#include "DeviceList.h" void addThisDeviceToList() { jsonWriteStr_(devListHeapJson, F("devicelist"), ""); //метка для парсинга jsonWriteStr_(devListHeapJson, F("ip"), jsonReadStr(settingsFlashJson, F("ip"))); jsonWriteStr_(devListHeapJson, F("id"), jsonReadStr(settingsFlashJson, F("id"))); jsonWriteStr_(devListHeapJson, F("name"), jsonReadStr(settingsFlashJson, F("name"))); // для проверки // devListHeapJson = devListHeapJson + ","; // String test; // jsonWriteStr_(test, "ip", "192.168.88.88"); // jsonWriteStr_(test, "id", "123456789"); // jsonWriteStr_(test, "name", "test"); // devListHeapJson = devListHeapJson + test; devListHeapJson = "[" + devListHeapJson + "]"; Serial.println(devListHeapJson); } #ifdef UDP_ENABLED AsyncUDP asyncUdp; void asyncUdpInit() { if (asyncUdp.listenMulticast(IPAddress(239, 255, 255, 255), 4210)) { asyncUdp.onPacket([](AsyncUDPPacket packet) { // Serial.print("UDP Packet Type: "); // Serial.println(packet.isBroadcast() ? "Broadcast" : packet.isMulticast() ? "Multicast" : "Unicast"); // Serial.print("From: "); // Serial.print(packet.remoteIP()); // Serial.print(":"); // Serial.println(packet.remotePort()); // Serial.print("To: "); // Serial.print(packet.localIP()); // Serial.print(":"); // Serial.println(packet.localPort()); // Serial.print(", Length: "); // Serial.print(packet.length()); // Serial.print(", Data: "); // Serial.write(packet.data(), packet.length()); String data = uint8tToString(packet.data(), packet.length()); SerialPrint("i", F("UDP"), "Udp packet received, IP: " + packet.remoteIP().toString() + ":" + String(packet.remotePort())); Serial.println(data); if (udpPacketValidation(data)) { SerialPrint("i", F("UDP"), F("Device presentation received")); jsonMergeArrays(devListHeapJson, data); Serial.println(devListHeapJson); } else { SerialPrint("E", F("UDP"), F("Udp packet invalid")); } // reply to the client // String ip = WiFi.localIP().toString(); // asyncUdp.broadcastTo(ip.c_str(), packet.remotePort()); // packet.printf(ip.c_str(), packet.length()); }); } //будем отправлять каждые 10 секунд презентацию данного устройства ts.add( UDP, 10000, [&](void*) { SerialPrint("i", F("UDP"), F("Broadcast device presentation")); asyncUdp.broadcastTo(devListHeapJson.c_str(), 4210); // asyncUdp.broadcast("test"); // asyncUdp.print("Hello Server!"); }, nullptr, true); SerialPrint("I", F("UDP"), F("Udp Init")); } bool udpPacketValidation(String& data) { if (data.indexOf("devicelist") != -1) { return true; } else { return false; } } void jsonMergeArrays(String& arr1, String& arr2) { DynamicJsonDocument doc(1024); DeserializationError error = deserializeJson(doc, arr1); if (error) { SerialPrint("E", F("UDP"), error.f_str()); } JsonArray jarr = doc.as(); arr2.replace("[", ""); arr2.replace("]", ""); String incIP = jsonReadStr(arr2, "ip"); Serial.println("incIP " + incIP); bool ipExistInList = false; for (JsonVariant value : jarr) { String locIP = value["ip"].as(); Serial.println("locIP " + locIP); if (locIP == incIP) { ipExistInList = true; break; } else { ipExistInList = false; } } if (!ipExistInList) { arr1.replace("]", ""); arr1 = arr1 + "," + arr2 + "]"; } } // void udpPacketParse(String& data) { // if (data.indexOf("scen:") != -1) { // data = deleteBeforeDelimiter(data, ":"); // writeFile(String(DEVICE_SCENARIO_FILE), data); // loadScenario(); // } else if (data.indexOf("event:") != -1) { // data = deleteBeforeDelimiter(data, ":"); // eventBuf += data; // } // } String uint8tToString(uint8_t* data, size_t len) { String ret; while (len--) { ret += (char)*data++; } return ret; } #endif