// // NetworkReachabilityManagerTests.swift // // Copyright (c) 2014-2016 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. // @testable import Alamofire import Foundation import SystemConfiguration import XCTest class NetworkReachabilityManagerTestCase: BaseTestCase { // MARK: - Tests - Initialization func testThatManagerCanBeInitializedFromHost() { // Given, When let manager = NetworkReachabilityManager(host: "localhost") // Then XCTAssertNotNil(manager) } func testThatManagerCanBeInitializedFromAddress() { // Given, When let manager = NetworkReachabilityManager() // Then XCTAssertNotNil(manager) } func testThatHostManagerIsReachableOnWiFi() { // Given, When let manager = NetworkReachabilityManager(host: "localhost") // Then XCTAssertEqual(manager?.networkReachabilityStatus, .reachable(.ethernetOrWiFi)) XCTAssertEqual(manager?.isReachable, true) XCTAssertEqual(manager?.isReachableOnWWAN, false) XCTAssertEqual(manager?.isReachableOnEthernetOrWiFi, true) } func testThatHostManagerStartsWithReachableStatus() { // Given, When let manager = NetworkReachabilityManager(host: "localhost") // Then XCTAssertEqual(manager?.networkReachabilityStatus, .reachable(.ethernetOrWiFi)) XCTAssertEqual(manager?.isReachable, true) XCTAssertEqual(manager?.isReachableOnWWAN, false) XCTAssertEqual(manager?.isReachableOnEthernetOrWiFi, true) } func testThatAddressManagerStartsWithReachableStatus() { // Given, When let manager = NetworkReachabilityManager() // Then XCTAssertEqual(manager?.networkReachabilityStatus, .reachable(.ethernetOrWiFi)) XCTAssertEqual(manager?.isReachable, true) XCTAssertEqual(manager?.isReachableOnWWAN, false) XCTAssertEqual(manager?.isReachableOnEthernetOrWiFi, true) } func testThatHostManagerCanBeDeinitialized() { // Given var manager: NetworkReachabilityManager? = NetworkReachabilityManager(host: "localhost") // When manager = nil // Then XCTAssertNil(manager) } func testThatAddressManagerCanBeDeinitialized() { // Given var manager: NetworkReachabilityManager? = NetworkReachabilityManager() // When manager = nil // Then XCTAssertNil(manager) } // MARK: - Tests - Listener func testThatHostManagerIsNotifiedWhenStartListeningIsCalled() { // Given guard let manager = NetworkReachabilityManager(host: "store.apple.com") else { XCTFail("manager should NOT be nil") return } let expectation = self.expectation(description: "listener closure should be executed") var networkReachabilityStatus: NetworkReachabilityManager.NetworkReachabilityStatus? manager.listener = { status in guard networkReachabilityStatus == nil else { return } networkReachabilityStatus = status expectation.fulfill() } // When manager.startListening() waitForExpectations(timeout: timeout, handler: nil) // Then XCTAssertEqual(networkReachabilityStatus, .reachable(.ethernetOrWiFi)) } func testThatAddressManagerIsNotifiedWhenStartListeningIsCalled() { // Given let manager = NetworkReachabilityManager() let expectation = self.expectation(description: "listener closure should be executed") var networkReachabilityStatus: NetworkReachabilityManager.NetworkReachabilityStatus? manager?.listener = { status in networkReachabilityStatus = status expectation.fulfill() } // When manager?.startListening() waitForExpectations(timeout: timeout, handler: nil) // Then XCTAssertEqual(networkReachabilityStatus, .reachable(.ethernetOrWiFi)) } // MARK: - Tests - Network Reachability Status func testThatManagerReturnsNotReachableStatusWhenReachableFlagIsAbsent() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.connectionOnDemand] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .notReachable) } func testThatManagerReturnsNotReachableStatusWhenConnectionIsRequired() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.reachable, .connectionRequired] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .notReachable) } func testThatManagerReturnsNotReachableStatusWhenInterventionIsRequired() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.reachable, .connectionRequired, .interventionRequired] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .notReachable) } func testThatManagerReturnsReachableOnWiFiStatusWhenConnectionIsNotRequired() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.reachable] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .reachable(.ethernetOrWiFi)) } func testThatManagerReturnsReachableOnWiFiStatusWhenConnectionIsOnDemand() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.reachable, .connectionRequired, .connectionOnDemand] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .reachable(.ethernetOrWiFi)) } func testThatManagerReturnsReachableOnWiFiStatusWhenConnectionIsOnTraffic() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.reachable, .connectionRequired, .connectionOnTraffic] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .reachable(.ethernetOrWiFi)) } #if os(iOS) func testThatManagerReturnsReachableOnWWANStatusWhenIsWWAN() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.reachable, .isWWAN] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .reachable(.wwan)) } func testThatManagerReturnsNotReachableOnWWANStatusWhenIsWWANAndConnectionIsRequired() { // Given let manager = NetworkReachabilityManager() let flags: SCNetworkReachabilityFlags = [.reachable, .isWWAN, .connectionRequired] // When let networkReachabilityStatus = manager?.networkReachabilityStatusForFlags(flags) // Then XCTAssertEqual(networkReachabilityStatus, .notReachable) } #endif }