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2454cead03
OpenDTU-old/include/Configuration.h
ranma 20159f341e
Feature: Add syslog logger (#1267) 
This implements RFC5424 version of the protocol.

Don't use https://github.com/arcao/Syslog since the protocol itself
is trivial and most of the libraries functionality is not needed here.
The library also doesn't support setting the PROCID field, which is set
to a random id to indicate a reboot here.

Add UI for syslog configuration to network admin view.
2024-09-26 23:01:06 +02:00

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// SPDX-License-Identifier: GPL-2.0-or-later
#pragma once
#include "PinMapping.h"
#include <cstdint>
#include <ArduinoJson.h>
#define CONFIG_FILENAME "/config.json"
#define CONFIG_VERSION 0x00011c00 // 0.1.28 // make sure to clean all after change
#define WIFI_MAX_SSID_STRLEN 32
#define WIFI_MAX_PASSWORD_STRLEN 64
#define WIFI_MAX_HOSTNAME_STRLEN 31
#define SYSLOG_MAX_HOSTNAME_STRLEN 128
#define NTP_MAX_SERVER_STRLEN 31
#define NTP_MAX_TIMEZONE_STRLEN 50
#define NTP_MAX_TIMEZONEDESCR_STRLEN 50
#define MQTT_MAX_HOSTNAME_STRLEN 128
#define MQTT_MAX_CLIENTID_STRLEN 64
#define MQTT_MAX_USERNAME_STRLEN 64
#define MQTT_MAX_PASSWORD_STRLEN 64
#define MQTT_MAX_TOPIC_STRLEN 256
#define MQTT_MAX_LWTVALUE_STRLEN 20
#define MQTT_MAX_CERT_STRLEN 2560
#define INV_MAX_NAME_STRLEN 31
#define INV_MAX_COUNT 10
#define INV_MAX_CHAN_COUNT 6
#define CHAN_MAX_NAME_STRLEN 31
#define DEV_MAX_MAPPING_NAME_STRLEN 63
#define HTTP_REQUEST_MAX_URL_STRLEN 1024
#define HTTP_REQUEST_MAX_USERNAME_STRLEN 64
#define HTTP_REQUEST_MAX_PASSWORD_STRLEN 64
#define HTTP_REQUEST_MAX_HEADER_KEY_STRLEN 64
#define HTTP_REQUEST_MAX_HEADER_VALUE_STRLEN 256
#define POWERMETER_MQTT_MAX_VALUES 3
#define POWERMETER_HTTP_JSON_MAX_VALUES 3
#define POWERMETER_HTTP_JSON_MAX_PATH_STRLEN 256
#define BATTERY_JSON_MAX_PATH_STRLEN 128
struct CHANNEL_CONFIG_T {
uint16_t MaxChannelPower;
char Name[CHAN_MAX_NAME_STRLEN];
float YieldTotalOffset;
};
struct INVERTER_CONFIG_T {
uint64_t Serial;
char Name[INV_MAX_NAME_STRLEN + 1];
uint8_t Order;
bool Poll_Enable;
bool Poll_Enable_Night;
bool Command_Enable;
bool Command_Enable_Night;
uint8_t ReachableThreshold;
bool ZeroRuntimeDataIfUnrechable;
bool ZeroYieldDayOnMidnight;
bool ClearEventlogOnMidnight;
bool YieldDayCorrection;
CHANNEL_CONFIG_T channel[INV_MAX_CHAN_COUNT];
};
struct HTTP_REQUEST_CONFIG_T {
char Url[HTTP_REQUEST_MAX_URL_STRLEN + 1];
enum Auth { None, Basic, Digest };
Auth AuthType;
char Username[HTTP_REQUEST_MAX_USERNAME_STRLEN + 1];
char Password[HTTP_REQUEST_MAX_PASSWORD_STRLEN + 1];
char HeaderKey[HTTP_REQUEST_MAX_HEADER_KEY_STRLEN + 1];
char HeaderValue[HTTP_REQUEST_MAX_HEADER_VALUE_STRLEN + 1];
uint16_t Timeout;
};
using HttpRequestConfig = struct HTTP_REQUEST_CONFIG_T;
struct POWERMETER_MQTT_VALUE_T {
char Topic[MQTT_MAX_TOPIC_STRLEN + 1];
char JsonPath[POWERMETER_HTTP_JSON_MAX_PATH_STRLEN + 1];
enum Unit { Watts = 0, MilliWatts = 1, KiloWatts = 2 };
Unit PowerUnit;
bool SignInverted;
};
using PowerMeterMqttValue = struct POWERMETER_MQTT_VALUE_T;
struct POWERMETER_MQTT_CONFIG_T {
PowerMeterMqttValue Values[POWERMETER_MQTT_MAX_VALUES];
};
using PowerMeterMqttConfig = struct POWERMETER_MQTT_CONFIG_T;
struct POWERMETER_SERIAL_SDM_CONFIG_T {
uint32_t Address;
uint32_t PollingInterval;
};
using PowerMeterSerialSdmConfig = struct POWERMETER_SERIAL_SDM_CONFIG_T;
struct POWERMETER_HTTP_JSON_VALUE_T {
HttpRequestConfig HttpRequest;
bool Enabled;
char JsonPath[POWERMETER_HTTP_JSON_MAX_PATH_STRLEN + 1];
enum Unit { Watts = 0, MilliWatts = 1, KiloWatts = 2 };
Unit PowerUnit;
bool SignInverted;
};
using PowerMeterHttpJsonValue = struct POWERMETER_HTTP_JSON_VALUE_T;
struct POWERMETER_HTTP_JSON_CONFIG_T {
uint32_t PollingInterval;
bool IndividualRequests;
PowerMeterHttpJsonValue Values[POWERMETER_HTTP_JSON_MAX_VALUES];
};
using PowerMeterHttpJsonConfig = struct POWERMETER_HTTP_JSON_CONFIG_T;
struct POWERMETER_HTTP_SML_CONFIG_T {
uint32_t PollingInterval;
HttpRequestConfig HttpRequest;
};
using PowerMeterHttpSmlConfig = struct POWERMETER_HTTP_SML_CONFIG_T;
enum BatteryVoltageUnit { Volts = 0, DeciVolts = 1, CentiVolts = 2, MilliVolts = 3 };
enum BatteryAmperageUnit { Amps = 0, MilliAmps = 1 };
struct BATTERY_CONFIG_T {
bool Enabled;
bool VerboseLogging;
uint8_t Provider;
uint8_t JkBmsInterface;
uint8_t JkBmsPollingInterval;
char MqttSocTopic[MQTT_MAX_TOPIC_STRLEN + 1];
char MqttSocJsonPath[BATTERY_JSON_MAX_PATH_STRLEN + 1];
char MqttVoltageTopic[MQTT_MAX_TOPIC_STRLEN + 1];
char MqttVoltageJsonPath[BATTERY_JSON_MAX_PATH_STRLEN + 1];
BatteryVoltageUnit MqttVoltageUnit;
bool EnableDischargeCurrentLimit;
float DischargeCurrentLimit;
bool UseBatteryReportedDischargeCurrentLimit;
char MqttDischargeCurrentTopic[MQTT_MAX_TOPIC_STRLEN + 1];
char MqttDischargeCurrentJsonPath[BATTERY_JSON_MAX_PATH_STRLEN + 1];
BatteryAmperageUnit MqttAmperageUnit;
};
using BatteryConfig = struct BATTERY_CONFIG_T;
struct CONFIG_T {
struct {
uint32_t Version;
uint32_t SaveCount;
} Cfg;
struct {
char Ssid[WIFI_MAX_SSID_STRLEN + 1];
char Password[WIFI_MAX_PASSWORD_STRLEN + 1];
uint8_t Ip[4];
uint8_t Netmask[4];
uint8_t Gateway[4];
uint8_t Dns1[4];
uint8_t Dns2[4];
bool Dhcp;
char Hostname[WIFI_MAX_HOSTNAME_STRLEN + 1];
uint32_t ApTimeout;
} WiFi;
struct {
bool Enabled;
} Mdns;
struct {
bool Enabled;
char Hostname[SYSLOG_MAX_HOSTNAME_STRLEN + 1];
uint16_t Port;
} Syslog;
struct {
char Server[NTP_MAX_SERVER_STRLEN + 1];
char Timezone[NTP_MAX_TIMEZONE_STRLEN + 1];
char TimezoneDescr[NTP_MAX_TIMEZONEDESCR_STRLEN + 1];
double Longitude;
double Latitude;
uint8_t SunsetType;
} Ntp;
struct {
bool Enabled;
char Hostname[MQTT_MAX_HOSTNAME_STRLEN + 1];
bool VerboseLogging;
uint32_t Port;
char ClientId[MQTT_MAX_CLIENTID_STRLEN + 1];
char Username[MQTT_MAX_USERNAME_STRLEN + 1];
char Password[MQTT_MAX_PASSWORD_STRLEN + 1];
char Topic[MQTT_MAX_TOPIC_STRLEN + 1];
bool Retain;
uint32_t PublishInterval;
bool CleanSession;
struct {
char Topic[MQTT_MAX_TOPIC_STRLEN + 1];
char Value_Online[MQTT_MAX_LWTVALUE_STRLEN + 1];
char Value_Offline[MQTT_MAX_LWTVALUE_STRLEN + 1];
uint8_t Qos;
} Lwt;
struct {
bool Enabled;
bool Retain;
char Topic[MQTT_MAX_TOPIC_STRLEN + 1];
bool IndividualPanels;
bool Expire;
} Hass;
struct {
bool Enabled;
char RootCaCert[MQTT_MAX_CERT_STRLEN + 1];
bool CertLogin;
char ClientCert[MQTT_MAX_CERT_STRLEN + 1];
char ClientKey[MQTT_MAX_CERT_STRLEN + 1];
} Tls;
} Mqtt;
struct {
uint64_t Serial;
uint32_t PollInterval;
struct {
uint8_t PaLevel;
} Nrf;
struct {
int8_t PaLevel;
uint32_t Frequency;
uint8_t CountryMode;
} Cmt;
bool VerboseLogging;
} Dtu;
struct {
char Password[WIFI_MAX_PASSWORD_STRLEN + 1];
bool AllowReadonly;
} Security;
struct {
bool PowerSafe;
bool ScreenSaver;
uint8_t Rotation;
uint8_t Contrast;
uint8_t Language;
struct {
uint32_t Duration;
uint8_t Mode;
} Diagram;
} Display;
struct {
uint8_t Brightness;
} Led_Single[PINMAPPING_LED_COUNT];
struct {
bool Enabled;
bool VerboseLogging;
bool UpdatesOnly;
} Vedirect;
struct PowerMeterConfig {
bool Enabled;
bool VerboseLogging;
uint32_t Source;
PowerMeterMqttConfig Mqtt;
PowerMeterSerialSdmConfig SerialSdm;
PowerMeterHttpJsonConfig HttpJson;
PowerMeterHttpSmlConfig HttpSml;
} PowerMeter;
struct {
bool Enabled;
bool VerboseLogging;
bool SolarPassThroughEnabled;
uint8_t SolarPassThroughLosses;
bool BatteryAlwaysUseAtNight;
uint32_t Interval;
bool IsInverterBehindPowerMeter;
bool IsInverterSolarPowered;
bool UseOverscalingToCompensateShading;
uint64_t InverterId;
uint8_t InverterChannelId;
int32_t TargetPowerConsumption;
int32_t TargetPowerConsumptionHysteresis;
int32_t LowerPowerLimit;
int32_t BaseLoadLimit;
int32_t UpperPowerLimit;
bool IgnoreSoc;
uint32_t BatterySocStartThreshold;
uint32_t BatterySocStopThreshold;
float VoltageStartThreshold;
float VoltageStopThreshold;
float VoltageLoadCorrectionFactor;
int8_t RestartHour;
uint32_t FullSolarPassThroughSoc;
float FullSolarPassThroughStartVoltage;
float FullSolarPassThroughStopVoltage;
} PowerLimiter;
BatteryConfig Battery;
struct {
bool Enabled;
bool VerboseLogging;
uint32_t CAN_Controller_Frequency;
bool Auto_Power_Enabled;
bool Auto_Power_BatterySoC_Limits_Enabled;
bool Emergency_Charge_Enabled;
float Auto_Power_Voltage_Limit;
float Auto_Power_Enable_Voltage_Limit;
float Auto_Power_Lower_Power_Limit;
float Auto_Power_Upper_Power_Limit;
uint8_t Auto_Power_Stop_BatterySoC_Threshold;
float Auto_Power_Target_Power_Consumption;
} Huawei;
INVERTER_CONFIG_T Inverter[INV_MAX_COUNT];
char Dev_PinMapping[DEV_MAX_MAPPING_NAME_STRLEN + 1];
};
class ConfigurationClass {
public:
void init();
bool read();
bool write();
void migrate();
CONFIG_T& get();
INVERTER_CONFIG_T* getFreeInverterSlot();
INVERTER_CONFIG_T* getInverterConfig(const uint64_t serial);
void deleteInverterById(const uint8_t id);
static void serializeHttpRequestConfig(HttpRequestConfig const& source, JsonObject& target);
static void serializePowerMeterMqttConfig(PowerMeterMqttConfig const& source, JsonObject& target);
static void serializePowerMeterSerialSdmConfig(PowerMeterSerialSdmConfig const& source, JsonObject& target);
static void serializePowerMeterHttpJsonConfig(PowerMeterHttpJsonConfig const& source, JsonObject& target);
static void serializePowerMeterHttpSmlConfig(PowerMeterHttpSmlConfig const& source, JsonObject& target);
static void serializeBatteryConfig(BatteryConfig const& source, JsonObject& target);
static void deserializeHttpRequestConfig(JsonObject const& source, HttpRequestConfig& target);
static void deserializePowerMeterMqttConfig(JsonObject const& source, PowerMeterMqttConfig& target);
static void deserializePowerMeterSerialSdmConfig(JsonObject const& source, PowerMeterSerialSdmConfig& target);
static void deserializePowerMeterHttpJsonConfig(JsonObject const& source, PowerMeterHttpJsonConfig& target);
static void deserializePowerMeterHttpSmlConfig(JsonObject const& source, PowerMeterHttpSmlConfig& target);
static void deserializeBatteryConfig(JsonObject const& source, BatteryConfig& target);
};
extern ConfigurationClass Configuration;
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