using: transaction, dependencies: dependencies ) // Then the room OpenGroupManager.handleRoom( room, publicKey: publicKey, for: roomToken, on: server, using: transaction, dependencies: dependencies ) { seal.fulfill(()) } } } .catch(on: DispatchQueue.global(qos: .userInitiated)) { error in seal.reject(error) } } return promise } public func delete(_ openGroup: OpenGroup, associatedWith thread: TSThread, using transaction: YapDatabaseReadWriteTransaction) { let storage = SNMessagingKitConfiguration.shared.storage // Stop the poller if needed let openGroups = storage.getAllOpenGroups().values.filter { $0.server == openGroup.server } if openGroups.count == 1 && openGroups.last == openGroup { let poller = pollers[openGroup.server] poller?.stop() pollers[openGroup.server] = nil } // Remove all data var messageIDs: Set = [] var messageTimestamps: Set = [] thread.enumerateInteractions(with: transaction) { interaction, _ in messageIDs.insert(interaction.uniqueId!) messageTimestamps.insert(interaction.timestamp) } storage.updateMessageIDCollectionByPruningMessagesWithIDs(messageIDs, using: transaction) Storage.shared.removeReceivedMessageTimestamps(messageTimestamps, using: transaction) Storage.shared.removeOpenGroupSequenceNumber(for: openGroup.room, on: openGroup.server, using: transaction) thread.removeAllThreadInteractions(with: transaction) thread.remove(with: transaction) Storage.shared.removeOpenGroup(for: thread.uniqueId!, using: transaction) // Only remove the open group public key if the user isn't in any other rooms if openGroups.count <= 1 { Storage.shared.removeOpenGroupPublicKey(for: openGroup.server, using: transaction) } } // MARK: - Response Processing internal static func handleCapabilities( _ capabilities: OpenGroupAPI.Capabilities, on server: String, using transaction: YapDatabaseReadWriteTransaction, dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies() ) { let updatedServer: OpenGroupAPI.Server = OpenGroupAPI.Server( name: server, capabilities: capabilities ) dependencies.storage.setOpenGroupServer(updatedServer, using: transaction) } internal static func handleRoom( _ room: OpenGroupAPI.Room, publicKey: String, for roomToken: String, on server: String, using transaction: YapDatabaseReadWriteTransaction, dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies(), completion: (() -> ())? = nil ) { OpenGroupManager.handlePollInfo( OpenGroupAPI.RoomPollInfo(room: room), publicKey: publicKey, for: roomToken, on: server, using: transaction, dependencies: dependencies, completion: completion ) } internal static func handlePollInfo( _ pollInfo: OpenGroupAPI.RoomPollInfo, publicKey maybePublicKey: String?, for roomToken: String, on server: String, using transaction: YapDatabaseReadWriteTransaction, dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies(), completion: (() -> ())? = nil ) { // Create the open group model and get or create the thread let groupId: Data = LKGroupUtilities.getEncodedOpenGroupIDAsData("\(server).\(roomToken)") let userPublicKey: String = getUserHexEncodedPublicKey() let initialModel: TSGroupModel = TSGroupModel( title: (pollInfo.details?.name ?? ""), memberIds: [ userPublicKey ], image: nil, groupId: groupId, groupType: .openGroup, adminIds: (pollInfo.details?.admins ?? []), moderatorIds: (pollInfo.details?.moderators ?? []) ) var maybeUpdatedModel: TSGroupModel? = nil // Store/Update everything let thread = TSGroupThread.getOrCreateThread(with: initialModel, transaction: transaction) let existingOpenGroup: OpenGroup? = thread.uniqueId.flatMap { uniqueId -> OpenGroup? in dependencies.storage.getOpenGroup(for: uniqueId) } guard let threadUniqueId: String = thread.uniqueId else { return } guard let publicKey: String = (maybePublicKey ?? existingOpenGroup?.publicKey) else { return } let updatedModel: TSGroupModel = TSGroupModel( title: (pollInfo.details?.name ?? thread.groupModel.groupName), memberIds: Array(Set(thread.groupModel.groupMemberIds).inserting(userPublicKey)), image: thread.groupModel.groupImage, groupId: groupId, groupType: .openGroup, adminIds: (pollInfo.details?.admins ?? thread.groupModel.groupAdminIds), moderatorIds: (pollInfo.details?.moderators ?? thread.groupModel.groupModeratorIds) ) maybeUpdatedModel = updatedModel let updatedOpenGroup: OpenGroup = OpenGroup( server: server, room: pollInfo.token, publicKey: publicKey, name: (pollInfo.details?.name ?? thread.name()), groupDescription: (pollInfo.details?.description ?? existingOpenGroup?.description), imageID: (pollInfo.details?.imageId.map { "\($0)" } ?? existingOpenGroup?.imageID), infoUpdates: ((pollInfo.details?.infoUpdates ?? existingOpenGroup?.infoUpdates) ?? 0) ) // - Thread changes thread.shouldBeVisible = true thread.groupModel = updatedModel thread.save(with: transaction) // - Open Group changes dependencies.storage.setOpenGroup(updatedOpenGroup, for: threadUniqueId, using: transaction) // - User Count dependencies.storage.setUserCount( to: UInt64(pollInfo.activeUsers), forOpenGroupWithID: updatedOpenGroup.id, using: transaction ) transaction.addCompletionQueue(DispatchQueue.global(qos: .userInitiated)) { // Start the poller if needed if OpenGroupManager.shared.pollers[server] == nil { OpenGroupManager.shared.pollers[server] = OpenGroupAPI.Poller(for: server) OpenGroupManager.shared.pollers[server]?.startIfNeeded() } // - Moderators if let moderators: [String] = (pollInfo.details?.moderators ?? maybeUpdatedModel?.groupModeratorIds) { OpenGroupManager.shared.mutableCache.mutate { cache in cache.moderators[server] = (cache.moderators[server] ?? [:]).setting(roomToken, Set(moderators)) } } // - Admins if let admins: [String] = (pollInfo.details?.admins ?? maybeUpdatedModel?.groupAdminIds) { OpenGroupManager.shared.mutableCache.mutate { cache in cache.admins[server] = (cache.admins[server] ?? [:]).setting(roomToken, Set(admins)) } } // - Room image (if there is one) if let imageId: UInt64 = pollInfo.details?.imageId { OpenGroupManager.roomImage(imageId, for: roomToken, on: server) .done(on: DispatchQueue.global(qos: .userInitiated)) { data in dependencies.storage.write { transaction in // Update the thread let transaction = transaction as! YapDatabaseReadWriteTransaction let thread = TSGroupThread.getOrCreateThread(with: initialModel, transaction: transaction) thread.groupModel.groupImage = UIImage(data: data) thread.save(with: transaction) } } .retainUntilComplete() } // Finish completion?() } } internal static func handleMessages( _ messages: [OpenGroupAPI.Message], for roomToken: String, on server: String, isBackgroundPoll: Bool, using transaction: YapDatabaseReadWriteTransaction, dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies() ) { // Sorting the messages by server ID before importing them fixes an issue where messages // that quote older messages can't find those older messages let openGroupID = "\(server).\(roomToken)" let sortedMessages: [OpenGroupAPI.Message] = messages .sorted { lhs, rhs in lhs.id < rhs.id } let seqNo: Int64? = sortedMessages.map { $0.seqNo }.max() var messageServerIDsToRemove: [UInt64] = [] // Update the 'openGroupSequenceNumber' value (Note: SOGS V4 uses the 'seqNo' instead of the 'serverId') if let seqNo: Int64 = seqNo { dependencies.storage.setOpenGroupSequenceNumber(for: roomToken, on: server, to: seqNo, using: transaction) } // Process the messages sortedMessages.forEach { message in guard let base64EncodedString: String = message.base64EncodedData, let data = Data(base64Encoded: base64EncodedString), let sender: String = message.sender else { // A message with no data has been deleted so add it to the list to remove messageServerIDsToRemove.append(UInt64(message.id)) return } // Note: The `posted` value is in seconds but all messages in the database use milliseconds for timestamps let envelope = SNProtoEnvelope.builder(type: .sessionMessage, timestamp: UInt64(floor(message.posted * 1000))) envelope.setContent(data) envelope.setSource(sender) do { let data = try envelope.buildSerializedData() let (message, proto) = try MessageReceiver.parse(data, openGroupMessageServerID: UInt64(message.id), isRetry: false, using: transaction) try MessageReceiver.handle(message, associatedWithProto: proto, openGroupID: openGroupID, isBackgroundPoll: isBackgroundPoll, using: transaction) } catch { SNLog("Couldn't receive open group message due to error: \(error).") } } // Handle any deletions that are needed guard !messageServerIDsToRemove.isEmpty else { return } guard let threadID = dependencies.storage.getThreadID(for: openGroupID), let thread = TSGroupThread.fetch(uniqueId: threadID, transaction: transaction) else { return } var messagesToRemove: [TSMessage] = [] thread.enumerateInteractions(with: transaction) { interaction, stop in guard let message: TSMessage = interaction as? TSMessage, messageServerIDsToRemove.contains(message.openGroupServerMessageID) else { return } messagesToRemove.append(message) } messagesToRemove.forEach { $0.remove(with: transaction) } } internal static func handleDirectMessages( _ messages: [OpenGroupAPI.DirectMessage], // We could infer where the messages come from based on their sender/recipient values but being since they // are different endpoints being explicit here reduces the chance a future change will break things fromOutbox: Bool, on server: String, isBackgroundPoll: Bool, using transaction: YapDatabaseReadWriteTransaction, dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies() ) { // Don't need to do anything if we have no messages (it's a valid case) guard !messages.isEmpty else { return } guard let serverPublicKey: String = dependencies.storage.getOpenGroupPublicKey(for: server) else { SNLog("Couldn't receive inbox message.") return } // Sorting the messages by server ID before importing them fixes an issue where messages // that quote older messages can't find those older messages let sortedMessages: [OpenGroupAPI.DirectMessage] = messages .sorted { lhs, rhs in lhs.id < rhs.id } let latestMessageId: Int64 = (sortedMessages.last?.id ?? 0) var mappingCache: [String: BlindedIdMapping] = [:] // Only want this cache to exist for the current loop // Update the 'latestMessageId' value if fromOutbox { dependencies.storage.setOpenGroupOutboxLatestMessageId(for: server, to: latestMessageId, using: transaction) } else { dependencies.storage.setOpenGroupInboxLatestMessageId(for: server, to: latestMessageId, using: transaction) } // Process the messages sortedMessages.forEach { message in guard let messageData = Data(base64Encoded: message.base64EncodedMessage) else { SNLog("Couldn't receive inbox message.") return } // Note: The `posted` value is in seconds but all messages in the database use milliseconds for timestamps let envelope = SNProtoEnvelope.builder(type: .sessionMessage, timestamp: UInt64(floor(message.posted * 1000))) envelope.setContent(messageData) envelope.setSource(message.sender) do { let data = try envelope.buildSerializedData() let (receivedMessage, proto) = try MessageReceiver.parse( data, openGroupMessageServerID: nil, openGroupServerPublicKey: serverPublicKey, isOutgoing: fromOutbox, otherBlindedPublicKey: (fromOutbox ? message.recipient : message.sender), isRetry: false, using: transaction ) // If the message was an outgoing message then attempt to unblind the recipient (this will help put // messages in the correct thread in case of message request approval race conditions as well as // during device sync'ing and restoration) if fromOutbox { // Attempt to un-blind the 'message.recipient' let mapping: BlindedIdMapping // Minor optimisation to avoid processing the same sender multiple times in the same // 'handleMessages' call (since the 'mapping' call is done within a transaction we // will never have a mapping come through part-way through processing these messages) if let result: BlindedIdMapping = mappingCache[message.recipient] { mapping = result } else if let result: BlindedIdMapping = ContactUtilities.mapping(for: message.recipient, serverPublicKey: serverPublicKey, using: transaction) { mapping = result } else { // Cache an "invalid" mapping that has the 'sessionId' set to the recipient so we don't // re-process this recipient if there is another message from them mapping = BlindedIdMapping( blindedId: "", sessionId: message.recipient, serverPublicKey: "" ) } switch receivedMessage { case let receivedMessage as VisibleMessage: receivedMessage.syncTarget = mapping.sessionId case let receivedMessage as ExpirationTimerUpdate: receivedMessage.syncTarget = mapping.sessionId default: break } mappingCache[message.recipient] = mapping } try MessageReceiver.handle(receivedMessage, associatedWithProto: proto, openGroupID: nil, isBackgroundPoll: isBackgroundPoll, using: transaction) // If this message is from the outbox then we should add the open group details back to the // thread just in case this is from a restore (otherwise the user won't be able to send a new // message to the target inbox if they are still blinded) if fromOutbox, let contactThread: TSContactThread = TSContactThread.fetch(uniqueId: TSContactThread.threadID(fromContactSessionID: message.recipient), transaction: transaction) { contactThread.originalOpenGroupServer = server contactThread.originalOpenGroupPublicKey = serverPublicKey contactThread.save(with: transaction) } } catch let error { SNLog("Couldn't receive inbox message due to error: \(error).") } } } // MARK: - Convenience /// This method specifies if the given publicKey is a moderator or an admin within a specified Open Group @objc(isUserModeratorOrAdmin:forRoom:onServer:) public static func isUserModeratorOrAdmin(_ publicKey: String, for room: String, on server: String) -> Bool { return isUserModeratorOrAdmin(publicKey, for: room, on: server, using: OpenGroupAPI.Dependencies()) } public static func isUserModeratorOrAdmin(_ publicKey: String, for room: String, on server: String, using dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies()) -> Bool { let modAndAdminKeys: Set = (OpenGroupManager.shared.cache.moderators[server]?[room] ?? Set()) .union(OpenGroupManager.shared.cache.admins[server]?[room] ?? Set()) // If the publicKey is in the set then return immediately, otherwise only continue if it's the // current user guard !modAndAdminKeys.contains(publicKey) else { return true } guard let sessionId: SessionId = SessionId(from: publicKey) else { return false } // Conveniently the logic for these different cases works in order so we can fallthrough each // case with only minor efficiency losses switch sessionId.prefix { case .standard: guard publicKey == getUserHexEncodedPublicKey() else { return false } fallthrough case .unblinded: guard let userEdKeyPair: Box.KeyPair = dependencies.storage.getUserED25519KeyPair() else { return false } guard sessionId.prefix != .unblinded || publicKey == SessionId(.unblinded, publicKey: userEdKeyPair.publicKey).hexString else { return false } fallthrough case .blinded: guard let userEdKeyPair: Box.KeyPair = dependencies.storage.getUserED25519KeyPair() else { return false } guard let serverPublicKey: String = dependencies.storage.getOpenGroupPublicKey(for: server) else { return false } guard let blindedKeyPair: Box.KeyPair = dependencies.sodium.blindedKeyPair(serverPublicKey: serverPublicKey, edKeyPair: userEdKeyPair, genericHash: dependencies.genericHash) else { return false } guard sessionId.prefix != .blinded || publicKey == SessionId(.blinded, publicKey: blindedKeyPair.publicKey).hexString else { return false } // If we got to here that means that the 'publicKey' value matches one of the current // users 'standard', 'unblinded' or 'blinded' keys and as such we should check if any // of them exist in the `modsAndAminKeys` Set let possibleKeys: Set = Set([ getUserHexEncodedPublicKey(), SessionId(.unblinded, publicKey: userEdKeyPair.publicKey).hexString, SessionId(.blinded, publicKey: blindedKeyPair.publicKey).hexString ]) return !modAndAdminKeys.intersection(possibleKeys).isEmpty } } public static func getDefaultRoomsIfNeeded(using dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies()) { // Note: If we already have a 'defaultRoomsPromise' then there is no need to get it again guard OpenGroupManager.shared.cache.defaultRoomsPromise == nil else { return } dependencies.storage.write( with: { transaction in dependencies.storage.setOpenGroupPublicKey( for: OpenGroupAPI.defaultServer, to: OpenGroupAPI.defaultServerPublicKey, using: transaction ) }, completion: { OpenGroupManager.shared.mutableCache.mutate { cache in cache.defaultRoomsPromise = attempt(maxRetryCount: 8, recoveringOn: DispatchQueue.main) { OpenGroupAPI.rooms(for: OpenGroupAPI.defaultServer, using: dependencies) .map { _, data in data } } } OpenGroupManager.shared.cache.defaultRoomsPromise? .done(on: OpenGroupAPI.workQueue) { items in items .compactMap { room -> (UInt64, String)? in guard let imageId: UInt64 = room.imageId else { return nil} return (imageId, room.token) } .forEach { imageId, roomToken in roomImage(imageId, for: roomToken, on: OpenGroupAPI.defaultServer, using: dependencies) .retainUntilComplete() } } .catch(on: OpenGroupAPI.workQueue) { _ in OpenGroupManager.shared.mutableCache.mutate { cache in cache.defaultRoomsPromise = nil } } } ) } public static func roomImage( _ fileId: UInt64, for roomToken: String, on server: String, using dependencies: OpenGroupAPI.Dependencies = OpenGroupAPI.Dependencies() ) -> Promise { // Normally the image for a given group is stored with the group thread, so it's only // fetched once. However, on the join open group screen we show images for groups the // user * hasn't * joined yet. We don't want to re-fetch these images every time the // user opens the app because that could slow the app down or be data-intensive. So // instead we assume that these images don't change that often and just fetch them once // a week. We also assume that they're all fetched at the same time as well, so that // we only need to maintain one date in user defaults. On top of all of this we also // don't double up on fetch requests by storing the existing request as a promise if // there is one. let lastOpenGroupImageUpdate: Date? = UserDefaults.standard[.lastOpenGroupImageUpdate] let now: Date = dependencies.date let timeSinceLastUpdate: TimeInterval = (lastOpenGroupImageUpdate.map { now.timeIntervalSince($0) } ?? .greatestFiniteMagnitude) let updateInterval: TimeInterval = (7 * 24 * 60 * 60) if let data = dependencies.storage.getOpenGroupImage(for: roomToken, on: server), server == OpenGroupAPI.defaultServer, timeSinceLastUpdate < updateInterval { return Promise.value(data) } if let promise = OpenGroupManager.shared.cache.groupImagePromises["\(server).\(roomToken)"] { return promise } let promise: Promise = OpenGroupAPI .downloadFile(fileId, from: roomToken, on: server, using: dependencies) .map { _, data in data } _ = promise.done(on: OpenGroupAPI.workQueue) { imageData in if server == OpenGroupAPI.defaultServer { dependencies.storage.write { transaction in dependencies.storage.setOpenGroupImage(to: imageData, for: roomToken, on: server, using: transaction) } UserDefaults.standard[.lastOpenGroupImageUpdate] = now } } OpenGroupManager.shared.mutableCache.mutate { cache in cache.groupImagePromises["\(server).\(roomToken)"] = promise } return promise } public static func parseV2OpenGroup(from string: String) -> (room: String, server: String, publicKey: String)? { guard let url = URL(string: string), let host = url.host ?? given(string.split(separator: "/").first, { String($0) }), let query = url.query else { return nil } // Inputs that should work: // https://sessionopengroup.co/main?public_key=658d29b91892a2389505596b135e76a53db6e11d613a51dbd3d0816adffb231c // http://sessionopengroup.co/main?public_key=658d29b91892a2389505596b135e76a53db6e11d613a51dbd3d0816adffb231c // sessionopengroup.co/main?public_key=658d29b91892a2389505596b135e76a53db6e11d613a51dbd3d0816adffb231c (does NOT go to HTTPS) // https://143.198.213.225:443/main?public_key=658d29b91892a2389505596b135e76a53db6e11d613a51dbd3d0816adffb231c // 143.198.213.255:80/main?public_key=658d29b91892a2389505596b135e76a53db6e11d613a51dbd3d0816adffb231c let useTLS = (url.scheme == "https") let updatedPath = (url.path.starts(with: "/r/") ? url.path.substring(from: 2) : url.path) let room = String(updatedPath.dropFirst()) // Drop the leading slash let queryParts = query.split(separator: "=") guard !room.isEmpty && !room.contains("/"), queryParts.count == 2, queryParts[0] == "public_key" else { return nil } let publicKey = String(queryParts[1]) guard publicKey.count == 64 && Hex.isValid(publicKey) else { return nil } var server = (useTLS ? "https://" : "http://") + host if let port = url.port { server += ":\(port)" } return (room: room, server: server, publicKey: publicKey) } } extension OpenGroupManager { @objc(getDefaultRoomsIfNeeded) public static func objc_getDefaultRoomsIfNeeded() { return getDefaultRoomsIfNeeded() } }