mirror of
https://github.com/liberatedsystems/RNode_Firmware_CE.git
synced 2024-12-24 06:59:23 -05:00
EEPROM validation and config util compat
This commit is contained in:
parent
4d943999d5
commit
637a44ad70
20
Config.h
20
Config.h
@ -1,13 +1,14 @@
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#include "ROM.h"
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#ifndef CONFIG_H
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#define CONFIG_H
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#define MAJ_VERS 0x01
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#define MIN_VERS 0x03
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#define MCU_328P 0x90
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#define MCU_1284P 0x91
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#define PRODUCT_RNODE 0x03
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#define MODEL_A4 0xA4
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#define MODEL_A9 0xA9
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#if defined(__AVR_ATmega328P__)
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#define MCU_VARIANT MCU_328P
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#warning "Firmware is being compiled for atmega328p based boards"
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@ -33,6 +34,9 @@
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#define FLOW_CONTROL_ENABLED true
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#define QUEUE_SIZE 0
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#define EEPROM_SIZE 512
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#define EEPROM_OFFSET EEPROM_SIZE-EEPROM_RESERVED
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#endif
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#if MCU_VARIANT == MCU_1284P
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@ -44,8 +48,13 @@
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#define FLOW_CONTROL_ENABLED true
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#define QUEUE_SIZE 24
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#define EEPROM_SIZE 4096
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#define EEPROM_OFFSET EEPROM_SIZE-EEPROM_RESERVED
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#endif
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#define eeprom_addr(a) (a+EEPROM_OFFSET)
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// MCU independent configuration parameters
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const long serial_baudrate = 115200;
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const int rssi_offset = 164;
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@ -62,6 +71,9 @@
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// Operational variables
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bool radio_locked = true;
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bool radio_online = false;
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bool hw_ready = false;
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uint8_t model = 0x00;
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uint8_t hwrev = 0x00;
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int last_rssi = -164;
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size_t read_len = 0;
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36
EEPROM.cpp
36
EEPROM.cpp
@ -1,36 +0,0 @@
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#include <Arduino.h>
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#include <EEPROM.h>
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#include "Config.h"
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#include "Framing.h"
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#define ADDR_PRODUCT 0x00
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#define ADDR_MODEL 0x01
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#define ADDR_HW_REV 0x02
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#define ADDR_SERIAL 0x03
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#define ADDR_MADE 0x06
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#define ADDR_CHKSUM 0x0A
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#define ADDR_SIGNATURE 0x1A
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#define ADDR_INFO_LOCK 0x9A
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#define INFO_LOCK_BYTE 0x73
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#define ADDR_CONF_SF 0x74
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#define ADDR_CONF_CR 0x75
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#define ADDR_CONF_TXP 0x76
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#define ADDR_CONF_BW 0x77
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#define ADDR_CONF_FREQ 0x7B
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#define ADDR_CONF_OK 0x7F
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#define CONF_OK_BYTE 0x73
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void eeprom_dump_info() {
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for (int addr = ADDR_PRODUCT; addr <= ADDR_INFO_LOCK; addr++) {
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uint8_t rom_byte = EEPROM.read(addr);
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Serial.write(rom_byte);
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}
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}
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void eeprom_dump_config() {
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for (int addr = ADDR_CONF_SF; addr <= ADDR_CONF_OK; addr++) {
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uint8_t rom_byte = EEPROM.read(addr);
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Serial.write(rom_byte);
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}
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}
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30
Framing.h
30
Framing.h
@ -12,8 +12,10 @@
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#define CMD_BANDWIDTH 0x02
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#define CMD_TXPOWER 0x03
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#define CMD_SF 0x04
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#define CMD_RADIO_STATE 0x05
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#define CMD_RADIO_LOCK 0x06
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#define CMD_CR 0x05
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#define CMD_RADIO_STATE 0x06
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#define CMD_RADIO_LOCK 0x07
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#define CMD_DETECT 0x08
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#define CMD_READY 0x0F
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#define CMD_STAT_RX 0x21
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@ -22,23 +24,29 @@
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#define CMD_BLINK 0x30
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#define CMD_RANDOM 0x40
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#define CMD_INFO_READ 0x50
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#define CMD_INFO_WRITE 0x51
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#define CMD_CONF_READ 0x52
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#define CMD_CONF_WRITE 0x53
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#define CMD_FW_VERSION 0x50
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#define CMD_ROM_READ 0x51
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#define CMD_ROM_WRITE 0x52
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#define CMD_CONF_SAVE 0x53
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#define CMD_UNLOCK_ROM 0x59
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#define ROM_UNLOCK_BYTE 0xF8
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#define DETECT_REQ 0x73
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#define DETECT_RESP 0x46
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#define RADIO_STATE_OFF 0x00
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#define RADIO_STATE_ON 0x01
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#define CMD_ERROR 0x90
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#define ERROR_INITRADIO 0x01
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#define ERROR_TXFAILED 0x02
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#define NIBBLE_SEQ 0xF0
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#define NIBBLE_FLAGS 0x0F
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#define FLAG_SPLIT 0x01
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#define SEQ_UNSET 0xFF
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#define CMD_ERROR 0x90
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#define ERROR_INITRADIO 0x01
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#define ERROR_TXFAILED 0x02
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#define ERROR_EEPROM_LOCKED 0x03
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// Serial framing variables
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size_t frame_len;
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bool IN_FRAME = false;
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@ -57,7 +65,7 @@ All: 0xc00119d21b80c00200005140c00308c00407c0
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Radio on 0xc00501c0
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Config+on 0xc00119d21b80c00200005140c00308c00407c00501c0
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Config+on 0xc00119d21b80c00200005140c00301c00407c00601c0
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c1 = self.bandwidth >> 24
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@ -2,7 +2,6 @@
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#include <LoRa.h>
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#include "Config.h"
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#include "Framing.h"
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#include "EEPROM.cpp"
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#include "Utilities.cpp"
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void setup() {
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@ -25,12 +24,15 @@ void setup() {
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// Set chip select, reset and interrupt
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// pins for the LoRa module
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LoRa.setPins(pin_cs, pin_reset, pin_dio);
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// Validate board health, EEPROM and config
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validateStatus();
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}
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bool startRadio() {
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update_radio_lock();
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if (!radio_online) {
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if (!radio_locked) {
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if (!radio_locked && hw_ready) {
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if (!LoRa.begin(lora_freq)) {
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// The radio could not be started.
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// Indicate this failure over both the
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@ -280,6 +282,18 @@ void serialCallback(uint8_t sbyte) {
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setSpreadingFactor();
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kiss_indicate_spreadingfactor();
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}
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} else if (command == CMD_CR) {
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if (sbyte == 0xFF) {
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kiss_indicate_codingrate();
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} else {
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int cr = sbyte;
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if (cr < 5) cr = 5;
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if (cr > 8) cr = 8;
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lora_cr = cr;
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setCodingRate();
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kiss_indicate_codingrate();
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}
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} else if (command == CMD_RADIO_STATE) {
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if (sbyte == 0xFF) {
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kiss_indicate_radiostate();
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@ -303,6 +317,33 @@ void serialCallback(uint8_t sbyte) {
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led_indicate_info(sbyte);
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} else if (command == CMD_RANDOM) {
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kiss_indicate_random(getRandom());
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} else if (command == CMD_DETECT) {
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if (sbyte == DETECT_REQ) {
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kiss_indicate_detect();
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}
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} else if (command == CMD_UNLOCK_ROM) {
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if (sbyte == ROM_UNLOCK_BYTE) {
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unlock_rom();
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}
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} else if (command == CMD_ROM_READ) {
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kiss_dump_eeprom();
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} else if (command == CMD_ROM_WRITE) {
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if (sbyte == FESC) {
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ESCAPE = true;
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} else {
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if (ESCAPE) {
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if (sbyte == TFEND) sbyte = FEND;
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if (sbyte == TFESC) sbyte = FESC;
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ESCAPE = false;
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}
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cbuf[frame_len++] = sbyte;
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}
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if (frame_len == 2) {
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eeprom_write(cbuf[0], cbuf[1]);
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}
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} else if (command == CMD_FW_VERSION) {
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kiss_indicate_version();
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}
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}
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}
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@ -344,6 +385,20 @@ void checkModemStatus() {
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}
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}
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void validateStatus() {
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if (eeprom_lock_set()) {
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if (eeprom_product_valid() && eeprom_model_valid() && eeprom_hwrev_valid()) {
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if (eeprom_checksum_valid()) {
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hw_ready = true;
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}
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} else {
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hw_ready = false;
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}
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} else {
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hw_ready = false;
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}
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}
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void loop() {
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if (radio_online) {
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checkModemStatus();
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@ -362,7 +417,12 @@ void loop() {
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}
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}
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} else {
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led_indicate_standby();
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if (hw_ready) {
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led_indicate_standby();
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} else {
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led_indicate_not_ready();
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stopRadio();
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}
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}
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if (Serial.available()) {
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159
Utilities.cpp
159
Utilities.cpp
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#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"
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#include "Framing.h"
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#include "MD5.h"
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void led_rx_on() { digitalWrite(pin_led_rx, HIGH); }
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void led_rx_off() { digitalWrite(pin_led_rx, LOW); }
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@ -68,6 +71,22 @@ void led_indicate_standby() {
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}
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led_standby_value += led_standby_direction;
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analogWrite(pin_led_rx, led_standby_value);
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digitalWrite(pin_led_tx, 0);
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}
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}
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void led_indicate_not_ready() {
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led_standby_ticks++;
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if (led_standby_ticks > led_standby_wait) {
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led_standby_ticks = 0;
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if (led_standby_value <= led_standby_min) {
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led_standby_direction = 1;
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} else if (led_standby_value >= led_standby_max) {
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led_standby_direction = -1;
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}
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led_standby_value += led_standby_direction;
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analogWrite(pin_led_tx, led_standby_value);
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digitalWrite(pin_led_rx, 0);
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}
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}
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@ -132,6 +151,13 @@ void kiss_indicate_spreadingfactor() {
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Serial.write(FEND);
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}
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void kiss_indicate_codingrate() {
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Serial.write(FEND);
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Serial.write(CMD_CR);
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Serial.write((uint8_t)lora_cr);
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Serial.write(FEND);
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}
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void kiss_indicate_txpower() {
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Serial.write(FEND);
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Serial.write(CMD_TXPOWER);
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@ -173,6 +199,21 @@ void kiss_indicate_ready() {
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Serial.write(FEND);
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}
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void kiss_indicate_detect() {
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Serial.write(FEND);
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Serial.write(CMD_DETECT);
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Serial.write(DETECT_RESP);
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Serial.write(FEND);
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}
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void kiss_indicate_version() {
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Serial.write(FEND);
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Serial.write(CMD_FW_VERSION);
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Serial.write(MAJ_VERS);
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Serial.write(MIN_VERS);
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Serial.write(FEND);
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}
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bool isSplitPacket(uint8_t header) {
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return (header & FLAG_SPLIT);
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}
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@ -197,7 +238,10 @@ void setCodingRate() {
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}
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void setTXPower() {
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if (radio_online) LoRa.setTxPower(lora_txp);
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if (radio_online) {
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if (model == MODEL_A4) LoRa.setTxPower(lora_txp, PA_OUTPUT_RFO_PIN);
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if (model == MODEL_A9) LoRa.setTxPower(lora_txp, PA_OUTPUT_PA_BOOST_PIN);
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}
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}
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@ -235,3 +279,116 @@ uint8_t getRandom() {
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}
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}
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bool eeprom_info_locked() {
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uint8_t lock_byte = EEPROM.read(eeprom_addr(ADDR_INFO_LOCK));
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if (lock_byte == INFO_LOCK_BYTE) {
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return true;
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} else {
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return false;
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}
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}
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void eeprom_dump_info() {
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for (int addr = ADDR_PRODUCT; addr <= ADDR_INFO_LOCK; addr++) {
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uint8_t byte = EEPROM.read(eeprom_addr(addr));
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escapedSerialWrite(byte);
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}
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}
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void eeprom_dump_config() {
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for (int addr = ADDR_CONF_SF; addr <= ADDR_CONF_OK; addr++) {
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uint8_t byte = EEPROM.read(eeprom_addr(addr));
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escapedSerialWrite(byte);
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}
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}
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void eeprom_dump_all() {
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for (int addr = 0; addr < EEPROM_RESERVED; addr++) {
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uint8_t byte = EEPROM.read(eeprom_addr(addr));
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escapedSerialWrite(byte);
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}
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}
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void kiss_dump_eeprom() {
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Serial.write(FEND);
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Serial.write(CMD_ROM_READ);
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eeprom_dump_all();
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Serial.write(FEND);
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}
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void eeprom_write(uint8_t addr, uint8_t byte) {
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if (!eeprom_info_locked() && addr >= 0 && addr < EEPROM_RESERVED) {
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EEPROM.update(eeprom_addr(addr), byte);
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} else {
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kiss_indicate_error(ERROR_EEPROM_LOCKED);
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}
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}
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void eeprom_erase() {
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for (int addr = 0; addr < EEPROM_RESERVED; addr++) {
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EEPROM.update(eeprom_addr(addr), 0xFF);
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}
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while (true) { led_tx_on(); led_rx_off(); }
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}
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bool eeprom_lock_set() {
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if (EEPROM.read(eeprom_addr(ADDR_INFO_LOCK)) == INFO_LOCK_BYTE) {
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return true;
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} else {
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return false;
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}
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}
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bool eeprom_product_valid() {
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if (EEPROM.read(eeprom_addr(ADDR_PRODUCT)) == PRODUCT_RNODE) {
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return true;
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} else {
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return false;
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}
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}
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bool eeprom_model_valid() {
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model = EEPROM.read(eeprom_addr(ADDR_MODEL));
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if (model == MODEL_A4 || model == MODEL_A9) {
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return true;
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} else {
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return false;
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}
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}
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bool eeprom_hwrev_valid() {
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hwrev = EEPROM.read(eeprom_addr(ADDR_HW_REV));
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if (hwrev != 0x00 && hwrev != 0xFF) {
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return true;
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} else {
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return false;
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}
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}
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bool eeprom_checksum_valid() {
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char *data = (char*)malloc(CHECKSUMMED_SIZE);
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for (uint8_t i = 0; i < CHECKSUMMED_SIZE; i++) {
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char byte = EEPROM.read(eeprom_addr(i));
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data[i] = byte;
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}
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unsigned char *hash = MD5::make_hash(data, CHECKSUMMED_SIZE);
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bool checksum_valid = true;
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for (uint8_t i = 0; i < 16; i++) {
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uint8_t stored_chk_byte = EEPROM.read(eeprom_addr(ADDR_CHKSUM+i));
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uint8_t calced_chk_byte = (uint8_t)hash[i];
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if (stored_chk_byte != calced_chk_byte) {
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checksum_valid = false;
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}
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}
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free(hash);
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free(data);
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return checksum_valid;
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}
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void unlock_rom() {
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led_indicate_error(50);
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eeprom_erase();
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}
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