// // NetworkReachabilityManager.swift // // Copyright (c) 2014-2018 Alamofire Software Foundation (http://alamofire.org/) // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // #if !(os(watchOS) || os(Linux)) import Foundation import SystemConfiguration /// The `NetworkReachabilityManager` class listens for reachability changes of hosts and addresses for both cellular and /// WiFi network interfaces. /// /// Reachability can be used to determine background information about why a network operation failed, or to retry /// network requests when a connection is established. It should not be used to prevent a user from initiating a network /// request, as it's possible that an initial request may be required to establish reachability. open class NetworkReachabilityManager { /// Defines the various states of network reachability. public enum NetworkReachabilityStatus { /// It is unknown whether the network is reachable. case unknown /// The network is not reachable. case notReachable /// The network is reachable on the associated `ConnectionType`. case reachable(ConnectionType) init(_ flags: SCNetworkReachabilityFlags) { guard flags.isActuallyReachable else { self = .notReachable; return } var networkStatus: NetworkReachabilityStatus = .reachable(.ethernetOrWiFi) if flags.isCellular { networkStatus = .reachable(.cellular) } self = networkStatus } /// Defines the various connection types detected by reachability flags. public enum ConnectionType { /// The connection type is either over Ethernet or WiFi. case ethernetOrWiFi /// The connection type is a cellular connection. case cellular } } /// A closure executed when the network reachability status changes. The closure takes a single argument: the /// network reachability status. public typealias Listener = (NetworkReachabilityStatus) -> Void /// Default `NetworkReachabilityManager` for the zero address and a `listenerQueue` of `.main`. public static let `default` = NetworkReachabilityManager() // MARK: - Properties /// Whether the network is currently reachable. open var isReachable: Bool { return isReachableOnCellular || isReachableOnEthernetOrWiFi } /// Whether the network is currently reachable over the cellular interface. /// /// - Note: Using this property to decide whether to make a high or low bandwidth request is not recommended. /// Instead, set the `allowsCellularAccess` on any `URLRequest`s being issued. /// open var isReachableOnCellular: Bool { return status == .reachable(.cellular) } /// Whether the network is currently reachable over Ethernet or WiFi interface. open var isReachableOnEthernetOrWiFi: Bool { return status == .reachable(.ethernetOrWiFi) } /// `DispatchQueue` on which reachability will update. public let reachabilityQueue = DispatchQueue(label: "org.alamofire.reachabilityQueue") /// Flags of the current reachability type, if any. open var flags: SCNetworkReachabilityFlags? { var flags = SCNetworkReachabilityFlags() return (SCNetworkReachabilityGetFlags(reachability, &flags)) ? flags : nil } /// The current network reachability status. open var status: NetworkReachabilityStatus { return flags.map(NetworkReachabilityStatus.init) ?? .unknown } /// Mutable state storage. struct MutableState { /// A closure executed when the network reachability status changes. var listener: Listener? /// `DispatchQueue` on which listeners will be called. var listenerQueue: DispatchQueue? /// Previously calculated status. var previousStatus: NetworkReachabilityStatus? } /// `SCNetworkReachability` instance providing notifications. private let reachability: SCNetworkReachability /// Protected storage for mutable state. private let mutableState = Protector(MutableState()) // MARK: - Initialization /// Creates an instance with the specified host. /// /// - Note: The `host` value must *not* contain a scheme, just the hostname. /// /// - Parameters: /// - host: Host used to evaluate network reachability. Must *not* include the scheme (e.g. `https`). public convenience init?(host: String) { guard let reachability = SCNetworkReachabilityCreateWithName(nil, host) else { return nil } self.init(reachability: reachability) } /// Creates an instance that monitors the address 0.0.0.0. /// /// Reachability treats the 0.0.0.0 address as a special token that causes it to monitor the general routing /// status of the device, both IPv4 and IPv6. public convenience init?() { var zero = sockaddr() zero.sa_len = UInt8(MemoryLayout.size) zero.sa_family = sa_family_t(AF_INET) guard let reachability = SCNetworkReachabilityCreateWithAddress(nil, &zero) else { return nil } self.init(reachability: reachability) } private init(reachability: SCNetworkReachability) { self.reachability = reachability } deinit { stopListening() } // MARK: - Listening /// Starts listening for changes in network reachability status. /// /// - Note: Stops and removes any existing listener. /// /// - Parameters: /// - queue: `DispatchQueue` on which to call the `listener` closure. `.main` by default. /// - listener: `Listener` closure called when reachability changes. /// /// - Returns: `true` if listening was started successfully, `false` otherwise. @discardableResult open func startListening(onQueue queue: DispatchQueue = .main, onUpdatePerforming listener: @escaping Listener) -> Bool { stopListening() mutableState.write { state in state.listenerQueue = queue state.listener = listener } var context = SCNetworkReachabilityContext(version: 0, info: Unmanaged.passRetained(self).toOpaque(), retain: nil, release: nil, copyDescription: nil) let callback: SCNetworkReachabilityCallBack = { _, flags, info in guard let info = info else { return } let instance = Unmanaged.fromOpaque(info).takeUnretainedValue() instance.notifyListener(flags) } let queueAdded = SCNetworkReachabilitySetDispatchQueue(reachability, reachabilityQueue) let callbackAdded = SCNetworkReachabilitySetCallback(reachability, callback, &context) // Manually call listener to give initial state, since the framework may not. if let currentFlags = flags { reachabilityQueue.async { self.notifyListener(currentFlags) } } return callbackAdded && queueAdded } /// Stops listening for changes in network reachability status. open func stopListening() { SCNetworkReachabilitySetCallback(reachability, nil, nil) SCNetworkReachabilitySetDispatchQueue(reachability, nil) mutableState.write { state in state.listener = nil state.listenerQueue = nil state.previousStatus = nil } } // MARK: - Internal - Listener Notification /// Calls the `listener` closure of the `listenerQueue` if the computed status hasn't changed. /// /// - Note: Should only be called from the `reachabilityQueue`. /// /// - Parameter flags: `SCNetworkReachabilityFlags` to use to calculate the status. func notifyListener(_ flags: SCNetworkReachabilityFlags) { let newStatus = NetworkReachabilityStatus(flags) mutableState.write { state in guard state.previousStatus != newStatus else { return } state.previousStatus = newStatus let listener = state.listener state.listenerQueue?.async { listener?(newStatus) } } } } // MARK: - extension NetworkReachabilityManager.NetworkReachabilityStatus: Equatable {} extension SCNetworkReachabilityFlags { var isReachable: Bool { return contains(.reachable) } var isConnectionRequired: Bool { return contains(.connectionRequired) } var canConnectAutomatically: Bool { return contains(.connectionOnDemand) || contains(.connectionOnTraffic) } var canConnectWithoutUserInteraction: Bool { return canConnectAutomatically && !contains(.interventionRequired) } var isActuallyReachable: Bool { return isReachable && (!isConnectionRequired || canConnectWithoutUserInteraction) } var isCellular: Bool { #if os(iOS) || os(tvOS) return contains(.isWWAN) #else return false #endif } /// Human readable `String` for all states, to help with debugging. var readableDescription: String { let W = isCellular ? "W" : "-" let R = isReachable ? "R" : "-" let c = isConnectionRequired ? "c" : "-" let t = contains(.transientConnection) ? "t" : "-" let i = contains(.interventionRequired) ? "i" : "-" let C = contains(.connectionOnTraffic) ? "C" : "-" let D = contains(.connectionOnDemand) ? "D" : "-" let l = contains(.isLocalAddress) ? "l" : "-" let d = contains(.isDirect) ? "d" : "-" let a = contains(.connectionAutomatic) ? "a" : "-" return "\(W)\(R) \(c)\(t)\(i)\(C)\(D)\(l)\(d)\(a)" } } #endif