286 lines
8.4 KiB
C++
286 lines
8.4 KiB
C++
#include "AlarmLogParser.h"
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#include <cstring>
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void AlarmLogParser::clearBuffer()
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{
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memset(_payloadAlarmLog, 0, ALARM_LOG_ENTRY_COUNT * ALARM_LOG_ENTRY_SIZE);
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_alarmLogLength = 0;
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}
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void AlarmLogParser::appendFragment(uint8_t offset, uint8_t* payload, uint8_t len)
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{
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if (offset + len > (ALARM_LOG_ENTRY_COUNT * ALARM_LOG_ENTRY_SIZE)) {
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Serial.printf("FATAL: (%s, %d) stats packet too large for buffer\n", __FILE__, __LINE__);
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return;
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}
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memcpy(&_payloadAlarmLog[offset], payload, len);
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_alarmLogLength += len;
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}
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uint8_t AlarmLogParser::getEntryCount()
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{
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return (_alarmLogLength - 2) / ALARM_LOG_ENTRY_SIZE;
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}
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void AlarmLogParser::getLogEntry(uint8_t entryId, AlarmLogEntry_t* entry)
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{
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uint8_t entryStartOffset = 2 + entryId * ALARM_LOG_ENTRY_SIZE;
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int timezoneOffset = getTimezoneOffset();
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uint32_t wcode = (uint16_t)_payloadAlarmLog[entryStartOffset] << 8 | _payloadAlarmLog[entryStartOffset + 1];
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uint32_t startTimeOffset = 0;
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if ((wcode >> 13) & 0x01 == 1) {
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startTimeOffset = 12 * 60 * 60;
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}
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uint32_t endTimeOffset = 0;
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if ((wcode >> 12) & 0x01 == 1) {
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endTimeOffset = 12 * 60 * 60;
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}
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entry->MessageId = _payloadAlarmLog[entryStartOffset + 1];
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entry->StartTime = (((uint16_t)_payloadAlarmLog[entryStartOffset + 4] << 8) | ((uint16_t)_payloadAlarmLog[entryStartOffset + 5])) + startTimeOffset + timezoneOffset;
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entry->EndTime = ((uint16_t)_payloadAlarmLog[entryStartOffset + 6] << 8) | ((uint16_t)_payloadAlarmLog[entryStartOffset + 7]);
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if (entry->EndTime > 0) {
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entry->EndTime += (endTimeOffset + timezoneOffset);
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}
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switch (entry->MessageId) {
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case 1:
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entry->Message = String(F("Inverter start"));
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break;
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case 2:
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entry->Message = String(F("DTU command failed"));
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break;
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case 121:
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entry->Message = String(F("Over temperature protection"));
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break;
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case 125:
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entry->Message = String(F("Grid configuration parameter error"));
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break;
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case 126:
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entry->Message = String(F("Software error code 126"));
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break;
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case 127:
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entry->Message = String(F("Firmware error"));
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break;
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case 128:
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entry->Message = String(F("Software error code 128"));
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break;
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case 129:
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entry->Message = String(F("Software error code 129"));
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break;
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case 130:
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entry->Message = String(F("Offline"));
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break;
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case 141:
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entry->Message = String(F("Grid overvoltage"));
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break;
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case 142:
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entry->Message = String(F("Average grid overvoltage"));
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break;
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case 143:
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entry->Message = String(F("Grid undervoltage"));
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break;
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case 144:
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entry->Message = String(F("Grid overfrequency"));
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break;
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case 145:
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entry->Message = String(F("Grid underfrequency"));
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break;
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case 146:
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entry->Message = String(F("Rapid grid frequency change"));
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break;
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case 147:
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entry->Message = String(F("Power grid outage"));
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break;
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case 148:
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entry->Message = String(F("Grid disconnection"));
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break;
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case 149:
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entry->Message = String(F("Island detected"));
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break;
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case 205:
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entry->Message = String(F("Input port 1 & 2 overvoltage"));
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break;
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case 206:
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entry->Message = String(F("Input port 3 & 4 overvoltage"));
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break;
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case 207:
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entry->Message = String(F("Input port 1 & 2 undervoltage"));
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break;
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case 208:
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entry->Message = String(F("Input port 3 & 4 undervoltage"));
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break;
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case 209:
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entry->Message = String(F("Port 1 no input"));
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break;
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case 210:
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entry->Message = String(F("Port 2 no input"));
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break;
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case 211:
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entry->Message = String(F("Port 3 no input"));
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break;
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case 212:
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entry->Message = String(F("Port 4 no input"));
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break;
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case 213:
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entry->Message = String(F("PV-1 & PV-2 abnormal wiring"));
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break;
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case 214:
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entry->Message = String(F("PV-3 & PV-4 abnormal wiring"));
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break;
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case 215:
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entry->Message = String(F("PV-1 Input overvoltage"));
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break;
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case 216:
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entry->Message = String(F("PV-1 Input undervoltage"));
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break;
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case 217:
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entry->Message = String(F("PV-2 Input overvoltage"));
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break;
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case 218:
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entry->Message = String(F("PV-2 Input undervoltage"));
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break;
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case 219:
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entry->Message = String(F("PV-3 Input overvoltage"));
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break;
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case 220:
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entry->Message = String(F("PV-3 Input undervoltage"));
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break;
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case 221:
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entry->Message = String(F("PV-4 Input overvoltage"));
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break;
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case 222:
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entry->Message = String(F("PV-4 Input undervoltage"));
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break;
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case 301:
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entry->Message = String(F("Hardware error code 301"));
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break;
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case 302:
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entry->Message = String(F("Hardware error code 302"));
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break;
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case 303:
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entry->Message = String(F("Hardware error code 303"));
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break;
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case 304:
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entry->Message = String(F("Hardware error code 304"));
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break;
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case 305:
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entry->Message = String(F("Hardware error code 305"));
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break;
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case 306:
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entry->Message = String(F("Hardware error code 306"));
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break;
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case 307:
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entry->Message = String(F("Hardware error code 307"));
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break;
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case 308:
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entry->Message = String(F("Hardware error code 308"));
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break;
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case 309:
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entry->Message = String(F("Hardware error code 309"));
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break;
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case 310:
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entry->Message = String(F("Hardware error code 310"));
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break;
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case 311:
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entry->Message = String(F("Hardware error code 311"));
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break;
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case 312:
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entry->Message = String(F("Hardware error code 312"));
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break;
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case 313:
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entry->Message = String(F("Hardware error code 313"));
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break;
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case 314:
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entry->Message = String(F("Hardware error code 314"));
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break;
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case 5041:
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entry->Message = String(F("Error code-04 Port 1"));
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break;
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case 5042:
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entry->Message = String(F("Error code-04 Port 2"));
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break;
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case 5043:
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entry->Message = String(F("Error code-04 Port 3"));
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break;
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case 5044:
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entry->Message = String(F("Error code-04 Port 4"));
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break;
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case 5051:
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entry->Message = String(F("PV Input 1 Overvoltage/Undervoltage"));
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break;
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case 5052:
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entry->Message = String(F("PV Input 2 Overvoltage/Undervoltage"));
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break;
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case 5053:
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entry->Message = String(F("PV Input 3 Overvoltage/Undervoltage"));
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break;
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case 5054:
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entry->Message = String(F("PV Input 4 Overvoltage/Undervoltage"));
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break;
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case 5060:
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entry->Message = String(F("Abnormal bias"));
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break;
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case 5070:
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entry->Message = String(F("Over temperature protection"));
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break;
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case 5080:
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entry->Message = String(F("Grid Overvoltage/Undervoltage"));
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break;
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case 5090:
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entry->Message = String(F("Grid Overfrequency/Underfrequency"));
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break;
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case 5100:
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entry->Message = String(F("Island detected"));
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break;
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case 5120:
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entry->Message = String(F("EEPROM reading and writing error"));
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break;
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case 5150:
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entry->Message = String(F("10 min value grid overvoltage"));
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break;
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case 5200:
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entry->Message = String(F("Firmware error"));
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break;
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case 8310:
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entry->Message = String(F("Shut down"));
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break;
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case 9000:
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entry->Message = String(F("Microinverter is suspected of being stolen"));
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break;
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default:
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entry->Message = String(F("Unknown"));
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break;
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}
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}
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uint32_t AlarmLogParser::getLastUpdate()
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{
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return _lastUpdate;
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}
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void AlarmLogParser::setLastUpdate(uint32_t lastUpdate)
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{
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_lastUpdate = lastUpdate;
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}
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int AlarmLogParser::getTimezoneOffset()
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{
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// see: https://stackoverflow.com/questions/13804095/get-the-time-zone-gmt-offset-in-c/44063597#44063597
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time_t gmt, rawtime = time(NULL);
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struct tm* ptm;
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struct tm gbuf;
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ptm = gmtime_r(&rawtime, &gbuf);
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// Request that mktime() looksup dst in timezone database
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ptm->tm_isdst = -1;
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gmt = mktime(ptm);
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return (int)difftime(rawtime, gmt);
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} |