// SPDX-License-Identifier: GPL-2.0-or-later /* * Copyright (C) 2022-2023 Thomas Basler and others */ #include "WebApi_ws_live.h" #include "Configuration.h" #include "Datastore.h" #include "MessageOutput.h" #include "Utils.h" #include "WebApi.h" #include "Battery.h" #include "Huawei_can.h" #include "PowerMeter.h" #include "VictronMppt.h" #include "defaults.h" #include WebApiWsLiveClass::WebApiWsLiveClass() : _ws("/livedata") { } void WebApiWsLiveClass::init(AsyncWebServer& server) { using std::placeholders::_1; using std::placeholders::_2; using std::placeholders::_3; using std::placeholders::_4; using std::placeholders::_5; using std::placeholders::_6; _server = &server; _server->on("/api/livedata/status", HTTP_GET, std::bind(&WebApiWsLiveClass::onLivedataStatus, this, _1)); _server->addHandler(&_ws); _ws.onEvent(std::bind(&WebApiWsLiveClass::onWebsocketEvent, this, _1, _2, _3, _4, _5, _6)); } void WebApiWsLiveClass::loop() { // see: https://github.com/me-no-dev/ESPAsyncWebServer#limiting-the-number-of-web-socket-clients if (millis() - _lastWsCleanup > 1000) { _ws.cleanupClients(); _lastWsCleanup = millis(); } // do nothing if no WS client is connected if (_ws.count() == 0) { return; } if (millis() - _lastInvUpdateCheck < 1000) { return; } _lastInvUpdateCheck = millis(); uint32_t maxTimeStamp = 0; for (uint8_t i = 0; i < Hoymiles.getNumInverters(); i++) { auto inv = Hoymiles.getInverterByPos(i); if (inv->Statistics()->getLastUpdate() > maxTimeStamp) { maxTimeStamp = inv->Statistics()->getLastUpdate(); } } // Update on every inverter change or at least after 10 seconds if (millis() - _lastWsPublish > (10 * 1000) || (maxTimeStamp != _newestInverterTimestamp)) { try { std::lock_guard lock(_mutex); DynamicJsonDocument root(4200 * INV_MAX_COUNT); if (Utils::checkJsonAlloc(root, __FUNCTION__, __LINE__)) { JsonVariant var = root; generateJsonResponse(var); String buffer; serializeJson(root, buffer); if (Configuration.get().Security.AllowReadonly) { _ws.setAuthentication("", ""); } else { _ws.setAuthentication(AUTH_USERNAME, Configuration.get().Security.Password); } _ws.textAll(buffer); } } catch (const std::bad_alloc& bad_alloc) { MessageOutput.printf("Calling /api/livedata/status has temporarily run out of resources. Reason: \"%s\".\r\n", bad_alloc.what()); } catch (const std::exception& exc) { MessageOutput.printf("Unknown exception in /api/livedata/status. Reason: \"%s\".\r\n", exc.what()); } _lastWsPublish = millis(); } } void WebApiWsLiveClass::generateJsonResponse(JsonVariant& root) { JsonArray invArray = root.createNestedArray("inverters"); // Loop all inverters for (uint8_t i = 0; i < Hoymiles.getNumInverters(); i++) { auto inv = Hoymiles.getInverterByPos(i); if (inv == nullptr) { continue; } JsonObject invObject = invArray.createNestedObject(); INVERTER_CONFIG_T* inv_cfg = Configuration.getInverterConfig(inv->serial()); if (inv_cfg == nullptr) { continue; } invObject["serial"] = inv->serialString(); invObject["name"] = inv->name(); invObject["order"] = inv_cfg->Order; invObject["data_age"] = (millis() - inv->Statistics()->getLastUpdate()) / 1000; invObject["poll_enabled"] = inv->getEnablePolling(); invObject["reachable"] = inv->isReachable(); invObject["producing"] = inv->isProducing(); invObject["limit_relative"] = inv->SystemConfigPara()->getLimitPercent(); if (inv->DevInfo()->getMaxPower() > 0) { invObject["limit_absolute"] = inv->SystemConfigPara()->getLimitPercent() * inv->DevInfo()->getMaxPower() / 100.0; } else { invObject["limit_absolute"] = -1; } // Loop all channels for (auto& t : inv->Statistics()->getChannelTypes()) { JsonObject chanTypeObj = invObject.createNestedObject(inv->Statistics()->getChannelTypeName(t)); for (auto& c : inv->Statistics()->getChannelsByType(t)) { if (t == TYPE_DC) { chanTypeObj[String(static_cast(c))]["name"]["u"] = inv_cfg->channel[c].Name; } addField(chanTypeObj, i, inv, t, c, FLD_PAC); addField(chanTypeObj, i, inv, t, c, FLD_UAC); addField(chanTypeObj, i, inv, t, c, FLD_IAC); if (t == TYPE_AC) { addField(chanTypeObj, i, inv, t, c, FLD_PDC, "Power DC"); } else { addField(chanTypeObj, i, inv, t, c, FLD_PDC); } addField(chanTypeObj, i, inv, t, c, FLD_UDC); addField(chanTypeObj, i, inv, t, c, FLD_IDC); addField(chanTypeObj, i, inv, t, c, FLD_YD); addField(chanTypeObj, i, inv, t, c, FLD_YT); addField(chanTypeObj, i, inv, t, c, FLD_F); addField(chanTypeObj, i, inv, t, c, FLD_T); addField(chanTypeObj, i, inv, t, c, FLD_PF); addField(chanTypeObj, i, inv, t, c, FLD_Q); addField(chanTypeObj, i, inv, t, c, FLD_EFF); if (t == TYPE_DC && inv->Statistics()->getStringMaxPower(c) > 0) { addField(chanTypeObj, i, inv, t, c, FLD_IRR); chanTypeObj[String(c)][inv->Statistics()->getChannelFieldName(t, c, FLD_IRR)]["max"] = inv->Statistics()->getStringMaxPower(c); } } } if (inv->Statistics()->hasChannelFieldValue(TYPE_INV, CH0, FLD_EVT_LOG)) { invObject["events"] = inv->EventLog()->getEntryCount(); } else { invObject["events"] = -1; } if (inv->Statistics()->getLastUpdate() > _newestInverterTimestamp) { _newestInverterTimestamp = inv->Statistics()->getLastUpdate(); } } JsonObject totalObj = root.createNestedObject("total"); addTotalField(totalObj, "Power", Datastore.getTotalAcPowerEnabled(), "W", Datastore.getTotalAcPowerDigits()); addTotalField(totalObj, "YieldDay", Datastore.getTotalAcYieldDayEnabled(), "Wh", Datastore.getTotalAcYieldDayDigits()); addTotalField(totalObj, "YieldTotal", Datastore.getTotalAcYieldTotalEnabled(), "kWh", Datastore.getTotalAcYieldTotalDigits()); JsonObject hintObj = root.createNestedObject("hints"); struct tm timeinfo; hintObj["time_sync"] = !getLocalTime(&timeinfo, 5); hintObj["radio_problem"] = (Hoymiles.getRadioNrf()->isInitialized() && (!Hoymiles.getRadioNrf()->isConnected() || !Hoymiles.getRadioNrf()->isPVariant())) || (Hoymiles.getRadioCmt()->isInitialized() && (!Hoymiles.getRadioCmt()->isConnected())); if (!strcmp(Configuration.get().Security.Password, ACCESS_POINT_PASSWORD)) { hintObj["default_password"] = true; } else { hintObj["default_password"] = false; } JsonObject vedirectObj = root.createNestedObject("vedirect"); vedirectObj["enabled"] = Configuration.get().Vedirect.Enabled; JsonObject totalVeObj = vedirectObj.createNestedObject("total"); addTotalField(totalVeObj, "Power", VictronMppt.getPanelPowerWatts(), "W", 1); addTotalField(totalVeObj, "YieldDay", VictronMppt.getYieldDay() * 1000, "Wh", 0); addTotalField(totalVeObj, "YieldTotal", VictronMppt.getYieldTotal(), "kWh", 2); JsonObject huaweiObj = root.createNestedObject("huawei"); huaweiObj["enabled"] = Configuration.get().Huawei.Enabled; const RectifierParameters_t * rp = HuaweiCan.get(); addTotalField(huaweiObj, "Power", rp->output_power, "W", 2); JsonObject batteryObj = root.createNestedObject("battery"); batteryObj["enabled"] = Configuration.get().Battery.Enabled; addTotalField(batteryObj, "soc", Battery.getStats()->getSoC(), "%", 0); JsonObject powerMeterObj = root.createNestedObject("power_meter"); powerMeterObj["enabled"] = Configuration.get().PowerMeter.Enabled; addTotalField(powerMeterObj, "Power", PowerMeter.getPowerTotal(false), "W", 1); } void WebApiWsLiveClass::addField(JsonObject& root, uint8_t idx, std::shared_ptr inv, const ChannelType_t type, const ChannelNum_t channel, const FieldId_t fieldId, String topic) { if (inv->Statistics()->hasChannelFieldValue(type, channel, fieldId)) { String chanName; if (topic == "") { chanName = inv->Statistics()->getChannelFieldName(type, channel, fieldId); } else { chanName = topic; } String chanNum; chanNum = channel; root[chanNum][chanName]["v"] = inv->Statistics()->getChannelFieldValue(type, channel, fieldId); root[chanNum][chanName]["u"] = inv->Statistics()->getChannelFieldUnit(type, channel, fieldId); root[chanNum][chanName]["d"] = inv->Statistics()->getChannelFieldDigits(type, channel, fieldId); } } void WebApiWsLiveClass::addTotalField(JsonObject& root, const String& name, const float value, const String& unit, const uint8_t digits) { root[name]["v"] = value; root[name]["u"] = unit; root[name]["d"] = digits; } void WebApiWsLiveClass::onWebsocketEvent(AsyncWebSocket* server, AsyncWebSocketClient* client, AwsEventType type, void* arg, uint8_t* data, size_t len) { if (type == WS_EVT_CONNECT) { MessageOutput.printf("Websocket: [%s][%u] connect\r\n", server->url(), client->id()); } else if (type == WS_EVT_DISCONNECT) { MessageOutput.printf("Websocket: [%s][%u] disconnect\r\n", server->url(), client->id()); } } void WebApiWsLiveClass::onLivedataStatus(AsyncWebServerRequest* request) { if (!WebApi.checkCredentialsReadonly(request)) { return; } try { std::lock_guard lock(_mutex); AsyncJsonResponse* response = new AsyncJsonResponse(false, 4200 * INV_MAX_COUNT); auto& root = response->getRoot(); generateJsonResponse(root); response->setLength(); request->send(response); } catch (const std::bad_alloc& bad_alloc) { MessageOutput.printf("Calling /api/livedata/status has temporarily run out of resources. Reason: \"%s\".\r\n", bad_alloc.what()); WebApi.sendTooManyRequests(request); } catch (const std::exception& exc) { MessageOutput.printf("Unknown exception in /api/livedata/status. Reason: \"%s\".\r\n", exc.what()); WebApi.sendTooManyRequests(request); } }