// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2022 Thomas Basler and others */ #include "WebApi_dtu.h" #include "Configuration.h" #include "WebApi.h" #include "WebApi_errors.h" #include #include void WebApiDtuClass::init(AsyncWebServer* server) { using std::placeholders::_1; _server = server; _server->on("/api/dtu/config", HTTP_GET, std::bind(&WebApiDtuClass::onDtuAdminGet, this, _1)); _server->on("/api/dtu/config", HTTP_POST, std::bind(&WebApiDtuClass::onDtuAdminPost, this, _1)); } void WebApiDtuClass::loop() { } void WebApiDtuClass::onDtuAdminGet(AsyncWebServerRequest* request) { if (!WebApi.checkCredentials(request)) { return; } AsyncJsonResponse* response = new AsyncJsonResponse(); JsonObject root = response->getRoot(); const CONFIG_T& config = Configuration.get(); // DTU Serial is read as HEX char buffer[sizeof(uint64_t) * 8 + 1]; snprintf(buffer, sizeof(buffer), "%0x%08x", ((uint32_t)((config.Dtu_Serial >> 32) & 0xFFFFFFFF)), ((uint32_t)(config.Dtu_Serial & 0xFFFFFFFF))); root["dtu_serial"] = buffer; root["dtu_pollinterval"] = config.Dtu_PollInterval; root["dtu_palevel"] = config.Dtu_PaLevel; response->setLength(); request->send(response); } void WebApiDtuClass::onDtuAdminPost(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("dtu_serial") && root.containsKey("dtu_pollinterval") && root.containsKey("dtu_palevel"))) { retMsg["message"] = "Values are missing!"; retMsg["code"] = WebApiError::GenericValueMissing; response->setLength(); request->send(response); return; } if (root["dtu_serial"].as() == 0) { retMsg["message"] = "Serial cannot be zero!"; retMsg["code"] = WebApiError::DtuSerialZero; response->setLength(); request->send(response); return; } if (root["dtu_pollinterval"].as() == 0) { retMsg["message"] = "Poll interval must be greater zero!"; retMsg["code"] = WebApiError::DtuPollZero; response->setLength(); request->send(response); return; } if (root["dtu_palevel"].as() > 3) { retMsg["message"] = "Invalid power level setting!"; retMsg["code"] = WebApiError::DtuInvalidPowerLevel; response->setLength(); request->send(response); return; } CONFIG_T& config = Configuration.get(); // Interpret the string as a hex value and convert it to uint64_t config.Dtu_Serial = strtoll(root["dtu_serial"].as().c_str(), NULL, 16); config.Dtu_PollInterval = root["dtu_pollinterval"].as(); config.Dtu_PaLevel = root["dtu_palevel"].as(); Configuration.write(); retMsg["type"] = "success"; retMsg["message"] = "Settings saved!"; retMsg["code"] = WebApiError::GenericSuccess; response->setLength(); request->send(response); Hoymiles.getRadioNrf()->setPALevel((rf24_pa_dbm_e)config.Dtu_PaLevel); Hoymiles.getRadioNrf()->setDtuSerial(config.Dtu_Serial); Hoymiles.getRadioCmt()->setDtuSerial(config.Dtu_Serial); Hoymiles.setPollInterval(config.Dtu_PollInterval); }