TT12-MCU/applications/getinfo.c

#include <rtthread.h>
//#include <../packages/webclient-v2.2.0/inc/webclient.h>
#include <webclient.h>

#define LOG_TAG "getinfo"
#define LOG_LVL  LOG_LVL_DBG
#include <ulog.h>

//#define HTTP_GET_URL "http://www.rt-thread.com/service/rt-thread.txt"
#ifndef TT_IP
#define TT_IP "http://10.10.10.72:4005"
#endif
#define TT_SIM TT_IP "/action/webGetSIMState"//SIM
#define TT_XH TT_IP "/action/webGetTDSignal"//信号值
#define TT_RW TT_IP "/action/webGetTdState"//入网
#define TT_JH TT_IP "/action/webGetPSState"//激活
#define TT_DW TT_IP "/action/webGetBDGPS"//定位
//http://192.168.0.232:4005/action/webGetSIMState webGetBDGPS
#define MAX_LEN 15
#include <cJSON.h>
#include <finsh.h>
#include <usrcfg.h>
//#include <stdio.h>
//#include <stdlib.h> //用于strtod函数
//#include <string.h>

char *infoH[] = { TT_SIM, TT_XH, TT_RW, TT_JH, TT_DW};
//typedef struct
//{
//    rt_uint8_t cnt;
//    rt_uint8_t s;
//} CFG;

typedef struct
{
    char sim[MAX_LEN]; // SIM
    char xh[MAX_LEN]; // SIM
    char rw[MAX_LEN]; // SIM
    char jh[MAX_LEN]; // SIM
    char jd[MAX_LEN]; // SIM
    char wd[MAX_LEN]; // SIM
    char ele[MAX_LEN]; // SIM
//    rt_uint8_t sim; // SIM
//    rt_uint8_t xh;  // 信号值
//    rt_uint8_t rw;  // 入网
//    rt_uint8_t jh;  // 激活
//    char *jd;  // 经度
//    char *wd;  // 纬度
//    char *ele;  // 高度
}TT;

TT tmp={.sim="0",.xh="0",.jh="0",.jd=":0.000000",.wd=":0.000000",.ele=":0.000000"};
//memset(&tmp,0x00,sizeof(TT));
TT *TTinfo=&tmp;
static rt_tick_t bootstamp=0;

//rt_memset(TTinfo,0,sizeof(TT));
//TT *TTinfo=RT_NULL;
//TTinfo =  rt_malloc(sizeof(TT));
/**
 * @description: 将TT结构体转换为数组
 * @param {TT} *TTinfo TT结构体
 * @param {rt_uint8_t} *buffer 存储转换结果
 * @return {*} buffer大小
 */
rt_uint8_t info2HEX(TT *TTinfo, rt_uint8_t *buffer)
{
    //    功能：将tt数据转换为9字节HEX数据并返回，存在data
    //    第1节为高3位分别为sim、rw和jh，其余位为xh，xh值若大于31则为31（31=b0001 1111）
    //    第2-5字节为经度。114.410050= 0xF2 0xD1 0xE4 0x42
    //    第6-9字节为纬度。30.426840= 0x2B 0x6A 0xF3 0x41
    //    第10字节为高度，只保留整数。-31.5= 0x0A
    rt_uint8_t tmp = (atoi(TTinfo->sim) << 7) + (atoi(TTinfo->rw) << 6) + (atoi(TTinfo->jh) << 5)
            + (atoi(TTinfo->xh) > 31 ? 31 : atoi(TTinfo->xh)); // 位操作

    char *jd_c = &TTinfo->jd[2]; // 从第二位开始取，去除非数字字符
    char *wd_c = &TTinfo->wd[2];
    float jd_f = strtod(jd_c, NULL); // 字符转浮点
    float wd_f = strtod(wd_c, NULL);
    rt_int8_t ele_f = atoi(TTinfo->ele);

//    printf("jd--%f\nwd--%f\nele--   %d \n", jd_f, wd_f, ele_f);

    rt_uint8_t offset = 0;
    memcpy(buffer + offset, &tmp, 1);
    offset += 1;
    memcpy(buffer + offset, &jd_f, sizeof(float));
    offset += sizeof(float);
    memcpy(buffer + offset, &wd_f, sizeof(float));
    offset += sizeof(float);
    memcpy(buffer + offset, &ele_f, sizeof(rt_int8_t));
    offset += sizeof(rt_int8_t);

    return offset;
}



static int minTTPeriCnt=5;
static int minTTsinal=5;
static int minActiveTime=0;
static int maxActiveTime=0;
//extern struct rt_event sw_check;//软件条件
extern void upTTflag(void);
static void updatecfg()
{
    minTTsinal = get_cfg("minTTsinal");
    minTTPeriCnt = get_cfg("minTTPeriCnt");
    minActiveTime = get_val("minActiveTime");
    maxActiveTime = get_val("maxActiveTime");
    LOG_D("加载参数完成");
}
void initcfg()
{
    updatecfg();
    bootstamp = rt_tick_get_millisecond();
}

/**
 * 更新统计信息
 */
static void updateSta()
{
    uint16_t v = (rt_tick_get_millisecond()-bootstamp)/1000;//转换为秒
    LOG_I("耗时%dS.",v);
    if ((minActiveTime ==0) | (minActiveTime > v)) {
        minActiveTime = v;
        set_val("minActiveTime", v);
    }
    if (v>maxActiveTime) {
        maxActiveTime=v;
        set_val("maxActiveTime", v);
    }
}

/**
 * 按规则检查TT状态
 */
static void rulecheck(void)
{
    //默认为 TT连续5个周期为激活状态且信号强度不低于5。
    //满足加1，不满足清零
    static rt_uint16_t okCnt=0;
    if (!okCnt) {
        LOG_I("当前规则为：连续%d个采集周期TT信号质量不低于%d",minTTPeriCnt,minTTsinal);
    }

    if (atoi(TTinfo->sim) & !(atoi(TTinfo->xh) < minTTsinal) ) {//
        okCnt += 1;
        LOG_D("第%d次符合规则。",okCnt);
    }
    else {
        okCnt = 0;
        LOG_W("不符合。");
        return;
    }
    if (okCnt >= minTTPeriCnt) {
        //TT具备发送条件
//        rt_event_send(&sw_check, TT_IS_OK);
        upTTflag();
        LOG_D("符合规则，TT具备发送状态。");
//        updateSta();
        okCnt = minTTPeriCnt -1;
    }
//    if (okCnt > minTTPeriCnt) {
//        //TT具备发送条件
////        rt_event_send(&sw_check, TT_IS_OK);
//        upTTflag();
//        okCnt = 2;
//        LOG_I("符合规则，TT具备发送状态。");
////        updateSta();
//    }


}
/* 数据解析 */
static void tt_parse(rt_uint8_t *data)
{
    extern TT *TTinfo;
    cJSON *root = RT_NULL, *object = RT_NULL, *item = RT_NULL;

    root = cJSON_Parse((const char *) data);
    if (!root)
    {
        rt_kprintf("No memory for cJSON root!\n");
        return;
    }
    object = cJSON_GetObjectItem(root, "data");

    item = cJSON_GetObjectItem(object, "tdsignal");
    if (item)
    {
//        TTinfo->xh = atoi(item->valuestring);
//        tmp.xh = item->valuestring;
        strcpy(TTinfo->xh,item->valuestring);
//        rt_kprintf("\nxh:%s ", item->valuestring);
//                rt_kprintf("\nxh:%s ", TTinfo->xh);
        cJSON_Delete(root);
        return RT_EOK;
    }

    item = cJSON_GetObjectItem(object, "tdnetregstate");
    if (item)
    {
//        TTinfo->rw = atoi(item->valuestring);
//                rt_kprintf("\nrw:%s ", TTinfo.rw);
        strcpy(TTinfo->rw,item->valuestring);
        cJSON_Delete(root);
        return RT_EOK;
    }

    item = cJSON_GetObjectItem(object, "tdpsstate");
    if (item)
    {
//        TTinfo->jh = atoi(item->valuestring);
//                rt_kprintf("\njh:%s ", TTinfo.jh);
        strcpy(TTinfo->jh,item->valuestring);
        cJSON_Delete(root);
        return RT_EOK;
    }

    item = cJSON_GetObjectItem(object, "latitude");
    if (item)
    {
//        TTinfo->wd = item->valuestring;
        strcpy(TTinfo->wd,item->valuestring);

        item = cJSON_GetObjectItem(object, "longitude");
//        TTinfo->jd = item->valuestring;
        strcpy(TTinfo->jd,item->valuestring);

        item = cJSON_GetObjectItem(object, "elevation");
//        TTinfo->ele = item->valuestring;
        strcpy(TTinfo->ele,item->valuestring);
//        rt_kprintf("%5s%5s%5s%5s%15s%15s%10s\n", TTinfo->sim, TTinfo->xh, TTinfo->rw,
//                TTinfo->jh, TTinfo->jd, TTinfo->wd,TTinfo->ele);

        LOG_D("Get RAW data done.");
        cJSON_Delete(root);
        return RT_EOK;
    }

    item = cJSON_GetObjectItem(object, "tdsimstate");
    if (item)
    {
//        TTinfo->sim = atoi(item->valuestring);
//        tmp.sim = item->valuestring;
        strcpy(TTinfo->sim,item->valuestring);
//                rt_kprintf("\nSIM:%s \n", TTinfo->sim);
        cJSON_Delete(root);
        return RT_EOK;
    }

    if (root != RT_NULL)
        cJSON_Delete(root);
}

/* HTTP client download data by GET request */
static int webclient_get_data(const char *url)
{
    static unsigned char *buffer = RT_NULL;
    size_t length = 0;

    if (webclient_request(url, RT_NULL, RT_NULL, 0, (void **) &buffer, &length) < 0)
    {
        LOG_E("TT server is not ready.");
        return -RT_ERROR;
    }

        LOG_D("webclient GET request response data :");
        LOG_D("%s", buffer);

    tt_parse(buffer);
    if (buffer)
    {
        web_free(buffer);
    }

    return RT_EOK;
}

void getTTinfo_thread_entry(void* parameter)
{
//    bootstamp = rt_tick_get();

    CFG* cfg = RT_NULL;
    cfg = (CFG*) parameter;
//    TT TTinfo;

    rt_uint8_t var = 0, isize = 0, i = 0;
    isize = sizeof(infoH) / sizeof(infoH[0]);
    rt_kprintf("\n%10s%s\n", " ", "↓---------getTT START.--------↓");
    rt_kprintf("%5s%5s%5s%5s%15s%15s%10s\n", "SIM", "xh", "rw", "jh", "N", "E", "ele");
    for (i = 0; i < cfg->cnt; ++i) //按指定次数轮询
    {
        for (var = 0; var < isize; var++) //轮询每个参数
        {
            static char *url = RT_NULL;
            url = web_strdup(*(infoH + var));
            if (url == RT_NULL)
            {
                LOG_E("no memory for create getTT url buffer.\n");
//                return -RT_ENOMEM;
            }
            if (webclient_get_data(url) != RT_EOK)
            {
                break;
            }
            web_free(url);
            rt_thread_mdelay(100);
        }
        rulecheck();
        rt_kprintf("%5s%5s%5s%5s%15s%15s%10s\n", TTinfo->sim, TTinfo->xh, TTinfo->rw, TTinfo->jh, TTinfo->jd,
                TTinfo->wd, TTinfo->ele);
        if (i != cfg->cnt - 1) //最后一次采集不延时
        {
            rt_thread_mdelay(cfg->s * 1000);
        }
    }
    rt_kprintf("%10s%s\n", " ", "↑---------getTT DONE.---------↑");
}

void getTT(int argc, char **argv)
{
//    size_t cnt = 0, s=3;//次数、间隔
    static CFG cfg;
    memset(&cfg, 0, sizeof(CFG));
    if (argc == 1)
    {
        cfg.cnt = 1;
        cfg.s = 3;
    }
    else if (argc == 2)
    {
        cfg.cnt = atoi(argv[1]);
        cfg.s = 3;
    }
    else if (argc == 3)
    {
        cfg.cnt = atoi(argv[1]);
        cfg.s = atoi(argv[2]);
    }

//    LOG_D("cnt-%d",cfg.cnt);
//        LOG_D("s-%d",cfg.s);

    /* 创建 serial 线程 */
    rt_thread_t thread = rt_thread_create("getTT", getTTinfo_thread_entry, (void *) &cfg, 1024 * 3, 25, 10);
    /* 创建成功则启动线程 */
    if (thread != RT_NULL)
    {
        rt_thread_startup(thread);
//            rt_kprintf("done");
    }
    else
    {
        LOG_E("thread 'getTT' create failure.");
        return RT_ERROR;
    }

//    struct rt_thread infoTT_thread;
//    ALIGN(RT_ALIGN_SIZE)
//    static char thread2_stack[1024*3];
//    rt_thread_init(&infoTT_thread, "getTT", getTTinfo_thread_entry, (void *) &cfg, &thread2_stack[0], sizeof(thread2_stack), 25, 10);
//    rt_thread_startup(&infoTT_thread);
}

/* 导出到自动初始化 */
MSH_CMD_EXPORT(getTT, 获取天通信息，支持参数。 "getTT 3 1" means try 3 times with 1 second interval.);
//MSH_CMD_EXPORT_ALIAS(webclient_get_data, gTTinfo, GET info of TT server.);