// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2022-2024 Thomas Basler and others */ #include "Configuration.h" #include "MessageOutput.h" #include "Utils.h" #include "defaults.h" #include #include #include CONFIG_T config; void ConfigurationClass::init() { memset(&config, 0x0, sizeof(config)); } bool ConfigurationClass::write() { File f = LittleFS.open(CONFIG_FILENAME, "w"); if (!f) { return false; } config.Cfg.SaveCount++; DynamicJsonDocument doc(JSON_BUFFER_SIZE); if (!Utils::checkJsonAlloc(doc, __FUNCTION__, __LINE__)) { return false; } JsonObject cfg = doc.createNestedObject("cfg"); cfg["version"] = config.Cfg.Version; cfg["save_count"] = config.Cfg.SaveCount; JsonObject wifi = doc.createNestedObject("wifi"); wifi["ssid"] = config.WiFi.Ssid; wifi["password"] = config.WiFi.Password; wifi["ip"] = IPAddress(config.WiFi.Ip).toString(); wifi["netmask"] = IPAddress(config.WiFi.Netmask).toString(); wifi["gateway"] = IPAddress(config.WiFi.Gateway).toString(); wifi["dns1"] = IPAddress(config.WiFi.Dns1).toString(); wifi["dns2"] = IPAddress(config.WiFi.Dns2).toString(); wifi["dhcp"] = config.WiFi.Dhcp; wifi["hostname"] = config.WiFi.Hostname; wifi["aptimeout"] = config.WiFi.ApTimeout; JsonObject mdns = doc.createNestedObject("mdns"); mdns["enabled"] = config.Mdns.Enabled; JsonObject ntp = doc.createNestedObject("ntp"); ntp["server"] = config.Ntp.Server; ntp["timezone"] = config.Ntp.Timezone; ntp["timezone_descr"] = config.Ntp.TimezoneDescr; ntp["latitude"] = config.Ntp.Latitude; ntp["longitude"] = config.Ntp.Longitude; ntp["sunsettype"] = config.Ntp.SunsetType; JsonObject mqtt = doc.createNestedObject("mqtt"); mqtt["enabled"] = config.Mqtt.Enabled; mqtt["verbose_logging"] = config.Mqtt.VerboseLogging; mqtt["hostname"] = config.Mqtt.Hostname; mqtt["port"] = config.Mqtt.Port; mqtt["username"] = config.Mqtt.Username; mqtt["password"] = config.Mqtt.Password; mqtt["topic"] = config.Mqtt.Topic; mqtt["retain"] = config.Mqtt.Retain; mqtt["publish_interval"] = config.Mqtt.PublishInterval; mqtt["clean_session"] = config.Mqtt.CleanSession; JsonObject mqtt_lwt = mqtt.createNestedObject("lwt"); mqtt_lwt["topic"] = config.Mqtt.Lwt.Topic; mqtt_lwt["value_online"] = config.Mqtt.Lwt.Value_Online; mqtt_lwt["value_offline"] = config.Mqtt.Lwt.Value_Offline; mqtt_lwt["qos"] = config.Mqtt.Lwt.Qos; JsonObject mqtt_tls = mqtt.createNestedObject("tls"); mqtt_tls["enabled"] = config.Mqtt.Tls.Enabled; mqtt_tls["root_ca_cert"] = config.Mqtt.Tls.RootCaCert; mqtt_tls["certlogin"] = config.Mqtt.Tls.CertLogin; mqtt_tls["client_cert"] = config.Mqtt.Tls.ClientCert; mqtt_tls["client_key"] = config.Mqtt.Tls.ClientKey; JsonObject mqtt_hass = mqtt.createNestedObject("hass"); mqtt_hass["enabled"] = config.Mqtt.Hass.Enabled; mqtt_hass["retain"] = config.Mqtt.Hass.Retain; mqtt_hass["topic"] = config.Mqtt.Hass.Topic; mqtt_hass["individual_panels"] = config.Mqtt.Hass.IndividualPanels; mqtt_hass["expire"] = config.Mqtt.Hass.Expire; JsonObject dtu = doc.createNestedObject("dtu"); dtu["serial"] = config.Dtu.Serial; dtu["poll_interval"] = config.Dtu.PollInterval; dtu["verbose_logging"] = config.Dtu.VerboseLogging; dtu["nrf_pa_level"] = config.Dtu.Nrf.PaLevel; dtu["cmt_pa_level"] = config.Dtu.Cmt.PaLevel; dtu["cmt_frequency"] = config.Dtu.Cmt.Frequency; dtu["cmt_country_mode"] = config.Dtu.Cmt.CountryMode; JsonObject security = doc.createNestedObject("security"); security["password"] = config.Security.Password; security["allow_readonly"] = config.Security.AllowReadonly; JsonObject device = doc.createNestedObject("device"); device["pinmapping"] = config.Dev_PinMapping; JsonObject display = device.createNestedObject("display"); display["powersafe"] = config.Display.PowerSafe; display["screensaver"] = config.Display.ScreenSaver; display["rotation"] = config.Display.Rotation; display["contrast"] = config.Display.Contrast; display["language"] = config.Display.Language; display["diagram_duration"] = config.Display.Diagram.Duration; display["diagram_mode"] = config.Display.Diagram.Mode; JsonArray leds = device.createNestedArray("led"); for (uint8_t i = 0; i < PINMAPPING_LED_COUNT; i++) { JsonObject led = leds.createNestedObject(); led["brightness"] = config.Led_Single[i].Brightness; } JsonArray inverters = doc.createNestedArray("inverters"); for (uint8_t i = 0; i < INV_MAX_COUNT; i++) { JsonObject inv = inverters.createNestedObject(); inv["serial"] = config.Inverter[i].Serial; inv["name"] = config.Inverter[i].Name; inv["order"] = config.Inverter[i].Order; inv["poll_enable"] = config.Inverter[i].Poll_Enable; inv["poll_enable_night"] = config.Inverter[i].Poll_Enable_Night; inv["command_enable"] = config.Inverter[i].Command_Enable; inv["command_enable_night"] = config.Inverter[i].Command_Enable_Night; inv["reachable_threshold"] = config.Inverter[i].ReachableThreshold; inv["zero_runtime"] = config.Inverter[i].ZeroRuntimeDataIfUnrechable; inv["zero_day"] = config.Inverter[i].ZeroYieldDayOnMidnight; inv["yieldday_correction"] = config.Inverter[i].YieldDayCorrection; JsonArray channel = inv.createNestedArray("channel"); for (uint8_t c = 0; c < INV_MAX_CHAN_COUNT; c++) { JsonObject chanData = channel.createNestedObject(); chanData["name"] = config.Inverter[i].channel[c].Name; chanData["max_power"] = config.Inverter[i].channel[c].MaxChannelPower; chanData["yield_total_offset"] = config.Inverter[i].channel[c].YieldTotalOffset; } } JsonObject vedirect = doc.createNestedObject("vedirect"); vedirect["enabled"] = config.Vedirect.Enabled; vedirect["verbose_logging"] = config.Vedirect.VerboseLogging; vedirect["updates_only"] = config.Vedirect.UpdatesOnly; JsonObject powermeter = doc.createNestedObject("powermeter"); powermeter["enabled"] = config.PowerMeter.Enabled; powermeter["verbose_logging"] = config.PowerMeter.VerboseLogging; powermeter["interval"] = config.PowerMeter.Interval; powermeter["source"] = config.PowerMeter.Source; powermeter["mqtt_topic_powermeter_1"] = config.PowerMeter.MqttTopicPowerMeter1; powermeter["mqtt_topic_powermeter_2"] = config.PowerMeter.MqttTopicPowerMeter2; powermeter["mqtt_topic_powermeter_3"] = config.PowerMeter.MqttTopicPowerMeter3; powermeter["sdmbaudrate"] = config.PowerMeter.SdmBaudrate; powermeter["sdmaddress"] = config.PowerMeter.SdmAddress; powermeter["http_individual_requests"] = config.PowerMeter.HttpIndividualRequests; JsonArray powermeter_http_phases = powermeter.createNestedArray("http_phases"); for (uint8_t i = 0; i < POWERMETER_MAX_PHASES; i++) { JsonObject powermeter_phase = powermeter_http_phases.createNestedObject(); powermeter_phase["enabled"] = config.PowerMeter.Http_Phase[i].Enabled; powermeter_phase["url"] = config.PowerMeter.Http_Phase[i].Url; powermeter_phase["auth_type"] = config.PowerMeter.Http_Phase[i].AuthType; powermeter_phase["username"] = config.PowerMeter.Http_Phase[i].Username; powermeter_phase["password"] = config.PowerMeter.Http_Phase[i].Password; powermeter_phase["header_key"] = config.PowerMeter.Http_Phase[i].HeaderKey; powermeter_phase["header_value"] = config.PowerMeter.Http_Phase[i].HeaderValue; powermeter_phase["timeout"] = config.PowerMeter.Http_Phase[i].Timeout; powermeter_phase["json_path"] = config.PowerMeter.Http_Phase[i].JsonPath; } JsonObject powerlimiter = doc.createNestedObject("powerlimiter"); powerlimiter["enabled"] = config.PowerLimiter.Enabled; powerlimiter["verbose_logging"] = config.PowerLimiter.VerboseLogging; powerlimiter["solar_passtrough_enabled"] = config.PowerLimiter.SolarPassThroughEnabled; powerlimiter["solar_passtrough_losses"] = config.PowerLimiter.SolarPassThroughLosses; powerlimiter["battery_always_use_at_night"] = config.PowerLimiter.BatteryAlwaysUseAtNight; powerlimiter["interval"] = config.PowerLimiter.Interval; powerlimiter["is_inverter_behind_powermeter"] = config.PowerLimiter.IsInverterBehindPowerMeter; powerlimiter["is_inverter_solar_powered"] = config.PowerLimiter.IsInverterSolarPowered; powerlimiter["inverter_id"] = config.PowerLimiter.InverterId; powerlimiter["inverter_channel_id"] = config.PowerLimiter.InverterChannelId; powerlimiter["target_power_consumption"] = config.PowerLimiter.TargetPowerConsumption; powerlimiter["target_power_consumption_hysteresis"] = config.PowerLimiter.TargetPowerConsumptionHysteresis; powerlimiter["lower_power_limit"] = config.PowerLimiter.LowerPowerLimit; powerlimiter["base_load_limit"] = config.PowerLimiter.BaseLoadLimit; powerlimiter["upper_power_limit"] = config.PowerLimiter.UpperPowerLimit; powerlimiter["ignore_soc"] = config.PowerLimiter.IgnoreSoc; powerlimiter["battery_soc_start_threshold"] = config.PowerLimiter.BatterySocStartThreshold; powerlimiter["battery_soc_stop_threshold"] = config.PowerLimiter.BatterySocStopThreshold; powerlimiter["voltage_start_threshold"] = config.PowerLimiter.VoltageStartThreshold; powerlimiter["voltage_stop_threshold"] = config.PowerLimiter.VoltageStopThreshold; powerlimiter["voltage_load_correction_factor"] = config.PowerLimiter.VoltageLoadCorrectionFactor; powerlimiter["inverter_restart_hour"] = config.PowerLimiter.RestartHour; powerlimiter["full_solar_passthrough_soc"] = config.PowerLimiter.FullSolarPassThroughSoc; powerlimiter["full_solar_passthrough_start_voltage"] = config.PowerLimiter.FullSolarPassThroughStartVoltage; powerlimiter["full_solar_passthrough_stop_voltage"] = config.PowerLimiter.FullSolarPassThroughStopVoltage; JsonObject battery = doc.createNestedObject("battery"); battery["enabled"] = config.Battery.Enabled; battery["verbose_logging"] = config.Battery.VerboseLogging; battery["provider"] = config.Battery.Provider; battery["jkbms_interface"] = config.Battery.JkBmsInterface; battery["jkbms_polling_interval"] = config.Battery.JkBmsPollingInterval; battery["mqtt_topic"] = config.Battery.MqttSocTopic; battery["mqtt_voltage_topic"] = config.Battery.MqttVoltageTopic; JsonObject huawei = doc.createNestedObject("huawei"); huawei["enabled"] = config.Huawei.Enabled; huawei["verbose_logging"] = config.Huawei.VerboseLogging; huawei["can_controller_frequency"] = config.Huawei.CAN_Controller_Frequency; huawei["auto_power_enabled"] = config.Huawei.Auto_Power_Enabled; huawei["auto_power_batterysoc_limits_enabled"] = config.Huawei.Auto_Power_BatterySoC_Limits_Enabled; huawei["emergency_charge_enabled"] = config.Huawei.Emergency_Charge_Enabled; huawei["voltage_limit"] = config.Huawei.Auto_Power_Voltage_Limit; huawei["enable_voltage_limit"] = config.Huawei.Auto_Power_Enable_Voltage_Limit; huawei["lower_power_limit"] = config.Huawei.Auto_Power_Lower_Power_Limit; huawei["upper_power_limit"] = config.Huawei.Auto_Power_Upper_Power_Limit; huawei["stop_batterysoc_threshold"] = config.Huawei.Auto_Power_Stop_BatterySoC_Threshold; // Serialize JSON to file if (serializeJson(doc, f) == 0) { MessageOutput.println("Failed to write file"); return false; } f.close(); return true; } bool ConfigurationClass::read() { File f = LittleFS.open(CONFIG_FILENAME, "r", false); DynamicJsonDocument doc(JSON_BUFFER_SIZE); if (!Utils::checkJsonAlloc(doc, __FUNCTION__, __LINE__)) { return false; } // Deserialize the JSON document const DeserializationError error = deserializeJson(doc, f); if (error) { MessageOutput.println("Failed to read file, using default configuration"); } JsonObject cfg = doc["cfg"]; config.Cfg.Version = cfg["version"] | CONFIG_VERSION; config.Cfg.SaveCount = cfg["save_count"] | 0; JsonObject wifi = doc["wifi"]; strlcpy(config.WiFi.Ssid, wifi["ssid"] | WIFI_SSID, sizeof(config.WiFi.Ssid)); strlcpy(config.WiFi.Password, wifi["password"] | WIFI_PASSWORD, sizeof(config.WiFi.Password)); strlcpy(config.WiFi.Hostname, wifi["hostname"] | APP_HOSTNAME, sizeof(config.WiFi.Hostname)); IPAddress wifi_ip; wifi_ip.fromString(wifi["ip"] | ""); config.WiFi.Ip[0] = wifi_ip[0]; config.WiFi.Ip[1] = wifi_ip[1]; config.WiFi.Ip[2] = wifi_ip[2]; config.WiFi.Ip[3] = wifi_ip[3]; IPAddress wifi_netmask; wifi_netmask.fromString(wifi["netmask"] | ""); config.WiFi.Netmask[0] = wifi_netmask[0]; config.WiFi.Netmask[1] = wifi_netmask[1]; config.WiFi.Netmask[2] = wifi_netmask[2]; config.WiFi.Netmask[3] = wifi_netmask[3]; IPAddress wifi_gateway; wifi_gateway.fromString(wifi["gateway"] | ""); config.WiFi.Gateway[0] = wifi_gateway[0]; config.WiFi.Gateway[1] = wifi_gateway[1]; config.WiFi.Gateway[2] = wifi_gateway[2]; config.WiFi.Gateway[3] = wifi_gateway[3]; IPAddress wifi_dns1; wifi_dns1.fromString(wifi["dns1"] | ""); config.WiFi.Dns1[0] = wifi_dns1[0]; config.WiFi.Dns1[1] = wifi_dns1[1]; config.WiFi.Dns1[2] = wifi_dns1[2]; config.WiFi.Dns1[3] = wifi_dns1[3]; IPAddress wifi_dns2; wifi_dns2.fromString(wifi["dns2"] | ""); config.WiFi.Dns2[0] = wifi_dns2[0]; config.WiFi.Dns2[1] = wifi_dns2[1]; config.WiFi.Dns2[2] = wifi_dns2[2]; config.WiFi.Dns2[3] = wifi_dns2[3]; config.WiFi.Dhcp = wifi["dhcp"] | WIFI_DHCP; config.WiFi.ApTimeout = wifi["aptimeout"] | ACCESS_POINT_TIMEOUT; JsonObject mdns = doc["mdns"]; config.Mdns.Enabled = mdns["enabled"] | MDNS_ENABLED; JsonObject ntp = doc["ntp"]; strlcpy(config.Ntp.Server, ntp["server"] | NTP_SERVER, sizeof(config.Ntp.Server)); strlcpy(config.Ntp.Timezone, ntp["timezone"] | NTP_TIMEZONE, sizeof(config.Ntp.Timezone)); strlcpy(config.Ntp.TimezoneDescr, ntp["timezone_descr"] | NTP_TIMEZONEDESCR, sizeof(config.Ntp.TimezoneDescr)); config.Ntp.Latitude = ntp["latitude"] | NTP_LATITUDE; config.Ntp.Longitude = ntp["longitude"] | NTP_LONGITUDE; config.Ntp.SunsetType = ntp["sunsettype"] | NTP_SUNSETTYPE; JsonObject mqtt = doc["mqtt"]; config.Mqtt.Enabled = mqtt["enabled"] | MQTT_ENABLED; config.Mqtt.VerboseLogging = mqtt["verbose_logging"] | VERBOSE_LOGGING; strlcpy(config.Mqtt.Hostname, mqtt["hostname"] | MQTT_HOST, sizeof(config.Mqtt.Hostname)); config.Mqtt.Port = mqtt["port"] | MQTT_PORT; strlcpy(config.Mqtt.Username, mqtt["username"] | MQTT_USER, sizeof(config.Mqtt.Username)); strlcpy(config.Mqtt.Password, mqtt["password"] | MQTT_PASSWORD, sizeof(config.Mqtt.Password)); strlcpy(config.Mqtt.Topic, mqtt["topic"] | MQTT_TOPIC, sizeof(config.Mqtt.Topic)); config.Mqtt.Retain = mqtt["retain"] | MQTT_RETAIN; config.Mqtt.PublishInterval = mqtt["publish_interval"] | MQTT_PUBLISH_INTERVAL; config.Mqtt.CleanSession = mqtt["clean_session"] | MQTT_CLEAN_SESSION; JsonObject mqtt_lwt = mqtt["lwt"]; strlcpy(config.Mqtt.Lwt.Topic, mqtt_lwt["topic"] | MQTT_LWT_TOPIC, sizeof(config.Mqtt.Lwt.Topic)); strlcpy(config.Mqtt.Lwt.Value_Online, mqtt_lwt["value_online"] | MQTT_LWT_ONLINE, sizeof(config.Mqtt.Lwt.Value_Online)); strlcpy(config.Mqtt.Lwt.Value_Offline, mqtt_lwt["value_offline"] | MQTT_LWT_OFFLINE, sizeof(config.Mqtt.Lwt.Value_Offline)); config.Mqtt.Lwt.Qos = mqtt_lwt["qos"] | MQTT_LWT_QOS; JsonObject mqtt_tls = mqtt["tls"]; config.Mqtt.Tls.Enabled = mqtt_tls["enabled"] | MQTT_TLS; strlcpy(config.Mqtt.Tls.RootCaCert, mqtt_tls["root_ca_cert"] | MQTT_ROOT_CA_CERT, sizeof(config.Mqtt.Tls.RootCaCert)); config.Mqtt.Tls.CertLogin = mqtt_tls["certlogin"] | MQTT_TLSCERTLOGIN; strlcpy(config.Mqtt.Tls.ClientCert, mqtt_tls["client_cert"] | MQTT_TLSCLIENTCERT, sizeof(config.Mqtt.Tls.ClientCert)); strlcpy(config.Mqtt.Tls.ClientKey, mqtt_tls["client_key"] | MQTT_TLSCLIENTKEY, sizeof(config.Mqtt.Tls.ClientKey)); JsonObject mqtt_hass = mqtt["hass"]; config.Mqtt.Hass.Enabled = mqtt_hass["enabled"] | MQTT_HASS_ENABLED; config.Mqtt.Hass.Retain = mqtt_hass["retain"] | MQTT_HASS_RETAIN; config.Mqtt.Hass.Expire = mqtt_hass["expire"] | MQTT_HASS_EXPIRE; config.Mqtt.Hass.IndividualPanels = mqtt_hass["individual_panels"] | MQTT_HASS_INDIVIDUALPANELS; strlcpy(config.Mqtt.Hass.Topic, mqtt_hass["topic"] | MQTT_HASS_TOPIC, sizeof(config.Mqtt.Hass.Topic)); JsonObject dtu = doc["dtu"]; config.Dtu.Serial = dtu["serial"] | DTU_SERIAL; config.Dtu.PollInterval = dtu["poll_interval"] | DTU_POLL_INTERVAL; config.Dtu.VerboseLogging = dtu["verbose_logging"] | VERBOSE_LOGGING; config.Dtu.Nrf.PaLevel = dtu["nrf_pa_level"] | DTU_NRF_PA_LEVEL; config.Dtu.Cmt.PaLevel = dtu["cmt_pa_level"] | DTU_CMT_PA_LEVEL; config.Dtu.Cmt.Frequency = dtu["cmt_frequency"] | DTU_CMT_FREQUENCY; config.Dtu.Cmt.CountryMode = dtu["cmt_country_mode"] | DTU_CMT_COUNTRY_MODE; JsonObject security = doc["security"]; strlcpy(config.Security.Password, security["password"] | ACCESS_POINT_PASSWORD, sizeof(config.Security.Password)); config.Security.AllowReadonly = security["allow_readonly"] | SECURITY_ALLOW_READONLY; JsonObject device = doc["device"]; strlcpy(config.Dev_PinMapping, device["pinmapping"] | DEV_PINMAPPING, sizeof(config.Dev_PinMapping)); JsonObject display = device["display"]; config.Display.PowerSafe = display["powersafe"] | DISPLAY_POWERSAFE; config.Display.ScreenSaver = display["screensaver"] | DISPLAY_SCREENSAVER; config.Display.Rotation = display["rotation"] | DISPLAY_ROTATION; config.Display.Contrast = display["contrast"] | DISPLAY_CONTRAST; config.Display.Language = display["language"] | DISPLAY_LANGUAGE; config.Display.Diagram.Duration = display["diagram_duration"] | DISPLAY_DIAGRAM_DURATION; config.Display.Diagram.Mode = display["diagram_mode"] | DISPLAY_DIAGRAM_MODE; JsonArray leds = device["led"]; for (uint8_t i = 0; i < PINMAPPING_LED_COUNT; i++) { JsonObject led = leds[i].as(); config.Led_Single[i].Brightness = led["brightness"] | LED_BRIGHTNESS; } JsonArray inverters = doc["inverters"]; for (uint8_t i = 0; i < INV_MAX_COUNT; i++) { JsonObject inv = inverters[i].as(); config.Inverter[i].Serial = inv["serial"] | 0ULL; strlcpy(config.Inverter[i].Name, inv["name"] | "", sizeof(config.Inverter[i].Name)); config.Inverter[i].Order = inv["order"] | 0; config.Inverter[i].Poll_Enable = inv["poll_enable"] | true; config.Inverter[i].Poll_Enable_Night = inv["poll_enable_night"] | true; config.Inverter[i].Command_Enable = inv["command_enable"] | true; config.Inverter[i].Command_Enable_Night = inv["command_enable_night"] | true; config.Inverter[i].ReachableThreshold = inv["reachable_threshold"] | REACHABLE_THRESHOLD; config.Inverter[i].ZeroRuntimeDataIfUnrechable = inv["zero_runtime"] | false; config.Inverter[i].ZeroYieldDayOnMidnight = inv["zero_day"] | false; config.Inverter[i].YieldDayCorrection = inv["yieldday_correction"] | false; JsonArray channel = inv["channel"]; for (uint8_t c = 0; c < INV_MAX_CHAN_COUNT; c++) { config.Inverter[i].channel[c].MaxChannelPower = channel[c]["max_power"] | 0; config.Inverter[i].channel[c].YieldTotalOffset = channel[c]["yield_total_offset"] | 0.0f; strlcpy(config.Inverter[i].channel[c].Name, channel[c]["name"] | "", sizeof(config.Inverter[i].channel[c].Name)); } } JsonObject vedirect = doc["vedirect"]; config.Vedirect.Enabled = vedirect["enabled"] | VEDIRECT_ENABLED; config.Vedirect.VerboseLogging = vedirect["verbose_logging"] | VEDIRECT_VERBOSE_LOGGING; config.Vedirect.UpdatesOnly = vedirect["updates_only"] | VEDIRECT_UPDATESONLY; JsonObject powermeter = doc["powermeter"]; config.PowerMeter.Enabled = powermeter["enabled"] | POWERMETER_ENABLED; config.PowerMeter.VerboseLogging = powermeter["verbose_logging"] | VERBOSE_LOGGING; config.PowerMeter.Interval = powermeter["interval"] | POWERMETER_INTERVAL; config.PowerMeter.Source = powermeter["source"] | POWERMETER_SOURCE; strlcpy(config.PowerMeter.MqttTopicPowerMeter1, powermeter["mqtt_topic_powermeter_1"] | "", sizeof(config.PowerMeter.MqttTopicPowerMeter1)); strlcpy(config.PowerMeter.MqttTopicPowerMeter2, powermeter["mqtt_topic_powermeter_2"] | "", sizeof(config.PowerMeter.MqttTopicPowerMeter2)); strlcpy(config.PowerMeter.MqttTopicPowerMeter3, powermeter["mqtt_topic_powermeter_3"] | "", sizeof(config.PowerMeter.MqttTopicPowerMeter3)); config.PowerMeter.SdmBaudrate = powermeter["sdmbaudrate"] | POWERMETER_SDMBAUDRATE; config.PowerMeter.SdmAddress = powermeter["sdmaddress"] | POWERMETER_SDMADDRESS; config.PowerMeter.HttpIndividualRequests = powermeter["http_individual_requests"] | false; JsonArray powermeter_http_phases = powermeter["http_phases"]; for (uint8_t i = 0; i < POWERMETER_MAX_PHASES; i++) { JsonObject powermeter_phase = powermeter_http_phases[i].as(); config.PowerMeter.Http_Phase[i].Enabled = powermeter_phase["enabled"] | (i == 0); strlcpy(config.PowerMeter.Http_Phase[i].Url, powermeter_phase["url"] | "", sizeof(config.PowerMeter.Http_Phase[i].Url)); config.PowerMeter.Http_Phase[i].AuthType = powermeter_phase["auth_type"] | Auth::none; strlcpy(config.PowerMeter.Http_Phase[i].Username, powermeter_phase["username"] | "", sizeof(config.PowerMeter.Http_Phase[i].Username)); strlcpy(config.PowerMeter.Http_Phase[i].Password, powermeter_phase["password"] | "", sizeof(config.PowerMeter.Http_Phase[i].Password)); strlcpy(config.PowerMeter.Http_Phase[i].HeaderKey, powermeter_phase["header_key"] | "", sizeof(config.PowerMeter.Http_Phase[i].HeaderKey)); strlcpy(config.PowerMeter.Http_Phase[i].HeaderValue, powermeter_phase["header_value"] | "", sizeof(config.PowerMeter.Http_Phase[i].HeaderValue)); config.PowerMeter.Http_Phase[i].Timeout = powermeter_phase["timeout"] | POWERMETER_HTTP_TIMEOUT; strlcpy(config.PowerMeter.Http_Phase[i].JsonPath, powermeter_phase["json_path"] | "", sizeof(config.PowerMeter.Http_Phase[i].JsonPath)); } JsonObject powerlimiter = doc["powerlimiter"]; config.PowerLimiter.Enabled = powerlimiter["enabled"] | POWERLIMITER_ENABLED; config.PowerLimiter.VerboseLogging = powerlimiter["verbose_logging"] | VERBOSE_LOGGING; config.PowerLimiter.SolarPassThroughEnabled = powerlimiter["solar_passtrough_enabled"] | POWERLIMITER_SOLAR_PASSTHROUGH_ENABLED; config.PowerLimiter.SolarPassThroughLosses = powerlimiter["solar_passthrough_losses"] | POWERLIMITER_SOLAR_PASSTHROUGH_LOSSES; config.PowerLimiter.BatteryAlwaysUseAtNight = powerlimiter["battery_always_use_at_night"] | POWERLIMITER_BATTERY_ALWAYS_USE_AT_NIGHT; if (powerlimiter["battery_drain_strategy"].as() == 1) { config.PowerLimiter.BatteryAlwaysUseAtNight = true; } // convert legacy setting config.PowerLimiter.Interval = powerlimiter["interval"] | POWERLIMITER_INTERVAL; config.PowerLimiter.IsInverterBehindPowerMeter = powerlimiter["is_inverter_behind_powermeter"] | POWERLIMITER_IS_INVERTER_BEHIND_POWER_METER; config.PowerLimiter.IsInverterSolarPowered = powerlimiter["is_inverter_solar_powered"] | POWERLIMITER_IS_INVERTER_SOLAR_POWERED; config.PowerLimiter.InverterId = powerlimiter["inverter_id"] | POWERLIMITER_INVERTER_ID; config.PowerLimiter.InverterChannelId = powerlimiter["inverter_channel_id"] | POWERLIMITER_INVERTER_CHANNEL_ID; config.PowerLimiter.TargetPowerConsumption = powerlimiter["target_power_consumption"] | POWERLIMITER_TARGET_POWER_CONSUMPTION; config.PowerLimiter.TargetPowerConsumptionHysteresis = powerlimiter["target_power_consumption_hysteresis"] | POWERLIMITER_TARGET_POWER_CONSUMPTION_HYSTERESIS; config.PowerLimiter.LowerPowerLimit = powerlimiter["lower_power_limit"] | POWERLIMITER_LOWER_POWER_LIMIT; config.PowerLimiter.BaseLoadLimit = powerlimiter["base_load_limit"] | POWERLIMITER_BASE_LOAD_LIMIT; config.PowerLimiter.UpperPowerLimit = powerlimiter["upper_power_limit"] | POWERLIMITER_UPPER_POWER_LIMIT; config.PowerLimiter.IgnoreSoc = powerlimiter["ignore_soc"] | POWERLIMITER_IGNORE_SOC; config.PowerLimiter.BatterySocStartThreshold = powerlimiter["battery_soc_start_threshold"] | POWERLIMITER_BATTERY_SOC_START_THRESHOLD; config.PowerLimiter.BatterySocStopThreshold = powerlimiter["battery_soc_stop_threshold"] | POWERLIMITER_BATTERY_SOC_STOP_THRESHOLD; config.PowerLimiter.VoltageStartThreshold = powerlimiter["voltage_start_threshold"] | POWERLIMITER_VOLTAGE_START_THRESHOLD; config.PowerLimiter.VoltageStopThreshold = powerlimiter["voltage_stop_threshold"] | POWERLIMITER_VOLTAGE_STOP_THRESHOLD; config.PowerLimiter.VoltageLoadCorrectionFactor = powerlimiter["voltage_load_correction_factor"] | POWERLIMITER_VOLTAGE_LOAD_CORRECTION_FACTOR; config.PowerLimiter.RestartHour = powerlimiter["inverter_restart_hour"] | POWERLIMITER_RESTART_HOUR; config.PowerLimiter.FullSolarPassThroughSoc = powerlimiter["full_solar_passthrough_soc"] | POWERLIMITER_FULL_SOLAR_PASSTHROUGH_SOC; config.PowerLimiter.FullSolarPassThroughStartVoltage = powerlimiter["full_solar_passthrough_start_voltage"] | POWERLIMITER_FULL_SOLAR_PASSTHROUGH_START_VOLTAGE; config.PowerLimiter.FullSolarPassThroughStopVoltage = powerlimiter["full_solar_passthrough_stop_voltage"] | POWERLIMITER_FULL_SOLAR_PASSTHROUGH_STOP_VOLTAGE; JsonObject battery = doc["battery"]; config.Battery.Enabled = battery["enabled"] | BATTERY_ENABLED; config.Battery.VerboseLogging = battery["verbose_logging"] | VERBOSE_LOGGING; config.Battery.Provider = battery["provider"] | BATTERY_PROVIDER; config.Battery.JkBmsInterface = battery["jkbms_interface"] | BATTERY_JKBMS_INTERFACE; config.Battery.JkBmsPollingInterval = battery["jkbms_polling_interval"] | BATTERY_JKBMS_POLLING_INTERVAL; strlcpy(config.Battery.MqttSocTopic, battery["mqtt_topic"] | "", sizeof(config.Battery.MqttSocTopic)); strlcpy(config.Battery.MqttVoltageTopic, battery["mqtt_voltage_topic"] | "", sizeof(config.Battery.MqttVoltageTopic)); JsonObject huawei = doc["huawei"]; config.Huawei.Enabled = huawei["enabled"] | HUAWEI_ENABLED; config.Huawei.VerboseLogging = huawei["verbose_logging"] | VERBOSE_LOGGING; config.Huawei.CAN_Controller_Frequency = huawei["can_controller_frequency"] | HUAWEI_CAN_CONTROLLER_FREQUENCY; config.Huawei.Auto_Power_Enabled = huawei["auto_power_enabled"] | false; config.Huawei.Auto_Power_BatterySoC_Limits_Enabled = huawei["auto_power_batterysoc_limits_enabled"] | false; config.Huawei.Emergency_Charge_Enabled = huawei["emergency_charge_enabled"] | false; config.Huawei.Auto_Power_Voltage_Limit = huawei["voltage_limit"] | HUAWEI_AUTO_POWER_VOLTAGE_LIMIT; config.Huawei.Auto_Power_Enable_Voltage_Limit = huawei["enable_voltage_limit"] | HUAWEI_AUTO_POWER_ENABLE_VOLTAGE_LIMIT; config.Huawei.Auto_Power_Lower_Power_Limit = huawei["lower_power_limit"] | HUAWEI_AUTO_POWER_LOWER_POWER_LIMIT; config.Huawei.Auto_Power_Upper_Power_Limit = huawei["upper_power_limit"] | HUAWEI_AUTO_POWER_UPPER_POWER_LIMIT; config.Huawei.Auto_Power_Stop_BatterySoC_Threshold = huawei["stop_batterysoc_threshold"] | HUAWEI_AUTO_POWER_STOP_BATTERYSOC_THRESHOLD; f.close(); return true; } void ConfigurationClass::migrate() { File f = LittleFS.open(CONFIG_FILENAME, "r", false); if (!f) { MessageOutput.println("Failed to open file, cancel migration"); return; } DynamicJsonDocument doc(JSON_BUFFER_SIZE); if (!Utils::checkJsonAlloc(doc, __FUNCTION__, __LINE__)) { return; } // Deserialize the JSON document const DeserializationError error = deserializeJson(doc, f); if (error) { MessageOutput.printf("Failed to read file, cancel migration: %s\r\n", error.c_str()); return; } if (config.Cfg.Version < 0x00011700) { JsonArray inverters = doc["inverters"]; for (uint8_t i = 0; i < INV_MAX_COUNT; i++) { JsonObject inv = inverters[i].as(); JsonArray channels = inv["channels"]; for (uint8_t c = 0; c < INV_MAX_CHAN_COUNT; c++) { config.Inverter[i].channel[c].MaxChannelPower = channels[c]; strlcpy(config.Inverter[i].channel[c].Name, "", sizeof(config.Inverter[i].channel[c].Name)); } } } if (config.Cfg.Version < 0x00011800) { JsonObject mqtt = doc["mqtt"]; config.Mqtt.PublishInterval = mqtt["publish_invterval"]; } if (config.Cfg.Version < 0x00011900) { JsonObject dtu = doc["dtu"]; config.Dtu.Nrf.PaLevel = dtu["pa_level"]; } if (config.Cfg.Version < 0x00011a00) { // This migration fixes this issue: https://github.com/espressif/arduino-esp32/issues/8828 // It occours when migrating from Core 2.0.9 to 2.0.14 // which was done by updating ESP32 PlatformIO from 6.3.2 to 6.5.0 nvs_flash_erase(); nvs_flash_init(); } if (config.Cfg.Version < 0x00011b00) { // Convert from kHz to Hz config.Dtu.Cmt.Frequency *= 1000; } if (config.Cfg.Version < 0x00011c00) { if (!strcmp(config.Ntp.Server, NTP_SERVER_OLD)) { strlcpy(config.Ntp.Server, NTP_SERVER, sizeof(config.Ntp.Server)); } } f.close(); config.Cfg.Version = CONFIG_VERSION; write(); read(); } CONFIG_T& ConfigurationClass::get() { return config; } INVERTER_CONFIG_T* ConfigurationClass::getFreeInverterSlot() { for (uint8_t i = 0; i < INV_MAX_COUNT; i++) { if (config.Inverter[i].Serial == 0) { return &config.Inverter[i]; } } return nullptr; } INVERTER_CONFIG_T* ConfigurationClass::getInverterConfig(const uint64_t serial) { for (uint8_t i = 0; i < INV_MAX_COUNT; i++) { if (config.Inverter[i].Serial == serial) { return &config.Inverter[i]; } } return nullptr; } void ConfigurationClass::deleteInverterById(const uint8_t id) { config.Inverter[id].Serial = 0ULL; strlcpy(config.Inverter[id].Name, "", sizeof(config.Inverter[id].Name)); config.Inverter[id].Order = 0; config.Inverter[id].Poll_Enable = true; config.Inverter[id].Poll_Enable_Night = true; config.Inverter[id].Command_Enable = true; config.Inverter[id].Command_Enable_Night = true; config.Inverter[id].ReachableThreshold = REACHABLE_THRESHOLD; config.Inverter[id].ZeroRuntimeDataIfUnrechable = false; config.Inverter[id].ZeroYieldDayOnMidnight = false; config.Inverter[id].YieldDayCorrection = false; for (uint8_t c = 0; c < INV_MAX_CHAN_COUNT; c++) { config.Inverter[id].channel[c].MaxChannelPower = 0; config.Inverter[id].channel[c].YieldTotalOffset = 0.0f; strlcpy(config.Inverter[id].channel[c].Name, "", sizeof(config.Inverter[id].channel[c].Name)); } } ConfigurationClass Configuration;