import PromiseKit import Sodium import GRDB import SessionUtilitiesKit @objc(SNSnodeAPI) public final class SnodeAPI : NSObject { private static let sodium = Sodium() private static var hasLoadedSnodePool = false private static var loadedSwarms: Set = [] private static var getSnodePoolPromise: Promise>? /// - Note: Should only be accessed from `Threading.workQueue` to avoid race conditions. internal static var snodeFailureCount: [Snode: UInt] = [:] /// - Note: Should only be accessed from `Threading.workQueue` to avoid race conditions. internal static var snodePool: Set = [] /// The offset between the user's clock and the Service Node's clock. Used in cases where the /// user's clock is incorrect. /// /// - Note: Should only be accessed from `Threading.workQueue` to avoid race conditions. public static var clockOffset: Int64 = 0 /// - Note: Should only be accessed from `Threading.workQueue` to avoid race conditions. public static var swarmCache: [String: Set] = [:] // MARK: Settings private static let maxRetryCount: UInt = 8 private static let minSwarmSnodeCount = 3 private static let seedNodePool: Set = Features.useTestnet ? [ "http://public.loki.foundation:38157" ] : [ "https://storage.seed1.loki.network:4433", "https://storage.seed3.loki.network:4433", "https://public.loki.foundation:4433" ] private static let snodeFailureThreshold = 3 private static let targetSwarmSnodeCount = 2 private static let minSnodePoolCount = 12 // MARK: Type Aliases public typealias MessageListPromise = Promise<[JSON]> public typealias RawResponse = Any public typealias RawResponsePromise = Promise // MARK: Snode Pool Interaction private static var hasInsufficientSnodes: Bool { snodePool.count < minSnodePoolCount } private static func loadSnodePoolIfNeeded() { guard !hasLoadedSnodePool else { return } GRDBStorage.shared.read { db in snodePool = ((try? Snode.fetchSet(db)) ?? Set()) } hasLoadedSnodePool = true } private static func setSnodePool(to newValue: Set, db: Database? = nil) { snodePool = newValue if let db: Database = db { _ = try? Snode.deleteAll(db) newValue.forEach { try? $0.save(db) } } else { GRDBStorage.shared.write { db in _ = try? Snode.deleteAll(db) newValue.forEach { try? $0.save(db) } } } } private static func dropSnodeFromSnodePool(_ snode: Snode) { #if DEBUG dispatchPrecondition(condition: .onQueue(Threading.workQueue)) #endif var snodePool = SnodeAPI.snodePool snodePool.remove(snode) setSnodePool(to: snodePool) } @objc public static func clearSnodePool() { snodePool.removeAll() Threading.workQueue.async { setSnodePool(to: []) } } // MARK: Swarm Interaction private static func loadSwarmIfNeeded(for publicKey: String) { guard !loadedSwarms.contains(publicKey) else { return } GRDBStorage.shared.read { db in swarmCache[publicKey] = ((try? Snode.fetchSet(db, publicKey: publicKey)) ?? []) } loadedSwarms.insert(publicKey) } private static func setSwarm(to newValue: Set, for publicKey: String, persist: Bool = true) { #if DEBUG dispatchPrecondition(condition: .onQueue(Threading.workQueue)) #endif swarmCache[publicKey] = newValue guard persist else { return } GRDBStorage.shared.write { db in try? newValue.save(db, key: publicKey) } } public static func dropSnodeFromSwarmIfNeeded(_ snode: Snode, publicKey: String) { #if DEBUG dispatchPrecondition(condition: .onQueue(Threading.workQueue)) #endif let swarmOrNil = swarmCache[publicKey] guard var swarm = swarmOrNil, let index = swarm.firstIndex(of: snode) else { return } swarm.remove(at: index) setSwarm(to: swarm, for: publicKey) } // MARK: Internal API internal static func invoke(_ method: Endpoint, on snode: Snode, associatedWith publicKey: String? = nil, parameters: JSON) -> RawResponsePromise { if Features.useOnionRequests { return OnionRequestAPI.sendOnionRequest(to: snode, invoking: method, with: parameters, associatedWith: publicKey).map2 { $0 as Any } } else { let url = "\(snode.address):\(snode.port)/storage_rpc/v1" return HTTP.execute(.post, url, parameters: parameters).map2 { $0 as Any }.recover2 { error -> Promise in guard case HTTP.Error.httpRequestFailed(let statusCode, let json) = error else { throw error } throw SnodeAPI.handleError(withStatusCode: statusCode, json: json, forSnode: snode, associatedWith: publicKey) ?? error } } } private static func getNetworkTime(from snode: Snode) -> Promise { return invoke(.getInfo, on: snode, parameters: [:]).map2 { rawResponse in guard let json = rawResponse as? JSON, let timestamp = json["timestamp"] as? UInt64 else { throw HTTP.Error.invalidJSON } return timestamp } } internal static func getRandomSnode() -> Promise { // randomElement() uses the system's default random generator, which is cryptographically secure return getSnodePool().map2 { $0.randomElement()! } } private static func getSnodePoolFromSeedNode() -> Promise> { let target = seedNodePool.randomElement()! let url = "\(target)/json_rpc" let parameters: JSON = [ "method": "get_n_service_nodes", "params": [ "active_only": true, "limit": 256, "fields": [ "public_ip": true, "storage_port": true, "pubkey_ed25519": true, "pubkey_x25519": true ] ] ] SNLog("Populating snode pool using seed node: \(target).") let (promise, seal) = Promise>.pending() Threading.workQueue.async { attempt(maxRetryCount: 4, recoveringOn: Threading.workQueue) { HTTP.execute(.post, url, parameters: parameters, useSeedNodeURLSession: true) .map2 { json -> Set in guard let intermediate = json["result"] as? JSON, let rawSnodes = intermediate["service_node_states"] as? [JSON], let snodeData: Data = try? JSONSerialization.data(withJSONObject: rawSnodes, options: []) else { throw Error.snodePoolUpdatingFailed } return ((try? JSONDecoder().decode([Failable].self, from: snodeData)) ?? []) .compactMap { $0.value } .asSet() } } .done2 { snodePool in SNLog("Got snode pool from seed node: \(target).") seal.fulfill(snodePool) } .catch2 { error in SNLog("Failed to contact seed node at: \(target).") seal.reject(error) } } return promise } private static func getSnodePoolFromSnode() -> Promise> { var snodePool = SnodeAPI.snodePool var snodes: Set = [] (0..<3).forEach { _ in guard let snode = snodePool.randomElement() else { return } snodePool.remove(snode) snodes.insert(snode) } let snodePoolPromises: [Promise>] = snodes.map { snode in return attempt(maxRetryCount: 4, recoveringOn: Threading.workQueue) { // Don't specify a limit in the request. Service nodes return a shuffled // list of nodes so if we specify a limit the 3 responses we get might have // very little overlap. let parameters: JSON = [ "endpoint": "get_service_nodes", "params": [ "active_only": true, "fields": [ "public_ip": true, "storage_port": true, "pubkey_ed25519": true, "pubkey_x25519": true ] ] ] return invoke(.oxenDaemonRPCCall, on: snode, parameters: parameters).map2 { rawResponse in guard let json = rawResponse as? JSON, let intermediate = json["result"] as? JSON, let rawSnodes = intermediate["service_node_states"] as? [JSON], let snodeData: Data = try? JSONSerialization.data(withJSONObject: rawSnodes, options: []) else { throw Error.snodePoolUpdatingFailed } return ((try? JSONDecoder().decode([Failable].self, from: snodeData)) ?? []) .compactMap { $0.value } .asSet() } } } let promise = when(fulfilled: snodePoolPromises).map2 { results -> Set in let result: Set = results.reduce(Set()) { prev, next in prev.intersection(next) } // We want the snodes to agree on at least this many snodes guard result.count > 24 else { throw Error.inconsistentSnodePools } // Limit the snode pool size to 256 so that we don't go too long without // refreshing it return Set(result.prefix(256)) } return promise } // MARK: Public API public static func hasCachedSnodesInclusingExpired() -> Bool { loadSnodePoolIfNeeded() return !hasInsufficientSnodes } public static func getSnodePool() -> Promise> { loadSnodePoolIfNeeded() let now = Date() let hasSnodePoolExpired = given(GRDBStorage.shared[.lastSnodePoolRefreshDate]) { now.timeIntervalSince($0) > 2 * 60 * 60 }.defaulting(to: true) let snodePool: Set = SnodeAPI.snodePool if hasInsufficientSnodes || hasSnodePoolExpired { if let getSnodePoolPromise = getSnodePoolPromise { return getSnodePoolPromise } let promise: Promise> if snodePool.count < minSnodePoolCount { promise = getSnodePoolFromSeedNode() } else { promise = getSnodePoolFromSnode().recover2 { _ in getSnodePoolFromSeedNode() } } getSnodePoolPromise = promise promise.map2 { snodePool -> Set in guard !snodePool.isEmpty else { throw Error.snodePoolUpdatingFailed } return snodePool } promise.then2 { snodePool -> Promise> in let (promise, seal) = Promise>.pending() GRDBStorage.shared.writeAsync( updates: { db in db[.lastSnodePoolRefreshDate] = now setSnodePool(to: snodePool, db: db) }, completion: { _, _ in seal.fulfill(snodePool) } ) return promise } promise.done2 { _ in getSnodePoolPromise = nil } promise.catch2 { _ in getSnodePoolPromise = nil } return promise } return Promise.value(snodePool) } public static func getSessionID(for onsName: String) -> Promise { let validationCount = 3 let sessionIDByteCount = 33 // The name must be lowercased let onsName = onsName.lowercased() // Hash the ONS name using BLAKE2b let nameAsData = [UInt8](onsName.data(using: String.Encoding.utf8)!) guard let nameHash = sodium.genericHash.hash(message: nameAsData) else { return Promise(error: Error.hashingFailed) } // Ask 3 different snodes for the Session ID associated with the given name hash let base64EncodedNameHash = nameHash.toBase64() let parameters: [String:Any] = [ "endpoint" : "ons_resolve", "params" : [ "type" : 0, // type 0 means Session "name_hash" : base64EncodedNameHash ] ] let promises = (0...pending() when(resolved: promises).done2 { results in var sessionIDs: [String] = [] for result in results { switch result { case .rejected(let error): return seal.reject(error) case .fulfilled(let rawResponse): guard let json = rawResponse as? JSON, let intermediate = json["result"] as? JSON, let hexEncodedCiphertext = intermediate["encrypted_value"] as? String else { return seal.reject(HTTP.Error.invalidJSON) } let ciphertext = [UInt8](Data(hex: hexEncodedCiphertext)) let isArgon2Based = (intermediate["nonce"] == nil) if isArgon2Based { // Handle old Argon2-based encryption used before HF16 let salt = [UInt8](Data(repeating: 0, count: sodium.pwHash.SaltBytes)) guard let key = sodium.pwHash.hash(outputLength: sodium.secretBox.KeyBytes, passwd: nameAsData, salt: salt, opsLimit: sodium.pwHash.OpsLimitModerate, memLimit: sodium.pwHash.MemLimitModerate, alg: .Argon2ID13) else { return seal.reject(Error.hashingFailed) } let nonce = [UInt8](Data(repeating: 0, count: sodium.secretBox.NonceBytes)) guard let sessionIDAsData = sodium.secretBox.open(authenticatedCipherText: ciphertext, secretKey: key, nonce: nonce) else { return seal.reject(Error.decryptionFailed) } sessionIDs.append(sessionIDAsData.toHexString()) } else { guard let hexEncodedNonce = intermediate["nonce"] as? String else { return seal.reject(HTTP.Error.invalidJSON) } let nonce = [UInt8](Data(hex: hexEncodedNonce)) // xchacha-based encryption guard let key = sodium.genericHash.hash(message: nameAsData, key: nameHash) else { // key = H(name, key=H(name)) return seal.reject(Error.hashingFailed) } guard ciphertext.count >= (sessionIDByteCount + sodium.aead.xchacha20poly1305ietf.ABytes) else { // Should always be equal in practice return seal.reject(Error.decryptionFailed) } guard let sessionIDAsData = sodium.aead.xchacha20poly1305ietf.decrypt(authenticatedCipherText: ciphertext, secretKey: key, nonce: nonce) else { return seal.reject(Error.decryptionFailed) } sessionIDs.append(sessionIDAsData.toHexString()) } } } guard sessionIDs.count == validationCount && Set(sessionIDs).count == 1 else { return seal.reject(Error.validationFailed) } seal.fulfill(sessionIDs.first!) } return promise } public static func getTargetSnodes(for publicKey: String) -> Promise<[Snode]> { // shuffled() uses the system's default random generator, which is cryptographically secure return getSwarm(for: publicKey).map2 { Array($0.shuffled().prefix(targetSwarmSnodeCount)) } } public static func getSwarm(for publicKey: String) -> Promise> { loadSwarmIfNeeded(for: publicKey) if let cachedSwarm = swarmCache[publicKey], cachedSwarm.count >= minSwarmSnodeCount { return Promise> { $0.fulfill(cachedSwarm) } } SNLog("Getting swarm for: \((publicKey == getUserHexEncodedPublicKey()) ? "self" : publicKey).") let parameters: [String: Any] = [ "pubKey": Features.useTestnet ? publicKey.removing05PrefixIfNeeded() : publicKey ] return getRandomSnode() .then2 { snode in attempt(maxRetryCount: 4, recoveringOn: Threading.workQueue) { invoke(.getSwarm, on: snode, associatedWith: publicKey, parameters: parameters) } } .map2 { rawSnodes in let swarm = parseSnodes(from: rawSnodes) setSwarm(to: swarm, for: publicKey) return swarm } } public static func getMessages(from snode: Snode, associatedWith publicKey: String) -> Promise<[SnodeReceivedMessage]> { let (promise, seal) = Promise<[SnodeReceivedMessage]>.pending() Threading.workQueue.async { getMessagesInternal(from: snode, associatedWith: publicKey) .done2 { rawResponse in guard let json: JSON = rawResponse as? JSON, let rawMessages: [JSON] = json["messages"] as? [JSON] else { seal.fulfill([]) return } let messages: [SnodeReceivedMessage] = rawMessages .compactMap { rawMessage -> SnodeReceivedMessage? in SnodeReceivedMessage( snode: snode, publicKey: publicKey, rawMessage: rawMessage ) } seal.fulfill(messages) } .catch2 { seal.reject($0) } } return promise } private static func getMessagesInternal(from snode: Snode, associatedWith publicKey: String) -> RawResponsePromise { // NOTE: All authentication logic is currently commented out, the reason being that we can't currently support // it yet for closed groups. The Storage Server requires an ed25519 key pair, but we don't have that for our // closed groups. // guard let userED25519KeyPair = storage.getUserED25519KeyPair() else { return Promise(error: Error.noKeyPair) } // Get last message hash SnodeReceivedMessageInfo.pruneExpiredMessageHashInfo(for: snode, associatedWith: publicKey) let lastHash = SnodeReceivedMessageInfo.fetchLastNotExpired(for: snode, associatedWith: publicKey)?.hash ?? "" // Construct signature // let timestamp = UInt64(Int64(NSDate.millisecondTimestamp()) + SnodeAPI.clockOffset) // let ed25519PublicKey = userED25519KeyPair.publicKey.toHexString() // let verificationData = ("retrieve" + String(timestamp)).data(using: String.Encoding.utf8)! // let signature = sodium.sign.signature(message: Bytes(verificationData), secretKey: userED25519KeyPair.secretKey)! // Make the request let parameters: JSON = [ "pubKey" : Features.useTestnet ? publicKey.removing05PrefixIfNeeded() : publicKey, "lastHash" : lastHash, // "timestamp" : timestamp, // "pubkey_ed25519" : ed25519PublicKey, // "signature" : signature.toBase64()! ] return invoke(.getMessages, on: snode, associatedWith: publicKey, parameters: parameters) } public static func sendMessage(_ message: SnodeMessage) -> Promise> { let (promise, seal) = Promise>.pending() let publicKey = (Features.useTestnet ? message.recipient.removing05PrefixIfNeeded() : message.recipient ) Threading.workQueue.async { getTargetSnodes(for: publicKey) .map2 { targetSnodes in // TODO: This as standard JSONEncoder (id blinding should mostly do this anyway???) let parameters: JSON = [ "pubKey": (Features.useTestnet ? message.recipient.removing05PrefixIfNeeded() : message.recipient ), "data" : message.data, "ttl" : String(message.ttl), "timestamp" : String(message.timestampMs), "nonce" : "" ] return targetSnodes .map { targetSnode in attempt(maxRetryCount: maxRetryCount, recoveringOn: Threading.workQueue) { invoke(.sendMessage, on: targetSnode, associatedWith: publicKey, parameters: parameters) } } .asSet() } .done2 { seal.fulfill($0) } .catch2 { seal.reject($0) } } return promise } @objc(deleteMessageForPublickKey:serverHashes:) public static func objc_deleteMessage(publicKey: String, serverHashes: [String]) -> AnyPromise { AnyPromise.from(deleteMessage(publicKey: publicKey, serverHashes: serverHashes)) } public static func deleteMessage(publicKey: String, serverHashes: [String]) -> Promise<[String: Bool]> { guard let userED25519KeyPair = Identity.fetchUserEd25519KeyPair() else { return Promise(error: Error.noKeyPair) } let publicKey = (Features.useTestnet ? publicKey.removing05PrefixIfNeeded() : publicKey) let userX25519PublicKey: String = getUserHexEncodedPublicKey() return attempt(maxRetryCount: maxRetryCount, recoveringOn: Threading.workQueue) { getSwarm(for: publicKey) .then2 { swarm -> Promise<[String: Bool]> in guard let snode = swarm.randomElement(), let verificationData = (Endpoint.deleteMessage.rawValue + serverHashes.joined()).data(using: String.Encoding.utf8), let signature = sodium.sign.signature(message: Bytes(verificationData), secretKey: userED25519KeyPair.secretKey) else { throw Error.signingFailed } let parameters: JSON = [ "pubkey" : userX25519PublicKey, "pubkey_ed25519" : userED25519KeyPair.publicKey.toHexString(), "messages": serverHashes, "signature": signature.toBase64() ] return attempt(maxRetryCount: maxRetryCount, recoveringOn: Threading.workQueue) { invoke(.deleteMessage, on: snode, associatedWith: publicKey, parameters: parameters) .map2 { rawResponse -> [String: Bool] in guard let json = rawResponse as? JSON, let swarm = json["swarm"] as? JSON else { throw HTTP.Error.invalidJSON } var result: [String: Bool] = [:] for (snodePublicKey, rawJSON) in swarm { guard let json = rawJSON as? JSON else { throw HTTP.Error.invalidJSON } let isFailed = (json["failed"] as? Bool ?? false) if !isFailed { guard let hashes = json["deleted"] as? [String], let signature = json["signature"] as? String else { throw HTTP.Error.invalidJSON } // The signature format is ( PUBKEY_HEX || RMSG[0] || ... || RMSG[N] || DMSG[0] || ... || DMSG[M] ) let verificationData = [ userX25519PublicKey, serverHashes.joined(), hashes.joined() ] .joined() .data(using: String.Encoding.utf8)! let isValid = sodium.sign.verify( message: Bytes(verificationData), publicKey: Bytes(Data(hex: snodePublicKey)), signature: Bytes(Data(base64Encoded: signature)!) ) result[snodePublicKey] = isValid } else { if let reason = json["reason"] as? String, let statusCode = json["code"] as? String { SNLog("Couldn't delete data from: \(snodePublicKey) due to error: \(reason) (\(statusCode)).") } else { SNLog("Couldn't delete data from: \(snodePublicKey).") } result[snodePublicKey] = false } } return result } } } } } /// Clears all the user's data from their swarm. Returns a dictionary of snode public key to deletion confirmation. public static func clearAllData() -> Promise<[String:Bool]> { guard let userED25519KeyPair = Identity.fetchUserEd25519KeyPair() else { return Promise(error: Error.noKeyPair) } let userX25519PublicKey: String = getUserHexEncodedPublicKey() return attempt(maxRetryCount: maxRetryCount, recoveringOn: Threading.workQueue) { getSwarm(for: userX25519PublicKey).then2 { swarm -> Promise<[String:Bool]> in let snode = swarm.randomElement()! return attempt(maxRetryCount: maxRetryCount, recoveringOn: Threading.workQueue) { getNetworkTime(from: snode).then2 { timestamp -> Promise<[String:Bool]> in let verificationData = (Endpoint.clearAllData.rawValue + String(timestamp)).data(using: String.Encoding.utf8)! guard let signature = sodium.sign.signature(message: Bytes(verificationData), secretKey: userED25519KeyPair.secretKey) else { throw Error.signingFailed } let parameters: JSON = [ "pubkey": userX25519PublicKey, "pubkey_ed25519": userED25519KeyPair.publicKey.toHexString(), "timestamp": timestamp, "signature": signature.toBase64() ] return attempt(maxRetryCount: maxRetryCount, recoveringOn: Threading.workQueue) { invoke(.clearAllData, on: snode, parameters: parameters).map2 { rawResponse -> [String: Bool] in guard let json = rawResponse as? JSON, let swarm = json["swarm"] as? JSON else { throw HTTP.Error.invalidJSON } var result: [String: Bool] = [:] for (snodePublicKey, rawJSON) in swarm { guard let json = rawJSON as? JSON else { throw HTTP.Error.invalidJSON } let isFailed = json["failed"] as? Bool ?? false if !isFailed { guard let hashes = json["deleted"] as? [String], let signature = json["signature"] as? String else { throw HTTP.Error.invalidJSON } // The signature format is ( PUBKEY_HEX || TIMESTAMP || DELETEDHASH[0] || ... || DELETEDHASH[N] ) let verificationData = (userX25519PublicKey + String(timestamp) + hashes.joined(separator: "")).data(using: String.Encoding.utf8)! let isValid = sodium.sign.verify(message: Bytes(verificationData), publicKey: Bytes(Data(hex: snodePublicKey)), signature: Bytes(Data(base64Encoded: signature)!)) result[snodePublicKey] = isValid } else { if let reason = json["reason"] as? String, let statusCode = json["code"] as? String { SNLog("Couldn't delete data from: \(snodePublicKey) due to error: \(reason) (\(statusCode)).") } else { SNLog("Couldn't delete data from: \(snodePublicKey).") } result[snodePublicKey] = false } } return result } } } } } } } // MARK: Parsing // The parsing utilities below use a best attempt approach to parsing; they warn for parsing failures but don't throw exceptions. private static func parseSnodes(from rawResponse: Any) -> Set { guard let json = rawResponse as? JSON, let rawSnodes = json["snodes"] as? [JSON] else { SNLog("Failed to parse snodes from: \(rawResponse).") return [] } guard let snodeData: Data = try? JSONSerialization.data(withJSONObject: rawSnodes, options: []) else { return [] } // FIXME: Hopefully at some point this different Snode structure will be deprecated and can be removed if let swarmSnodes: [SwarmSnode] = try? JSONDecoder().decode([Failable].self, from: snodeData).compactMap({ $0.value }), !swarmSnodes.isEmpty { return swarmSnodes.map { $0.toSnode() }.asSet() } return ((try? JSONDecoder().decode([Failable].self, from: snodeData)) ?? []) .compactMap { $0.value } .asSet() } public static func parseRawMessagesResponse(_ rawResponse: Any, from snode: Snode, associatedWith publicKey: String) -> [SnodeReceivedMessage] { guard let json = rawResponse as? JSON, let rawMessages = json["messages"] as? [JSON] else { return [] } return removeDuplicates(from: rawMessages, associatedWith: publicKey) .compactMap { rawMessage -> SnodeReceivedMessage? in return SnodeReceivedMessage( snode: snode, publicKey: publicKey, rawMessage: rawMessage ) } } private static func removeDuplicates(from rawMessages: [JSON], associatedWith publicKey: String) -> [JSON] { let oldMessageHashes: Set = GRDBStorage.shared .read { db in try SnodeReceivedMessageInfo .select(.hash) .filter(SnodeReceivedMessageInfo.Columns.key == publicKey) .asRequest(of: String.self) .fetchAll(db) } .defaulting(to: []) .asSet() return rawMessages .compactMap { rawMessage -> JSON? in guard let hash: String = rawMessage["hash"] as? String else { SNLog("Missing hash value for message: \(rawMessage).") return nil } guard !oldMessageHashes.contains(hash) else { return nil } return rawMessage } } // MARK: Error Handling /// - Note: Should only be invoked from `Threading.workQueue` to avoid race conditions. @discardableResult internal static func handleError(withStatusCode statusCode: UInt, json: JSON?, forSnode snode: Snode, associatedWith publicKey: String? = nil) -> Error? { #if DEBUG dispatchPrecondition(condition: .onQueue(Threading.workQueue)) #endif func handleBadSnode() { let oldFailureCount = SnodeAPI.snodeFailureCount[snode] ?? 0 let newFailureCount = oldFailureCount + 1 SnodeAPI.snodeFailureCount[snode] = newFailureCount SNLog("Couldn't reach snode at: \(snode); setting failure count to \(newFailureCount).") if newFailureCount >= SnodeAPI.snodeFailureThreshold { SNLog("Failure threshold reached for: \(snode); dropping it.") if let publicKey = publicKey { SnodeAPI.dropSnodeFromSwarmIfNeeded(snode, publicKey: publicKey) } SnodeAPI.dropSnodeFromSnodePool(snode) SNLog("Snode pool count: \(snodePool.count).") SnodeAPI.snodeFailureCount[snode] = 0 } } switch statusCode { case 500, 502, 503: // The snode is unreachable handleBadSnode() case 406: SNLog("The user's clock is out of sync with the service node network.") return Error.clockOutOfSync case 421: // The snode isn't associated with the given public key anymore if let publicKey = publicKey { func invalidateSwarm() { SNLog("Invalidating swarm for: \(publicKey).") SnodeAPI.dropSnodeFromSwarmIfNeeded(snode, publicKey: publicKey) } if let json = json { let snodes = parseSnodes(from: json) if !snodes.isEmpty { setSwarm(to: snodes, for: publicKey) } else { invalidateSwarm() } } else { invalidateSwarm() } } else { SNLog("Got a 421 without an associated public key.") } default: handleBadSnode() SNLog("Unhandled response code: \(statusCode).") } return nil } }