BDG
V4
Dependencies: BMP280
Fork of
Thread_Communication_V3
by 
BDG
Diff: main.cpp
- Revision:
- 6:64d346936f0e
- Parent:
- 5:ea3ec65cbf5f
- Child:
- 7:f017a37bcf1b
--- a/main.cpp Wed Dec 20 21:28:52 2017 +0000
+++ b/main.cpp Tue Dec 26 21:54:41 2017 +0000
@@ -2,7 +2,7 @@
#include "main.h"
#define ENTER_KEY 1
-#define MAX_SAMPLES 120
+#define MAX_SAMPLES 4
LCD lcd(PD_15, PF_12, PF_13, PE_9, PF_14, PF_15);
BMP280 Sensor(D14, D15);
@@ -13,13 +13,13 @@
void Serial_CMD();
//data FIFO buffer
-char data_buffer[MAX_SAMPLES][50];
+char data_buffer[MAX_SAMPLES][64];
+int sample_h = 0;
+int sample_t = 0;
int data_h = 0;
int data_t = 0;
-
-//Time-Date data
struct tm * sample_epoch;
-char sample_time[20];
+Mutex DataBuffer;
//Serial_CMD
volatile int rx_in=0;
@@ -53,43 +53,44 @@
while(1) {
Green_int = !Green_int;
- //Read sensors, send to mail-queue
+ //Read sensors, send to mail-queue
mail_t *mail = mail_box.alloc();
mail->LDR_Value = LDR_In.read();
mail->temp_Value = Sensor.getTemperature();
mail->press_Value = Sensor.getPressure();
mail_box.put(mail);
+
+ //Lock data buffer
+ DataBuffer.lock();
- //Format samples, send to FIFO buffer
- memset(data_buffer[data_h],NULL,50);
+ //Format samples, send to FIFO buffer head
+ memset(data_buffer[sample_h],NULL,64);
time( &raw_time );
sample_epoch = localtime( &raw_time );
+ char sample_time[20];
strftime(sample_time,20,"%d/%m/%Y %X",sample_epoch);
- sprintf(data_buffer[data_h],"%s, %2.2f, %4.2f, %.4f\n\r", sample_time, mail->temp_Value, mail->press_Value, mail->LDR_Value);
+ sprintf(data_buffer[sample_h],"%s, %2.2f, %4.2f, %.4f\n\r", sample_time, mail->temp_Value, mail->press_Value, mail->LDR_Value);
memset(sample_time,NULL,20);
- //Print all samples to serial
- for(int n = data_t; n<= MAX_SAMPLES; n++){
- pc.puts(data_buffer[n]);
+ //Set seperate FIFO head and tail for printing data
+ data_h = sample_h;
+ data_t = sample_t;
+
+ //Move sample FIFO buffer head to next row in buffer
+ sample_h++;
+ //Check sample FIFO buffer head
+ if(sample_h >= MAX_SAMPLES){
+ sample_h = 0;
}
-
- if(data_t > data_h){
- for(int n = 0; n<= data_h; n++){
- pc.puts(data_buffer[n]);
+ //Check sample FIFO buffer tail
+ if(sample_t == sample_h){
+ sample_t++;
+ if(sample_t >= (MAX_SAMPLES)){
+ sample_t = 0;
}
}
-
- //Prepare buffer for next samples
- data_h++;
- if(data_h >= (MAX_SAMPLES)){
- data_h = 0;
- }
- if(data_h == data_t){
- data_t++;
- if(data_t >= (MAX_SAMPLES)){
- data_t = 0;
- }
- }
+ //Unlock data buffer
+ DataBuffer.unlock();
Thread::wait (15000);
}
@@ -158,13 +159,19 @@
//Interrupt when recieving from serial port
void Rx_interrupt() {
+//Wait for serial input
while (pc.readable()) {
+
+ //Return input to serial
rx_buffer[rx_in] = pc.getc();
pc.putc(rx_buffer[rx_in]);
-
+
+ //If enter key is pressed, set serial thread signal
if(rx_buffer[rx_in] == 0xD){
S_CMD.signal_set(ENTER_KEY);
}
+
+ //Increment buffer head
else{
rx_in = (rx_in + 1);
}
@@ -175,85 +182,173 @@
void Serial_CMD(){
while(1){
+ //Wait for thread signal
Thread::signal_wait(ENTER_KEY);
+
+ //Detach serial interrupt
pc.attach(NULL, Serial::RxIrq);
-
+
struct tm * s_time;
char tm_n[4];
- if(strstr(rx_buffer, "READ ALL")){
+/*----CARRAGE RETURN-------------*/
+ if(rx_buffer[0] == 0xD){
+ pc.puts("\n\r");
+ }
+/*----READ ALL----------------------------------*/
+ else if(strstr(rx_buffer, "READ ALL")){
+ pc.puts(" READ ALL\n\r");
+
+ //Lock data buffer
+ DataBuffer.lock();
+
+ //Print all samples to serial
+ for(int n=data_t; n<=MAX_SAMPLES; n++){
+ pc.puts(data_buffer[n]);
+ }
+ if(data_t>data_h){
+ for(int n=0; n<=(data_t-1); n++){
+ pc.puts(data_buffer[n]);
+ }
+ }
- /*time ( &raw_time );
- s_time = localtime ( &raw_time );
- strftime(serial_buffer, 80, "%d/%m/%Y, %X\n\r", time);
- pc.puts(serial_buffer);*/
+ //Lock data buffer
+ DataBuffer.unlock();
}
+/*----DELETE ALL----------------------------------*/
else if(strstr(rx_buffer, "DELETE ALL")){
- pc.printf("DELETE ALL\n\r");
+ pc.puts(" DELETE ALL\n\r");
+
+ //Lock data buffer
+ DataBuffer.lock();
+
+ //Delete all sampled data
+ for(int n=0; n<=MAX_SAMPLES; n++){
+ memset(data_buffer[n], NULL, 64);
+ }
+ data_h = data_t;
+ sample_h = sample_t;
+
+ //Unlock data buffer
+ DataBuffer.unlock();
}
+/*----READ----------------------------------*/
else if(strstr(rx_buffer, "READ")){
- pc.printf("READ\n\r");
+ pc.puts(" READ \n\r");
+ int N = atoi(strncpy(tm_n,&rx_buffer[5],4));
+ int S = 0;
+ pc.printf("N = %d\n\r",N);
+
+ //Lock data buffer
+ DataBuffer.lock();
+
+ //Check if N is greater than buffer size
+ if(N >= MAX_SAMPLES){
+ N = MAX_SAMPLES;
+ }
+
+ //Read N samples from FIFO buffer
+ if(N <= 0){
+ pc.puts("####ERROR####\n\r");
+ }
+ else{
+ for(int n=data_t; n<=MAX_SAMPLES-1; n++){
+ if(S>=N){}
+ else{
+ pc.puts(data_buffer[n]);
+ S++;
+ }
+ }
+ for(int n=0; n<=data_t; n++){
+ if(S>=N){}
+ else{
+ pc.puts(data_buffer[n]);
+ S++;
+ }
+ }
+ }
+
+ //Unlock data buffer
+ DataBuffer.unlock();
}
+/*----DELETE----------------------------------*/
else if(strstr(rx_buffer, "DELETE")){
- pc.printf("DELETE\n\r");
+ pc.puts(" DELETE \n\r");
}
+/*----SETDATE----------------------------------*/
else if(strstr(rx_buffer, "SETDATE")){
time(&raw_time);
s_time = localtime(&raw_time);
+ //Update day in time structure
int dd = atoi(strncpy(tm_n,&rx_buffer[8],2));
s_time->tm_mday = dd;
memset(tm_n, NULL, 4);
+ //Update month in time structure
int mm = atoi(strncpy(tm_n,&rx_buffer[11],2));
s_time->tm_mon = mm-1;
memset(tm_n, NULL, 4);
+ //Update year in time structure
int yyyy = atoi(strncpy(tm_n,&rx_buffer[14],4));
s_time->tm_year = yyyy-1900;
memset(tm_n, NULL, 4);
+ //Set date from updated time structure
set_time(mktime(s_time));
- strftime(serial_buffer, 80, "%d/%m/%Y\n\r", s_time);
+ strftime(serial_buffer, 80, "\n\r Set Date: %d/%m/%Y\n\r", s_time);
pc.puts(serial_buffer);
}
+/*----SETTIME---------------------------------*/
else if(strstr(rx_buffer, "SETTIME")){
time(&raw_time);
s_time = localtime(&raw_time);
+ //Update seconds in time structure
int ss = atoi(strncpy(tm_n,&rx_buffer[14],2));
s_time->tm_sec = ss;
memset(tm_n, NULL, 4);
-
+
+ //Update minutes in time structure
int mm = atoi(strncpy(tm_n,&rx_buffer[11],2));
s_time->tm_min = mm;
memset(tm_n, NULL, 4);
+ //Update hour in time structure
int hh = atoi(strncpy(tm_n,&rx_buffer[8],2));
s_time->tm_hour = hh;
memset(tm_n, NULL, 4);
-
+
+ //Set time from updated time structure
set_time(mktime(s_time));
- strftime(serial_buffer, 80, "%X\n\r", s_time);
+ strftime(serial_buffer, 80, "\n\r Set Time: %X\n\r", s_time);
pc.puts(serial_buffer);
}
+/*----SETT----------------------------------*/
else if(strstr(rx_buffer, "SETT")){
- pc.printf("SETT\n\r");
+ pc.puts(" SETT\n\r");
}
+/*----STATE----------------------------------*/
else if(strstr(rx_buffer, "STATE")){
- pc.printf("STATE\n\r");
+ pc.puts(" STATE\n\r");
}
+/*----LOGGING----------------------------------*/
else if(strstr(rx_buffer, "LOGGING")){
- pc.printf("LOGGING\n\r");
+ pc.puts(" LOGGING\n\r");
}
+/*----ERROR---*/
else{
- pc.printf("ERROR\n\r");
+ pc.puts("####ERROR####\n\r");
}
-
+/*----------------------------------------------*/
+
+ //Clear serial buffers
memset(serial_buffer, NULL, 80);
memset(rx_buffer, NULL, 32);
rx_in = 0;
+ //Attach serial interrupt
pc.attach(&Rx_interrupt, Serial::RxIrq);
}
}