iOS 开发中WIFI相关功能总结
2017-03-03 09:34
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iOS 开发中难免会遇到很多与网络方面的判断,这里做个汇总,大多可能是与WiFi相关的。
这里有关于ping命令的详细解释:百度百科ping
iOS中想要ping域名或者ip,苹果提供了一个官方例子:SimplePing
在例子中,有一个苹果已经封装过的类【SimplePing.h】和【SimplePing.m】
使用起来也相当的简单:
做法也有很多种,可以用NSTimer或者 {- (void)performSelector: withObject:afterDelay:}
这里有一个别人写的工程:https://github.com/lovesunstar/STPingTest
需要导入import SystemConfiguration.CaptiveNetwork
完整的:
打印结果:
1.Ping域名、Ping某IP
有时候可能会遇到ping 某个域名或者ip通不通,再做下一步操作。这里的ping与传统的做get或者post请求还是有很大区别的。比如我们连接了某个WiFi,测试ping www.baidu.com,如果能ping 通,基本可以断定可以上网了,但是如果我们做了一个get 请求(url 是www.baidu.com),路由器可能重定向这个WiFi内的某网页了,依然没有错误返回,就会误认为可以正常上网。这里有关于ping命令的详细解释:百度百科ping
iOS中想要ping域名或者ip,苹果提供了一个官方例子:SimplePing
在例子中,有一个苹果已经封装过的类【SimplePing.h】和【SimplePing.m】
使用起来也相当的简单:
a.首先创建一个Ping对象:
SimplePing *pinger = [[SimplePing alloc] initWithHostName:self.hostName]; self.pinger = pinger; pinger.delegate = self; pinger.addressStyle = SimplePingAddressStyleICMPv4; [pinger start];
b.然后在start成功的代理方法中,发送数据报文:
/** * start成功,也就是准备工作做完后的回调 */ - (void)simplePing:(SimplePing *)pinger didStartWithAddress:(NSData *)address { // 发送测试报文数据 [self.pinger sendPingWithData:nil]; } - (void)simplePing:(SimplePing *)pinger didFailWithError:(NSError *)error { NSLog(@"didFailWithError"); [self.pinger stop]; }
c.其他几个代理方法也非常简单,就简单记录一下:
// 发送测试报文成功的回调方法 - (void)simplePing:(SimplePing *)pinger didSendPacket:(NSData *)packet sequenceNumber:(uint16_t)sequenceNumber { NSLog(@"#%u sent", sequenceNumber); } //发送测试报文失败的回调方法 - (void)simplePing:(SimplePing *)pinger didFailToSendPacket:(NSData *)packet sequenceNumber:(uint16_t)sequenceNumber error:(NSError *)error { NSLog(@"#%u send failed: %@", sequenceNumber, error); } // 接收到ping的地址所返回的数据报文回调方法 - (void)simplePing:(SimplePing *)pinger didReceivePingResponsePacket:(NSData *)packet sequenceNumber:(uint16_t)sequenceNumber { NSLog(@"#%u received, size=%zu", sequenceNumber, packet.length); } - (void)simplePing:(SimplePing *)pinger didReceiveUnexpectedPacket:(NSData *)packet { NSLog(@"#%s",__func__); }
*********注意点:
iOS 中 ping失败后(即发送测试报文成功后,一直没后收到响应的报文),不会有任何回调方法告知我们。而一般ping 一次的结果也不太准确,ping 花费的时间也非常短,所以我们一般会ping多次,发送一次ping 测试报文0.5s后检测一下这一次ping是否已经收到响应。0.5s后检测时,如果已经收到响应,则可以ping 通;如果没有收到响应,则视为超时。做法也有很多种,可以用NSTimer或者 {- (void)performSelector: withObject:afterDelay:}
这里有一个别人写的工程:https://github.com/lovesunstar/STPingTest
2.获取WiFi信息
以前物联网刚火的时候,出现过很多一体式无线路由,所以App里难免会遇到要判断当前所连接的WiFi,以及获取WiFi信息的功能。需要导入import SystemConfiguration.CaptiveNetwork
//获取WiFi 信息,返回的字典中包含了WiFi的名称、路由器的Mac地址、还有一个Data(转换成字符串打印出来是wifi名称) - (NSDictionary *)fetchSSIDInfo { NSArray *ifs = (__bridge_transfer NSArray *)CNCopySupportedInterfaces(); if (!ifs) { return nil; } NSDictionary *info = nil; for (NSString *ifnam in ifs) { info = (__bridge_transfer NSDictionary *)CNCopyCurrentNetworkInfo((__bridge CFStringRef)ifnam); if (info && [info count]) { break; } } return info; } //打印出来的结果: 2017-03-02 15:28:51.674 SimplePing[18883:6790207] WIFI_INFO:{ BSSID = "a4:2b:8c:c:7f:bd"; SSID = bdmy06; SSIDDATA = ; }
3.获取WiFi名称
有了上一步,获取WiFi名称就非常简单了。NSString *WiFiName = info[@"SSID"]; //打印结果: 2017-03-02 15:35:13.059 SimplePing[18887:6791418] bdmy06
完整的:
- (NSString *)fetchWiFiName { NSArray *ifs = (__bridge_transfer NSArray *)CNCopySupportedInterfaces(); if (!ifs) { return nil; } NSString *WiFiName = nil; for (NSString *ifnam in ifs) { NSDictionary *info = (__bridge_transfer NSDictionary *)CNCopyCurrentNetworkInfo((__bridge CFStringRef)ifnam); if (info && [info count]) { // 这里其实对应的有三个key:kCNNetworkInfoKeySSID、kCNNetworkInfoKeyBSSID、kCNNetworkInfoKeySSIDData, // 不过它们都是CFStringRef类型的 WiFiName = [info objectForKey:(__bridge NSString *)kCNNetworkInfoKeySSID]; // WiFiName = [info objectForKey:@"SSID"]; break; } } return WiFiName; }
4.获取当前所连接WiFi的网关地址
- (NSString *)getGatewayIpForCurrentWiFi { NSString *address = @"error"; struct ifaddrs *interfaces = NULL; struct ifaddrs *temp_addr = NULL; int success = 0; // retrieve the current interfaces - returns 0 on success success = getifaddrs(&interfaces); if (success == 0) { // Loop through linked list of interfaces temp_addr = interfaces; //*/ while(temp_addr != NULL) { /*/ int i=255; while((i--)>0) //*/ if(temp_addr->ifa_addr->sa_family == AF_INET) { // Check if interface is en0 which is the wifi connection on the iPhone if([[NSString stringWithUTF8String:temp_addr->ifa_name] isEqualToString:@"en0"]) { // Get NSString from C String //ifa_addr //ifa->ifa_dstaddr is the broadcast address, which explains the "255's" // address = [NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_dstaddr)->sin_addr)]; address = [NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_addr)->sin_addr)]; //routerIP----192.168.1.255 广播地址 NSLog(@"broadcast address--%@",[NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_dstaddr)->sin_addr)]); //--192.168.1.106 本机地址 NSLog(@"local device ip--%@",[NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_addr)->sin_addr)]); //--255.255.255.0 子网掩码地址 NSLog(@"netmask--%@",[NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_netmask)->sin_addr)]); //--en0 端口地址 NSLog(@"interface--%@",[NSString stringWithUTF8String:temp_addr->ifa_name]); } } temp_addr = temp_addr->ifa_next; } } // Free memory freeifaddrs(interfaces); in_addr_t i = inet_addr([address cStringUsingEncoding:NSUTF8StringEncoding]); in_addr_t* x = &i; unsigned char *s = getdefaultgateway(x); NSString *ip=[NSString stringWithFormat:@"%d.%d.%d.%d",s[0],s[1],s[2],s[3]]; free(s); return ip; }
5.获取本机在WiFi环境下的IP地址
- (NSString *)getLocalIPAddressForCurrentWiFi { NSString *address = nil; struct ifaddrs *interfaces = NULL; struct ifaddrs *temp_addr = NULL; int success = 0; // retrieve the current interfaces - returns 0 on success success = getifaddrs(&interfaces); if (success == 0) { // Loop through linked list of interfaces temp_addr = interfaces; while(temp_addr != NULL) { if(temp_addr->ifa_addr->sa_family == AF_INET) { // Check if interface is en0 which is the wifi connection on the iPhone if([[NSString stringWithUTF8String:temp_addr->ifa_name] isEqualToString:@"en0"]) { address = [NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_addr)->sin_addr)]; return address; } } temp_addr = temp_addr->ifa_next; } freeifaddrs(interfaces); } return nil; }
6.获取广播地址、子网掩码、端口等
- (NSMutableDictionary *)getLocalInfoForCurrentWiFi { NSMutableDictionary *dict = [NSMutableDictionary dictionary]; struct ifaddrs *interfaces = NULL; struct ifaddrs *temp_addr = NULL; int success = 0; // retrieve the current interfaces - returns 0 on success success = getifaddrs(&interfaces); if (success == 0) { // Loop through linked list of interfaces temp_addr = interfaces; //*/ while(temp_addr != NULL) { if(temp_addr->ifa_addr->sa_family == AF_INET) { // Check if interface is en0 which is the wifi connection on the iPhone if([[NSString stringWithUTF8String:temp_addr->ifa_name] isEqualToString:@"en0"]) { //----192.168.1.255 广播地址 NSString *broadcast = [NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_dstaddr)->sin_addr)]; if (broadcast) { [dict setObject:broadcast forKey:@"broadcast"]; } NSLog(@"broadcast address--%@",broadcast); //--192.168.1.106 本机地址 NSString *localIp = [NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_addr)->sin_addr)]; if (localIp) { [dict setObject:localIp forKey:@"localIp"]; } NSLog(@"local device ip--%@",localIp); //--255.255.255.0 子网掩码地址 NSString *netmask = [NSString stringWithUTF8String:inet_ntoa(((struct sockaddr_in *)temp_addr->ifa_netmask)->sin_addr)]; if (netmask) { [dict setObject:netmask forKey:@"netmask"]; } NSLog(@"netmask--%@",netmask); //--en0 端口地址 NSString *interface = [NSString stringWithUTF8String:temp_addr->ifa_name]; if (interface) { [dict setObject:interface forKey:@"interface"]; } NSLog(@"interface--%@",interface); return dict; } } temp_addr = temp_addr->ifa_next; } } // Free memory freeifaddrs(interfaces); return dict; }
打印结果:
2017-03-02 17:59:09.257 SimplePing[19141:6830567] wifi:{ broadcast = "192.168.1.255"; interface = en0; localIp = "192.168.1.7"; netmask = "255.255.255.0"; }
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