Swiftとのインターネット接続を確認する
IPhoneでインターネット接続を確認しようとすると、たくさんのエラーが出ます。誰かが私がこれを直すのを手伝ってくれる?
コード:
import Foundation
import SystemConfiguration
public class Reachability {
class func isConnectedToNetwork() -> Bool {
var zeroAddress = sockaddr_in()
zeroAddress.sin_len = UInt8(sizeofValue(zeroAddress))
zeroAddress.sin_family = sa_family_t(AF_INET)
let defaultRouteReachability = withUnsafePointer(&zeroAddress) {
SCNetworkReachabilityCreateWithAddress(nil, UnsafePointer($0))
}
var flags: SCNetworkReachabilityFlags = 0
if SCNetworkReachabilityGetFlags(defaultRouteReachability, &flags) == 0 {
return false
}
let isReachable = (flags & UInt32(kSCNetworkFlagsReachable)) != 0
let needsConnection = (flags & UInt32(kSCNetworkFlagsConnectionRequired)) != 0
return (isReachable && !needsConnection) ? true : false
}
}
コードとのエラー:
それが読めないならば、エラー1は言います:
'Int'は 'SCNetworkReachabilityFlags'に変換できません
エラー2と3:
指定された引数を受け入れる 'init'のオーバーロードが見つかりませんでした
コメントに記載されている4G問題を解決するために、私は@AshleyMillsの到達可能性実装を参照として使用し、Swift 3.1のReachabilityを書き換えました。
更新: Xcode 10.1•Swift 4.2.1
Reachability.Swiftファイル
import Foundation
import SystemConfiguration
class Reachability {
var hostname: String?
var isRunning = false
var isReachableOnWWAN: Bool
var reachability: SCNetworkReachability?
var reachabilityFlags = SCNetworkReachabilityFlags()
let reachabilitySerialQueue = DispatchQueue(label: "ReachabilityQueue")
init(hostname: String) throws {
guard let reachability = SCNetworkReachabilityCreateWithName(nil, hostname) else {
throw Network.Error.failedToCreateWith(hostname)
}
self.reachability = reachability
self.hostname = hostname
isReachableOnWWAN = true
try start()
}
init() throws {
var zeroAddress = sockaddr_in()
zeroAddress.sin_len = UInt8(MemoryLayout<sockaddr_in>.size)
zeroAddress.sin_family = sa_family_t(AF_INET)
guard let reachability = withUnsafePointer(to: &zeroAddress, {
$0.withMemoryRebound(to: sockaddr.self, capacity: 1) {
SCNetworkReachabilityCreateWithAddress(nil, $0)
}
}) else {
throw Network.Error.failedToInitializeWith(zeroAddress)
}
self.reachability = reachability
isReachableOnWWAN = true
try start()
}
var status: Network.Status {
return !isConnectedToNetwork ? .unreachable :
isReachableViaWiFi ? .wifi :
isRunningOnDevice ? .wwan : .unreachable
}
var isRunningOnDevice: Bool = {
#if targetEnvironment(simulator)
return false
#else
return true
#endif
}()
deinit { stop() }
}
extension Reachability {
func start() throws {
guard let reachability = reachability, !isRunning else { return }
var context = SCNetworkReachabilityContext(version: 0, info: nil, retain: nil, release: nil, copyDescription: nil)
context.info = Unmanaged<Reachability>.passUnretained(self).toOpaque()
guard SCNetworkReachabilitySetCallback(reachability, callout, &context) else { stop()
throw Network.Error.failedToSetCallout
}
guard SCNetworkReachabilitySetDispatchQueue(reachability, reachabilitySerialQueue) else { stop()
throw Network.Error.failedToSetDispatchQueue
}
reachabilitySerialQueue.async { self.flagsChanged() }
isRunning = true
}
func stop() {
defer { isRunning = false }
guard let reachability = reachability else { return }
SCNetworkReachabilitySetCallback(reachability, nil, nil)
SCNetworkReachabilitySetDispatchQueue(reachability, nil)
self.reachability = nil
}
var isConnectedToNetwork: Bool {
return isReachable &&
!isConnectionRequiredAndTransientConnection &&
!(isRunningOnDevice && isWWAN && !isReachableOnWWAN)
}
var isReachableViaWiFi: Bool {
return isReachable && isRunningOnDevice && !isWWAN
}
/// Flags that indicate the reachability of a network node name or address, including whether a connection is required, and whether some user intervention might be required when establishing a connection.
var flags: SCNetworkReachabilityFlags? {
guard let reachability = reachability else { return nil }
var flags = SCNetworkReachabilityFlags()
return withUnsafeMutablePointer(to: &flags) {
SCNetworkReachabilityGetFlags(reachability, UnsafeMutablePointer($0))
} ? flags : nil
}
/// compares the current flags with the previous flags and if changed posts a flagsChanged notification
func flagsChanged() {
guard let flags = flags, flags != reachabilityFlags else { return }
reachabilityFlags = flags
NotificationCenter.default.post(name: .flagsChanged, object: self)
}
/// The specified node name or address can be reached via a transient connection, such as PPP.
var transientConnection: Bool { return flags?.contains(.transientConnection) == true }
/// The specified node name or address can be reached using the current network configuration.
var isReachable: Bool { return flags?.contains(.reachable) == true }
/// The specified node name or address can be reached using the current network configuration, but a connection must first be established. If this flag is set, the kSCNetworkReachabilityFlagsConnectionOnTraffic flag, kSCNetworkReachabilityFlagsConnectionOnDemand flag, or kSCNetworkReachabilityFlagsIsWWAN flag is also typically set to indicate the type of connection required. If the user must manually make the connection, the kSCNetworkReachabilityFlagsInterventionRequired flag is also set.
var connectionRequired: Bool { return flags?.contains(.connectionRequired) == true }
/// The specified node name or address can be reached using the current network configuration, but a connection must first be established. Any traffic directed to the specified name or address will initiate the connection.
var connectionOnTraffic: Bool { return flags?.contains(.connectionOnTraffic) == true }
/// The specified node name or address can be reached using the current network configuration, but a connection must first be established.
var interventionRequired: Bool { return flags?.contains(.interventionRequired) == true }
/// The specified node name or address can be reached using the current network configuration, but a connection must first be established. The connection will be established "On Demand" by the CFSocketStream programming interface (see CFStream Socket Additions for information on this). Other functions will not establish the connection.
var connectionOnDemand: Bool { return flags?.contains(.connectionOnDemand) == true }
/// The specified node name or address is one that is associated with a network interface on the current system.
var isLocalAddress: Bool { return flags?.contains(.isLocalAddress) == true }
/// Network traffic to the specified node name or address will not go through a gateway, but is routed directly to one of the interfaces in the system.
var isDirect: Bool { return flags?.contains(.isDirect) == true }
/// The specified node name or address can be reached via a cellular connection, such as Edge or GPRS.
var isWWAN: Bool { return flags?.contains(.isWWAN) == true }
/// The specified node name or address can be reached using the current network configuration, but a connection must first be established. If this flag is set
/// The specified node name or address can be reached via a transient connection, such as PPP.
var isConnectionRequiredAndTransientConnection: Bool {
return (flags?.intersection([.connectionRequired, .transientConnection]) == [.connectionRequired, .transientConnection]) == true
}
}
func callout(reachability: SCNetworkReachability, flags: SCNetworkReachabilityFlags, info: UnsafeMutableRawPointer?) {
guard let info = info else { return }
DispatchQueue.main.async {
Unmanaged<Reachability>
.fromOpaque(info)
.takeUnretainedValue()
.flagsChanged()
}
}
extension Notification.Name {
static let flagsChanged = Notification.Name("FlagsChanged")
}
struct Network {
static var reachability: Reachability!
enum Status: String {
case unreachable, wifi, wwan
}
enum Error: Swift.Error {
case failedToSetCallout
case failedToSetDispatchQueue
case failedToCreateWith(String)
case failedToInitializeWith(sockaddr_in)
}
}
使用法
AppDelegate.SwiftのdidFinishLaunchingWithOptionsメソッドでそれを初期化し、発生する可能性があるエラーを処理します。
import UIKit
@UIApplicationMain
class AppDelegate: UIResponder, UIApplicationDelegate {
var window: UIWindow?
func application(_ application: UIApplication, didFinishLaunchingWithOptions launchOptions: [UIApplication.LaunchOptionsKey: Any]?) -> Bool {
do {
try Network.reachability = Reachability(hostname: "www.google.com")
}
catch {
switch error as? Network.Error {
case let .failedToCreateWith(hostname)?:
print("Network error:\nFailed to create reachability object With Host named:", hostname)
case let .failedToInitializeWith(address)?:
print("Network error:\nFailed to initialize reachability object With address:", address)
case .failedToSetCallout?:
print("Network error:\nFailed to set callout")
case .failedToSetDispatchQueue?:
print("Network error:\nFailed to set DispatchQueue")
case .none:
print(error)
}
}
return true
}
}
そしてView Controllerのサンプル:
import UIKit
class ViewController: UIViewController {
override func viewDidLoad() {
super.viewDidLoad()
NotificationCenter.default
.addObserver(self,
selector: #selector(statusManager),
name: .flagsChanged,
object: nil)
updateUserInterface()
}
func updateUserInterface() {
switch Network.reachability.status {
case .unreachable:
view.backgroundColor = .red
case .wwan:
view.backgroundColor = .yellow
case .wifi:
view.backgroundColor = .green
}
print("Reachability Summary")
print("Status:", Network.reachability.status)
print("HostName:", Network.reachability.hostname ?? "nil")
print("Reachable:", Network.reachability.isReachable)
print("Wifi:", Network.reachability.isReachableViaWiFi)
}
@objc func statusManager(_ notification: Notification) {
updateUserInterface()
}
}
Swift 3、Swift 4(携帯電話およびWi-Fiで動作)の場合:
import SystemConfiguration
public class Reachability {
class func isConnectedToNetwork() -> Bool {
var zeroAddress = sockaddr_in(sin_len: 0, sin_family: 0, sin_port: 0, sin_addr: in_addr(s_addr: 0), sin_zero: (0, 0, 0, 0, 0, 0, 0, 0))
zeroAddress.sin_len = UInt8(MemoryLayout.size(ofValue: zeroAddress))
zeroAddress.sin_family = sa_family_t(AF_INET)
let defaultRouteReachability = withUnsafePointer(to: &zeroAddress) {
$0.withMemoryRebound(to: sockaddr.self, capacity: 1) {zeroSockAddress in
SCNetworkReachabilityCreateWithAddress(nil, zeroSockAddress)
}
}
var flags: SCNetworkReachabilityFlags = SCNetworkReachabilityFlags(rawValue: 0)
if SCNetworkReachabilityGetFlags(defaultRouteReachability!, &flags) == false {
return false
}
/* Only Working for WIFI
let isReachable = flags == .reachable
let needsConnection = flags == .connectionRequired
return isReachable && !needsConnection
*/
// Working for Cellular and WIFI
let isReachable = (flags.rawValue & UInt32(kSCNetworkFlagsReachable)) != 0
let needsConnection = (flags.rawValue & UInt32(kSCNetworkFlagsConnectionRequired)) != 0
let ret = (isReachable && !needsConnection)
return ret
}
}
使用法:
if Reachability.isConnectedToNetwork(){
print("Internet Connection Available!")
}else{
print("Internet Connection not Available!")
}
プロジェクト内に新しいSwiftファイルを作成し、Reachability.Swiftという名前を付けます。次のコードをカットアンドペーストしてクラスを作成します。
import Foundation
import SystemConfiguration
public class Reachability {
class func isConnectedToNetwork() -> Bool {
var zeroAddress = sockaddr_in(sin_len: 0, sin_family: 0, sin_port: 0, sin_addr: in_addr(s_addr: 0), sin_zero: (0, 0, 0, 0, 0, 0, 0, 0))
zeroAddress.sin_len = UInt8(sizeofValue(zeroAddress))
zeroAddress.sin_family = sa_family_t(AF_INET)
let defaultRouteReachability = withUnsafePointer(&zeroAddress) {
SCNetworkReachabilityCreateWithAddress(kCFAllocatorDefault, UnsafePointer($0))
}
var flags: SCNetworkReachabilityFlags = SCNetworkReachabilityFlags(rawValue: 0)
if SCNetworkReachabilityGetFlags(defaultRouteReachability!, &flags) == false {
return false
}
let isReachable = flags == .Reachable
let needsConnection = flags == .ConnectionRequired
return isReachable && !needsConnection
}
}
あなたはこのコードを使ってあなたのプロジェクトのどこでもインターネット接続をチェックすることができます:
if Reachability.isConnectedToNetwork() == true {
println("Internet connection OK")
} else {
println("Internet connection FAILED")
}
ユーザーがインターネットに接続していない場合は、通知するための警告ダイアログを表示することをお勧めします。
if Reachability.isConnectedToNetwork() == true {
println("Internet connection OK")
} else {
println("Internet connection FAILED")
var alert = UIAlertView(title: "No Internet Connection", message: "Make sure your device is connected to the internet.", delegate: nil, cancelButtonTitle: "OK")
alert.show()
}
説明:
私たちはインターネットの接続性をチェックするためにプロジェクトのどこでも使用できる再利用可能なパブリッククラスとメソッドを作っています。 FoundationとSystem Configurationフレームワークを追加する必要があります。
パブリッククラスのReachabilityでは、メソッドisConnectedToNetwork() -> Bool { }はインターネット接続に関するブール値を返します。ケースに必要なアクションを実行するためにifループを使用します。これで十分だと思います。乾杯!
誰かがすでに Alamofireを使用している場合 それから -
struct Connectivity {
static let sharedInstance = NetworkReachabilityManager()!
static var isConnectedToInternet:Bool {
return self.sharedInstance.isReachable
}
}
使用法:
if Connectivity.isConnectedToInternet {
print("Connected")
} else {
print("No Internet")
}
私は、Cocoa Pods/Dependancy Managerを使わずにAshley MillのReachabilityクラスを実装することを確認しました。そのアイデアは、プロジェクト内でReachability依存関係を解放することです。
Xcode 7.2 - Swift 2.1
1) https://github.com/ashleymills/Reachability.Swift 。プロジェクトにReachabilityクラスをダウンロードしてください。
注:追加中は、[必要に応じてアイテムをコピーする]チェックボックスがオンになっていることを確認してください。
2)AppManager.Swiftクラスを作成します。このクラスは、パブリックメソッドとデータが追加されるPublic Modelクラスとして機能し、あらゆるVCで利用できます。
// AppManager.Swift
import UIKit
import Foundation
class AppManager: NSObject{
var delegate:AppManagerDelegate? = nil
private var _useClosures:Bool = false
private var reachability: Reachability?
private var _isReachability:Bool = false
private var _reachabiltyNetworkType :String?
var isReachability:Bool {
get {return _isReachability}
}
var reachabiltyNetworkType:String {
get {return _reachabiltyNetworkType! }
}
// Create a shared instance of AppManager
final class var sharedInstance : AppManager {
struct Static {
static var instance : AppManager?
}
if !(Static.instance != nil) {
Static.instance = AppManager()
}
return Static.instance!
}
// Reachability Methods
func initRechabilityMonitor() {
print("initialize rechability...")
do {
let reachability = try Reachability.reachabilityForInternetConnection()
self.reachability = reachability
} catch ReachabilityError.FailedToCreateWithAddress(let address) {
print("Unable to create\nReachability with address:\n\(address)")
return
} catch {}
if (_useClosures) {
reachability?.whenReachable = { reachability in
self.notifyReachability(reachability)
}
reachability?.whenUnreachable = { reachability in
self.notifyReachability(reachability)
}
} else {
self.notifyReachability(reachability!)
}
do {
try reachability?.startNotifier()
} catch {
print("unable to start notifier")
return
}
}
private func notifyReachability(reachability:Reachability) {
if reachability.isReachable() {
self._isReachability = true
//Determine Network Type
if reachability.isReachableViaWiFi() {
self._reachabiltyNetworkType = CONNECTION_NETWORK_TYPE.WIFI_NETWORK.rawValue
} else {
self._reachabiltyNetworkType = CONNECTION_NETWORK_TYPE.WWAN_NETWORK.rawValue
}
} else {
self._isReachability = false
self._reachabiltyNetworkType = CONNECTION_NETWORK_TYPE.OTHER.rawValue
}
NSNotificationCenter.defaultCenter().addObserver(self, selector: "reachabilityChanged:", name: ReachabilityChangedNotification, object: reachability)
}
func reachabilityChanged(note: NSNotification) {
let reachability = note.object as! Reachability
dispatch_async(dispatch_get_main_queue()) {
if (self._useClosures) {
self.reachability?.whenReachable = { reachability in
self.notifyReachability(reachability)
}
self.reachability?.whenUnreachable = { reachability in
self.notifyReachability(reachability)
}
} else {
self.notifyReachability(reachability)
}
self.delegate?.reachabilityStatusChangeHandler(reachability)
}
}
deinit {
reachability?.stopNotifier()
if (!_useClosures) {
NSNotificationCenter.defaultCenter().removeObserver(self, name: ReachabilityChangedNotification, object: nil)
}
}
}
3)代理クラスを作る。接続状態を通知するためにデリゲートメソッドを使用します。
// Protocols.Swift
import Foundation
@objc protocol AppManagerDelegate:NSObjectProtocol {
func reachabilityStatusChangeHandler(reachability:Reachability)
}
4)UIViewControllerのParentクラスを作成します(継承メソッド)。親クラスには、すべての子VCにアクセスできるメソッドがあります。
// UIappViewController.Swift
import UIKit
class UIappViewController: UIViewController,AppManagerDelegate {
var manager:AppManager = AppManager.sharedInstance
override func viewDidLoad() {
super.viewDidLoad()
manager.delegate = self
}
override func didReceiveMemoryWarning() {
super.didReceiveMemoryWarning()
}
func reachabilityStatusChangeHandler(reachability: Reachability) {
if reachability.isReachable() {
print("isReachable")
} else {
print("notReachable")
}
}
}
5)AppDelegateでリアルタイムインターネット接続監視を開始します。
func application(application: UIApplication, didFinishLaunchingWithOptions launchOptions: [NSObject: AnyObject]?) -> Bool {
AppManager.sharedInstance.initRechabilityMonitor()
return true
}
6)定数のenum値を格納するためにSwift File Name AppReferenceを追加しました。
// AppReference.Swift
import Foundation
enum CONNECTION_NETWORK_TYPE : String {
case WIFI_NETWORK = "Wifi"
case WWAN_NETWORK = "Cellular"
case OTHER = "Other"
}
7)ViewController上(例:ネットワークが利用可能な場合にのみAPIを呼び出したい)
// ViewController.Swift
import UIKit
class ViewController: UIappViewController {
var reachability:Reachability?
override func viewDidLoad() {
super.viewDidLoad()
manager.delegate = self
if(AppManager.sharedInstance.isReachability)
{
print("net available")
//call API from here.
} else {
dispatch_async(dispatch_get_main_queue()) {
print("net not available")
//Show Alert
}
}
//Determine Network Type
if(AppManager.sharedInstance.reachabiltyNetworkType == "Wifi")
{
print(".Wifi")
}
else if (AppManager.sharedInstance.reachabiltyNetworkType == "Cellular")
{
print(".Cellular")
}
else {
dispatch_async(dispatch_get_main_queue()) {
print("Network not reachable")
}
}
}
override func viewWillAppear(animated: Bool) {
}
override func didReceiveMemoryWarning() {
}
}
サンプルをダウンロードすることができます@ https://github.com/alvinreuben/Reachability-Sample
Swift 3.1にアップグレード - https://github.com/alvinvgeorge/Reachability-UpgradedToSwift3
私自身のためにこれを考え出しただけです。
Xcode:7.3.1、iOS 9.3.3
私のプロジェクトでReachability.Swiftとして ashleymills/Reachability.Swift を使用して、次の関数を作成しました。
func hasConnectivity() -> Bool {
do {
let reachability: Reachability = try Reachability.reachabilityForInternetConnection()
let networkStatus: Int = reachability.currentReachabilityStatus.hashValue
return (networkStatus != 0)
}
catch {
// Handle error however you please
return false
}
}
接続を確認する必要がある場合は、単にhasConnectivity()を呼び出してください。これは、携帯電話だけでなくWifiでも機能します。
Ashleymillsの到達可能性を追加します。人々がサイト間を移動する必要がないように切り替えます。
Copyright (c) 2014, Ashley Mills
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
*/
// Reachability.Swift version 2.2beta2
import SystemConfiguration
import Foundation
public enum ReachabilityError: ErrorType {
case FailedToCreateWithAddress(sockaddr_in)
case FailedToCreateWithHostname(String)
case UnableToSetCallback
case UnableToSetDispatchQueue
}
public let ReachabilityChangedNotification = "ReachabilityChangedNotification"
func callback(reachability:SCNetworkReachability, flags: SCNetworkReachabilityFlags, info: UnsafeMutablePointer<Void>) {
let reachability = Unmanaged<Reachability>.fromOpaque(COpaquePointer(info)).takeUnretainedValue()
dispatch_async(dispatch_get_main_queue()) {
reachability.reachabilityChanged(flags)
}
}
public class Reachability: NSObject {
public typealias NetworkReachable = (Reachability) -> ()
public typealias NetworkUnreachable = (Reachability) -> ()
public enum NetworkStatus: CustomStringConvertible {
case NotReachable, ReachableViaWiFi, ReachableViaWWAN
public var description: String {
switch self {
case .ReachableViaWWAN:
return "Cellular"
case .ReachableViaWiFi:
return "WiFi"
case .NotReachable:
return "No Connection"
}
}
}
// MARK: - *** Public properties ***
public var whenReachable: NetworkReachable?
public var whenUnreachable: NetworkUnreachable?
public var reachableOnWWAN: Bool
public var notificationCenter = NSNotificationCenter.defaultCenter()
public var currentReachabilityStatus: NetworkStatus {
if isReachable() {
if isReachableViaWiFi() {
return .ReachableViaWiFi
}
if isRunningOnDevice {
return .ReachableViaWWAN
}
}
return .NotReachable
}
public var currentReachabilityString: String {
return "\(currentReachabilityStatus)"
}
private var previousFlags: SCNetworkReachabilityFlags?
// MARK: - *** Initialisation methods ***
required public init(reachabilityRef: SCNetworkReachability) {
reachableOnWWAN = true
self.reachabilityRef = reachabilityRef
}
public convenience init(hostname: String) throws {
let nodename = (hostname as NSString).UTF8String
guard let ref = SCNetworkReachabilityCreateWithName(nil, nodename) else { throw ReachabilityError.FailedToCreateWithHostname(hostname) }
self.init(reachabilityRef: ref)
}
public class func reachabilityForInternetConnection() throws -> Reachability {
var zeroAddress = sockaddr_in()
zeroAddress.sin_len = UInt8(sizeofValue(zeroAddress))
zeroAddress.sin_family = sa_family_t(AF_INET)
guard let ref = withUnsafePointer(&zeroAddress, {
SCNetworkReachabilityCreateWithAddress(nil, UnsafePointer($0))
}) else { throw ReachabilityError.FailedToCreateWithAddress(zeroAddress) }
return Reachability(reachabilityRef: ref)
}
public class func reachabilityForLocalWiFi() throws -> Reachability {
var localWifiAddress: sockaddr_in = sockaddr_in(sin_len: __uint8_t(0), sin_family: sa_family_t(0), sin_port: in_port_t(0), sin_addr: in_addr(s_addr: 0), sin_zero: (0, 0, 0, 0, 0, 0, 0, 0))
localWifiAddress.sin_len = UInt8(sizeofValue(localWifiAddress))
localWifiAddress.sin_family = sa_family_t(AF_INET)
// IN_LINKLOCALNETNUM is defined in <netinet/in.h> as 169.254.0.0
let address: UInt32 = 0xA9FE0000
localWifiAddress.sin_addr.s_addr = in_addr_t(address.bigEndian)
guard let ref = withUnsafePointer(&localWifiAddress, {
SCNetworkReachabilityCreateWithAddress(nil, UnsafePointer($0))
}) else { throw ReachabilityError.FailedToCreateWithAddress(localWifiAddress) }
return Reachability(reachabilityRef: ref)
}
// MARK: - *** Notifier methods ***
public func startNotifier() throws {
guard !notifierRunning else { return }
var context = SCNetworkReachabilityContext(version: 0, info: nil, retain: nil, release: nil, copyDescription: nil)
context.info = UnsafeMutablePointer(Unmanaged.passUnretained(self).toOpaque())
if !SCNetworkReachabilitySetCallback(reachabilityRef!, callback, &context) {
stopNotifier()
throw ReachabilityError.UnableToSetCallback
}
if !SCNetworkReachabilitySetDispatchQueue(reachabilityRef!, reachabilitySerialQueue) {
stopNotifier()
throw ReachabilityError.UnableToSetDispatchQueue
}
// Perform an intial check
dispatch_async(reachabilitySerialQueue) { () -> Void in
let flags = self.reachabilityFlags
self.reachabilityChanged(flags)
}
notifierRunning = true
}
public func stopNotifier() {
defer { notifierRunning = false }
guard let reachabilityRef = reachabilityRef else { return }
SCNetworkReachabilitySetCallback(reachabilityRef, nil, nil)
SCNetworkReachabilitySetDispatchQueue(reachabilityRef, nil)
}
// MARK: - *** Connection test methods ***
public func isReachable() -> Bool {
let flags = reachabilityFlags
return isReachableWithFlags(flags)
}
public func isReachableViaWWAN() -> Bool {
let flags = reachabilityFlags
// Check we're not on the simulator, we're REACHABLE and check we're on WWAN
return isRunningOnDevice && isReachable(flags) && isOnWWAN(flags)
}
public func isReachableViaWiFi() -> Bool {
let flags = reachabilityFlags
// Check we're reachable
if !isReachable(flags) {
return false
}
// Must be on WiFi if reachable but not on an iOS device (i.e. simulator)
if !isRunningOnDevice {
return true
}
// Check we're NOT on WWAN
return !isOnWWAN(flags)
}
// MARK: - *** Private methods ***
private var isRunningOnDevice: Bool = {
#if (Arch(i386) || Arch(x86_64)) && os(iOS)
return false
#else
return true
#endif
}()
private var notifierRunning = false
private var reachabilityRef: SCNetworkReachability?
private let reachabilitySerialQueue = dispatch_queue_create("uk.co.ashleymills.reachability", DISPATCH_QUEUE_SERIAL)
private func reachabilityChanged(flags: SCNetworkReachabilityFlags) {
guard previousFlags != flags else { return }
if isReachableWithFlags(flags) {
if let block = whenReachable {
block(self)
}
} else {
if let block = whenUnreachable {
block(self)
}
}
notificationCenter.postNotificationName(ReachabilityChangedNotification, object:self)
previousFlags = flags
}
private func isReachableWithFlags(flags: SCNetworkReachabilityFlags) -> Bool {
if !isReachable(flags) {
return false
}
if isConnectionRequiredOrTransient(flags) {
return false
}
if isRunningOnDevice {
if isOnWWAN(flags) && !reachableOnWWAN {
// We don't want to connect when on 3G.
return false
}
}
return true
}
// WWAN may be available, but not active until a connection has been established.
// WiFi may require a connection for VPN on Demand.
private func isConnectionRequired() -> Bool {
return connectionRequired()
}
private func connectionRequired() -> Bool {
let flags = reachabilityFlags
return isConnectionRequired(flags)
}
// Dynamic, on demand connection?
private func isConnectionOnDemand() -> Bool {
let flags = reachabilityFlags
return isConnectionRequired(flags) && isConnectionOnTrafficOrDemand(flags)
}
// Is user intervention required?
private func isInterventionRequired() -> Bool {
let flags = reachabilityFlags
return isConnectionRequired(flags) && isInterventionRequired(flags)
}
private func isOnWWAN(flags: SCNetworkReachabilityFlags) -> Bool {
#if os(iOS)
return flags.contains(.IsWWAN)
#else
return false
#endif
}
private func isReachable(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.Reachable)
}
private func isConnectionRequired(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.ConnectionRequired)
}
private func isInterventionRequired(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.InterventionRequired)
}
private func isConnectionOnTraffic(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.ConnectionOnTraffic)
}
private func isConnectionOnDemand(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.ConnectionOnDemand)
}
func isConnectionOnTrafficOrDemand(flags: SCNetworkReachabilityFlags) -> Bool {
return !flags.intersect([.ConnectionOnTraffic, .ConnectionOnDemand]).isEmpty
}
private func isTransientConnection(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.TransientConnection)
}
private func isLocalAddress(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.IsLocalAddress)
}
private func isDirect(flags: SCNetworkReachabilityFlags) -> Bool {
return flags.contains(.IsDirect)
}
private func isConnectionRequiredOrTransient(flags: SCNetworkReachabilityFlags) -> Bool {
let testcase:SCNetworkReachabilityFlags = [.ConnectionRequired, .TransientConnection]
return flags.intersect(testcase) == testcase
}
private var reachabilityFlags: SCNetworkReachabilityFlags {
guard let reachabilityRef = reachabilityRef else { return SCNetworkReachabilityFlags() }
var flags = SCNetworkReachabilityFlags()
let gotFlags = withUnsafeMutablePointer(&flags) {
SCNetworkReachabilityGetFlags(reachabilityRef, UnsafeMutablePointer($0))
}
if gotFlags {
return flags
} else {
return SCNetworkReachabilityFlags()
}
}
override public var description: String {
var W: String
if isRunningOnDevice {
W = isOnWWAN(reachabilityFlags) ? "W" : "-"
} else {
W = "X"
}
let R = isReachable(reachabilityFlags) ? "R" : "-"
let c = isConnectionRequired(reachabilityFlags) ? "c" : "-"
let t = isTransientConnection(reachabilityFlags) ? "t" : "-"
let i = isInterventionRequired(reachabilityFlags) ? "i" : "-"
let C = isConnectionOnTraffic(reachabilityFlags) ? "C" : "-"
let D = isConnectionOnDemand(reachabilityFlags) ? "D" : "-"
let l = isLocalAddress(reachabilityFlags) ? "l" : "-"
let d = isDirect(reachabilityFlags) ? "d" : "-"
return "\(W)\(R) \(c)\(t)\(i)\(C)\(D)\(l)\(d)"
}
deinit {
stopNotifier()
reachabilityRef = nil
whenReachable = nil
whenUnreachable = nil
}
}
直接があなたの質問に答えるわけではありませんが、私は最近Appleがこの話をしたことを述べたいと思います。
https://developer.Apple.com/videos/play/wwdc2018/714/
9時55分ごろ、彼はあなたが尋ねているこのようなことをすることについて話します:
- 接続を確認する
- 接続している場合 - >何かをする
- 接続がない場合 - >何か他のことをする(待つか、再試行するか)
ただし、これにはいくつかの落とし穴があります。
- ステップ2で接続があると言っても、0.5秒後に接続していないとしたらどうでしょうか。
- ユーザーがプロキシの背後にいる場合はどうなりますか
- 大事なことを言い忘れましたが、ここでいくつかの答えが接続権を決定できない場合はどうなりますか? (あなたが素早く接続を切り替え、wi-fiに行き、そしてそれをオフにするなら(それを複雑にするだけで)、私が接続したかどうかを正しく判断することはほとんどできないでしょう)。
- ビデオからの引用:"将来の操作が成功するかどうかを保証する方法はありません"
次の点は、アップルによるといくつかのベストプラクティスです。
waitsForConnectivityをtrueに設定します( https://developer.Apple.com/documentation/foundation/urlsessionconfiguration/2908812-waitsforconnectivity )- デリゲートメソッド
taskIsWaitingForConnectivity( https://developer.Apple.com/documentation/foundation/urlsessiontaskdelegate/2908819-urlsession )に応答します。ビデオの33:25に記載されているように、これは接続を確認するためのAppleの推奨方法です。
その話によると、 あなたがインターネットに接続しているかどうかにかかわらず、あなたがサーバーにリクエストを送った時点では正確でないかもしれないので、事前にチェックする理由はないはずです 。
AppleはiOS 12にNetwork Frameworkを導入しました。
import Foundation
import Network
class NetworkReachability {
var pathMonitor: NWPathMonitor!
var path: NWPath?
var pathUpdateHandler: ((NWPath) -> Void) = { path in
self.path = path
if path.status == NWPath.Status.satisfied {
print("Connected")
} else if path.status == NWPath.Status.unsatisfied {
print("unsatisfied")
} else if path.status == NWPath.Status.requiresConnection {
print("requiresConnection")
}
}
let backgroudQueue = DispatchQueue.global(qos: .background)
init() {
pathMonitor = NWPathMonitor()
pathMonitor.pathUpdateHandler = self.pathUpdateHandler
pathMonitor.start(queue: backgroudQueue)
}
func isNetworkAvailable() -> Bool {
if let path = self.path {
if path.status == NWPath.Status.satisfied {
return true
}
}
return false
}
}
Alamofireを使用している場合は、次のようにすることができます。
let configuration = NSURLSessionConfiguration.defaultSessionConfiguration()
configuration.timeoutIntervalForRequest = 15 //Set timeouts in sec
configuration.timeoutIntervalForResource = 15
let alamoFireManager = Alamofire.Manager(configuration:configuration)
alamoFireManager?.request(.GET, "https://yourURL.com", parameters: headers, encoding: .URL)
.validate()
.responseJSON { response in
if let error = response.result.error {
switch error.code{
case -1001:
print("Slow connection")
return
case -1009:
print("No Connection!")
return
default: break
}
}
私はNSTimerとAlamofireを使って私自身の解決策を作りました:
import Alamofire
public class ConnectionHelper: NSObject {
var request: Alamofire.Request?
func isInternetConnected(completionHandler: Bool -> Void) {
NSTimer.scheduledTimerWithTimeInterval(5.0, target: self, selector: "requestTimeout", userInfo: nil, repeats: false)
request = Alamofire
.request(
Method.HEAD,
"http://www.testurl.com"
)
.response { response in
if response.3?.code == -999 {
completionHandler(
false
)
} else {
completionHandler(
true
)
}
}
}
func requestTimeout() {
request!.cancel()
}
}
NSTimerはタイムアウトとして使用され、Alamofireタイムアウトを使用した信頼性の低い結果のために使用されました。要求は、信頼できると信頼できるURL(自分のサーバー、または依存するサービスをホストしているサーバーなど)に対して行う必要があります。
タイマーが期限切れになると、要求は取り消され、結果は完了ハンドラーを使用して返されます。
使用法:
ConnectionHelper().isInternetConnected() { internetConnected in
if internetConnected {
// Connected
} else {
// Not connected
}
}
ここでlibを使ったSwift 2.3のための私の解決策( Reachability.Swift )
あなたのPodfileに入り、以下を追加してください。
pod 'ReachabilitySwift', '~> 2.4' // Swift 2.3
それであなたのterminalに:
pod install
それから新しいファイルReachabilityManagerを作成して、以下のコードを追加してください:
import Foundation
import ReachabilitySwift
enum ReachabilityManagerType {
case Wifi
case Cellular
case None
}
class ReachabilityManager {
static let sharedInstance = ReachabilityManager()
private var reachability: Reachability!
private var reachabilityManagerType: ReachabilityManagerType = .None
private init() {
do {
self.reachability = try Reachability.reachabilityForInternetConnection()
} catch {
print("Unable to create Reachability")
return
}
NSNotificationCenter.defaultCenter().addObserver(self, selector: #selector(ReachabilityManager.reachabilityChanged(_:)),name: ReachabilityChangedNotification,object: self.reachability)
do{
try self.reachability.startNotifier()
}catch{
print("could not start reachability notifier")
}
}
@objc private func reachabilityChanged(note: NSNotification) {
let reachability = note.object as! Reachability
if reachability.isReachable() {
if reachability.isReachableViaWiFi() {
self.reachabilityManagerType = .Wifi
} else {
self.reachabilityManagerType = .Cellular
}
} else {
self.reachabilityManagerType = .None
}
}
}
extension ReachabilityManager {
func isConnectedToNetwork() -> Bool {
return reachabilityManagerType != .None
}
}
使い方は?
AppDelegate.Swiftに入り、以下のコードを追加してください。
func application(application: UIApplication, didFinishLaunchingWithOptions launchOptions: [NSObject: AnyObject]?) -> Bool {
ReachabilityManager.sharedInstance
}
それからあなたは、デバイスがインターネットに接続されているかどうかを確認したい場合は:
if ReachabilityManager.sharedInstance.isConnectedToNetwork() {
// Connected
} else {
// Not connected
}
これは私のバージョンです。基本的にそれは何も新しいことをもたらしません。私はそれをUIDeviceにバインドしました。
import UIKit
import SystemConfiguration
extension UIDevice {
open class var isConnectedToNetwork: Bool {
get {
var zeroAddress = sockaddr_in()
zeroAddress.sin_len = UInt8(MemoryLayout.size(ofValue: zeroAddress))
zeroAddress.sin_family = sa_family_t(AF_INET)
guard
let defaultRouteReachability: SCNetworkReachability = withUnsafePointer(to: &zeroAddress, {
$0.withMemoryRebound(to: sockaddr.self, capacity: 1) {
SCNetworkReachabilityCreateWithAddress(nil, $0)
}
}),
var flags: SCNetworkReachabilityFlags = SCNetworkReachabilityFlags() as SCNetworkReachabilityFlags?,
SCNetworkReachabilityGetFlags(defaultRouteReachability, &flags)
else { return false }
return flags.contains(.reachable) && !flags.contains(.connectionRequired)
}
}
}
print("Network status availability: " + ( UIDevice.isConnectedToNetwork ? "true" : "false" ))
Swift 3では、WiFiがあるがインターネットがない場合は「true」を返すので、RAJAMOHAN-Sソリューションからの到達可能性だけを使用することはできませんでした。そのため、URLSessionクラスと完了ハンドラを使用して2番目の検証を実装しました。
これがクラス全体です。
import Foundation
import SystemConfiguration
public class Reachability {
class func isConnectedToNetwork() -> Bool {
var zeroAddress = sockaddr_in(sin_len: 0, sin_family: 0, sin_port: 0, sin_addr: in_addr(s_addr: 0), sin_zero: (0, 0, 0, 0, 0, 0, 0, 0))
zeroAddress.sin_len = UInt8(MemoryLayout.size(ofValue: zeroAddress))
zeroAddress.sin_family = sa_family_t(AF_INET)
let defaultRouteReachability = withUnsafePointer(to: &zeroAddress) {
$0.withMemoryRebound(to: sockaddr.self, capacity: 1) {zeroSockAddress in
SCNetworkReachabilityCreateWithAddress(nil, zeroSockAddress)
}
}
var flags: SCNetworkReachabilityFlags = SCNetworkReachabilityFlags(rawValue: 0)
if SCNetworkReachabilityGetFlags(defaultRouteReachability!, &flags) == false {
return false
}
// Working for Cellular and WIFI
let isReachable = (flags.rawValue & UInt32(kSCNetworkFlagsReachable)) != 0
let needsConnection = (flags.rawValue & UInt32(kSCNetworkFlagsConnectionRequired)) != 0
let ret = (isReachable && !needsConnection)
return ret
}
class func isInternetAvailable(webSiteToPing: String?, completionHandler: @escaping (Bool) -> Void) {
// 1. Check the WiFi Connection
guard isConnectedToNetwork() else {
completionHandler(false)
return
}
// 2. Check the Internet Connection
var webAddress = "https://www.google.com" // Default Web Site
if let _ = webSiteToPing {
webAddress = webSiteToPing!
}
guard let url = URL(string: webAddress) else {
completionHandler(false)
print("could not create url from: \(webAddress)")
return
}
let urlRequest = URLRequest(url: url)
let session = URLSession.shared
let task = session.dataTask(with: urlRequest, completionHandler: { (data, response, error) in
if error != nil || response == nil {
completionHandler(false)
} else {
completionHandler(true)
}
})
task.resume()
}
}
そして、これを次のように呼びます。
Reachability.isInternetAvailable(webSiteToPing: nil) { (isInternetAvailable) in
guard isInternetAvailable else {
// Inform user for example
return
}
// Do some action if there is Internet
}
以下のコードの助けを借りて、あなたは両方の携帯電話ネットワークと同様に無線LANのためのインターネット接続を確認することができます。言語 - Swift 3.0
import UIKit
import Foundation
import SystemConfiguration
class NetworkConnection: UIViewController {
class func isConnectedToNetwork() -> Bool {
var zeroAddress = sockaddr_in(sin_len: 0, sin_family: 0, sin_port: 0, sin_addr: in_addr(s_addr: 0), sin_zero: (0, 0, 0, 0, 0, 0, 0, 0))
zeroAddress.sin_len = UInt8(MemoryLayout.size(ofValue: zeroAddress))
zeroAddress.sin_family = sa_family_t(AF_INET)
guard let defaultRouteReachability = withUnsafePointer(to: &zeroAddress, {
$0.withMemoryRebound(to: sockaddr.self, capacity: 1) {
SCNetworkReachabilityCreateWithAddress(nil, $0)
}
}) else {
return false
}
var flags: SCNetworkReachabilityFlags = SCNetworkReachabilityFlags(rawValue: 0)
if SCNetworkReachabilityGetFlags(defaultRouteReachability, &flags) == false {
return false
}
let isReachable = (flags.rawValue & UInt32(kSCNetworkFlagsReachable)) != 0
let needsConnection = (flags.rawValue & UInt32(kSCNetworkFlagsConnectionRequired)) != 0
return (isReachable && !needsConnection)
}
class func checkConnection(sender:UIViewController){
if NetworkConnection.isConnectedToNetwork() == true {
print("Connected to the internet")
// Do something
} else {
print("No internet connection")
let alertController = UIAlertController(title: "No Internet Available", message: "", preferredStyle: UIAlertControllerStyle.alert)
let okAction = UIAlertAction(title: "Ok", style: UIAlertActionStyle.default){(result:UIAlertAction) -> Void in
return
}
alertController.addAction(okAction)
sender.present(alertController, animated: true, completion: nil)
// Do something
}
}
}
電話がネットワークに接続されているかどうかを直接判断することはできませんが、最も簡単な(最もクリーンな?)ソリューションは、Googleまたは他のサーバーを「ping」することです(電話がネットワークに接続されていない場合は不可能です) ):
private var urlSession:URLSession = {
var newConfiguration:URLSessionConfiguration = .default
newConfiguration.waitsForConnectivity = false
newConfiguration.allowsCellularAccess = true
return URLSession(configuration: newConfiguration)
}()
public func canReachGoogle() -> Bool
{
let url = URL(string: "https://8.8.8.8")
let semaphore = DispatchSemaphore(value: 0)
var success = false
let task = urlSession.dataTask(with: url!)
{ data, response, error in
if error != nil
{
success = false
}
else
{
success = true
}
semaphore.signal()
}
task.resume()
semaphore.wait()
return success
}
サーバーがダウンしたり、IPをブロックしたりする可能性がある場合は、常に複数のサーバーに同様の方法でpingを実行し、到達可能なサーバーがあるかどうかを返すことができます。または、この目的のために専用のサーバーを誰かにセットアップしてもらいます。