158 lines
5.3 KiB
C++
158 lines
5.3 KiB
C++
/* configmanager persists runtime configuration using NVRAM of ESP32*/
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#include "globals.h"
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#include "configmanager.h"
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// namespace for device runtime preferences
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#define DEVCONFIG "paxcntcfg"
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Preferences nvram;
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configData_t cfg; // struct holds current device configuration
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static const uint8_t cfgMagicBytes[] = {0x21, 0x76, 0x87, 0x32, 0xf4};
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static const size_t cfgLen = sizeof(cfg), cfgLen2 = sizeof(cfgMagicBytes);
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static uint8_t buffer[cfgLen + cfgLen2];
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// populate runtime config with device factory settings
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//
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// configuration frame structure in NVRAM;
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// 1. version header [10 bytes, containing version string]
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// 2. user settings [cfgLen bytes, containing default runtime settings
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// (configData_t cfg)]
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// 3. magicByte [cfgLen2 bytes, containing a fixed identifier]
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static void defaultConfig(configData_t *myconfig) {
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strncpy(myconfig->version, PROGVERSION,
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sizeof(myconfig->version) - 1); // Firmware version
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// device factory settings
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myconfig->loradr = LORADRDEFAULT; // 0-15, lora datarate, see paxcounter.conf
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myconfig->txpower = LORATXPOWDEFAULT; // 0-15, lora tx power
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myconfig->adrmode = 1; // 0=disabled, 1=enabled
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myconfig->screensaver = 0; // 0=disabled, 1=enabled
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myconfig->screenon = 1; // 0=disabled, 1=enabled
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myconfig->countermode =
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COUNTERMODE; // 0=cyclic, 1=cumulative, 2=cyclic confirmed
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myconfig->rssilimit = RSSILIMIT; // threshold for rssilimiter, negative value!
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myconfig->sendcycle = SENDCYCLE; // payload send cycle [seconds/2]
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myconfig->sleepcycle = SLEEPCYCLE; // sleep cycle [seconds/10]
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myconfig->wifichancycle =
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WIFI_CHANNEL_SWITCH_INTERVAL; // wifi channel switch cycle [seconds/100]
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myconfig->blescantime =
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BLESCANINTERVAL /
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10; // BT channel scan cycle [seconds/100], default 1 (= 10ms)
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myconfig->blescan = BLECOUNTER; // 0=disabled, 1=enabled
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myconfig->wifiscan = WIFICOUNTER; // 0=disabled, 1=enabled
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myconfig->wifiant = 0; // 0=internal, 1=external (for LoPy/LoPy4)
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myconfig->rgblum = RGBLUMINOSITY; // RGB Led luminosity (0..100%)
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myconfig->payloadmask = PAYLOADMASK; // payloads as defined in default
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#ifdef HAS_BME680
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// initial BSEC state for BME680 sensor
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myconfig->bsecstate[BSEC_MAX_STATE_BLOB_SIZE] = {0};
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#endif
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}
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// migrate runtime configuration from earlier to current version
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static void migrateConfig(void) {
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// currently no configuration migration rules are implemented, we reset to
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// factory settings instead
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eraseConfig();
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}
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// save current configuration from RAM to NVRAM
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void saveConfig(bool erase) {
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ESP_LOGI(TAG, "Storing settings to NVRAM...");
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nvram.begin(DEVCONFIG, false);
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if (erase) {
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ESP_LOGI(TAG, "Resetting device to factory settings");
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nvram.clear();
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defaultConfig(&cfg);
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}
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// Copy device runtime config cfg to byte array, padding it with magicBytes
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memcpy(buffer, &cfg, cfgLen);
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memcpy(buffer + cfgLen, &cfgMagicBytes, cfgLen2);
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// save byte array to NVRAM, padding with cfg magicbyes
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if (nvram.putBytes(DEVCONFIG, buffer, cfgLen + cfgLen2))
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ESP_LOGI(TAG, "Device settings saved");
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else
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ESP_LOGE(TAG, "NVRAM Error, device settings not saved");
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nvram.end();
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}
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// load configuration from NVRAM into RAM and make it current
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void loadConfig(void) {
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int readBytes = 0;
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ESP_LOGI(TAG, "Loading device configuration from NVRAM...");
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if (nvram.begin(DEVCONFIG, true)) {
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// load device runtime config from nvram and copy it to byte array
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readBytes = nvram.getBytes(DEVCONFIG, buffer, cfgLen + cfgLen2);
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nvram.end();
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// check that runtime config data length matches
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if (readBytes != cfgLen + cfgLen2) {
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ESP_LOGE(TAG, "No valid configuration found");
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migrateConfig();
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}
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} else {
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ESP_LOGI(TAG, "NVRAM initialized, device starts with factory settings");
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eraseConfig();
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}
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// validate loaded configuration by checking magic bytes at end of array
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if (memcmp(buffer + cfgLen, &cfgMagicBytes, cfgLen2) != 0) {
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ESP_LOGE(TAG, "Configuration data corrupt");
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eraseConfig();
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}
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// copy loaded configuration into runtime cfg struct
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memcpy(&cfg, buffer, cfgLen);
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ESP_LOGI(TAG, "Runtime configuration v%s loaded", cfg.version);
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// check if config version matches current firmware version
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switch (version_compare(PROGVERSION, cfg.version)) {
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case -1: // device configuration belongs to newer than current firmware
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ESP_LOGE(TAG, "Incompatible device configuration");
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eraseConfig();
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break;
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case 1: // device configuration belongs to older than current firmware
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ESP_LOGW(TAG, "Device was updated, attempt to migrate configuration");
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migrateConfig();
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break;
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default: // device configuration version matches current firmware version
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break; // nothing to do here
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}
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}
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// helper function to convert strings into lower case
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bool comp(char s1, char s2) { return (tolower(s1) < tolower(s2)); }
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// helper function to lexicographically compare two versions. Returns 1 if v2
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// is smaller, -1 if v1 is smaller, 0 if equal
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int version_compare(const String v1, const String v2) {
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if (v1 == v2)
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return 0;
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const char *a1 = v1.c_str(), *a2 = v2.c_str();
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if (std::lexicographical_compare(a1, a1 + strlen(a1), a2, a2 + strlen(a2),
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comp))
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return -1;
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else
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return 1;
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}
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void eraseConfig(void) {
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reset_rtc_vars();
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saveConfig(true);
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} |