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RNode_Firmware/Utilities.cpp

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8.5 KiB
C++
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Initial commit
2018-04-05 10:10:42 -06:00
#include <Arduino.h>
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#include <EEPROM.h>
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#include <LoRa.h>
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#include "ROM.h"
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#include "Config.h"
#include "Framing.h"
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#include "MD5.h"
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void led_rx_on() { digitalWrite(pin_led_rx, HIGH); }
void led_rx_off() { digitalWrite(pin_led_rx, LOW); }
void led_tx_on() { digitalWrite(pin_led_tx, HIGH); }
void led_tx_off() { digitalWrite(pin_led_tx, LOW); }
void led_indicate_error(int cycles) {
bool forever = (cycles == 0) ? true : false;
cycles = forever ? 1 : cycles;
while(cycles > 0) {
digitalWrite(pin_led_rx, HIGH);
digitalWrite(pin_led_tx, LOW);
delay(100);
digitalWrite(pin_led_rx, LOW);
digitalWrite(pin_led_tx, HIGH);
delay(100);
if (!forever) cycles--;
}
digitalWrite(pin_led_rx, LOW);
digitalWrite(pin_led_tx, LOW);
}
void led_indicate_warning(int cycles) {
bool forever = (cycles == 0) ? true : false;
cycles = forever ? 1 : cycles;
digitalWrite(pin_led_tx, HIGH);
while(cycles > 0) {
digitalWrite(pin_led_tx, LOW);
delay(100);
digitalWrite(pin_led_tx, HIGH);
delay(100);
if (!forever) cycles--;
}
digitalWrite(pin_led_tx, LOW);
}
void led_indicate_info(int cycles) {
bool forever = (cycles == 0) ? true : false;
cycles = forever ? 1 : cycles;
while(cycles > 0) {
digitalWrite(pin_led_rx, LOW);
delay(100);
digitalWrite(pin_led_rx, HIGH);
delay(100);
if (!forever) cycles--;
}
digitalWrite(pin_led_rx, LOW);
}
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uint8_t led_standby_min = 1;
uint8_t led_standby_max = 22;
uint8_t led_standby_value = led_standby_min;
int8_t led_standby_direction = 0;
unsigned long led_standby_ticks = 0;
unsigned long led_standby_wait = 11000;
void led_indicate_standby() {
led_standby_ticks++;
if (led_standby_ticks > led_standby_wait) {
led_standby_ticks = 0;
if (led_standby_value <= led_standby_min) {
led_standby_direction = 1;
} else if (led_standby_value >= led_standby_max) {
led_standby_direction = -1;
}
led_standby_value += led_standby_direction;
analogWrite(pin_led_rx, led_standby_value);
EEPROM validation and config util compat
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digitalWrite(pin_led_tx, 0);
}
}
void led_indicate_not_ready() {
led_standby_ticks++;
if (led_standby_ticks > led_standby_wait) {
led_standby_ticks = 0;
if (led_standby_value <= led_standby_min) {
led_standby_direction = 1;
} else if (led_standby_value >= led_standby_max) {
led_standby_direction = -1;
}
led_standby_value += led_standby_direction;
analogWrite(pin_led_tx, led_standby_value);
digitalWrite(pin_led_rx, 0);
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}
}
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void escapedSerialWrite(uint8_t byte) {
if (byte == FEND) { Serial.write(FESC); byte = TFEND; }
if (byte == FESC) { Serial.write(FESC); byte = TFESC; }
Serial.write(byte);
}
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void kiss_indicate_error(uint8_t error_code) {
Serial.write(FEND);
Serial.write(CMD_ERROR);
Serial.write(error_code);
Serial.write(FEND);
}
void kiss_indicate_radiostate() {
Serial.write(FEND);
Serial.write(CMD_RADIO_STATE);
Serial.write(radio_online);
Serial.write(FEND);
}
void kiss_indicate_stat_rx() {
Serial.write(FEND);
Serial.write(CMD_STAT_RX);
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escapedSerialWrite(stat_rx>>24);
escapedSerialWrite(stat_rx>>16);
escapedSerialWrite(stat_rx>>8);
escapedSerialWrite(stat_rx);
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Serial.write(FEND);
}
void kiss_indicate_stat_tx() {
Serial.write(FEND);
Serial.write(CMD_STAT_TX);
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escapedSerialWrite(stat_tx>>24);
escapedSerialWrite(stat_tx>>16);
escapedSerialWrite(stat_tx>>8);
escapedSerialWrite(stat_tx);
Initial commit
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Serial.write(FEND);
}
void kiss_indicate_stat_rssi() {
Serial.write(FEND);
Serial.write(CMD_STAT_RSSI);
Serial.write((uint8_t)last_rssi+rssi_offset);
Serial.write(FEND);
}
void kiss_indicate_radio_lock() {
Serial.write(FEND);
Serial.write(CMD_RADIO_LOCK);
Serial.write(radio_locked);
Serial.write(FEND);
}
void kiss_indicate_spreadingfactor() {
Serial.write(FEND);
Serial.write(CMD_SF);
Serial.write((uint8_t)lora_sf);
Serial.write(FEND);
}
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void kiss_indicate_codingrate() {
Serial.write(FEND);
Serial.write(CMD_CR);
Serial.write((uint8_t)lora_cr);
Serial.write(FEND);
}
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void kiss_indicate_txpower() {
Serial.write(FEND);
Serial.write(CMD_TXPOWER);
Serial.write((uint8_t)lora_txp);
Serial.write(FEND);
}
void kiss_indicate_bandwidth() {
Serial.write(FEND);
Serial.write(CMD_BANDWIDTH);
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escapedSerialWrite(lora_bw>>24);
escapedSerialWrite(lora_bw>>16);
escapedSerialWrite(lora_bw>>8);
escapedSerialWrite(lora_bw);
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Serial.write(FEND);
}
void kiss_indicate_frequency() {
Serial.write(FEND);
Serial.write(CMD_FREQUENCY);
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escapedSerialWrite(lora_freq>>24);
escapedSerialWrite(lora_freq>>16);
escapedSerialWrite(lora_freq>>8);
escapedSerialWrite(lora_freq);
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Serial.write(FEND);
}
void kiss_indicate_random(uint8_t byte) {
Serial.write(FEND);
Serial.write(CMD_RANDOM);
Serial.write(byte);
Serial.write(FEND);
}
Added KISS flow control
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void kiss_indicate_ready() {
Serial.write(FEND);
Serial.write(CMD_READY);
Serial.write(0x01);
Serial.write(FEND);
}
EEPROM validation and config util compat
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void kiss_indicate_detect() {
Serial.write(FEND);
Serial.write(CMD_DETECT);
Serial.write(DETECT_RESP);
Serial.write(FEND);
}
void kiss_indicate_version() {
Serial.write(FEND);
Serial.write(CMD_FW_VERSION);
Serial.write(MAJ_VERS);
Serial.write(MIN_VERS);
Serial.write(FEND);
}
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bool isSplitPacket(uint8_t header) {
return (header & FLAG_SPLIT);
}
uint8_t packetSequence(uint8_t header) {
return header >> 4;
}
void getPacketData(int len) {
while (len--) {
pbuf[read_len++] = LoRa.read();
}
}
void setSpreadingFactor() {
if (radio_online) LoRa.setSpreadingFactor(lora_sf);
}
Added KISS flow control
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void setCodingRate() {
if (radio_online) LoRa.setCodingRate4(lora_cr);
}
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void setTXPower() {
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if (radio_online) {
if (model == MODEL_A4) LoRa.setTxPower(lora_txp, PA_OUTPUT_RFO_PIN);
if (model == MODEL_A9) LoRa.setTxPower(lora_txp, PA_OUTPUT_PA_BOOST_PIN);
}
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}
void getBandwidth() {
if (radio_online) {
lora_bw = LoRa.getSignalBandwidth();
}
}
void setBandwidth() {
if (radio_online) {
LoRa.setSignalBandwidth(lora_bw);
getBandwidth();
}
}
void getFrequency() {
if (radio_online) {
lora_freq = LoRa.getFrequency();
}
}
void setFrequency() {
if (radio_online) {
LoRa.setFrequency(lora_freq);
getFrequency();
}
}
uint8_t getRandom() {
if (radio_online) {
return LoRa.random();
} else {
return 0x00;
}
}
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EEPROM validation and config util compat
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bool eeprom_info_locked() {
uint8_t lock_byte = EEPROM.read(eeprom_addr(ADDR_INFO_LOCK));
if (lock_byte == INFO_LOCK_BYTE) {
return true;
} else {
return false;
}
}
void eeprom_dump_info() {
for (int addr = ADDR_PRODUCT; addr <= ADDR_INFO_LOCK; addr++) {
uint8_t byte = EEPROM.read(eeprom_addr(addr));
escapedSerialWrite(byte);
}
}
void eeprom_dump_config() {
for (int addr = ADDR_CONF_SF; addr <= ADDR_CONF_OK; addr++) {
uint8_t byte = EEPROM.read(eeprom_addr(addr));
escapedSerialWrite(byte);
}
}
void eeprom_dump_all() {
for (int addr = 0; addr < EEPROM_RESERVED; addr++) {
uint8_t byte = EEPROM.read(eeprom_addr(addr));
escapedSerialWrite(byte);
}
}
void kiss_dump_eeprom() {
Serial.write(FEND);
Serial.write(CMD_ROM_READ);
eeprom_dump_all();
Serial.write(FEND);
}
void eeprom_write(uint8_t addr, uint8_t byte) {
if (!eeprom_info_locked() && addr >= 0 && addr < EEPROM_RESERVED) {
EEPROM.update(eeprom_addr(addr), byte);
} else {
kiss_indicate_error(ERROR_EEPROM_LOCKED);
}
}
void eeprom_erase() {
for (int addr = 0; addr < EEPROM_RESERVED; addr++) {
EEPROM.update(eeprom_addr(addr), 0xFF);
}
while (true) { led_tx_on(); led_rx_off(); }
}
bool eeprom_lock_set() {
if (EEPROM.read(eeprom_addr(ADDR_INFO_LOCK)) == INFO_LOCK_BYTE) {
return true;
} else {
return false;
}
}
bool eeprom_product_valid() {
if (EEPROM.read(eeprom_addr(ADDR_PRODUCT)) == PRODUCT_RNODE) {
return true;
} else {
return false;
}
}
bool eeprom_model_valid() {
model = EEPROM.read(eeprom_addr(ADDR_MODEL));
if (model == MODEL_A4 || model == MODEL_A9) {
return true;
} else {
return false;
}
}
bool eeprom_hwrev_valid() {
hwrev = EEPROM.read(eeprom_addr(ADDR_HW_REV));
if (hwrev != 0x00 && hwrev != 0xFF) {
return true;
} else {
return false;
}
}
bool eeprom_checksum_valid() {
char *data = (char*)malloc(CHECKSUMMED_SIZE);
for (uint8_t i = 0; i < CHECKSUMMED_SIZE; i++) {
char byte = EEPROM.read(eeprom_addr(i));
data[i] = byte;
}
unsigned char *hash = MD5::make_hash(data, CHECKSUMMED_SIZE);
bool checksum_valid = true;
for (uint8_t i = 0; i < 16; i++) {
uint8_t stored_chk_byte = EEPROM.read(eeprom_addr(ADDR_CHKSUM+i));
uint8_t calced_chk_byte = (uint8_t)hash[i];
if (stored_chk_byte != calced_chk_byte) {
checksum_valid = false;
}
}
free(hash);
free(data);
return checksum_valid;
}
void unlock_rom() {
led_indicate_error(50);
eeprom_erase();
}