TT12-MCU/applications/alarmer.c
CSSC-WORK\murmur 841dbd5dec RS_485.c 更新parse算法,添加温度信息回传
alarmer.c 添加RTC启动也检查待传文件,并更新重试次数为0xFFFF
修复setManualWindow 存入-1实际写入255的bug
log2file.c 添加日期文件夹
2023-09-03 16:54:23 +08:00

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/*
* Copyright (c) 2006-2021, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2023-06-19 murmur the first version
*/
/*
** 程序清单:这是一个 RTC 设备使用例程
** 例程导出了 alarm_sample 命令到控制终端
** 命令调用格式alarm_sample
** 程序功能设置RTC时间创建闹钟模式每秒触发启动闹钟
**/
#include <rtthread.h>
#include <rtdevice.h>
#define LOG_TAG "alarm"
#define LOG_LVL LOG_LVL_DBG
#include <ulog.h>
void user_alarm_callback(rt_alarm_t alarm, time_t timestamp)
{
rt_kprintf("user alarm callback function.\n");
}
void alarm_sample(int argc, char *argv[])
{
rt_device_t dev = rt_device_find("rtc");
struct rt_alarm_setup setup;
struct rt_alarm * alarm = RT_NULL;
static time_t now;
struct tm p_tm;
if (alarm != RT_NULL)
return;
/* 获取当前时间戳,并把下一秒时间设置为闹钟时间 */
now = time(NULL) + 10;
gmtime_r(&now,&p_tm);
setup.flag = RT_ALARM_DAILY;
setup.wktime.tm_year = p_tm.tm_year;
setup.wktime.tm_mon = p_tm.tm_mon;
setup.wktime.tm_mday = p_tm.tm_mday;
setup.wktime.tm_wday = p_tm.tm_wday;
setup.wktime.tm_hour = atoi(argv[1]);//p_tm.tm_hour;
setup.wktime.tm_min = 0;//p_tm.tm_min;
setup.wktime.tm_sec = 0;//p_tm.tm_sec;
alarm = rt_alarm_create(user_alarm_callback, &setup);
if(RT_NULL != alarm)
{
rt_alarm_start(alarm);
LOG_D("alarm started.");
}
}
/* export msh cmd */
MSH_CMD_EXPORT(alarm_sample,alarm sample);
void poTT_callback(rt_alarm_t alarm, time_t timestamp)
{
LOG_I("power UP TT by RTC.");
timerIsReady();
setWindowMode();
initTT();
}
void pdTT_callback(rt_alarm_t alarm, time_t timestamp)
{
LOG_I("power DOWN TT by RTC.");
clearWindowMode();
deInitTT();
//预置开窗会更新多次尝试逻辑,未激活时会始终尝试
}
void poTT2_callback(rt_alarm_t alarm, time_t timestamp)
{
LOG_I("power UP TT by INTERVAL RTC");
timerIsReady();
initTT();
}
//每个开窗设置对应两个rtc闹钟一个上电一个下电
//更新开窗设置前需要先清空闹钟设置。可改为调用rt_alarm_control()修改。
static struct rt_alarm *alarm[4+1];//支持2组开窗共4个闹钟加一个定时发送闹钟
#ifndef al
void InitAlarm()
{
struct rt_alarm_setup setup;
static time_t now;
struct tm p_tm;
/* 获取当前时间戳,并把下一秒时间设置为闹钟时间 */
now = time(NULL);
gmtime_r(&now, &p_tm);
setup.flag = RT_ALARM_DAILY;//天重复
setup.wktime.tm_year = p_tm.tm_year;
setup.wktime.tm_mon = p_tm.tm_mon;
setup.wktime.tm_mday = p_tm.tm_mday;
setup.wktime.tm_wday = p_tm.tm_wday;
setup.wktime.tm_hour = 1; //整点
setup.wktime.tm_min = 0; //p_tm.tm_min;
setup.wktime.tm_sec = 0; //p_tm.tm_sec;
if (RT_NULL != alarm[0])
{
rt_alarm_delete(alarm[0]); //
}
alarm[0] = rt_alarm_create(poTT_callback, &setup);
setup.wktime.tm_hour = 2; //开窗1闭合点
if (RT_NULL != alarm[1])
{
rt_alarm_delete(alarm[1]); //
}
alarm[1] = rt_alarm_create(pdTT_callback, &setup);
setup.wktime.tm_hour = 7; //开窗2开启点
if (RT_NULL != alarm[2])
{
rt_alarm_delete(alarm[2]); //
}
alarm[2] = rt_alarm_create(poTT_callback, &setup);
setup.wktime.tm_hour = 8; //开窗2闭合点
if (RT_NULL != alarm[3])
{
rt_alarm_delete(alarm[3]); //
}
alarm[3] = rt_alarm_create(pdTT_callback, &setup);
setup.flag = RT_ALARM_HOUR;//小时重复
setup.wktime.tm_min = 15; //每小时的1刻钟启动发送
if (RT_NULL != alarm[4])
{
rt_alarm_delete(alarm[4]); //
}
alarm[4] = rt_alarm_create(poTT2_callback, &setup);
for (size_t var = 0; var < 5; var++) {
if (alarm[var] != RT_NULL) {
rt_alarm_start(alarm[var]);
// LOG_D("alarm %d(%02d:%02d) started.",var+1,alarm[var]->wktime.tm_hour+8,alarm[var]->wktime.tm_min);
}
else {
LOG_E("Failed to start alarm %d.",var+1);
}
}
}
#else
void updateAlarm(uint8_t *t, size_t len);
void InitAlarm()
{
updateAlarm(scfg.openWindowTime, 8);
}
#endif
INIT_APP_EXPORT(InitAlarm);
/**
* 更新rtc闹钟
* @param t 每个rtc时刻组成的数组依次对应开窗时段的开始和结束
*/
void updateAlarm(uint8_t *t, size_t len)
{
// LOG_HEX("alarm",16,t,4);
static struct rt_alarm_setup setup;
static time_t now;
struct tm p_tm;
/* 获取当前时间戳,并把下一秒时间设置为闹钟时间 */
now = time(NULL);
gmtime_r(&now, &p_tm);
setup.flag = RT_ALARM_DAILY;//天重复
setup.wktime.tm_year = p_tm.tm_year;
setup.wktime.tm_mon = p_tm.tm_mon;
setup.wktime.tm_mday = p_tm.tm_mday;
setup.wktime.tm_wday = p_tm.tm_wday;
// setup.wktime.tm_hour = 1; //整点
setup.wktime.tm_min = 0; //p_tm.tm_min;
setup.wktime.tm_sec = 0; //p_tm.tm_sec;
setup.wktime.tm_hour = t[0]; //开窗1开启点
setup.wktime.tm_min = t[1]; //开窗1开启点
// if (RT_NULL != alarm[0])
// {
// rt_alarm_delete(alarm[0]); //
// }
// alarm[0] = rt_alarm_create(poTT_callback, &setup);
rt_alarm_control(alarm[0], RT_ALARM_CTRL_MODIFY, &setup);
setup.wktime.tm_hour = t[2]; //开窗1闭合点
setup.wktime.tm_min = t[3]; //开窗1开启点
// if (RT_NULL != alarm[1])
// {
// rt_alarm_delete(alarm[1]); //
// }
// alarm[1] = rt_alarm_create(pdTT_callback, &setup);
rt_alarm_control(alarm[1], RT_ALARM_CTRL_MODIFY, &setup);
setup.wktime.tm_hour = t[4]; //开窗2开启点
setup.wktime.tm_min = t[5]; //开窗2开启点
// if (RT_NULL != alarm[2])
// {
// rt_alarm_delete(alarm[2]); //
// }
// alarm[2] = rt_alarm_create(poTT_callback, &setup);
rt_alarm_control(alarm[2], RT_ALARM_CTRL_MODIFY, &setup);
setup.wktime.tm_hour = t[6]; //开窗2闭合点
setup.wktime.tm_min = t[7]; //开窗2开启点
// if (RT_NULL != alarm[3])
// {
// rt_alarm_delete(alarm[3]); //
// }
// alarm[3] = rt_alarm_create(pdTT_callback, &setup);
rt_alarm_control(alarm[3], RT_ALARM_CTRL_MODIFY, &setup);
for (size_t var = 0; var < 4; var++) {
if (alarm[var] != RT_NULL) {
rt_alarm_start(alarm[var]);
// LOG_D("alarm %d started.",var+1);
LOG_D("alarmer %d(%02d:%02d) started.",var+1,alarm[var]->wktime.tm_hour+8,alarm[var]->wktime.tm_min);
}
else {
LOG_E("Failed to start alarm %d.",var+1);
}
}
// rt_alarm_control(alarm[0],RT_ALARM_CTRL_MODIFY,&setup);
}
/**
* 关闭rtc闹钟
*/
void stopAlarm()
{
for (size_t var = 0; var < 4; var++) {
if (alarm[var] != RT_NULL) {
rt_alarm_stop(alarm[var]);
LOG_D("alarm %d stopped.",var+1);
}
else {
LOG_E("Failed to stop alarm %d.",var+1);
}
}
}
/**
* 恢复rtc闹钟
*/
void startAlarm()
{
for (size_t var = 0; var < 4; var++) {
if (alarm[var] != RT_NULL) {
rt_alarm_start(alarm[var]);
LOG_D("alarm %d started.",var+1);
}
else {
LOG_E("Failed to start alarm %d.",var+1);
}
}
}
/**
* check if in the WINs zone
* @return 1-in,0-not in
*/
int isInWindowZone()
{
struct timeval tv;
gettimeofday(&tv, NULL);
time_t now = (long) tv.tv_sec;
// LOG_D("now = %ld", now);
struct tm *alBegin = &alarm[0]->wktime;
alBegin->tm_hour += 8;
time_t tBegin = mktime(alBegin);
struct tm *alEnd = &alarm[1]->wktime;
alEnd->tm_hour += 8;
time_t tEnd = mktime(alEnd);
// LOG_D("%ld-%ld", (long)tBegin,(long)tEnd);
uint8_t isIn1 = (now > tBegin && now < tEnd);
alBegin = &alarm[2]->wktime;
alBegin->tm_hour += 8;
tBegin = mktime(alBegin);
alEnd = &alarm[3]->wktime;
alEnd->tm_hour += 8;
tEnd = mktime(alEnd);
// LOG_D("%ld-%ld", (long)tBegin,(long)tEnd);
uint8_t isIn2 = (now > tBegin && now < tEnd);
if (isIn1 || isIn2)
{
LOG_I("is in window zone.");
return 1;
}
else {
return 0;
}
}
//读取系统毫秒级时间
//long getCurrentTime()
//
//{
//
//struct timeval tv;
//
//gettimeofday(&tv,NULL);
//
//LOG_D("ms=%lld", tv.tv_sec * 1000 + tv.tv_usec / 1000);
//
//LOG_D("Current time: %ld.%06ld\n", tv.tv_sec, tv.tv_usec);
//
//}
MSH_CMD_EXPORT(stopAlarm,stop);
MSH_CMD_EXPORT(startAlarm,start);
MSH_CMD_EXPORT(isInWindowZone,isInWindow);
//MSH_CMD_EXPORT(getCurrentTime,getCurrentTime);