BRNSystems/meshcore-wch
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eed612f457b8e14c8aefd4a7df0052aa7222625e
meshcore-wch/User/lib/config.c
Bruno Rybársky eed612f457 test
2026-01-08 08:17:23 +01:00

275 lines
8.7 KiB
C
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#include "config.h"
#include "ch32v30x_flash.h"
#include "ch32v30x_rng.h"
#include "lib/cifra/sha2.h"
#include "lib/ed25519/ed_25519.h"
#include "sx1262.h"
#include "util/hexdump.h"
#include "util/log.h"
#include "FreeRTOS.h"
#include "task.h"
PersistentData_t persistent;
LoRaSettings currentLoRaSettings;
#define TAG "Config"
NodeEntry *getNextNode() {
uint32_t oldest_timestamp = UINT32_MAX;
NodeEntry *selectedNode = &(persistent.contacts[0]);
for (int i = 0; i < CONTACT_COUNT; i++) {
NodeEntry *curNode = &(persistent.contacts[i]);
if (curNode->flags & NODE_ENTRY_FAV_FLAG) {
continue;
}
if (curNode->last_seen_lt == 0) {
selectedNode = curNode;
break;
}
if (curNode->last_seen_lt < oldest_timestamp) {
oldest_timestamp = curNode->last_seen_lt;
selectedNode = curNode;
}
}
return selectedNode;
}
NodeEntry *getNode (uint8_t hash) {
NodeEntry *selectedNode = NULL;
for (int i = 0; i < CONTACT_COUNT; i++) {
NodeEntry *curNode = &(persistent.contacts[i]);
if (curNode->pubKey[0] == hash) {
selectedNode = curNode;
break;
}
}
return selectedNode;
}
NodeEntry *getNodePrefix (const uint8_t *hash) {
NodeEntry *selectedNode = NULL;
for (int i = 0; i < CONTACT_COUNT; i++) {
NodeEntry *curNode = &(persistent.contacts[i]);
if (memcmp (curNode->pubKey, hash, 4)) {
selectedNode = curNode;
break;
}
}
return selectedNode;
}
Channel *getChannel (uint8_t hash, uint8_t ignoreCount) {
Channel *selectedChannel = NULL;
Channel *finalChannel = NULL;
uint8_t matchCount = 0;
for (int i = 0; i < ChannelCount; i++) {
Channel *curChannel = &(persistent.channels[i]);
if (curChannel->hash == hash) {
selectedChannel = curChannel;
if (++matchCount > ignoreCount) {
finalChannel = selectedChannel;
break;
}
}
}
return finalChannel;
}
void addChannel (char *name, const uint8_t *key) {
uint32_t oldest_timestamp = UINT32_MAX;
Channel *selectedChannel = &(persistent.channels[0]);
for (int i = 0; i < ChannelCount; i++) {
Channel *curChan = &(persistent.channels[i]);
if (curChan->timestamp == 0) {
selectedChannel = curChan;
MESH_LOGD (TAG, "Deciding on channel index %d because of timestamp 0, name is %s", i, name);
break;
}
if (strlen (curChan->name) == 0) {
selectedChannel = curChan;
MESH_LOGD (TAG, "Deciding on channel index %d because of name len 0, name is %s", i, name);
break;
}
if (curChan->timestamp < oldest_timestamp) {
oldest_timestamp = curChan->timestamp;
selectedChannel = curChan;
}
}
memset (selectedChannel->name, 0, sizeof (selectedChannel->name));
strncpy (selectedChannel->name, name, sizeof (selectedChannel->name));
memcpy (selectedChannel->key, key, sizeof (selectedChannel->key));
// Buffer for the digest
uint8_t hash[CF_SHA256_HASHSZ];
// Context
cf_sha256_context ctx;
// 1. Initialize
cf_sha256_init (&ctx);
// 2. Feed in your data
cf_sha256_update (&ctx, selectedChannel->key, sizeof (selectedChannel->key));
// 3. Compute digest
cf_sha256_digest (&ctx, hash);
selectedChannel->hash = hash[0];
selectedChannel->timestamp = RTC_GetCounter();
}
void printNodeDB() {
printf ("Node database:\n");
for (int i = 0; i < CONTACT_COUNT; i++) {
const NodeEntry *node = &(persistent.contacts[i]);
if (node->last_seen_lt == 0)
continue; // skip inactive nodes
printf ("Node %d:\n", i);
printf (" Name: %s\n", node->name);
hexdump ("Pubkey", node->pubKey, sizeof (node->pubKey));
hexdump ("Secret", node->secret, sizeof (node->secret));
printf ("\n");
printf (" GPS: lat=%d, lon=%d\n", node->gps_latitude, node->gps_longitude);
printf (" Path: ... (not expanded, add if needed)\n");
printf (" Flags: 0x%02X\n", node->flags);
printf (" Type: 0x%02X\n", node->type);
printf (" Authenticated: %s\n", node->authenticated ? "Yes" : "No");
printf (" Last Seen (remote ts): %d\n", node->last_seen_rt);
printf (" Last Seen (local ts): %d\n", node->last_seen_lt);
printf (" Sync timestamp: %d\n", node->sync_timestamp);
printf ("--------------------------------------\n");
}
}
void loadConfig() {
memcpy (&persistent, FLASH_USER_PAGE_ADDR, sizeof (persistent));
memcpy(&currentLoRaSettings, &(persistent.loraSettings), sizeof(currentLoRaSettings));
uint32_t crcSum = *((uint32_t *)(((uint8_t *)&persistent) + (sizeof (persistent) - 2)));
memset ((((uint8_t *)&persistent) + (sizeof (persistent) - sizeof (crcSum))), 0, 4);
CRC_ResetDR();
uint32_t currentSum = CRC_CalcBlockCRC ((uint32_t *)&persistent, sizeof (persistent) - 2);
if (currentSum != crcSum) {
memset (&persistent, 0, sizeof (persistent));
}
}
void saveConfig() {
CRC_ResetDR();
uint32_t currentSum = CRC_CalcBlockCRC ((uint32_t *)&persistent, sizeof (persistent) - 2);
memcpy ((((uint8_t *)&persistent) + (sizeof (persistent) - sizeof (currentSum))), (uint8_t *)currentSum, 4);
FLASH_Unlock();
FLASH_ErasePage_Fast (1919);
FLASH_ProgramPage_Fast (1919, (uint32_t *)&persistent);
FLASH_Lock();
}
void genSeed (uint8_t *seedOut) {
RCC_AHBPeriphClockCmd (RCC_AHBPeriph_RNG, ENABLE);
RNG_Cmd (ENABLE);
uint32_t random;
for (uint8_t i = 0; i < 8; i++) {
while (RNG_GetFlagStatus (RNG_FLAG_DRDY) == RESET) {
vTaskDelay (10);
}
random = RNG_GetRandomNumber();
memcpy (&(seedOut[i * 4]), &random, sizeof (random));
}
RCC_AHBPeriphClockCmd (RCC_AHBPeriph_RNG, DISABLE);
RNG_Cmd (DISABLE);
}
const uint8_t publicChannelPSK[16] = {0x8b, 0x33, 0x87, 0xe9, 0xc5, 0xcd, 0xea, 0x6a, 0xc9, 0xe5, 0xed, 0xba, 0xa1, 0x15, 0xcd, 0x72};
const uint8_t BRNTestChannelPSK[16] = {0x44, 0x81, 0xda, 0x0e, 0x4e, 0x03, 0xc4, 0x9e, 0x84, 0x77, 0x25, 0xd8, 0x3a, 0x93, 0xbf, 0x80};
const char *getStringRole (uint8_t role) {
switch (role) {
case NODE_TYPE_CHAT_NODE:
return "Chat node";
case NODE_TYPE_REPEATER:
return "Repeater";
case NODE_TYPE_ROOM_SERVER:
return "Room server";
case NODE_TYPE_SENSOR:
return "Sensor";
default:
return "Unknown";
}
}
void populateDefaults() {
uint8_t seed[32];
//memcpy(seed, "vFt0FRugSOeqnkshImMCVfgHM5vBxz4", 32); //chat node identity
memcpy (seed, "vFt0FRugSOeqnkshImMCVfgHM5vBxz3", 32); // repeater identity
// genSeed(seed); //random identity
ed25519_create_keypair (persistent.pubkey, persistent.privkey, seed);
// persistent.nodeType = NODE_TYPE_CHAT_NODE;
persistent.nodeType = NODE_TYPE_REPEATER;
memset (persistent.password, 0, sizeof (persistent.password));
strcpy (persistent.password, "hesielko");
strcpy (persistent.nodeName, "BRN RiscVpeater");
//strcpy (persistent.nodeName, "BRN RiscVnode");
persistent.adcMultiplier = 0;
persistent.loraSettings.txPowerInDbm = 20;
persistent.loraSettings.frequencyInHz = 869554000;
persistent.loraSettings.spreadingFactor = 8;
persistent.loraSettings.bandwidth = SX126X_LORA_BW_62_5;
persistent.loraSettings.codingRate = SX126X_LORA_CR_4_8;
persistent.loraSettings.preambleLength = 16;
persistent.loraSettings.tcxoVoltage = 2.2; // ebyte
// persistent.tcxoVoltage = 1.8; // heltec
memcpy(&currentLoRaSettings, &(persistent.loraSettings), sizeof(currentLoRaSettings));
addChannel ("Public", publicChannelPSK);
addChannel ("BRNTest", BRNTestChannelPSK);
persistent.doRepeat = 1;
persistent.allowReadOnly = 1;
persistent.latitude = 48190900;
persistent.longitude = 17030300;
persistent.altitude = 23400;
}
void LoraApply() {
MESH_LOGW (TAG, "LoraInit");
LoRaInit();
char useRegulatorLDO = 0;
LoRaDebugPrint (0);
uint16_t loraBeginStat = LoRaBegin (currentLoRaSettings.frequencyInHz, currentLoRaSettings.txPowerInDbm, currentLoRaSettings.tcxoVoltage, useRegulatorLDO);
if (loraBeginStat != 0) {
MESH_LOGE (TAG, "Does not recognize the module");
while (1) {
vTaskDelay (pdMS_TO_TICKS (1000));
MESH_LOGE (TAG, "CRITICAL: LoRa not found, halted");
}
}
char crcOn = 1;
char invertIrq = 0;
LoRaConfig (currentLoRaSettings.spreadingFactor, currentLoRaSettings.bandwidth, currentLoRaSettings.codingRate, currentLoRaSettings.preambleLength, 0, crcOn, invertIrq);
}
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