feng wang
test
Dependencies: mbed-STM32F103C8T6 mbed-rtos mbed-dev
main.cpp
- Committer:
- hankzhang
- Date:
- 2020-04-21
- Revision:
- 7:155d5b6a416f
- Parent:
- 6:a9cc2c424cf9
- Child:
- 8:a32b83084287
File content as of revision 7:155d5b6a416f:
#include "mbed.h"
#include "stm32f103c8t6.h"
#include "string.h"
#include "main.h"
#include "stdio.h"
#include "stdlib.h"
DigitalOut MOTOA1(PB_4);
DigitalOut MOTOB1(PB_5);
DigitalOut MOTOA2(PB_8);
DigitalOut MOTOB2(PB_9);
AnalogIn SensorCurrent(PA_0);
void motor1_move(uint8_t dir);
void motor2_move(uint8_t dir);
void system_init();
uint8_t sensor_cnt,cal_cnt, cal_cnt2, cur_cnt, tar_cnt;
//uint8_t dir;
float sense_value;
uint8_t ov_flag, init_flag, motor1_ready_flag, motor2_ready_flag, sensor_flag, ready_flag;
uint8_t open_flag,close_flag;
float m_val = 0;
#define MAX_LENGTH_STEPS 55
#define MIN_LENGTH_STEPS 10
#define MOVING_UP 1
#define MOVING_DOWN 2
#define MOVING_FORWARD 1
#define MOVING_BACKWARD 2
#define STOP 0
//---------------------------------------------------
DigitalOut led1(PC_13);
//Serial pc(PB_10,PB_11);
UARTSerial *_serial;
UARTSerial debug_uart(PB_10, PB_11, 115200);
UARTSerial wifi_uart(PA_2, PA_3, 115200);
//Serial wifi_uart(PA_2, PA_3, 115200);
//Serial debug_uart(PB_10, PB_11, 115200);
char rxBuf[32];
char wifi_rxBuf[32]; //receive msg from xiaomi cloud
short g_isCloud = 0; //flag for connected xiaomi cloud
//char set_property[] = {"down set_properties "}
//char get_property[] = {"down get_properties "}
int i = 0;
//---------------------------------------------------
ATCmdParser *_parser;
void sensor_capture_cb(void){
sensor_cnt++;
cur_cnt++;
}
void Power_thread(){/*detect current*/
char len[50];
while(true){
Thread::wait(500); /*unit millisec*/
sense_value = SensorCurrent.read();
if((sense_value>0.5)&&sensor_flag){
sprintf(len, "Power_thread: sense_value = %0.4f > 0.5 \r\n", sense_value);
debug_uart.write(len, sizeof(len));
ov_flag = 1;
}
}
}
void Motor1_thread()
{
/*detect current*/
char len[50];
while(true){
Thread::wait(300); /*unit millisec*/
if(!init_flag){
while(1){
if(motor2_ready_flag){break;}else{
wait(1);
debug_uart.write("Motor1_thread: -------------------------------\r\n",48);
}
}
motor2_ready_flag = 0;
sensor_cnt = 0;
motor1_move(MOVING_FORWARD);
wait(1);
sensor_flag = 1; /*enable current monitoring*/
while(!ov_flag)
{
debug_uart.write("Motor1_thread: waiting for ov_flag = 1 \r\n",41);
wait(1);
}
motor1_move(STOP);
//debug_uart.printf("overcurrent detected \r\n");
ov_flag = 0;
motor2_ready_flag = 0;
cal_cnt = sensor_cnt;
//debug_uart.printf("calibration done \r\n");
sprintf(len, "Motor1_thread: calibrated cnt is %d \r\n", cal_cnt);
debug_uart.write(len, sizeof(len));
wait(1);
//debug_uart.printf("back to origianl position, motor1_ready_flag = 1\r\n");
motor1_ready_flag = 1;
while(1){
if(motor2_ready_flag)
{
break;
}
else
{
wait(1);
debug_uart.write("Motor1_thread: -------------------------------\r\n",48);
}
}
motor2_ready_flag = 0;
sensor_cnt = 0;
//sensor_flag = 0;
motor1_move(MOVING_BACKWARD);
sprintf(len, "Motor1_thread: target position is %d\r\n", cal_cnt-10);
debug_uart.write(len, sizeof(len));
while(1){
//if((sensor_cnt>(cal_cnt-5))||ov_flag){break;}else{wait_ms(10);}
if(sensor_cnt>(cal_cnt-5)){break;}else{wait_ms(10);}
}
motor1_move(STOP);
#if 0
if(ov_flag){
debug_uart.write("Motor1_thread: over current happens\r\n",37);
cal_cnt2 = sensor_cnt;
sprintf(len, "Motor1_thread: cal_cnt2 = %d\r\n", cal_cnt2);
debug_uart.write(len, sizeof(len));
sensor_cnt = 0;
ov_flag = 0;
}else{
sprintf(len, "Motor1_thread: arrive position %d \r\n", sensor_cnt);
debug_uart.write(len, sizeof(len));
}
#endif
sprintf(len, "Motor1_thread: arrive position %d \r\n", sensor_cnt);
debug_uart.write(len, sizeof(len));
wait(1);
motor1_ready_flag = 1;
debug_uart.write("Motor1_thread: motor1 thread done\r\n", 35);
}
}
}
void Motor2_thread()
{
/*detect current*/
uint8_t sta1,sta2;
DigitalIn Stopper1(PA_13);
DigitalIn Stopper2(PA_15);
char len[50];
while(true){
Thread::wait(300); /*unit millisec*/
if(!init_flag){
wait(1);
debug_uart.write("Motor2_thread: motor2 move up\r\n", 31);
motor2_move(MOVING_UP);
while(Stopper1){;}
motor2_move(STOP);
debug_uart.write("Motor2_thread: Up stopper triggered \r\n",38);
motor2_ready_flag = 1;
wait(1);
while(1){
if(motor1_ready_flag){break;}else{
wait(1);debug_uart.write("Motor2_thread: --------------------------------- \r\n",51);
}
}
motor1_ready_flag = 0;
motor2_move(MOVING_DOWN);
while(Stopper2){;}
motor2_move(STOP);
debug_uart.write("Motor2_thread: Down stopper triggered \r\n", 40);
motor2_ready_flag = 1;
while(1){
if(motor1_ready_flag){break;}else{
wait(1);debug_uart.write("Motor2_thread: --------------------------------- \r\n",51);
}
}
debug_uart.write("Motor2_thread: motor2 move to center\r\n",38);
ov_flag = 0;
ready_flag = 1;
motor2_move(MOVING_UP);
wait(2.3);
motor2_move(STOP);
ready_flag = 0;
debug_uart.write("Motor2_thread: motor2 thread done\r\n",35);
sprintf(len, "Main_thread: mean current is =%2.4f \r\n", m_val);
debug_uart.write(len, sizeof(len));
init_flag = 1;
}
}
}
void led1_thread() {
int length;
char len[20];
char l;
int position = 0;
int error = 0;
while (true)
{
wifi_uart.write("get_down\r", 9);
if(wifi_uart.readable())
{
length = wifi_uart.read(wifi_rxBuf, sizeof(wifi_rxBuf));
if(!(strncmp(wifi_rxBuf,"down none",9)))
{
//if return "down none"
debug_uart.write("--- none",8);
}
else if(!(strncmp(wifi_rxBuf,"down set_properties ",20)))
{
//if return "down set_properties"
debug_uart.write("--- set:", 8);
debug_uart.write(wifi_rxBuf, length);
//set properties
if(wifi_rxBuf[22] == '7')
{
//set target-position
position = atoi(&wifi_rxBuf[24]);
sprintf(len, "position:%d", position);
debug_uart.write(len, sizeof(len));
}
//report result to cloud
wifi_uart.write("result 2 7 0\r", 13);
if(wifi_uart.readable())
{
length = wifi_uart.read(wifi_rxBuf, sizeof(wifi_rxBuf));
debug_uart.write(wifi_rxBuf, length);
}
}
else if(!(strncmp(wifi_rxBuf,"down get_properties ",20)))
{
//if return "down get_properties"
debug_uart.write("--- get:", 8);
debug_uart.write(wifi_rxBuf, length);
//report result to cloud
}
else if(!(strncmp(wifi_rxBuf,"down MIIO_net_change ",21)))
{
//if return "down MIIO_net_change"
debug_uart.write(wifi_rxBuf, length);
debug_uart.write("--- net:",8);
if((!strncmp(&wifi_rxBuf[21], "offline", 7)))
{
//连接中
debug_uart.write("offline\r", 8);
}
else if((!strncmp(&wifi_rxBuf[21], "local", 5)))
{
//连上路由器但未连上服务器
debug_uart.write("local\r", 6);
}
else if((!strncmp(&wifi_rxBuf[21], "cloud", 5)))
{
//连上小米云服务器
debug_uart.write("cloud\r", 6);
g_isCloud = 1;
}
}
else
{
debug_uart.write(wifi_rxBuf, length);
}
}
thread_sleep_for(400);
}
}
void led0_thread() {
int length;
while (1) {
if(debug_uart.readable())
{
length = debug_uart.read(rxBuf, sizeof(rxBuf));
debug_uart.write(rxBuf, length);
wifi_uart.write(rxBuf, length);
debug_uart.write("111\r",4);
}
if(wifi_uart.readable())
{
length = wifi_uart.read(rxBuf, sizeof(rxBuf));
debug_uart.write(rxBuf, length);
debug_uart.write("222\r",4);
}
wait(0.5);
}
}
void motor1_move(uint8_t dir){/*main motor*/
if(dir==1){/*forward*/
MOTOA1 = 0;
MOTOB1 = 1;
}else if(dir==2){/*backward*/
MOTOA1 = 1;
MOTOB1 = 0;
}else{ /*stop*/
MOTOA1 = 0;
MOTOB1 = 0;
}
}
void motor2_move(uint8_t dir){/*assistant motor*/
if(dir==1){/*up*/
MOTOA2 = 0;
MOTOB2 = 1;
}else if(dir==2){/*down*/
MOTOA2 = 1;
MOTOB2 = 0;
}else{ /*stop*/
MOTOA2 = 0;
MOTOB2 = 0;
}
}
void system_init()
{
MOTOA1 = 0;
MOTOB1 = 0;
MOTOA2 = 0;
MOTOB2 = 0;
init_flag = 0;
motor1_ready_flag = 0;
motor2_ready_flag = 0;
sense_value = 0;
sensor_flag = 0;
ready_flag = 0;
debug_uart.write("*******************************\r\n",33);
debug_uart.write("**********LAIWU TECH***********\r\n",33);
debug_uart.write("*******************************\r\n",33);
debug_uart.write("system init done, wait 3 seconds to start\r\n",43);
wait(3);
}
int main() {
int length;
led1 = 1;
debug_uart.write("hello world",11);
WIFI_PWREN = 1;
wait(3);
system_init();
InterruptIn Hall1(PA_14);
//InterruptIn Hall2(PB_3);
Hall1.fall(callback(sensor_capture_cb)); // Attach ISR to handle button press event
//Hall2.fall(callback(sensor_capture_cb)); // Attach ISR to handle button press event
debug_uart.write("Hall sensor init done\r\n", 23);
//Thread thread0(osPriorityNormal, 512, nullptr, nullptr);
Thread thread1(osPriorityNormal, 512, nullptr, nullptr);
//Thread thread2(osPriorityNormal, 512, nullptr, nullptr);
Thread thread2(osPriorityNormal, 512, nullptr, nullptr); /*check the real-time current*/
//debug_uart.printf("thread1~~~~~~~~~~~~~~~~\r\n");
Thread thread3(osPriorityNormal, 512, nullptr, nullptr); /*check the real-time current*/
//debug_uart.printf("thread2~~~~~~~~~~~~~~~~\r\n");
Thread thread4(osPriorityNormal, 512, nullptr, nullptr); /*check the real-time current*/
//debug_uart.printf("thread3~~~~~~~~~~~~~~~~\r\n");
debug_uart.write("four threads created\r\n",22);
//thread0.start(led0_thread);
thread1.start(led1_thread);
thread2.start(Power_thread);
thread3.start(Motor1_thread);
thread4.start(Motor2_thread);
while(1)
{
debug_uart.write("--main--\r\n",10);
if(g_isCloud)
{
debug_uart.write("connect to xiaomi cloud\r\n",25);
}
if(ready_flag){
m_val += sense_value;
if(sense_value>0.5){
motor2_move(STOP);
}
}
wait(3);
}
}