http://blog.csdn.net/pony_maggie/article/details/26740237
http://blog.csdn.net/beijingshi1/article/details/36426829
作者:小马
IOS学习也一段时间了,该上点干货了。前段时间研究了一下IOS蓝牙通讯相关的东西,把研究的一个成果给大家分享一下。
一 项目背景
简单介绍一下做的东西,设备是一个金融刷卡器,通过蓝牙与iphone手机通讯。手机端的app通过发送不同的指令(通过蓝牙)控制刷卡器执行一些动作,比如读磁条卡,读金融ic卡等。上几张图容易理解一些:
看了上面几张图,你应该大概了解这是个什么东东了。
二 IOS 蓝牙介绍
蓝牙协议本身经历了从1.0到4.0的升级演变, 最新的4.0以其低功耗著称,所以一般也叫BLE(Bluetoothlow energy)。
iOS 有两个框架支持蓝牙与外设连接。一个是 ExternalAccessory。从ios3.0就开始支持,也是在iphone4s出来之前用的比较多的一种模式,但是它有个不好的地方,External Accessory需要拿到苹果公司的MFI认证。
另一个框架则是本文要介绍的CoreBluetooth,在iphone4s开始支持,专门用于与BLE设备通讯(因为它的API都是基于BLE的)。这个不需要MFI,并且现在很多蓝牙设备都支持4.0,所以也是在IOS比较推荐的一种开发方法。
三 CoreBluetooth介绍
CoreBluetooth框架的核心其实是两个东西,peripheral和central, 可以理解成外设和中心。对应他们分别有一组相关的API和类,如下图所示:
如果你要编程的设备是central那么你大部分用到,反之亦然。在我们这个示例中,金融刷卡器是peripheral,我们的iphone手机是central,所以我将大部分使用上图中左边部分的类。使用peripheral编程的例子也有很多,比如像用一个ipad和一个iphone通讯,ipad可以认为是central,iphone端是peripheral,这种情况下在iphone端就要使用上图右边部分的类来开发了。
四 服务和特征
有个概念有必要先说明一下。什么是服务和特征呢(service and characteristic)?
每个蓝牙4.0的设备都是通过服务和特征来展示自己的,一个设备必然包含一个或多个服务,每个服务下面又包含若干个特征。特征是与外界交互的最小单位。比如说,一台蓝牙4.0设备,用特征A来描述自己的出厂信息,用特征B来与收发数据等。
服务和特征都是用UUID来唯一标识的,UUID的概念如果不清楚请自行google,国际蓝牙组织为一些很典型的设备(比如测量心跳和血压的设备)规定了标准的service UUID(特征的UUID比较多,这里就不列举了),如下:
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#define BLE_UUID_ALERT_NOTIFICATION_SERVICE 0x1811
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#define BLE_UUID_BATTERY_SERVICE 0x180F
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#define BLE_UUID_BLOOD_PRESSURE_SERVICE 0x1810
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#define BLE_UUID_CURRENT_TIME_SERVICE 0x1805
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#define BLE_UUID_CYCLING_SPEED_AND_CADENCE 0x1816
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#define BLE_UUID_DEVICE_INFORMATION_SERVICE 0x180A
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#define BLE_UUID_GLUCOSE_SERVICE 0x1808
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#define BLE_UUID_HEALTH_THERMOMETER_SERVICE 0x1809
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#define BLE_UUID_HEART_RATE_SERVICE 0x180D
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#define BLE_UUID_HUMAN_INTERFACE_DEVICE_SERVICE 0x1812
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#define BLE_UUID_IMMEDIATE_ALERT_SERVICE 0x1802
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#define BLE_UUID_LINK_LOSS_SERVICE 0x1803
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#define BLE_UUID_NEXT_DST_CHANGE_SERVICE 0x1807
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#define BLE_UUID_PHONE_ALERT_STATUS_SERVICE 0x180E
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#define BLE_UUID_REFERENCE_TIME_UPDATE_SERVICE 0x1806
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#define BLE_UUID_RUNNING_SPEED_AND_CADENCE 0x1814
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#define BLE_UUID_SCAN_PARAMETERS_SERVICE 0x1813
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#define BLE_UUID_TX_POWER_SERVICE 0x1804
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#define BLE_UUID_CGM_SERVICE 0x181A
当然还有很多设备并不在这个标准列表里,比如我用的这个金融刷卡器。蓝牙设备硬件厂商通常都会提供他们的设备里面各个服务(service)和特征(characteristics)的功能,比如哪些是用来交互(读写),哪些可获取模块信息(只读)等。
五 实现细节
作为一个中心要实现完整的通讯,一般要经过这样几个步骤:
建立中心角色—扫描外设(discover)—连接外设(connect)—扫描外设中的服务和特征(discover)—与外设做数据交互(explore and interact)—断开连接(disconnect)。
1建立中心角色
首先在我自己类的头文件中要包含CoreBluetooth的头文件,并继承两个协议<CBCentralManagerDelegate,CBPeripheralDelegate>,代码如下:
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#import <CoreBluetooth/CoreBluetooth.h>
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CBCentralManager *manager;
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manager = [[CBCentralManager alloc] initWithDelegate:self queue:nil];
2扫描外设(discover)
代码如下:
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[manager scanForPeripheralsWithServices:nil options:options];
这个参数应该也是可以指定特定的peripheral的UUID,那么理论上这个central只会discover这个特定的设备,但是我实际测试发现,如果用特定的UUID传参根本找不到任何设备,我用的代码如下:
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NSArray *uuidArray = [NSArray arrayWithObjects:[CBUUID UUIDWithString:@"1800"],[CBUUID UUIDWithString:@"180A"],
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[CBUUID UUIDWithString:@"1CB2D155-33A0-EC21-6011-CD4B50710777"],[CBUUID UUIDWithString:@"6765D311-DD4C-9C14-74E1-A431BBFD0652"],nil];
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[manager scanForPeripheralsWithServices:uuidArray options:options];
目前不清楚原因,怀疑和设备本身在的广播包有关。
3连接外设(connect)
当扫描到4.0的设备后,系统会通过回调函数告诉我们设备的信息,然后我们就可以连接相应的设备,代码如下:
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- (void)centralManager:(CBCentralManager *)central didDiscoverPeripheral:(CBPeripheral *)peripheral advertisementData:(NSDictionary *)advertisementData RSSI:(NSNumber *)RSSI
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{
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if(![_dicoveredPeripherals containsObject:peripheral])
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[_dicoveredPeripherals addObject:peripheral];
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NSLog(@"dicoveredPeripherals:%@", _dicoveredPeripherals);
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}
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-(BOOL)connect:(CBPeripheral *)peripheral
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{
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NSLog(@"connect start");
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_testPeripheral = nil;
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[manager connectPeripheral:peripheral
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options:[NSDictionary dictionaryWithObject:[NSNumber numberWithBool:YES] forKey:CBConnectPeripheralOptionNotifyOnDisconnectionKey]];
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connectTimer = [NSTimer scheduledTimerWithTimeInterval:5.0f target:self selector:@selector(connectTimeout:) userInfo:peripheral repeats:NO];
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return (YES);
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}
4扫描外设中的服务和特征(discover)
同样的,当连接成功后,系统会通过回调函数告诉我们,然后我们就在这个回调里去扫描设备下所有的服务和特征,代码如下:
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- (void)centralManager:(CBCentralManager *)central didConnectPeripheral:(CBPeripheral *)peripheral
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{
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[connectTimer invalidate];
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NSLog(@"Did connect to peripheral: %@", peripheral);
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_testPeripheral = peripheral;
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[peripheral setDelegate:self];
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[peripheral discoverServices:nil];
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}
一个设备里的服务和特征往往比较多,大部分情况下我们只是关心其中几个,所以一般会在发现服务和特征的回调里去匹配我们关心那些,比如下面的代码:
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- (void)peripheral:(CBPeripheral *)peripheral didDiscoverServices:(NSError *)error
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{
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NSLog(@"didDiscoverServices");
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if (error)
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{
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NSLog(@"Discovered services for %@ with error: %@", peripheral.name, [error localizedDescription]);
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if ([self.delegate respondsToSelector:@selector(DidNotifyFailConnectService:withPeripheral:error:)])
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[self.delegate DidNotifyFailConnectService:nil withPeripheral:nil error:nil];
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return;
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}
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for (CBService *service in peripheral.services)
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{
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if ([service.UUID isEqual:[CBUUID UUIDWithString:UUIDSTR_ISSC_PROPRIETARY_SERVICE]])
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{
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NSLog(@"Service found with UUID: %@", service.UUID);
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[peripheral discoverCharacteristics:nil forService:service];
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isVPOS3356 = YES;
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break;
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}
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}
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}
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- (void)peripheral:(CBPeripheral *)peripheral didDiscoverCharacteristicsForService:(CBService *)service error:(NSError *)error
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{
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if (error)
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{
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NSLog(@"Discovered characteristics for %@ with error: %@", service.UUID, [error localizedDescription]);
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if ([self.delegate respondsToSelector:@selector(DidNotifyFailConnectChar:withPeripheral:error:)])
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[self.delegate DidNotifyFailConnectChar:nil withPeripheral:nil error:nil];
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return;
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}
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for (CBCharacteristic *characteristic in service.characteristics)
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{
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if ([characteristic.UUID isEqual:[CBUUID UUIDWithString:UUIDSTR_ISSC_TRANS_TX]])
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{
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NSLog(@"Discovered read characteristics:%@ for service: %@", characteristic.UUID, service.UUID);
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_readCharacteristic = characteristic;
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if ([self.delegate respondsToSelector:@selector(DidFoundReadChar:)])
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[self.delegate DidFoundReadChar:characteristic];
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break;
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}
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}
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for (CBCharacteristic * characteristic in service.characteristics)
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{
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if ([characteristic.UUID isEqual:[CBUUID UUIDWithString:UUIDSTR_ISSC_TRANS_RX]])
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{
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NSLog(@"Discovered write characteristics:%@ for service: %@", characteristic.UUID, service.UUID);
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_writeCharacteristic = characteristic;
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if ([self.delegate respondsToSelector:@selector(DidFoundWriteChar:)])
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[self.delegate DidFoundWriteChar:characteristic];
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break;
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}
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}
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if ([self.delegate respondsToSelector:@selector(DidFoundCharacteristic:withPeripheral:error:)])
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[self.delegate DidFoundCharacteristic:nil withPeripheral:nil error:nil];
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}
相信你应该已经注意到了,回调函数都是以"did"开头的,这些函数不用你调用,达到条件后系统后自动调用。
5与外设做数据交互(explore and interact)
发送数据很简单,我们可以封装一个如下的函数:
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-(void)writeChar:(NSData *)data
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{
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[_testPeripheral writeValue:data forCharacteristic:_writeCharacteristic type:CBCharacteristicWriteWithResponse];
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}
_testPeripheral和_writeCharacteristic是前面我们保存的设备对象和可以读写的特征。
然后我们可以在外部调用它,比如当然我要触发刷卡时,先组好数据包,然后调用发送函数:
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-(void)msrRead
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{
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unsigned char command[512] = {0};
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unsigned charchar *pTmp;
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int nSendLen = 0;
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unsigned char ucCrc[3] = {0};
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_commandType = COMMAND_MSR_READ;
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pTmp = command;
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*pTmp = 0x02;
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pTmp++;
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*pTmp = 0xc1;
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pTmp++;
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*pTmp = 0x07;
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pTmp++;
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nSendLen = 2;
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*pTmp = nSendLen/256;
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pTmp++;
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*pTmp = nSendLen%256;
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pTmp++;
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*pTmp = 0x00;
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pTmp++;
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*pTmp = 0x00;
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pTmp++;
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Crc16CCITT(command+1,pTmp-command-1,ucCrc);
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memcpy(pTmp,ucCrc,2);
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NSData *data = [[NSData alloc] initWithBytes:&command length:9];
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NSLog(@"send data:%@", data);
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[g_BLEInstance.recvData setLength:0];
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[g_BLEInstance writeChar:data];
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}
数据的读分为两种,一种是直接读(reading directly),另外一种是订阅(subscribe)。从名字也能基本理解两者的不同。实际使用中具体用一种要看具体的应用场景以及特征本身的属性。前一个好理解,特征本身的属性是指什么呢?特征有个properties字段(characteristic.properties),它是一个整型值,有如下几个定义:
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enum {
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CBCharacteristicPropertyBroadcast = 0x01,
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CBCharacteristicPropertyRead = 0x02,
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CBCharacteristicPropertyWriteWithoutResponse = 0x04,
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CBCharacteristicPropertyWrite = 0x08,
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CBCharacteristicPropertyNotify = 0x10,
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CBCharacteristicPropertyIndicate = 0x20,
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CBCharacteristicPropertyAuthenticatedSignedWrites = 0x40,
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CBCharacteristicPropertyExtendedProperties = 0x80,
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};
比如说,你要交互的特征,它的properties的值是0x10,表示你只能用订阅的方式来接收数据。我这里是用订阅的方式,启动订阅的代码如下:
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-(void)startSubscribe
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{
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[_testPeripheral setNotifyValue:YES forCharacteristic:_readCharacteristic];
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}
当设备有数据返回时,同样是通过一个系统回调通知我,如下所示:
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- (void)peripheral:(CBPeripheral *)peripheral didUpdateValueForCharacteristic:(CBCharacteristic *)characteristic error:(NSError *)error
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{
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if (error)
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{
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NSLog(@"Error updating value for characteristic %@ error: %@", characteristic.UUID, [error localizedDescription]);
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if ([_mainMenuDelegate respondsToSelector:@selector(DidNotifyReadError:)])
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[_mainMenuDelegate DidNotifyReadError:error];
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return;
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}
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[_recvData appendData:characteristic.value];
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if ([_recvData length] >= 5)
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{
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unsigned charchar *buffer = (unsigned charchar *)[_recvData bytes];
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int nLen = buffer[3]*256 + buffer[4];
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if ([_recvData length] == (nLen+3+2+2))
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{
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if ([_mainMenuDelegate respondsToSelector:@selector(DidNotifyReadData)])
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[_mainMenuDelegate DidNotifyReadData];
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}
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}
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}
6 断开连接(disconnect)
这个比较简单,只需要一个API就行了,代码如下:
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-(void)disConnect
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{
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if (_testPeripheral != nil)
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{
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NSLog(@"disConnect start");
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[manager cancelPeripheralConnection:_testPeripheral];
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}
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}
六 成果展示
上几张效果图,UI没怎么修饰,主要关注功能,实现了读取磁道信息,与金融ic卡进行APDU交互等功能。
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