/* * main.c * * Copyright 2017 Edward V. Emelianoff * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301, USA. */ #include "hardware.h" #include "usart.h" #include "i2c.h" volatile uint32_t Tms = 0; /* Called when systick fires */ void sys_tick_handler(void){ ++Tms; } // print 32bit unsigned int void printu(uint32_t val){ char buf[11], rbuf[10]; int l = 0, bpos = 0; if(!val){ buf[0] = '0'; l = 1; }else{ while(val){ rbuf[l++] = val % 10 + '0'; val /= 10; } int i; bpos += l; for(i = 0; i < l; ++i){ buf[--bpos] = rbuf[i]; } } while(LINE_BUSY == usart_send_blocking(buf, l+bpos)); } void showcoeffs(uint8_t addr){ // show norm coefficiens int i; const uint8_t regs[5] = {0xAA, 0xA8, 0xA6, 0xA4, 0xA2}; // commands for coefficients uint32_t K; char numbr = (addr == TSYS01_ADDR0) ? '0' : '1'; for(i = 0; i < 5; ++i){ if(write_i2c(addr, regs[i])){ if(read_i2c(addr, &K, 2)){ char b[4] = {'K', numbr, i+'0', '='}; while(ALL_OK != usart_send_blocking(b, 4)); printu(K); while(ALL_OK != usart_send_blocking("\n", 1)); } } } } void ch_addr(char *str){ char ch; uint32_t L = 0; for(ch = *str++; ch && ch > '/' && ch < ':'; ch = *str++){ L = L * 10 + ch - '0'; if(L > 47){ SEND("Bad address!\n"); return; } } MUL_ADDRESS(L); printu(L); SEND(" channel active\n"); } int main(void){ uint32_t lastT = 0; int16_t L = 0; uint32_t started0=0, started1=0; // time of measurements for given sensor started char *txt; sysreset(); SysTick_Config(6000, 1); gpio_setup(); usart_setup(); i2c_setup(LOW_SPEED); // reset on start write_i2c(TSYS01_ADDR0, TSYS01_RESET); write_i2c(TSYS01_ADDR1, TSYS01_RESET); while (1){ if(lastT > Tms || Tms - lastT > 499){ LED_blink(LED0); lastT = Tms; } if(started0 && Tms - started0 > CONV_TIME){ // poll sensor0 if(write_i2c(TSYS01_ADDR0, TSYS01_ADC_READ)){ uint32_t t; if(read_i2c(TSYS01_ADDR0, &t, 3)){ while(ALL_OK != usart_send_blocking("T0=", 3)); printu(t); while(ALL_OK != usart_send_blocking("\n", 1)); started0 = 0; } } } if(started1 && Tms - started1 > CONV_TIME){ // poll sensor1 if(write_i2c(TSYS01_ADDR1, TSYS01_ADC_READ)){ uint32_t t; if(read_i2c(TSYS01_ADDR1, &t, 3)){ while(ALL_OK != usart_send_blocking("T1=", 3)); printu(t); while(ALL_OK != usart_send_blocking("\n", 1)); started1 = 0; } } } if(usartrx()){ // usart1 received data, store in in buffer L = usart_getline(&txt); char _1st = txt[0]; if(_1st > '/' && _1st < ':'){ ch_addr(txt); L = 0; }else if(L == 2 && txt[1] == '\n'){ L = 0; uint32_t tstart = Tms; switch(_1st){ case 'C': // 'C' - show coefficients showcoeffs(TSYS01_ADDR0); showcoeffs(TSYS01_ADDR1); break; case 'R': // 'R' - reset both SEND("Reset\n"); write_i2c(TSYS01_ADDR0, TSYS01_RESET);//) SEND("0 - err\n"); write_i2c(TSYS01_ADDR1, TSYS01_RESET);//) SEND("1 - err\n"); break; case 'D': if(write_i2c(TSYS01_ADDR0, TSYS01_RESET)) SEND("0"); if(write_i2c(TSYS01_ADDR1, TSYS01_RESET)) SEND("1"); SEND("\n"); break; case 't': SEND("USART"); SEND(" test "); printu(111); SEND(" got number 111?\n"); break; case 'T': // 'T' - get temperature if(tstart == 0) tstart = 1; if(write_i2c(TSYS01_ADDR0, TSYS01_START_CONV)) started0 = tstart; else{ //SEND("0 BAD\n"); started0 = 0; } if(write_i2c(TSYS01_ADDR1, TSYS01_START_CONV)) started1 = tstart; else{ //SEND("1 BAD\n"); started1 = 0; } break; case 'L': i2c_setup(LOW_SPEED); SEND("Low speed\n"); break; case 'H': i2c_setup(HIGH_SPEED); SEND("High speed\n"); break; default: // help SEND("'C' - show coefficients\n" "'D' - slave discovery\n" "'R' - reset both\n" "'T' - get temperature\n" "'t' - USART test\n" "number - set active channel\n" "'L' - low speed\n" "'H' - high speed\n"); break; } } } if(L){ // text waits for sending while(LINE_BUSY == usart_send(txt, L)); L = 0; } } return 0; }