pa50contr/contr.c

/*
 * Copyright 2017-2024 Oleg Borodin <onborodin@gmail.com>
 */

#include <stdint.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>

#include <avr/interrupt.h>
#include <util/delay.h>

#include <tool.h>
#include <eeprom.h>
#include <disp.h>
#include <uart.h>
#include <temp.h>
#include <relay.h>
#include <timer.h>
#include <adc.h>
#include <button.h>

#include <contr.h>

#define CONTR_BAND_OFF  0x01
#define CONTR_BAND_10M  0x02
#define CONTR_BAND_20M  0x03
#define CONTR_BAND_40M  0x04
#define CONTR_BAND_80M  0x05

typedef struct {
    uint8_t band;
    uint16_t vcc;
} contr_t;

contr_t contr;

void contr_switch_band(void);
void contr_set_band(uint8_t band);
void contr_write_band(void);
void contr_read_band(void);

ISR(TIMER0_OVF_vect) {
    button_handle();
    uart_handle();
}

void contr_init(void) {
    contr.band = CONTR_BAND_OFF;
}
void contr_setup(void) {
    contr_read_band();
}

void contr_measure_vcc() {
    contr.vcc = adc_read(ACD_CHANELL3);
}


#define CONTR_VCC_SCALE 2700.0F
float contr_get_vcc() {
    return (float)contr.vcc / CONTR_VCC_SCALE;
}


void contr_switch_band(void) {
    switch (contr.band) {
    case CONTR_BAND_10M:
        contr_set_band(CONTR_BAND_20M);
        break;
    case CONTR_BAND_20M:
        contr_set_band(CONTR_BAND_40M);
        break;
    case CONTR_BAND_40M:
        contr_set_band(CONTR_BAND_80M);
        break;
    case CONTR_BAND_80M:
        contr_set_band(CONTR_BAND_10M);
        break;
    default:
        break;
    }
}

void contr_set_band(uint8_t band) {
    relaytx_off();
    contr.band = band;

    relay80m_off();
    relay40m_off();
    relay20m_off();
    relay10m_off();

    switch (contr.band) {
    case CONTR_BAND_10M:
        relay10m_on();
        break;
    case CONTR_BAND_20M:
        relay20m_on();
        break;
    case CONTR_BAND_40M:
        relay40m_on();
        break;
    case CONTR_BAND_80M:
        relay80m_on();
        break;
    default:
        break;
    }
    contr_write_band();
    atten_on();
}

char* contr_get_bandname() {
    char* bandstr = NULL;
    switch (contr.band) {
    case CONTR_BAND_10M:
        bandstr = "10m";
        break;
    case CONTR_BAND_20M:
        bandstr = "20m";
        break;
    case CONTR_BAND_40M:
        bandstr = "40m";
        break;
    case CONTR_BAND_80M:
        bandstr = "80m";
        break;
    case CONTR_BAND_OFF:
        bandstr = "OFF";
        break;
    }
    return bandstr;
}

#define CONTR_KEY_SWBAND  3
#define CONTR_KEY_BUZZER  4
#define CONTR_KEY_FUN     5

void contr_button_eval(void) {
    switch (button_get()) {
    case CONTR_KEY_SWBAND:
        contr_switch_band();
        break;
    case CONTR_KEY_BUZZER:
        buzzer_onoff();
        break;
    case CONTR_KEY_FUN:
        fan_onoff();
        break;
    }
}

void contr_show_logo(void) {
    disp_clear();
    char* dispstr = "Made by R2FDX";
    disp_string(1, 1, dispstr);
    _delay_ms(200);
    disp_clear();
}

void contr_show_band(void) {
    disp_string(0, 12, contr_get_bandname(contr.band));
}

void contr_show_vcc(void) {
    char buffer[12] = { '\0' };
    sprintf(buffer, "#%4.1fV", contr_get_vcc());
    disp_string(0, 0, buffer);
}


void contr_main(void) {
    contr_show_logo();
    uint16_t counter = 0;
    while (true) {
        contr_button_eval();
        contr_measure_vcc();
        contr_show_vcc();
        contr_show_band();
        counter++;
        _delay_ms(100);
    }
}

void contr_write_band(void) {
    eeprom_write_bytes(0x00, &contr.band, sizeof(contr.band));
}

void contr_read_band(void) {
    eeprom_read_bytes(0x00, &contr.band, sizeof(contr.band));
}