// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2022 Thomas Basler and others */ #include "WebApi_inverter.h" #include "Configuration.h" #include "MqttHandleHass.h" #include "WebApi.h" #include "WebApi_errors.h" #include "helper.h" #include #include void WebApiInverterClass::init(AsyncWebServer* server) { using std::placeholders::_1; _server = server; _server->on("/api/inverter/list", HTTP_GET, std::bind(&WebApiInverterClass::onInverterList, this, _1)); _server->on("/api/inverter/add", HTTP_POST, std::bind(&WebApiInverterClass::onInverterAdd, this, _1)); _server->on("/api/inverter/edit", HTTP_POST, std::bind(&WebApiInverterClass::onInverterEdit, this, _1)); _server->on("/api/inverter/del", HTTP_POST, std::bind(&WebApiInverterClass::onInverterDelete, this, _1)); } void WebApiInverterClass::loop() { } void WebApiInverterClass::onInverterList(AsyncWebServerRequest* request) { if (!WebApi.checkCredentials(request)) { return; } AsyncJsonResponse* response = new AsyncJsonResponse(false, 4096U); JsonObject root = response->getRoot(); JsonArray data = root.createNestedArray("inverter"); const CONFIG_T& config = Configuration.get(); for (uint8_t i = 0; i < INV_MAX_COUNT; i++) { if (config.Inverter[i].Serial > 0) { JsonObject obj = data.createNestedObject(); obj["id"] = i; obj["name"] = String(config.Inverter[i].Name); // Inverter Serial is read as HEX char buffer[sizeof(uint64_t) * 8 + 1]; snprintf(buffer, sizeof(buffer), "%0x%08x", ((uint32_t)((config.Inverter[i].Serial >> 32) & 0xFFFFFFFF)), ((uint32_t)(config.Inverter[i].Serial & 0xFFFFFFFF))); obj["serial"] = buffer; obj["poll_enable"] = config.Inverter[i].Poll_Enable; obj["poll_enable_night"] = config.Inverter[i].Poll_Enable_Night; obj["command_enable"] = config.Inverter[i].Command_Enable; obj["command_enable_night"] = config.Inverter[i].Command_Enable_Night; auto inv = Hoymiles.getInverterBySerial(config.Inverter[i].Serial); uint8_t max_channels; if (inv == nullptr) { obj["type"] = "Unknown"; max_channels = INV_MAX_CHAN_COUNT; } else { obj["type"] = inv->typeName(); max_channels = inv->Statistics()->getChannelsByType(TYPE_DC).size(); } JsonArray channel = obj.createNestedArray("channel"); for (uint8_t c = 0; c < max_channels; 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; } } } response->setLength(); request->send(response); } void WebApiInverterClass::onInverterAdd(AsyncWebServerRequest* request) { if (!WebApi.checkCredentials(request)) { return; } AsyncJsonResponse* response = new AsyncJsonResponse(); JsonObject retMsg = response->getRoot(); retMsg["type"] = "warning"; if (!request->hasParam("data", true)) { retMsg["message"] = "No values found!"; retMsg["code"] = WebApiError::GenericNoValueFound; response->setLength(); request->send(response); return; } String json = request->getParam("data", true)->value(); if (json.length() > 1024) { retMsg["message"] = "Data too large!"; retMsg["code"] = WebApiError::GenericDataTooLarge; response->setLength(); request->send(response); return; } DynamicJsonDocument root(1024); DeserializationError error = deserializeJson(root, json); if (error) { retMsg["message"] = "Failed to parse data!"; retMsg["code"] = WebApiError::GenericParseError; response->setLength(); request->send(response); return; } if (!(root.containsKey("serial") && root.containsKey("name"))) { retMsg["message"] = "Values are missing!"; retMsg["code"] = WebApiError::GenericValueMissing; response->setLength(); request->send(response); return; } if (root["serial"].as() == 0) { retMsg["message"] = "Serial must be a number > 0!"; retMsg["code"] = WebApiError::InverterSerialZero; response->setLength(); request->send(response); return; } if (root["name"].as().length() == 0 || root["name"].as().length() > INV_MAX_NAME_STRLEN) { retMsg["message"] = "Name must between 1 and " STR(INV_MAX_NAME_STRLEN) " characters long!"; retMsg["code"] = WebApiError::InverterNameLength; retMsg["param"]["max"] = INV_MAX_NAME_STRLEN; response->setLength(); request->send(response); return; } INVERTER_CONFIG_T* inverter = Configuration.getFreeInverterSlot(); if (!inverter) { retMsg["message"] = "Only " STR(INV_MAX_COUNT) " inverters are supported!"; retMsg["code"] = WebApiError::InverterCount; retMsg["param"]["max"] = INV_MAX_COUNT; response->setLength(); request->send(response); return; } // Interpret the string as a hex value and convert it to uint64_t inverter->Serial = strtoll(root["serial"].as().c_str(), NULL, 16); strncpy(inverter->Name, root["name"].as().c_str(), INV_MAX_NAME_STRLEN); Configuration.write(); retMsg["type"] = "success"; retMsg["message"] = "Inverter created!"; retMsg["code"] = WebApiError::InverterAdded; response->setLength(); request->send(response); auto inv = Hoymiles.addInverter(inverter->Name, inverter->Serial); if (inv != nullptr) { for (uint8_t c = 0; c < INV_MAX_CHAN_COUNT; c++) { inv->Statistics()->setStringMaxPower(c, inverter->channel[c].MaxChannelPower); } } MqttHandleHass.forceUpdate(); } void WebApiInverterClass::onInverterEdit(AsyncWebServerRequest* request) { if (!WebApi.checkCredentials(request)) { return; } AsyncJsonResponse* response = new AsyncJsonResponse(); JsonObject retMsg = response->getRoot(); retMsg["type"] = "warning"; if (!request->hasParam("data", true)) { retMsg["message"] = "No values found!"; retMsg["code"] = WebApiError::GenericNoValueFound; response->setLength(); request->send(response); return; } String json = request->getParam("data", true)->value(); if (json.length() > 1024) { retMsg["message"] = "Data too large!"; retMsg["code"] = WebApiError::GenericDataTooLarge; response->setLength(); request->send(response); return; } DynamicJsonDocument root(1024); DeserializationError error = deserializeJson(root, json); if (error) { retMsg["message"] = "Failed to parse data!"; retMsg["code"] = WebApiError::GenericParseError; response->setLength(); request->send(response); return; } if (!(root.containsKey("id") && root.containsKey("serial") && root.containsKey("name") && root.containsKey("channel"))) { retMsg["message"] = "Values are missing!"; retMsg["code"] = WebApiError::GenericValueMissing; response->setLength(); request->send(response); return; } if (root["id"].as() > INV_MAX_COUNT - 1) { retMsg["message"] = "Invalid ID specified!"; retMsg["code"] = WebApiError::InverterInvalidId; response->setLength(); request->send(response); return; } if (root["serial"].as() == 0) { retMsg["message"] = "Serial must be a number > 0!"; retMsg["code"] = WebApiError::InverterSerialZero; response->setLength(); request->send(response); return; } if (root["name"].as().length() == 0 || root["name"].as().length() > INV_MAX_NAME_STRLEN) { retMsg["message"] = "Name must between 1 and " STR(INV_MAX_NAME_STRLEN) " characters long!"; retMsg["code"] = WebApiError::InverterNameLength; retMsg["param"]["max"] = INV_MAX_NAME_STRLEN; response->setLength(); request->send(response); return; } JsonArray channelArray = root["channel"].as(); if (channelArray.size() == 0 || channelArray.size() > INV_MAX_CHAN_COUNT) { retMsg["message"] = "Invalid amount of max channel setting given!"; retMsg["code"] = WebApiError::InverterInvalidMaxChannel; response->setLength(); request->send(response); return; } INVERTER_CONFIG_T& inverter = Configuration.get().Inverter[root["id"].as()]; uint64_t new_serial = strtoll(root["serial"].as().c_str(), NULL, 16); uint64_t old_serial = inverter.Serial; // Interpret the string as a hex value and convert it to uint64_t inverter.Serial = new_serial; strncpy(inverter.Name, root["name"].as().c_str(), INV_MAX_NAME_STRLEN); uint8_t arrayCount = 0; for (JsonVariant channel : channelArray) { inverter.channel[arrayCount].MaxChannelPower = channel["max_power"].as(); inverter.channel[arrayCount].YieldTotalOffset = channel["yield_total_offset"].as(); strncpy(inverter.channel[arrayCount].Name, channel["name"] | "", sizeof(inverter.channel[arrayCount].Name)); inverter.Poll_Enable = root["poll_enable"] | true; inverter.Poll_Enable_Night = root["poll_enable_night"] | true; inverter.Command_Enable = root["command_enable"] | true; inverter.Command_Enable_Night = root["command_enable_night"] | true; arrayCount++; } Configuration.write(); retMsg["type"] = "success"; retMsg["code"] = WebApiError::InverterChanged; retMsg["message"] = "Inverter changed!"; response->setLength(); request->send(response); std::shared_ptr inv = Hoymiles.getInverterBySerial(old_serial); if (inv != nullptr && new_serial != old_serial) { // Valid inverter exists but serial changed --> remove it and insert new one Hoymiles.removeInverterBySerial(old_serial); inv = Hoymiles.addInverter(inverter.Name, inverter.Serial); } else if (inv != nullptr && new_serial == old_serial) { // Valid inverter exists and serial stays the same --> update name inv->setName(inverter.Name); } else if (inv == nullptr) { // Valid inverter did not exist --> try to create one inv = Hoymiles.addInverter(inverter.Name, inverter.Serial); } if (inv != nullptr) { inv->setEnablePolling(inverter.Poll_Enable); inv->setEnableCommands(inverter.Command_Enable); for (uint8_t c = 0; c < INV_MAX_CHAN_COUNT; c++) { inv->Statistics()->setStringMaxPower(c, inverter.channel[c].MaxChannelPower); inv->Statistics()->setChannelFieldOffset(TYPE_DC, static_cast(c), FLD_YT, inverter.channel[c].YieldTotalOffset); } } MqttHandleHass.forceUpdate(); } void WebApiInverterClass::onInverterDelete(AsyncWebServerRequest* request) { if (!WebApi.checkCredentials(request)) { return; } AsyncJsonResponse* response = new AsyncJsonResponse(); JsonObject retMsg = response->getRoot(); retMsg["type"] = "warning"; if (!request->hasParam("data", true)) { retMsg["message"] = "No values found!"; retMsg["code"] = WebApiError::GenericNoValueFound; response->setLength(); request->send(response); return; } String json = request->getParam("data", true)->value(); if (json.length() > 1024) { retMsg["message"] = "Data too large!"; retMsg["code"] = WebApiError::GenericDataTooLarge; response->setLength(); request->send(response); return; } DynamicJsonDocument root(1024); DeserializationError error = deserializeJson(root, json); if (error) { retMsg["message"] = "Failed to parse data!"; retMsg["code"] = WebApiError::GenericParseError; response->setLength(); request->send(response); return; } if (!(root.containsKey("id"))) { retMsg["message"] = "Values are missing!"; retMsg["code"] = WebApiError::GenericValueMissing; response->setLength(); request->send(response); return; } if (root["id"].as() > INV_MAX_COUNT - 1) { retMsg["message"] = "Invalid ID specified!"; retMsg["code"] = WebApiError::InverterInvalidId; response->setLength(); request->send(response); return; } uint8_t inverter_id = root["id"].as(); INVERTER_CONFIG_T& inverter = Configuration.get().Inverter[inverter_id]; Hoymiles.removeInverterBySerial(inverter.Serial); inverter.Serial = 0; strncpy(inverter.Name, "", sizeof(inverter.Name)); Configuration.write(); retMsg["type"] = "success"; retMsg["message"] = "Inverter deleted!"; retMsg["code"] = WebApiError::InverterDeleted; response->setLength(); request->send(response); MqttHandleHass.forceUpdate(); }