test
Dependencies: mbed-STM32F103C8T6 mbed-rtos mbed-dev
Revision 11:9dc8bbb8dda3, committed 2020-05-06
- Comitter:
- bbw
- Date:
- Wed May 06 10:03:17 2020 +0000
- Parent:
- 10:ef9fa7e34eff
- Commit message:
- test only;
Changed in this revision
--- a/main.cpp Tue May 05 11:15:56 2020 +0000 +++ b/main.cpp Wed May 06 10:03:17 2020 +0000 @@ -5,123 +5,162 @@ #include "stdlib.h" #include "rtos.h" -DigitalOut led1(PC_13); +#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 +#define DEBOUNCE 4 /*4*20ms*/ -RawSerial debug_uart(PB_10, PB_11, 115200); -RawSerial wifi_uart(PA_2, PA_3, 115200); +DigitalOut MOTOA1(PB_4); +DigitalOut MOTOB1(PB_5); -Timer timer; +DigitalOut MOTOA2(PB_8); +DigitalOut MOTOB2(PB_9); + +AnalogIn SensorCurrent(PA_0); -char rxBuf[32]; -char wifi_rxBuf[32]; //receive msg from xiaomi cloud -short g_isCloud = 0; //flag for connected xiaomi cloud +void motor1_move(uint8_t dir); +void motor2_move(uint8_t dir); + +uint8_t sensor_cnt,cal_cnt, cur_cnt, tar_cnt, pre_sensor_cnt; +float sense_value; +uint8_t ov_flag, init_flag; +uint8_t open_flag,close_flag; -//char set_property[] = {"down set_properties "} -//char get_property[] = {"down get_properties "} -int i = 0; -//--------------------------------------------------- +#if 1 /*WIFI related*/ +DigitalOut led1(PC_13); +Serial debug_uart(PB_10, PB_11, 115200); +Serial wifi_uart(PA_2, PA_3, 115200); +Timer timer; /*used by led0_thread*/ +string a(""); /*reserved*/ +string b(""); /*used by led0_thread*/ +char g_isCloud = 0; //flag for connected xiaomi cloud +#endif -string a(""); -string b(""); - +Timer timer_m; int flag = 0; -#if 0 -void led1_thread(void const *argument) { - - while (true) - { - wifi_uart.printf("get_down\r\n"); - while(1){ - if(wifi_uart.readable()) - { - char ch2 = wifi_uart.getc(); - //f((ch2=='\n')||(ch2=='\r')) - if(ch2=='\r') - { - debug_uart.printf("got string from wifi uart: '%s' \r\n", b.c_str()); - if(!strncmp(b.c_str(),"down none",9)) - { - //debug_uart.printf("--- none\r\n"); - } - if(!(strncmp(b.c_str(),"down set_properties",19))) - { - debug_uart.printf("--- set_properties\r\n"); - wifi_uart.printf("result 2 7 0\r\n"); - } - if(!(strncmp(b.c_str(),"down get_properties",19))) - { - debug_uart.printf("--- get_properties\r\n"); - //wifi_uart.printf("result 2 7 0\r\n"); - } - if(!strncmp(b.c_str(),"down MIIO_net_change",20)) - { - if((!strncmp(b.c_str()+21, "offline", 7))) - { - debug_uart.printf("offline\r\n"); - } - if((!strncmp(b.c_str()+21, "local", 5))) - { - debug_uart.printf("local\r\n"); - } - if((!strncmp(b.c_str()+21, "cloud", 5))) - { - debug_uart.printf("cloud\r\n"); - } - } - b.clear(); - break; - }else{ - b += ch2; - } - } - } - //wait_ms(400); +void Power_thread(void const *argument){/*detect current*/ + char i = 0; + while(true){ + Thread::wait(200); /*unit millisec*/ + sense_value = SensorCurrent.read(); + //debug_uart.printf("dfdfdfdfddfdf\r\n"); + if(sense_value>0.5){ + debug_uart.printf("Power_thread: sense_value = %0.4f > 0.5 \r\n", sense_value); + i++; + if(i>1){ + ov_flag = 1; + } + }else{ + i = 0; + } + } +} + +char CheckStopper(int ch){ + DigitalIn Stopper1(PA_13); + DigitalIn Stopper2(PA_15); + timer_m.reset(); + char i = 0; + while(ch == MOVING_UP){ + if(!Stopper1){i++;}; + if(i>DEBOUNCE){break;} + if(timer_m.read_ms()>5000){return 1;} + wait_ms(20); } + while(ch == MOVING_DOWN){ + if(!Stopper2){i++;}; + if(i>DEBOUNCE){break;} + if(timer_m.read_ms()>5000){return 1;} + wait_ms(20); + } + return 0; } -#endif - -#if 0 -void led0_thread(void const *argument) { - while (1) { - if(debug_uart.readable()){ - char ch1 = debug_uart.getc(); - if(ch1=='\n'){ - debug_uart.printf("sent string to wifi uart: '%s' \r\n", a.c_str()); - wifi_uart.printf("%s\r\n",a.c_str()); - a.clear(); - }else{ - a += ch1; - } - } - if(wifi_uart.readable()) - { - char ch2 = wifi_uart.getc(); - if((ch2=='\n')||(ch2=='\r')){ - debug_uart.printf("got string from wifi uart: '%s' \r\n", b.c_str()); - b.clear(); - }else{ - b += ch2; - } - } - //wait(0.5); - } +void Motor_thread(void const *argument){ + while(true){ + Thread::wait(200); /*unit millisec*/ + if(!init_flag){ + wait(1); + debug_uart.printf("Motor_thread: motor2 move up\r\n"); + motor2_move(MOVING_UP); + if(CheckStopper(MOVING_UP)){ + debug_uart.printf("Motor_thread: motor2 timeout, stop motor2 and finish the calibration\r\n"); + init_flag = 1; + motor2_move(STOP); + continue; + } + motor2_move(STOP); + wait(1); + debug_uart.printf("Motor_thread: motor1 move forward\r\n"); + sensor_cnt = 0; + motor1_move(MOVING_FORWARD); + while(1){ + if(ov_flag){ + motor1_move(STOP); + cal_cnt = sensor_cnt; + ov_flag = 0; + break; + } + } + wait(1); + debug_uart.printf("Motor_thread: motor2 move down\r\n"); + motor2_move(MOVING_DOWN); + if(CheckStopper(MOVING_DOWN)){ + debug_uart.printf("Motor_thread: motor2 timeout, stop motor2 and finish the calibration\r\n"); + init_flag = 1; + motor2_move(STOP); + continue; + } + motor2_move(STOP); + wait(1); + debug_uart.printf("Motor_thread: motor1 move backward\r\n"); + sensor_cnt = 0; + motor1_move(MOVING_BACKWARD); + while(1){ + if(ov_flag){ + motor1_move(STOP); + ov_flag = 0; + debug_uart.printf("Motor_thread: cal_cnt = %d, 1/2(cal_cnt+sensor_cnt)\r\n", (cal_cnt+sensor_cnt)/2); + break; + } + if(sensor_cnt>=cal_cnt){ + motor1_move(STOP); + debug_uart.printf("Motor_thread: cal_cnt = %d\r\n", cal_cnt); + break; + } + } + cur_cnt = 0; + wait(1); + debug_uart.printf("Motor_thread: motor2 move to center\r\n"); + motor2_move(MOVING_UP); + wait(1.6); + motor2_move(STOP); + init_flag = 1; + debug_uart.printf("Motor_thread: auto-curtain length was calibrated sucessfully\r\n"); + }else{ + debug_uart.printf("Motor_thread: auto-curtain is waiting for command\r\n"); + wait(3); + } + } } -#endif void led0_thread(void const *argument) { int err; char rxBuf[32]; char wifi_rxBuf[32]; char i; - int position; - char dat[2]; - + int position; + char dat[2]; + while (1) { wifi_uart.printf("get_down\r"); - timer.reset(); - b.clear(); + timer.reset(); + b.clear(); while(timer.read_ms()<5000){ if(wifi_uart.readable()){ char ch = wifi_uart.getc(); @@ -129,89 +168,176 @@ b += ch; }else{ debug_uart.printf("get string: %s \r\n", b.c_str()); - #if 1 - if(!strncmp(b.c_str(),"down none",9)) + #if 1 + if(!strncmp(b.c_str(),"down none",9)) { //debug_uart.printf("--- none\r\n"); } if(!(strncmp(b.c_str(),"down set_properties",19))) { - debug_uart.printf("--- set_properties\r\n"); - b.erase(0,b.length()-3); - position = atoi(b.c_str()); - debug_uart.printf("position = %d\r\n",position); + //debug_uart.printf("--- set_properties\r\n"); + b.erase(0,b.length()-3); + position = atoi(b.c_str()); + debug_uart.printf("position = %d\r\n",position); wifi_uart.printf("result 2 7 0\r\n"); - b.clear(); - continue; + b.clear(); + continue; } if(!(strncmp(b.c_str(),"down get_properties",19))) { - debug_uart.printf("--- get_properties\r\n"); - wifi_uart.printf("result 2 4 0 10 2 6 0 %d 2 7 30\r\n", position); - b.clear(); - continue; + //debug_uart.printf("--- get_properties\r\n"); + wifi_uart.printf("result 2 4 0 10 2 6 0 %d 2 7 30\r\n", position); + b.clear(); + continue; } if(!strncmp(b.c_str(),"down MIIO_net_change",20)) { if((!strncmp(b.c_str()+21, "offline", 7))) { - debug_uart.printf("offline\r\n"); + //debug_uart.printf("offline\r\n"); } if((!strncmp(b.c_str()+21, "local", 5))) { - debug_uart.printf("local\r\n"); + //debug_uart.printf("local\r\n"); } if((!strncmp(b.c_str()+21, "cloud", 5))) { - debug_uart.printf("cloud\r\n"); + //debug_uart.printf("cloud\r\n"); } } - #endif + #endif break; } } } - while(wifi_uart.readable()){wifi_uart.getc();} + while(wifi_uart.readable()){wifi_uart.getc();} wait_ms(400); } } -void wifi_debug(void const *argument){ - while(1){ - if(wifi_uart.readable()){ - debug_uart.putc(wifi_uart.getc()); +void serialprocess(void const *argument){ + while(1){ + if(debug_uart.readable()){ + char ch = debug_uart.getc(); + if(ch!=0x0d){ + a += ch; + }else{ + debug_uart.printf("get command from uart: '%s'\r\n", a.c_str()); + if(!strncmp(a.c_str(),"stp1",4)){ + debug_uart.printf("stepper1 ready\r\n"); + } + if(!strncmp(a.c_str(),"stp2",4)){ + debug_uart.printf("stepper2 ready\r\n"); + } + if(!strncmp(a.c_str(),"ovflag",6)){ + debug_uart.printf("ovflag = 1\r\n"); + } + a.clear(); + } + } } - if(debug_uart.readable()){ - wifi_uart.putc(debug_uart.getc()); +} + +void serialIRQ(void){ + debug_uart.putc(debug_uart.getc()); +} + +void sensor_capture_cb(void){ + sensor_cnt++; + if(open_flag){ + if(cur_cnt<tar_cnt){ + cur_cnt++; + } + } + if(close_flag){ + if(cur_cnt>0){ + cur_cnt--; } } } +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; + cur_cnt = 0; + cal_cnt = 0; + sense_value = 0; + debug_uart.printf("\r\n"); + debug_uart.printf("************************************************\r\n"); + debug_uart.printf("******************LAIWU TECH********************\r\n"); + debug_uart.printf("************************************************\r\n"); + debug_uart.printf("****system init done, wait 3 seconds to start***\r\n"); + wait(3); +} + int main() { - debug_uart.printf("hello world\r\n"); + system_init(); + led1 = 1; - flag = 0; + flag = 0; + + wait(3); + + InterruptIn Hall1(PA_14); + Hall1.fall(callback(sensor_capture_cb)); // Attach ISR to handle button press event - wait(3); + debug_uart.printf("************************************************\r\n"); + debug_uart.printf("***************hall sensor init*****************\r\n"); + - Thread thread1(led0_thread, NULL, osPriorityHigh, DEFAULT_STACK_SIZE); /*check the real-time current*/ - + //Thread thread2(Power_thread, NULL, osPriorityNormal, DEFAULT_STACK_SIZE); /*check the real-time current*/ + debug_uart.printf("**********************2*************************\r\n"); + //Thread thread3(Motor_thread, NULL, osPriorityNormal, DEFAULT_STACK_SIZE); /*check the real-time current*/ + debug_uart.printf("**********************3*************************\r\n"); + Thread thread1(led0_thread, NULL, osPriorityNormal, DEFAULT_STACK_SIZE); /*check the wifi connection*/ + debug_uart.printf("**********************1*************************\r\n"); - timer.start(); + debug_uart.printf("**************three threads init****************\r\n"); + + timer.start(); + timer_m.start(); + + debug_uart.printf("************************************************\r\n"); + debug_uart.printf("****************two timer init*****************\r\n"); + + debug_uart.attach(&serialIRQ, Serial::RxIrq); while(1) { - wait(1); -#if 0 - if(flag){ - debug_uart.printf("get string: '%s'\r\n", b.c_str()); - b.clear(); - while(wifi_uart.readable()){wifi_uart.getc();} - flag = 0; - debug_uart.printf("sent get_down to module\r\n"); - wifi_uart.printf("get_down\r\n"); - } -#endif + wait(1); + //wifi_uart.printf("get_down\r"); + //debug_uart.printf("************************************************\r\n"); + //debug_uart.printf("********************%%%%%***********************\r\n"); } } \ No newline at end of file
--- a/mbed-STM32F103C8T6.lib Tue May 05 11:15:56 2020 +0000 +++ b/mbed-STM32F103C8T6.lib Wed May 06 10:03:17 2020 +0000 @@ -1,1 +1,1 @@ -http://mbed.org/users/hudakz/code/mbed-STM32F103C8T6/#fe3c80e86183 +https://os.mbed.com/users/bbw/code/mbed-STM32F103C8T6/#fe3c80e86183
--- a/mbed-rtos.lib Tue May 05 11:15:56 2020 +0000 +++ b/mbed-rtos.lib Wed May 06 10:03:17 2020 +0000 @@ -1,1 +1,1 @@ -http://mbed.org/users/mbed_official/code/mbed-rtos/#58563e6cba1e +http://mbed.org/users/mbed_official/code/mbed-rtos/#5713cbbdb706