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Dmitry Borisenko
2021-12-22 14:06:24 +01:00
parent 1ed5c81eb7
commit 5e9b15e7de
483 changed files with 0 additions and 28088 deletions
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src/MqttClient.cpp
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#include "MqttClient.h"
#include "BufferExecute.h"
#include "Class/NotAsync.h"
#include "Global.h"
#include "Init.h"
#include "items/vLogging.h"
#include "items/vSensorNode.h"
void mqttInit() {
myNotAsyncActions->add(
do_MQTTPARAMSCHANGED, [&](void*) {
mqttReconnect();
},
nullptr);
mqtt.setCallback(mqttCallback);
ts.add(
WIFI_MQTT_CONNECTION_CHECK, MQTT_RECONNECT_INTERVAL,
[&](void*) {
if (WiFi.status() == WL_CONNECTED) {
SerialPrint("I", F("WIFI"), F("OK"));
if (mqtt.connected()) {
SerialPrint("I", F("MQTT"), "OK, broker No " + String(currentBroker));
setLedStatus(LED_OFF);
} else {
SerialPrint("E", F("MQTT"), F("✖ Connection lost"));
mqttConnect();
}
} else {
SerialPrint("E", F("WIFI"), F("✖ Lost WiFi connection"));
ts.remove(WIFI_MQTT_CONNECTION_CHECK);
startAPMode();
}
},
nullptr, true);
myNotAsyncActions->add(
do_sendScenMQTT, [&](void*) {
String scen = readFile(String(DEVICE_SCENARIO_FILE), 2048);
publishInfo("scen", scen);
},
nullptr);
}
void mqttDisconnect() {
SerialPrint("I", F("MQTT"), F("disconnected"));
mqtt.disconnect();
}
void mqttReconnect() {
mqttDisconnect();
mqttConnect();
}
void mqttLoop() {
if (!isNetworkActive() || !mqtt.connected()) {
return;
}
mqtt.loop();
}
void mqttSubscribe() {
SerialPrint("I", F("MQTT"), F("subscribed"));
SerialPrint("I", "MQTT", mqttRootDevice);
mqtt.subscribe(mqttPrefix.c_str());
mqtt.subscribe((mqttRootDevice + "/+/control").c_str());
mqtt.subscribe((mqttRootDevice + "/update").c_str());
if (jsonReadBool(configSetupJson, "MqttIn")) {
mqtt.subscribe((mqttPrefix + "/+/+/event").c_str());
mqtt.subscribe((mqttPrefix + "/+/+/order").c_str());
mqtt.subscribe((mqttPrefix + "/+/+/info").c_str());
}
}
void selectBroker() {
if (changeBroker) {
changeBroker = false;
if (currentBroker == 1) {
getMqttData2();
} else if (currentBroker == 2) {
getMqttData1();
}
} else {
if (currentBroker == 1) {
getMqttData1();
} else if (currentBroker == 2) {
getMqttData2();
}
}
}
void getMqttData1() {
currentBroker = 1;
mqttServer = jsonReadStr(configSetupJson, F("mqttServer"));
mqttPort = jsonReadInt(configSetupJson, F("mqttPort"));
mqttPrefix = jsonReadStr(configSetupJson, F("mqttPrefix"));
mqttUser = jsonReadStr(configSetupJson, F("mqttUser"));
mqttPass = jsonReadStr(configSetupJson, F("mqttPass"));
prex = mqttPrefix + "/" + chipId;
}
void getMqttData2() {
currentBroker = 2;
mqttServer = jsonReadStr(configSetupJson, F("mqttServer2"));
mqttPort = jsonReadInt(configSetupJson, F("mqttPort2"));
mqttPrefix = jsonReadStr(configSetupJson, F("mqttPrefix2"));
mqttUser = jsonReadStr(configSetupJson, F("mqttUser2"));
mqttPass = jsonReadStr(configSetupJson, F("mqttPass2"));
prex = mqttPrefix + "/" + chipId;
}
bool isSecondBrokerSet() {
bool res = true;
if (jsonReadStr(configSetupJson, F("mqttServer2")) == "") {
res = false;
}
if (jsonReadStr(configSetupJson, F("mqttPrefix2")) == "") {
res = false;
}
return res;
}
boolean mqttConnect() {
selectBroker();
bool res = false;
if (mqttServer == "") {
SerialPrint("E", "MQTT", F("mqttServer empty"));
return res;
}
SerialPrint("I", "MQTT", "connection started to broker No " + String(currentBroker));
mqttRootDevice = mqttPrefix + "/" + chipId;
SerialPrint("I", "MQTT", "broker " + mqttServer + ":" + String(mqttPort, DEC));
SerialPrint("I", "MQTT", "topic " + mqttRootDevice);
setLedStatus(LED_FAST);
mqtt.setServer(mqttServer.c_str(), mqttPort);
if (!mqtt.connected()) {
bool connected = false;
if (mqttUser != "" && mqttPass != "") {
connected = mqtt.connect(chipId.c_str(), mqttUser.c_str(), mqttPass.c_str());
SerialPrint("I", F("MQTT"), F("Go to connection with login and password"));
} else if (mqttUser == "" && mqttPass == "") {
connected = mqtt.connect(chipId.c_str());
SerialPrint("I", F("MQTT"), F("Go to connection without login and password"));
} else {
SerialPrint("E", F("MQTT"), F("✖ Login or password missing"));
return res;
}
if (connected) {
SerialPrint("I", F("MQTT"), F("✔ connected"));
if (currentBroker == 1) jsonWriteStr(configSetupJson, F("warning4"), F("<div style='margin-top:10px;margin-bottom:10px;'><font color='black'><p style='border: 1px solid #DCDCDC; border-radius: 3px; background-color: #8ef584; padding: 10px;'>Подключено к основному брокеру</p></font></div>"));
if (currentBroker == 2) jsonWriteStr(configSetupJson, F("warning4"), F("<div style='margin-top:10px;margin-bottom:10px;'><font color='black'><p style='border: 1px solid #DCDCDC; border-radius: 3px; background-color: #8ef584; padding: 10px;'>Подключено к резервному брокеру</p></font></div>"));
setLedStatus(LED_OFF);
mqttSubscribe();
res = true;
} else {
mqttConnectAttempts++;
SerialPrint("E", F("MQTT"), "🡆 Attempt No: " + String(mqttConnectAttempts) + " could't connect, retry in " + String(MQTT_RECONNECT_INTERVAL / 1000) + "s");
setLedStatus(LED_FAST);
jsonWriteStr(configSetupJson, F("warning4"), F("<div style='margin-top:10px;margin-bottom:10px;'><font color='black'><p style='border: 1px solid #DCDCDC; border-radius: 3px; background-color: #fa987a; padding: 10px;'>Не подключено брокеру</p></font></div>"));
if (mqttConnectAttempts >= CHANGE_BROKER_AFTER) {
mqttConnectAttempts = 0;
if (isSecondBrokerSet()) {
changeBroker = true;
SerialPrint("E", F("MQTT"), "✖ Broker fully missed (" + String(CHANGE_BROKER_AFTER) + " attempts passed), try connect to another one");
} else {
SerialPrint("E", F("MQTT"), F("Secound broker not seted"));
}
}
}
}
return res;
}
void mqttCallback(char* topic, uint8_t* payload, size_t length) {
String topicStr = String(topic);
// SerialPrint("I", "=>MQTT", topicStr);
String payloadStr;
payloadStr.reserve(length + 1);
for (size_t i = 0; i < length; i++) {
payloadStr += (char)payload[i];
}
// SerialPrint("I", "=>MQTT", payloadStr);
if (payloadStr.startsWith("HELLO")) {
SerialPrint("I", F("MQTT"), F("Full update"));
publishWidgets();
publishState();
#ifdef GATE_MODE
publishTimes();
#endif
#ifdef EnableLogging
choose_log_date_and_send();
#endif
}
else if (topicStr.indexOf("control") != -1) {
String key = selectFromMarkerToMarker(topicStr, "/", 3);
String order;
order += key;
order += " ";
order += payloadStr;
order += ",";
loopCmdAdd(order);
SerialPrint("I", F("=>MQTT"), "Msg from iotmanager app: " + key + " " + payloadStr);
}
else if (topicStr.indexOf("event") != -1) {
if (!jsonReadBool(configSetupJson, "MqttIn")) {
return;
}
if (topicStr.indexOf(chipId) == -1) {
String devId = selectFromMarkerToMarker(topicStr, "/", 2);
String key = selectFromMarkerToMarker(topicStr, "/", 3);
SerialPrint("I", F("=>MQTT"), "Received event from other device: '" + devId + "' " + key + " " + payloadStr);
String event = key + " " + payloadStr + ",";
eventBuf += event;
}
}
else if (topicStr.indexOf("order") != -1) {
if (!jsonReadBool(configSetupJson, "MqttIn")) {
return;
}
String devId = selectFromMarkerToMarker(topicStr, "/", 2);
String key = selectFromMarkerToMarker(topicStr, "/", 3);
SerialPrint("I", F("=>MQTT"), "Received direct order " + key + " " + payloadStr);
String order = key + " " + payloadStr + ",";
loopCmdAdd(order);
SerialPrint("I", "Order add", order);
}
else if (topicStr.indexOf("info") != -1) {
if (topicStr.indexOf("scen") != -1) {
writeFile(String(DEVICE_SCENARIO_FILE), payloadStr);
loadScenario();
SerialPrint("I", F("=>MQTT"), F("Scenario received"));
}
}
}
boolean publish(const String& topic, const String& data) {
if (mqtt.beginPublish(topic.c_str(), data.length(), false)) {
mqtt.print(data);
return mqtt.endPublish();
}
return false;
}
boolean publishData(const String& topic, const String& data) {
String path = mqttRootDevice + "/" + topic;
if (!publish(path, data)) {
SerialPrint("E", F("MQTT"), F("on publish data"));
return false;
}
return true;
}
boolean publishChart(const String& topic, const String& data) {
String path = mqttRootDevice + "/" + topic + "/status";
if (!publish(path, data)) {
SerialPrint("E", F("MQTT"), F("on publish chart"));
return false;
}
return true;
}
boolean publishControl(String id, String topic, String state) {
String path = mqttPrefix + "/" + id + "/" + topic + "/control";
return mqtt.publish(path.c_str(), state.c_str(), false);
}
boolean publishChart_test(const String& topic, const String& data) {
String path = mqttRootDevice + "/" + topic + "/status";
return mqtt.publish(path.c_str(), data.c_str(), false);
}
boolean publishStatus(const String& topic, const String& data) {
String path = mqttRootDevice + "/" + topic + "/status";
String json = "{}";
jsonWriteStr(json, "status", data);
return mqtt.publish(path.c_str(), json.c_str(), false);
}
boolean publishAnyJsonKey(const String& topic, const String& key, const String& data) {
String path = mqttRootDevice + "/" + topic + "/status";
String json = "{}";
jsonWriteStr(json, key, data);
return mqtt.publish(path.c_str(), json.c_str(), false);
}
boolean publishEvent(const String& topic, const String& data) {
String path = mqttRootDevice + "/" + topic + "/event";
return mqtt.publish(path.c_str(), data.c_str(), false);
}
boolean publishInfo(const String& topic, const String& data) {
String path = mqttRootDevice + "/" + topic + "/info";
return mqtt.publish(path.c_str(), data.c_str(), false);
}
#ifdef LAYOUT_IN_RAM
void publishWidgets() {
if (all_widgets != "") {
int counter = 0;
String line;
int psn_1 = 0;
int psn_2;
do {
psn_2 = all_widgets.indexOf("\r\n", psn_1); //\r\n
line = all_widgets.substring(psn_1, psn_2);
line.replace("\n", "");
line.replace("\r\n", "");
// jsonWriteStr(line, "id", String(counter));
// jsonWriteStr(line, "pageId", String(counter));
counter++;
sendMQTT("config", line);
Serial.println("[V] " + line);
psn_1 = psn_2 + 1;
} while (psn_2 + 2 < all_widgets.length());
getMemoryLoad("I after send all widgets");
}
}
#endif
#ifndef LAYOUT_IN_RAM
void publishWidgets() {
auto file = seekFile("layout.txt");
if (!file) {
SerialPrint("E", F("MQTT"), F("no file layout.txt"));
return;
}
while (file.available()) {
String payload = file.readStringUntil('\n');
SerialPrint("I", F("MQTT"), "widgets: " + payload);
publishData("config", payload);
}
file.close();
}
#endif
void publishState() {
// берет строку json и ключи превращает в топики а значения колючей в них посылает
String str;
if (configLiveJson != "{}") {
str += configLiveJson;
}
if (configStoreJson != "{}") {
str += "," + configStoreJson;
}
str.replace("{", "");
str.replace("}", "");
str.replace("\"", "");
str += ",";
while (str.length() != 0) {
String tmp = selectToMarker(str, ",");
String topic = selectToMarker(tmp, ":");
String state = deleteBeforeDelimiter(tmp, ":");
if (topic != "" && state != "") {
if (topic != "timenow") {
publishStatus(topic, state);
}
}
str = deleteBeforeDelimiter(str, ",");
}
}
const String getStateStr() {
switch (mqtt.state()) {
case -4:
return F("no respond");
break;
case -3:
return F("connection was broken");
break;
case -2:
return F("connection failed");
break;
case -1:
return F("client disconnected");
break;
case 0:
return F("client connected");
break;
case 1:
return F("doesn't support the requested version");
break;
case 2:
return F("rejected the client identifier");
break;
case 3:
return F("unable to accept the connection");
break;
case 4:
return F("wrong username/password");
break;
case 5:
return F("not authorized to connect");
break;
default:
return F("unspecified");
break;
}
}