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  • 文件选择用zstack实现自己的sample点灯

    本文纯属个人见解,是对前面学习的总结,如有描述不正确的地方还请高手指正~

        1,复制samples上面的GenericApp,并粘贴到以后文件夹下,重命名为LED;

        2,删除GenericApp.c和GenericApp.h

        3,  新建 文件Coordinator.h,Coordinator.c  Enddevice.c并且将文件添加到工程 。

        三个文件里面的代码如下:

        Coordinator.h:

    #ifndef COORDINATOR_H
    #define COORDINATOR_H
    #include "ZComDef.h"
    
    #define GENERICAPP_ENDPOINT                10
    
    #define GENERICAPP_PROFID                  0x0F04 
    #define GENERICAPP_DEVICEID                0x0001
    #define GENERICAPP_DEVICE_VERSION          0   
    #define GENERICAPP_FLAGS                   0
    #define GENERICAPP_MAX_CLUSTERS            1  
    #define GENERICAPP_CLUSTERID               1
    
    extern void GenericApp_Init(byte task_id);
    extern UINT16 GenericApp_ProcessEvent(byte task_id, UINT16 events);
    #endif

        Coordinator.c:

    #include "OSAL.h"
    #include "AF.h"
    #include "ZDApp.h"
    #include "ZDObject.h"
    #include "ZDProfile.h"
    
    #include "Coordinator.h"
    #include "DebugTrace.h"
    
    
    #if !defined( WIN32 )
      #include "OnBoard.h"
    #endif
    
    /* HAL */
    #include "hal_lcd.h"
    #include "hal_led.h"
    #include "hal_key.h"
    #include "hal_uart.h"
    #include <string.h>
    
    
    // This list should be filled with Application specific Cluster IDs.
    const cId_t GenericApp_ClusterList[GENERICAPP_MAX_CLUSTERS] =
    {
      GENERICAPP_CLUSTERID
    };
    
    const SimpleDescriptionFormat_t GenericApp_SimpleDesc =
    {
      GENERICAPP_ENDPOINT,              //  int Endpoint;
      GENERICAPP_PROFID,                //  uint16 AppProfId[2];
      GENERICAPP_DEVICEID,              //  uint16 AppDeviceId[2];
      GENERICAPP_DEVICE_VERSION,        //  int   AppDevVer:4;
      GENERICAPP_FLAGS,                 //  int   AppFlags:4;
      GENERICAPP_MAX_CLUSTERS,          //  byte  AppNumInClusters;
      (cId_t *)GenericApp_ClusterList,  //  byte *pAppInClusterList;
      GENERICAPP_MAX_CLUSTERS,          //  byte  AppNumInClusters;
      (cId_t *)GenericApp_ClusterList   //  byte *pAppInClusterList;
    };
    
    endPointDesc_t GenericApp_epDesc;
    byte GenericApp_TaskID;   // Task ID for internal task/event processing
                              // This variable will be received when
                              // GenericApp_Init() is called.
    
    byte GenericApp_TransID;  // This is the unique message ID (counter)
    
    void GenericApp_MessageMSGCB ( afIncomingMSGPacket_t *pckt);
    void GenericApp_SendTheMessage( void);
    
    void GenericApp_Init(byte task_id)
    {
        GenericApp_TaskID                 = task_id;
        GenericApp_TransID                = 0;
        GenericApp_epDesc.endPoint        = GENERICAPP_ENDPOINT;
        GenericApp_epDesc.task_id         = &GenericApp_TaskID;
        GenericApp_epDesc.simpleDesc      =
                        (SimpleDescriptionFormat_t *)&GenericApp_SimpleDesc;
        GenericApp_epDesc.latencyReq      = noLatencyReqs;
        afRegister(&GenericApp_epDesc);
    }
    
    UINT16 GenericApp_ProcessEvent( byte task_id,  UINT16 events )
    {
        afIncomingMSGPacket_t *MSGpkt;
        if ( events & SYS_EVENT_MSG )
        {
            MSGpkt = (afIncomingMSGPacket_t *)osal_msg_receive(GenericApp_TaskID);
            while( MSGpkt )
            {
                switch ( MSGpkt->hdr.event )
                {
                case AF_INCOMING_MSG_CMD:
                  {
                      GenericApp_MessageMSGCB( MSGpkt );
                       break;
                  }
                default:
                  break;
                }
                osal_msg_deallocate( (uint8 *)MSGpkt );
                MSGpkt = (afIncomingMSGPacket_t *)osal_msg_receive
                  (GenericApp_TaskID);
            }
            return  (events  ^ SYS_EVENT_MSG);
        }
        return  0;
    }
    
    void GenericApp_MessageMSGCB(afIncomingMSGPacket_t *pkt)
    {
      unsigned char  buffer[4] = "    ";
      switch ( pkt->clusterId)
      {
      case GENERICAPP_CLUSTERID:
        {
            osal_memcpy(buffer,pkt->cmd.Data,3);
            if ( (buffer[0] == 'L') ||
                 (buffer[1] == 'E') ||
                 (buffer[2] == 'D'))
            {
                HalLedBlink(HAL_LED_2,0,50,500);
            }
            else
            {
                HalLedSet(HAL_LED_2,HAL_LED_MODE_ON);
            }
            break;
              
        }
      }
    }
        每日一道理
    生命,是一场漫长的棋局。这盘棋没有猎猎西风,没有四起狼烟,只有在取舍和进退中抉择。只有像棋中的小卒那样,勇往直前,毫不退缩沿着沟沟坎坎的人生之路,艰难而执着的求索,前进,才会谱写人生最壮丽的强者之歌。

        Enddevice.c:

    #include "OSAL.h"
    #include "AF.h"
    #include "ZDApp.h"
    #include "ZDObject.h"
    #include "ZDProfile.h"
    
    #include "Coordinator.h"
    #include "DebugTrace.h"
    
    
    #if !defined( WIN32 )
      #include "OnBoard.h"
    #endif
    
    /* HAL */
    #include "hal_lcd.h"
    #include "hal_led.h"
    #include "hal_key.h"
    #include "hal_uart.h"
    #include <string.h>
    // This list should be filled with Application specific Cluster IDs.
    const cId_t GenericApp_ClusterList[GENERICAPP_MAX_CLUSTERS] =
    {
      GENERICAPP_CLUSTERID
    };
    
    const SimpleDescriptionFormat_t GenericApp_SimpleDesc =
    {
      GENERICAPP_ENDPOINT,              //  int Endpoint;
      GENERICAPP_PROFID,                //  uint16 AppProfId[2];
      GENERICAPP_DEVICEID,              //  uint16 AppDeviceId[2];
      GENERICAPP_DEVICE_VERSION,        //  int   AppDevVer:4;
      GENERICAPP_FLAGS,                 //  int   AppFlags:4;
      GENERICAPP_MAX_CLUSTERS,          //  byte  AppNumInClusters;
      (cId_t *)GenericApp_ClusterList,  //  byte *pAppInClusterList;
      GENERICAPP_MAX_CLUSTERS,          //  byte  AppNumInClusters;
      (cId_t *)GenericApp_ClusterList   //  byte *pAppInClusterList;
    };
    
    endPointDesc_t GenericApp_epDesc;
    byte GenericApp_TaskID;   // Task ID for internal task/event processing
                              // This variable will be received when
                              // GenericApp_Init() is called.
    
    byte GenericApp_TransID;  // This is the unique message ID (counter)
    devStates_t GenericApp_NwkState;
    
    void GenericApp_MessageMSGCB ( afIncomingMSGPacket_t *pckt);
    void GenericApp_SendTheMessage( void);
    
    void GenericApp_Init(byte task_id)
    {
        GenericApp_TaskID                 = task_id;
        GenericApp_NwkState               = DEV_INIT;
        GenericApp_TransID                = 0;
        GenericApp_epDesc.endPoint        = GENERICAPP_ENDPOINT;
        GenericApp_epDesc.task_id         = &GenericApp_TaskID;
        GenericApp_epDesc.simpleDesc      =
                        (SimpleDescriptionFormat_t *)&GenericApp_SimpleDesc;
        GenericApp_epDesc.latencyReq      = noLatencyReqs;
        afRegister(&GenericApp_epDesc);
    }
    
    UINT16 GenericApp_ProcessEvent( byte task_id,  UINT16 events )
    {
        afIncomingMSGPacket_t *MSGpkt;
        if ( events & SYS_EVENT_MSG )
        {
            MSGpkt = (afIncomingMSGPacket_t *)osal_msg_receive(GenericApp_TaskID);
            while( MSGpkt )
            {
                switch ( MSGpkt->hdr.event )
                {
                case ZDO_STATE_CHANGE:
                  {
                       GenericApp_NwkState = (devStates_t)(MSGpkt->hdr.status);
                       if(GenericApp_NwkState == DEV_END_DEVICE)
                       {
                          GenericApp_SendTheMessage();
                       }
                       break;
                  }
                default:
                  break;
                }
                osal_msg_deallocate( (uint8 *)MSGpkt );
                MSGpkt = (afIncomingMSGPacket_t *)osal_msg_receive
                  (GenericApp_TaskID);
            }
            return  (events  ^ SYS_EVENT_MSG);
        }
        return  0;
    }
    
    void GenericApp_SendTheMessage( void )
    {
        unsigned char theMessageDate[4] = "LED";
        afAddrType_t my_DstAddr;
        my_DstAddr.addrMode = (afAddrMode_t)Addr16Bit;
        my_DstAddr.endPoint = GENERICAPP_ENDPOINT;
        my_DstAddr.addr.shortAddr = 0x0000;
        AF_DataRequest( &my_DstAddr,
                        &GenericApp_epDesc,
                        GENERICAPP_CLUSTERID,
                        3,
                        theMessageDate,
                        &GenericApp_TransID,
                        AF_DISCV_ROUTE,
                        AF_DEFAULT_RADIUS);
        HalLedBlink(HAL_LED_2,0,50,500);
    }

        选择CoodinatorEB,在Endevice.c上右键选择options,把Exclude from build  这个选项勾选 上;

        同样选择Endevice,让Coordinator.c不编译 。

        分别将两个程序下载到 两个不同的板子 上。先开启协调器的电源,这时候LED2的灯是 没有 闪烁的,再开启终端设备的电源 ,过几秒后后协调器 和终端设备的LED2会一同闪烁。

    文章结束给大家分享下程序员的一些笑话语录: 问答
    Q:你是怎么区分一个内向的程序员和一个外向的程序员的? A:外向的程序员会看着你的鞋和你说话时。
    Q:为什么程序员不能区分万圣节和圣诞节? A:这是因为 Oct 31 == Dec 25!(八进制的 31==十进制的 25)

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  • 原文地址:https://www.cnblogs.com/jiangu66/p/3074246.html
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