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This commit is contained in:
Dmitry Borisenko
2020-09-04 18:58:03 +03:00
parent a258c8c1b6
commit 799118d763
29 changed files with 630 additions and 633 deletions
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8
include/BufferExecute.h Normal file
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@@ -0,0 +1,8 @@
#pragma once
#include <Arduino.h>
extern void loopCmdAdd(const String &cmdStr);
extern void fileCmdExecute(const String &filename);
extern void csvCmdExecute(String &cmdStr);
extern void spaceCmdExecute(String &cmdStr);
extern void loopCmdExecute();

2
include/Class/ScenarioClass.h
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@@ -98,7 +98,7 @@ class Scenario {
if (this->isConditionSatisfied()) { //если вошедшее событие выполняет условие сценария
_scenBlok = deleteBeforeDelimiter(_scenBlok, "\n");
//Serial.println(" [>] Making: " + _scenBlok);
spaceExecute(_scenBlok);
spaceCmdExecute(_scenBlok);
}
}
this->delOneScenBlock(); //удалим использованный блок

6
include/Cmd.h
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@@ -60,6 +60,6 @@ extern void firmwareVersion();
extern void firmwareUpdate();
extern void loadScenario();
extern void fileExecute(const String& filename);
extern void csvExecute(String& cmdStr);
extern void spaceExecute(String& cmdStr);
extern void fileCmdExecute(const String& filename);
extern void csvCmdExecute(String& cmdStr);
extern void spaceCmdExecute(String& cmdStr);

2
include/Consts.h
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@@ -30,7 +30,7 @@
//#define WEBSOCKET_ENABLED
//#define LAYOUT_IN_RAM
//#define UDP_ENABLED
#define SSDP
#define SSDP_EN
/*
* Sensor

6
include/Global.h
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@@ -139,11 +139,7 @@ extern void udpInit();
extern void do_udp_data_parse();
extern void do_mqtt_send_settings_to_udp();
extern void addCommandLoop(const String& cmdStr);
extern void loopSerial();
extern void loopCmd();
extern void loopScenario();
extern void loopUdp();
extern void do_update();

0
include/items/itemsGlobal.h → include/ItemsCmd.h
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2
include/Module/Runner.h
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@@ -12,6 +12,6 @@ class CmdRunner : public Runner {
public:
void run(const char* cmd, Print* out) override {
String cmdStr{cmd};
csvExecute(cmdStr);
csvCmdExecute(cmdStr);
}
};

3
include/SSDP.h
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@@ -1,6 +1,7 @@
#pragma once
#ifdef SSDP
#include "Global.h"
#include <Arduino.h>
#ifdef SSDP_EN
extern void SsdpInit();
extern String xmlNode(String tags, String data);
extern String decToHex(uint32_t decValue, byte desiredStringLength);

71
src/BufferExecute.cpp Normal file
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@@ -0,0 +1,71 @@
#include "BufferExecute.h"
#include "Global.h"
#include "Module/Terminal.h"
#include "Errors.h"
static const char *MODULE = "Cmd";
void loopCmdAdd(const String &cmdStr) {
orderBuf += cmdStr;
if (!cmdStr.endsWith(",")) {
orderBuf += ",";
}
}
void fileCmdExecute(const String &filename) {
String cmdStr = readFile(filename, 2048);
csvCmdExecute(cmdStr);
}
void csvCmdExecute(String &cmdStr) {
cmdStr.replace(";", " ");
cmdStr += "\r\n";
cmdStr.replace("\r\n", "\n");
cmdStr.replace("\r", "\n");
int count = 0;
while (cmdStr.length()) {
String buf = selectToMarker(cmdStr, "\n");
count++;
if (count > 1) sCmd.readStr(buf);
cmdStr = deleteBeforeDelimiter(cmdStr, "\n");
}
}
void spaceCmdExecute(String &cmdStr) {
cmdStr += "\r\n";
cmdStr.replace("\r\n", "\n");
cmdStr.replace("\r", "\n");
while (cmdStr.length()) {
String buf = selectToMarker(cmdStr, "\n");
sCmd.readStr(buf);
cmdStr = deleteBeforeDelimiter(cmdStr, "\n");
}
}
void loopCmdExecute() {
if (orderBuf.length()) {
String tmp = selectToMarker(orderBuf, ","); //выделяем первую команду rel 5 1,
pm.info("do: " + tmp);
sCmd.readStr(tmp); //выполняем
orderBuf = deleteBeforeDelimiter(orderBuf, ","); //осекаем
}
}
void sensorsInit() {
ts.add(
SENSORS, 10000, [&](void *) {
String buf = sensorReadingMap;
while (buf.length()) {
String tmp = selectToMarker(buf, ",");
sCmd.readStr(tmp);
buf = deleteBeforeDelimiter(buf, ",");
}
},
nullptr, true);
}
//void loopSerial() {
// if (term) {
// term->loop();
// }
//}

2
src/Init.cpp
View File

@@ -64,7 +64,7 @@ void Device_init() {
#endif
fileExecute(String(DEVICE_CONFIG_FILE));
fileCmdExecute(String(DEVICE_CONFIG_FILE));
//outcoming_date();
}
//-------------------------------сценарии-----------------------------------------------------

318
src/ItemsCmd.cpp Normal file
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@@ -0,0 +1,318 @@
#include "ItemsCmd.h"
#include "BufferExecute.h"
#include "Class/NotAsinc.h"
#include "Cmd.h"
#include "Global.h"
#include "Module/Terminal.h"
#include "Servo/Servos.h"
Terminal *term = nullptr;
boolean but[NUM_BUTTONS];
Bounce *buttons = new Bounce[NUM_BUTTONS];
#ifdef ESP8266
SoftwareSerial *mySerial = nullptr;
#else
HardwareSerial *mySerial = nullptr;
#endif
void getData();
void cmd_init() {
sCmd.addCommand("button-out", buttonOut);
sCmd.addCommand("pwm-out", pwmOut);
sCmd.addCommand("button-in", buttonIn);
sCmd.addCommand("input-digit", inputDigit);
sCmd.addCommand("input-time", inputTime);
sCmd.addCommand("output-text", textOut);
sCmd.addCommand("analog-adc", analogAdc);
sCmd.addCommand("ultrasonic-cm", ultrasonicCm);
sCmd.addCommand("dallas-temp", dallasTemp);
sCmd.addCommand("dht-temp", dhtTemp);
sCmd.addCommand("dht-hum", dhtHum);
handle_time_init();
}
// sCmd.addCommand("timerStart", timerStart_);
// sCmd.addCommand("timerStop", timerStop_);
//#ifdef DHT_ENABLED
// sCmd.addCommand("dhtT", dhtT);
// sCmd.addCommand("dhtH", dhtH);
// sCmd.addCommand("dhtPerception", dhtP);
// sCmd.addCommand("dhtComfort", dhtC);
// sCmd.addCommand("dhtDewpoint", dhtD);
//#endif
//#ifdef BMP_ENABLED
// sCmd.addCommand("bmp280T", bmp280T);
// sCmd.addCommand("bmp280P", bmp280P);
//#endif
//
//#ifdef BME_ENABLED
// sCmd.addCommand("bme280T", bme280T);
// sCmd.addCommand("bme280P", bme280P);
// sCmd.addCommand("bme280H", bme280H);
// sCmd.addCommand("bme280A", bme280A);
//#endif
//
//#ifdef STEPPER_ENABLED
// sCmd.addCommand("stepper", stepper);
// sCmd.addCommand("stepperSet", stepperSet);
//#endif
//
//#ifdef SERVO_ENABLED
// sCmd.addCommand("servo", servo_);
// sCmd.addCommand("servoSet", servoSet);
//#endif
//
//#ifdef SERIAL_ENABLED
// sCmd.addCommand("serialBegin", serialBegin);
// sCmd.addCommand("serialWrite", serialWrite);
// sCmd.addCommand("getData", getData);
//#endif
//
//#ifdef LOGGING_ENABLED
// sCmd.addCommand("logging", logging);
//#endif
//
// sCmd.addCommand("mqtt", mqttOrderSend);
// sCmd.addCommand("http", httpOrderSend);
//
//#ifdef PUSH_ENABLED
// sCmd.addCommand("push", pushControl);
//#endif
//
// sCmd.addCommand("firmwareUpdate", firmwareUpdate);
// sCmd.addCommand("firmwareVersion", firmwareVersion);
//void text() {
// String number = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String page_number = sCmd.next();
//
// createWidget(widget_name, page_name, page_number, "anydata", "text" + number);
//}
//
//void textSet() {
// String number = sCmd.next();
// String text = sCmd.next();
// text.replace("_", " ");
//
// if (text.indexOf("-time") >= 0) {
// text.replace("-time", "");
// text.replace("#", " ");
// text = text + " " + timeNow->getDateTimeDotFormated();
// }
//
// jsonWriteStr(configLiveJson, "text" + number, text);
// MqttClient::publishStatus("text" + number, text);
//}
//=====================================================================================================================================
////=========================================Модуль шагового мотора======================================================================
//#ifdef STEPPER_ENABLED
////stepper 1 12 13
//void stepper() {
// String stepper_number = sCmd.next();
// String pin_step = sCmd.next();
// String pin_dir = sCmd.next();
//
// jsonWriteStr(configOptionJson, "stepper" + stepper_number, pin_step + " " + pin_dir);
// pinMode(pin_step.toInt(), OUTPUT);
// pinMode(pin_dir.toInt(), OUTPUT);
//}
//
////stepperSet 1 100 5
//void stepperSet() {
// String stepper_number = sCmd.next();
// String steps = sCmd.next();
// jsonWriteStr(configOptionJson, "steps" + stepper_number, steps);
// String stepper_speed = sCmd.next();
// String pin_step = selectToMarker(jsonReadStr(configOptionJson, "stepper" + stepper_number), " ");
// String pin_dir = deleteBeforeDelimiter(jsonReadStr(configOptionJson, "stepper" + stepper_number), " ");
// Serial.println(pin_step);
// Serial.println(pin_dir);
// if (steps.toInt() > 0) digitalWrite(pin_dir.toInt(), HIGH);
// if (steps.toInt() < 0) digitalWrite(pin_dir.toInt(), LOW);
// if (stepper_number == "1") {
// ts.add(
// STEPPER1, stepper_speed.toInt(), [&](void *) {
// int steps_int = abs(jsonReadInt(configOptionJson, "steps1") * 2);
// static int count;
// count++;
// String pin_step = selectToMarker(jsonReadStr(configOptionJson, "stepper1"), " ");
// digitalWrite(pin_step.toInt(), !digitalRead(pin_step.toInt()));
// yield();
// if (count > steps_int) {
// digitalWrite(pin_step.toInt(), LOW);
// ts.remove(STEPPER1);
// count = 0;
// }
// },
// nullptr, true);
// }
// if (stepper_number == "2") {
// ts.add(
// STEPPER2, stepper_speed.toInt(), [&](void *) {
// int steps_int = abs(jsonReadInt(configOptionJson, "steps2") * 2);
// static int count;
// count++;
// String pin_step = selectToMarker(jsonReadStr(configOptionJson, "stepper2"), " ");
// digitalWrite(pin_step.toInt(), !digitalRead(pin_step.toInt()));
// yield();
// if (count > steps_int) {
// digitalWrite(pin_step.toInt(), LOW);
// ts.remove(STEPPER2);
// count = 0;
// }
// },
// nullptr, true);
// }
//}
//#endif
////====================================================================================================================================================
////=================================================================Сервоприводы=======================================================================
//#ifdef SERVO_ENABLED
////servo 1 13 50 Мой#сервопривод Сервоприводы 0 100 0 180 2
//void servo_() {
// String number = sCmd.next();
// uint8_t pin = String(sCmd.next()).toInt();
// int value = String(sCmd.next()).toInt();
//
// String widget = sCmd.next();
// String page = sCmd.next();
//
// int min_value = String(sCmd.next()).toInt();
// int max_value = String(sCmd.next()).toInt();
// int min_deg = String(sCmd.next()).toInt();
// int max_deg = String(sCmd.next()).toInt();
//
// String pageNumber = sCmd.next();
//
// jsonWriteStr(configOptionJson, "servo_pin" + number, String(pin, DEC));
//
// value = map(value, min_value, max_value, min_deg, max_deg);
//
// Servo *servo = myServo.create(number.toInt(), pin);
// servo->write(value);
//#ifdef ESP32
// myServo1.attach(servo_pin.toInt(), 500, 2400);
// myServo1.write(start_state_int);
//#endif
//
// jsonWriteInt(configOptionJson, "s_min_val" + number, min_value);
// jsonWriteInt(configOptionJson, "s_max_val" + number, max_value);
// jsonWriteInt(configOptionJson, "s_min_deg" + number, min_deg);
// jsonWriteInt(configOptionJson, "s_max_deg" + number, max_deg);
//
// jsonWriteInt(configLiveJson, "servo" + number, value);
//
// createWidgetParam(widget, page, pageNumber, "range", "servo" + number, "min", String(min_value), "max", String(max_value), "k", "1");
//}
//
//void servoSet() {
// String number = sCmd.next();
// int value = String(sCmd.next()).toInt();
//
// value = map(value,
// jsonReadInt(configOptionJson, "s_min_val" + number),
// jsonReadInt(configOptionJson, "s_max_val" + number),
// jsonReadInt(configOptionJson, "s_min_deg" + number),
// jsonReadInt(configOptionJson, "s_max_deg" + number));
//
// Servo *servo = myServo.get(number.toInt());
// if (servo) {
// servo->write(value);
// }
//
// eventGen("servo", number);
// jsonWriteInt(configLiveJson, "servo" + number, value);
// MqttClient::publishStatus("servo" + number, String(value, DEC));
//}
//#endif
////====================================================================================================================================================
////=============================================================Модуль сериал порта=======================================================================
//
//#ifdef SERIAL_ENABLED
//void serialBegin() {
// String s_speed = sCmd.next();
// String rxPin = sCmd.next();
// String txPin = sCmd.next();
//
// if (mySerial) {
// delete mySerial;
// }
//
//#ifdef ESP8266
// mySerial = new SoftwareSerial(rxPin.toInt(), txPin.toInt());
// mySerial->begin(s_speed.toInt());
//#else
// mySerial = new HardwareSerial(2);
// mySerial->begin(rxPin.toInt(), txPin.toInt());
//#endif
//
// term = new Terminal(mySerial);
// term->setEOL(LF);
// term->enableColors(false);
// term->enableControlCodes(false);
// term->enableEcho(false);
// term->setOnReadLine([](const char *str) {
// String line = String(str);
// loopCmdAdd(line);
// });
//}
//
//void getData() {
// String param = sCmd.next();
// String res = param.length() ? jsonReadStr(configLiveJson, param) : configLiveJson;
// if (term) {
// term->println(res.c_str());
// }
//}
//
//void serialWrite() {
// String payload = sCmd.next();
// if (term) {
// term->println(payload.c_str());
// }
//}
//#endif
////====================================================================================================================================================
////=================================================Глобальные команды удаленного управления===========================================================
//
//void mqttOrderSend() {
// String id = sCmd.next();
// String order = sCmd.next();
//
// String all_line = jsonReadStr(configSetupJson, "mqttPrefix") + "/" + id + "/order";
// mqtt.publish(all_line.c_str(), order.c_str(), false);
//}
//
//void httpOrderSend() {
// String ip = sCmd.next();
// String order = sCmd.next();
// order.replace("_", "%20");
// String url = "http://" + ip + "/cmd?command=" + order;
// getURL(url);
//}
//
//void firmwareUpdate() {
// myNotAsincActions->make(do_UPGRADE);
//}
//
//void firmwareVersion() {
// String widget = sCmd.next();
// String page = sCmd.next();
// String pageNumber = sCmd.next();
//
// jsonWriteStr(configLiveJson, "firmver", FIRMWARE_VERSION);
// createWidget(widget, page, pageNumber, "anydata", "firmver");
//}

386
src/ItemsGlobal.cpp
View File

@@ -1,386 +0,0 @@
#include "Cmd.h"
#include "items/ItemsGlobal.h"
#include "Class/NotAsinc.h"
#include "Global.h"
#include "Module/Terminal.h"
#include "Servo/Servos.h"
static const char *MODULE = "Cmd";
Terminal *term = nullptr;
boolean but[NUM_BUTTONS];
Bounce *buttons = new Bounce[NUM_BUTTONS];
#ifdef ESP8266
SoftwareSerial *mySerial = nullptr;
#else
HardwareSerial *mySerial = nullptr;
#endif
void getData();
void cmd_init() {
sCmd.addCommand("button-out", buttonOut);
sCmd.addCommand("pwm-out", pwmOut);
sCmd.addCommand("button-in", buttonIn);
sCmd.addCommand("input-digit", inputDigit);
sCmd.addCommand("input-time", inputTime);
sCmd.addCommand("output-text", textOut);
sCmd.addCommand("analog-adc", analogAdc);
sCmd.addCommand("ultrasonic-cm", ultrasonicCm);
sCmd.addCommand("dallas-temp", dallasTemp);
sCmd.addCommand("dht-temp", dhtTemp);
sCmd.addCommand("dht-hum", dhtHum);
sCmd.addCommand("timerStart", timerStart_);
sCmd.addCommand("timerStop", timerStop_);
//#ifdef DHT_ENABLED
// sCmd.addCommand("dhtT", dhtT);
// sCmd.addCommand("dhtH", dhtH);
// sCmd.addCommand("dhtPerception", dhtP);
// sCmd.addCommand("dhtComfort", dhtC);
// sCmd.addCommand("dhtDewpoint", dhtD);
//#endif
#ifdef BMP_ENABLED
sCmd.addCommand("bmp280T", bmp280T);
sCmd.addCommand("bmp280P", bmp280P);
#endif
#ifdef BME_ENABLED
sCmd.addCommand("bme280T", bme280T);
sCmd.addCommand("bme280P", bme280P);
sCmd.addCommand("bme280H", bme280H);
sCmd.addCommand("bme280A", bme280A);
#endif
#ifdef STEPPER_ENABLED
sCmd.addCommand("stepper", stepper);
sCmd.addCommand("stepperSet", stepperSet);
#endif
#ifdef SERVO_ENABLED
sCmd.addCommand("servo", servo_);
sCmd.addCommand("servoSet", servoSet);
#endif
#ifdef SERIAL_ENABLED
sCmd.addCommand("serialBegin", serialBegin);
sCmd.addCommand("serialWrite", serialWrite);
sCmd.addCommand("getData", getData);
#endif
#ifdef LOGGING_ENABLED
sCmd.addCommand("logging", logging);
#endif
sCmd.addCommand("mqtt", mqttOrderSend);
sCmd.addCommand("http", httpOrderSend);
#ifdef PUSH_ENABLED
sCmd.addCommand("push", pushControl);
#endif
sCmd.addCommand("firmwareUpdate", firmwareUpdate);
sCmd.addCommand("firmwareVersion", firmwareVersion);
handle_time_init();
}
//void text() {
// String number = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String page_number = sCmd.next();
//
// createWidget(widget_name, page_name, page_number, "anydata", "text" + number);
//}
//
//void textSet() {
// String number = sCmd.next();
// String text = sCmd.next();
// text.replace("_", " ");
//
// if (text.indexOf("-time") >= 0) {
// text.replace("-time", "");
// text.replace("#", " ");
// text = text + " " + timeNow->getDateTimeDotFormated();
// }
//
// jsonWriteStr(configLiveJson, "text" + number, text);
// MqttClient::publishStatus("text" + number, text);
//}
//=====================================================================================================================================
//=========================================Модуль шагового мотора======================================================================
#ifdef STEPPER_ENABLED
//stepper 1 12 13
void stepper() {
String stepper_number = sCmd.next();
String pin_step = sCmd.next();
String pin_dir = sCmd.next();
jsonWriteStr(configOptionJson, "stepper" + stepper_number, pin_step + " " + pin_dir);
pinMode(pin_step.toInt(), OUTPUT);
pinMode(pin_dir.toInt(), OUTPUT);
}
//stepperSet 1 100 5
void stepperSet() {
String stepper_number = sCmd.next();
String steps = sCmd.next();
jsonWriteStr(configOptionJson, "steps" + stepper_number, steps);
String stepper_speed = sCmd.next();
String pin_step = selectToMarker(jsonReadStr(configOptionJson, "stepper" + stepper_number), " ");
String pin_dir = deleteBeforeDelimiter(jsonReadStr(configOptionJson, "stepper" + stepper_number), " ");
Serial.println(pin_step);
Serial.println(pin_dir);
if (steps.toInt() > 0) digitalWrite(pin_dir.toInt(), HIGH);
if (steps.toInt() < 0) digitalWrite(pin_dir.toInt(), LOW);
if (stepper_number == "1") {
ts.add(
STEPPER1, stepper_speed.toInt(), [&](void *) {
int steps_int = abs(jsonReadInt(configOptionJson, "steps1") * 2);
static int count;
count++;
String pin_step = selectToMarker(jsonReadStr(configOptionJson, "stepper1"), " ");
digitalWrite(pin_step.toInt(), !digitalRead(pin_step.toInt()));
yield();
if (count > steps_int) {
digitalWrite(pin_step.toInt(), LOW);
ts.remove(STEPPER1);
count = 0;
}
},
nullptr, true);
}
if (stepper_number == "2") {
ts.add(
STEPPER2, stepper_speed.toInt(), [&](void *) {
int steps_int = abs(jsonReadInt(configOptionJson, "steps2") * 2);
static int count;
count++;
String pin_step = selectToMarker(jsonReadStr(configOptionJson, "stepper2"), " ");
digitalWrite(pin_step.toInt(), !digitalRead(pin_step.toInt()));
yield();
if (count > steps_int) {
digitalWrite(pin_step.toInt(), LOW);
ts.remove(STEPPER2);
count = 0;
}
},
nullptr, true);
}
}
#endif
//====================================================================================================================================================
//=================================================================Сервоприводы=======================================================================
#ifdef SERVO_ENABLED
//servo 1 13 50 Мой#сервопривод Сервоприводы 0 100 0 180 2
void servo_() {
String number = sCmd.next();
uint8_t pin = String(sCmd.next()).toInt();
int value = String(sCmd.next()).toInt();
String widget = sCmd.next();
String page = sCmd.next();
int min_value = String(sCmd.next()).toInt();
int max_value = String(sCmd.next()).toInt();
int min_deg = String(sCmd.next()).toInt();
int max_deg = String(sCmd.next()).toInt();
String pageNumber = sCmd.next();
jsonWriteStr(configOptionJson, "servo_pin" + number, String(pin, DEC));
value = map(value, min_value, max_value, min_deg, max_deg);
Servo *servo = myServo.create(number.toInt(), pin);
servo->write(value);
#ifdef ESP32
myServo1.attach(servo_pin.toInt(), 500, 2400);
myServo1.write(start_state_int);
#endif
jsonWriteInt(configOptionJson, "s_min_val" + number, min_value);
jsonWriteInt(configOptionJson, "s_max_val" + number, max_value);
jsonWriteInt(configOptionJson, "s_min_deg" + number, min_deg);
jsonWriteInt(configOptionJson, "s_max_deg" + number, max_deg);
jsonWriteInt(configLiveJson, "servo" + number, value);
createWidgetParam(widget, page, pageNumber, "range", "servo" + number, "min", String(min_value), "max", String(max_value), "k", "1");
}
void servoSet() {
String number = sCmd.next();
int value = String(sCmd.next()).toInt();
value = map(value,
jsonReadInt(configOptionJson, "s_min_val" + number),
jsonReadInt(configOptionJson, "s_max_val" + number),
jsonReadInt(configOptionJson, "s_min_deg" + number),
jsonReadInt(configOptionJson, "s_max_deg" + number));
Servo *servo = myServo.get(number.toInt());
if (servo) {
servo->write(value);
}
eventGen("servo", number);
jsonWriteInt(configLiveJson, "servo" + number, value);
MqttClient::publishStatus("servo" + number, String(value, DEC));
}
#endif
//====================================================================================================================================================
//=============================================================Модуль сериал порта=======================================================================
#ifdef SERIAL_ENABLED
void serialBegin() {
String s_speed = sCmd.next();
String rxPin = sCmd.next();
String txPin = sCmd.next();
if (mySerial) {
delete mySerial;
}
#ifdef ESP8266
mySerial = new SoftwareSerial(rxPin.toInt(), txPin.toInt());
mySerial->begin(s_speed.toInt());
#else
mySerial = new HardwareSerial(2);
mySerial->begin(rxPin.toInt(), txPin.toInt());
#endif
term = new Terminal(mySerial);
term->setEOL(LF);
term->enableColors(false);
term->enableControlCodes(false);
term->enableEcho(false);
term->setOnReadLine([](const char *str) {
String line = String(str);
addCommandLoop(line);
});
}
void getData() {
String param = sCmd.next();
String res = param.length() ? jsonReadStr(configLiveJson, param) : configLiveJson;
if (term) {
term->println(res.c_str());
}
}
void serialWrite() {
String payload = sCmd.next();
if (term) {
term->println(payload.c_str());
}
}
#endif
//====================================================================================================================================================
//=================================================Глобальные команды удаленного управления===========================================================
void mqttOrderSend() {
String id = sCmd.next();
String order = sCmd.next();
String all_line = jsonReadStr(configSetupJson, "mqttPrefix") + "/" + id + "/order";
mqtt.publish(all_line.c_str(), order.c_str(), false);
}
void httpOrderSend() {
String ip = sCmd.next();
String order = sCmd.next();
order.replace("_", "%20");
String url = "http://" + ip + "/cmd?command=" + order;
getURL(url);
}
void firmwareUpdate() {
myNotAsincActions->make(do_UPGRADE);
}
void firmwareVersion() {
String widget = sCmd.next();
String page = sCmd.next();
String pageNumber = sCmd.next();
jsonWriteStr(configLiveJson, "firmver", FIRMWARE_VERSION);
createWidget(widget, page, pageNumber, "anydata", "firmver");
}
void addCommandLoop(const String &cmdStr) {
orderBuf += cmdStr;
if (!cmdStr.endsWith(",")) {
orderBuf += ",";
}
}
void fileExecute(const String &filename) {
String cmdStr = readFile(filename, 2048);
csvExecute(cmdStr);
}
void csvExecute(String &cmdStr) {
cmdStr.replace(";", " ");
cmdStr += "\r\n";
cmdStr.replace("\r\n", "\n");
cmdStr.replace("\r", "\n");
int count = 0;
while (cmdStr.length()) {
String buf = selectToMarker(cmdStr, "\n");
count++;
if (count > 1) sCmd.readStr(buf);
cmdStr = deleteBeforeDelimiter(cmdStr, "\n");
}
}
void spaceExecute(String &cmdStr) {
cmdStr += "\r\n";
cmdStr.replace("\r\n", "\n");
cmdStr.replace("\r", "\n");
while (cmdStr.length()) {
String buf = selectToMarker(cmdStr, "\n");
sCmd.readStr(buf);
cmdStr = deleteBeforeDelimiter(cmdStr, "\n");
}
}
void loopCmd() {
if (orderBuf.length()) {
String tmp = selectToMarker(orderBuf, ","); //выделяем первую команду rel 5 1,
pm.info("do: " + tmp);
sCmd.readStr(tmp); //выполняем
orderBuf = deleteBeforeDelimiter(orderBuf, ","); //осекаем
}
}
void loopSerial() {
if (term) {
term->loop();
}
}

10
src/PushingBox.cpp
View File

@@ -46,11 +46,11 @@ void pushControl() {
Serial.println("- sending data...");
client_push.print("POST /pushingbox HTTP/1.1\n");
client_push.print("Host: api.pushingbox.com\n");
client_push.print("Connection: close\n");
client_push.print("Content-Type: application/x-www-form-urlencoded\n");
client_push.print("Content-Length: ");
client_push.print(F("POST /pushingbox HTTP/1.1\n"));
client_push.print(F("Host: api.pushingbox.com\n"));
client_push.print(F("Connection: close\n"));
client_push.print(F("Content-Type: application/x-www-form-urlencoded\n"));
client_push.print(F("Content-Length: "));
client_push.print(postStr.length());
client_push.print("\n\n");
client_push.print(postStr);

47
src/SSDP.cpp
View File

@@ -1,36 +1,37 @@
#ifdef SSDP
#include <SSDP.h>
#include "Global.h"
#ifdef SSDP_EN
#ifdef ESP8266
#include <ESP8266SSDP.h>
#endif
#ifdef ESP32
#include <ESP32SSDP.h>
#endif
#include <SSDP.h>
#include "Global.h"
//39164
//457684
void SsdpInit() {
server.on("/description.xml", HTTP_GET, [](AsyncWebServerRequest* request) {
String ssdpSend = "<root xmlns=\"urn:schemas-upnp-org:device-1-0\">";
String ssdpHeder = xmlNode("major", "1");
ssdpHeder += xmlNode("minor", "0");
ssdpHeder = xmlNode("specVersion", ssdpHeder);
ssdpHeder += xmlNode("URLBase", "http://" + WiFi.localIP().toString());
String ssdpDescription = xmlNode("deviceType", "upnp:rootdevice");
ssdpDescription += xmlNode("friendlyName", jsonReadStr(configSetupJson, "name"));
ssdpDescription += xmlNode("presentationURL", "/");
ssdpDescription += xmlNode("serialNumber", getChipId());
String ssdpSend = F("<root xmlns=\"urn:schemas-upnp-org:device-1-0\">");
String ssdpHeder = xmlNode(F("major"), "1");
ssdpHeder += xmlNode(F("minor"), "0");
ssdpHeder = xmlNode(F("specVersion"), ssdpHeder);
ssdpHeder += xmlNode(F("URLBase"), "http://" + WiFi.localIP().toString());
String ssdpDescription = xmlNode(F("deviceType"), F("upnp:rootdevice"));
ssdpDescription += xmlNode(F("friendlyName"), jsonReadStr(configSetupJson, F("name")));
ssdpDescription += xmlNode(F("presentationURL"), "/");
ssdpDescription += xmlNode(F("serialNumber"), getChipId());
#ifdef ESP8266
ssdpDescription += xmlNode("modelName", "ESP8266");
ssdpDescription += xmlNode(F("modelName"), F("ESP8266"));
#endif
#ifdef ESP32
ssdpDescription += xmlNode("modelName", "ESP32");
ssdpDescription += xmlNode(F("modelName"), F("ESP32"));
#endif
ssdpDescription += xmlNode("modelNumber", getChipId());
ssdpDescription += xmlNode("modelURL", "https://github.com/IoTManagerProject/IoTManager/wiki");
ssdpDescription += xmlNode("manufacturer", "Borisenko Dmitry");
ssdpDescription += xmlNode("manufacturerURL", "https://github.com/IoTManagerProject/IoTManager");
ssdpDescription += xmlNode("UDN", "uuid:38323636-4558-4dda-9188-cda0e6" + decToHex(ESP.getChipId(), 6));
ssdpDescription += xmlNode(F("modelNumber"), getChipId());
ssdpDescription += xmlNode(F("modelURL"), F("https://github.com/IoTManagerProject/IoTManager/wiki"));
ssdpDescription += xmlNode(F("manufacturer"), F("Borisenko Dmitry"));
ssdpDescription += xmlNode(F("manufacturerURL"), F("https://github.com/IoTManagerProject/IoTManager"));
ssdpDescription += xmlNode(F("UDN"), "uuid:38323636-4558-4dda-9188-cda0e6" + decToHex(ESP.getChipId(), 6));
ssdpDescription = xmlNode("device", ssdpDescription);
ssdpHeder += ssdpDescription;
ssdpSend += ssdpHeder;
@@ -39,8 +40,8 @@ void SsdpInit() {
request->send(200, "text/xml", ssdpSend);
});
//Если версия 2.0.0 закаментируйте следующую строчку
SSDP.setDeviceType("upnp:rootdevice");
SSDP.setSchemaURL("description.xml");
SSDP.setDeviceType(F("upnp:rootdevice"));
SSDP.setSchemaURL(F("description.xml"));
SSDP.begin();
}

2
src/Scenario.cpp
View File

@@ -59,7 +59,7 @@ void loopScenario() {
if (flag) {
scenBlok = deleteBeforeDelimiter(scenBlok, "\n"); // удаляем строку самого сценария оставляя только команды
pm.info("do: " + scenBlok);
spaceExecute(scenBlok); // выполняем все команды
spaceCmdExecute(scenBlok); // выполняем все команды
}
}
}

360
src/Sensors.cpp
View File

@@ -1,35 +1,23 @@
#include "Cmd.h"
#include "Global.h"
//#include "Cmd.h"
//#include "Global.h"
GMedian<10, int> medianFilter;
//DHTesp dht;
//GMedian<10, int> medianFilter;
//
//Adafruit_BMP280 bmp;
//Adafruit_Sensor *bmp_temp = bmp.getTemperatureSensor();
//Adafruit_Sensor *bmp_pressure = bmp.getPressureSensor();
//
//Adafruit_BME280 bme;
//Adafruit_Sensor *bme_temp = bme.getTemperatureSensor();
//Adafruit_Sensor *bme_pressure = bme.getPressureSensor();
//Adafruit_Sensor *bme_humidity = bme.getHumiditySensor();
Adafruit_BMP280 bmp;
Adafruit_Sensor *bmp_temp = bmp.getTemperatureSensor();
Adafruit_Sensor *bmp_pressure = bmp.getPressureSensor();
///const String perceptionStr(byte value);
///const String comfortStr(ComfortState value);
Adafruit_BME280 bme;
Adafruit_Sensor *bme_temp = bme.getTemperatureSensor();
Adafruit_Sensor *bme_pressure = bme.getPressureSensor();
Adafruit_Sensor *bme_humidity = bme.getHumiditySensor();
//void bmp280T_reading();
const String perceptionStr(byte value);
const String comfortStr(ComfortState value);
void bmp280T_reading();
void sensorsInit() {
ts.add(
SENSORS, 10000, [&](void *) {
String buf = sensorReadingMap;
while (buf.length()) {
String tmp = selectToMarker(buf, ",");
sCmd.readStr(tmp);
buf = deleteBeforeDelimiter(buf, ",");
}
},
nullptr, true);
}
@@ -256,162 +244,162 @@ void sensorsInit() {
//=========================================================================================================================================
//=========================================Модуль сенсоров bmp280==========================================================================
//bmp280T temp1 0x76 Температура#bmp280 Датчики any-data 1
void bmp280T() {
String value_name = sCmd.next();
String address = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
//bmp280T_value_name = value_name;
createWidgetByType(widget_name, page_name, page_number, type, value_name);
bmp.begin(hexStringToUint8(address));
bmp.setSampling(Adafruit_BMP280::MODE_NORMAL, /* Operating Mode. */
Adafruit_BMP280::SAMPLING_X2, /* Temp. oversampling */
Adafruit_BMP280::SAMPLING_X16, /* Pressure oversampling */
Adafruit_BMP280::FILTER_X16, /* Filtering. */
Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */
//bmp_temp->printSensorDetails();
//sensors_reading_map[9] = 1;
}
void bmp280T_reading() {
float value = 0;
sensors_event_t temp_event;
bmp_temp->getEvent(&temp_event);
value = temp_event.temperature;
//jsonWriteStr(configLiveJson, bmp280T_value_name, String(value));
//eventGen(bmp280T_value_name, "");
//MqttClient::publishStatus(bmp280T_value_name, String(value));
//Serial.println("[I] sensor '" + bmp280T_value_name + "' data: " + String(value));
}
//bmp280P press1 0x76 Давление#bmp280 Датчики any-data 2
void bmp280P() {
String value_name = sCmd.next();
String address = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
//bmp280P_value_name = value_name;
createWidgetByType(widget_name, page_name, page_number, type, value_name);
bmp.begin(hexStringToUint8(address));
bmp.setSampling(Adafruit_BMP280::MODE_NORMAL, /* Operating Mode. */
Adafruit_BMP280::SAMPLING_X2, /* Temp. oversampling */
Adafruit_BMP280::SAMPLING_X16, /* Pressure oversampling */
Adafruit_BMP280::FILTER_X16, /* Filtering. */
Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */
//bmp_temp->printSensorDetails();
//sensors_reading_map[10] = 1;
}
void bmp280P_reading() {
float value = 0;
sensors_event_t pressure_event;
bmp_pressure->getEvent(&pressure_event);
value = pressure_event.pressure;
value = value / 1.333224;
//jsonWriteStr(configLiveJson, bmp280P_value_name, String(value));
//eventGen(bmp280P_value_name, "");
//MqttClient::publishStatus(bmp280P_value_name, String(value));
//Serial.println("[I] sensor '" + bmp280P_value_name + "' data: " + String(value));
}
//=========================================================================================================================================
//=============================================Модуль сенсоров bme280======================================================================
//bme280T temp1 0x76 Температура#bmp280 Датчики any-data 1
void bme280T() {
String value_name = sCmd.next();
String address = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
//bme280T_value_name = value_name;
//createWidgetByType(widget_name, page_name, page_number, type, value_name);
//bme.begin(hexStringToUint8(address));
//sensors_reading_map[11] = 1;
}
void bme280T_reading() {
float value = 0;
value = bme.readTemperature();
//jsonWriteStr(configLiveJson, bme280T_value_name, String(value));
//eventGen(bme280T_value_name, "");
//MqttClient::publishStatus(bme280T_value_name, String(value));
//Serial.println("[I] sensor '" + bme280T_value_name + "' data: " + String(value));
}
//bme280P pres1 0x76 Давление#bmp280 Датчики any-data 1
void bme280P() {
String value_name = sCmd.next();
String address = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
//bme280P_value_name = value_name;
//createWidgetByType(widget_name, page_name, page_number, type, value_name);
//bme.begin(hexStringToUint8(address));
//sensors_reading_map[12] = 1;
}
void bme280P_reading() {
float value = 0;
value = bme.readPressure();
value = value / 1.333224 / 100;
//jsonWriteStr(configLiveJson, bme280P_value_name, String(value));
//eventGen(bme280P_value_name, "");
//MqttClient::publishStatus(bme280P_value_name, String(value));
//Serial.println("[I] sensor '" + bme280P_value_name + "' data: " + String(value));
}
//bme280H hum1 0x76 Влажность#bmp280 Датчики any-data 1
void bme280H() {
String value_name = sCmd.next();
String address = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
//bme280H_value_name = value_name;
createWidgetByType(widget_name, page_name, page_number, type, value_name);
bme.begin(hexStringToUint8(address));
//sensors_reading_map[13] = 1;
}
void bme280H_reading() {
float value = 0;
value = bme.readHumidity();
//jsonWriteStr(configLiveJson, bme280H_value_name, String(value));
//eventGen(bme280H_value_name, "");
//MqttClient::publishStatus(bme280H_value_name, String(value));
//Serial.println("[I] sensor '" + bme280H_value_name + "' data: " + String(value));
}
//bme280A altit1 0x76 Высота#bmp280 Датчики any-data 1
void bme280A() {
String value_name = sCmd.next();
String address = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
//bme280A_value_name = value_name;
createWidgetByType(widget_name, page_name, page_number, type, value_name);
bme.begin(hexStringToUint8(address));
//sensors_reading_map[14] = 1;
}
void bme280A_reading() {
float value = bme.readAltitude(1013.25);
//jsonWriteStr(configLiveJson, bme280A_value_name, String(value, 2));
//eventGen(bme280A_value_name, "");
//MqttClient::publishStatus(bme280A_value_name, String(value));
//Serial.println("[I] sensor '" + bme280A_value_name + "' data: " + String(value));
}
////bmp280T temp1 0x76 Температура#bmp280 Датчики any-data 1
//void bmp280T() {
// String value_name = sCmd.next();
// String address = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String type = sCmd.next();
// String page_number = sCmd.next();
// //bmp280T_value_name = value_name;
// createWidgetByType(widget_name, page_name, page_number, type, value_name);
// bmp.begin(hexStringToUint8(address));
// bmp.setSampling(Adafruit_BMP280::MODE_NORMAL, /* Operating Mode. */
// Adafruit_BMP280::SAMPLING_X2, /* Temp. oversampling */
// Adafruit_BMP280::SAMPLING_X16, /* Pressure oversampling */
// Adafruit_BMP280::FILTER_X16, /* Filtering. */
// Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */
// //bmp_temp->printSensorDetails();
// //sensors_reading_map[9] = 1;
//}
//
//void bmp280T_reading() {
// float value = 0;
// sensors_event_t temp_event;
// bmp_temp->getEvent(&temp_event);
// value = temp_event.temperature;
// //jsonWriteStr(configLiveJson, bmp280T_value_name, String(value));
// //eventGen(bmp280T_value_name, "");
// //MqttClient::publishStatus(bmp280T_value_name, String(value));
// //Serial.println("[I] sensor '" + bmp280T_value_name + "' data: " + String(value));
//}
//
////bmp280P press1 0x76 Давление#bmp280 Датчики any-data 2
//void bmp280P() {
// String value_name = sCmd.next();
// String address = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String type = sCmd.next();
// String page_number = sCmd.next();
// //bmp280P_value_name = value_name;
// createWidgetByType(widget_name, page_name, page_number, type, value_name);
// bmp.begin(hexStringToUint8(address));
// bmp.setSampling(Adafruit_BMP280::MODE_NORMAL, /* Operating Mode. */
// Adafruit_BMP280::SAMPLING_X2, /* Temp. oversampling */
// Adafruit_BMP280::SAMPLING_X16, /* Pressure oversampling */
// Adafruit_BMP280::FILTER_X16, /* Filtering. */
// Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */
// //bmp_temp->printSensorDetails();
// //sensors_reading_map[10] = 1;
//}
//
//void bmp280P_reading() {
// float value = 0;
// sensors_event_t pressure_event;
// bmp_pressure->getEvent(&pressure_event);
// value = pressure_event.pressure;
// value = value / 1.333224;
// //jsonWriteStr(configLiveJson, bmp280P_value_name, String(value));
// //eventGen(bmp280P_value_name, "");
// //MqttClient::publishStatus(bmp280P_value_name, String(value));
// //Serial.println("[I] sensor '" + bmp280P_value_name + "' data: " + String(value));
//}
//
////=========================================================================================================================================
////=============================================Модуль сенсоров bme280======================================================================
////bme280T temp1 0x76 Температура#bmp280 Датчики any-data 1
//void bme280T() {
// String value_name = sCmd.next();
// String address = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String type = sCmd.next();
// String page_number = sCmd.next();
// //bme280T_value_name = value_name;
// //createWidgetByType(widget_name, page_name, page_number, type, value_name);
// //bme.begin(hexStringToUint8(address));
// //sensors_reading_map[11] = 1;
//}
//
//void bme280T_reading() {
// float value = 0;
// value = bme.readTemperature();
// //jsonWriteStr(configLiveJson, bme280T_value_name, String(value));
// //eventGen(bme280T_value_name, "");
// //MqttClient::publishStatus(bme280T_value_name, String(value));
// //Serial.println("[I] sensor '" + bme280T_value_name + "' data: " + String(value));
//}
//
////bme280P pres1 0x76 Давление#bmp280 Датчики any-data 1
//void bme280P() {
// String value_name = sCmd.next();
// String address = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String type = sCmd.next();
// String page_number = sCmd.next();
// //bme280P_value_name = value_name;
// //createWidgetByType(widget_name, page_name, page_number, type, value_name);
// //bme.begin(hexStringToUint8(address));
// //sensors_reading_map[12] = 1;
//}
//
//void bme280P_reading() {
// float value = 0;
// value = bme.readPressure();
// value = value / 1.333224 / 100;
// //jsonWriteStr(configLiveJson, bme280P_value_name, String(value));
// //eventGen(bme280P_value_name, "");
// //MqttClient::publishStatus(bme280P_value_name, String(value));
// //Serial.println("[I] sensor '" + bme280P_value_name + "' data: " + String(value));
//}
//
////bme280H hum1 0x76 Влажность#bmp280 Датчики any-data 1
//void bme280H() {
// String value_name = sCmd.next();
// String address = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String type = sCmd.next();
// String page_number = sCmd.next();
// //bme280H_value_name = value_name;
// createWidgetByType(widget_name, page_name, page_number, type, value_name);
// bme.begin(hexStringToUint8(address));
// //sensors_reading_map[13] = 1;
//}
//
//void bme280H_reading() {
// float value = 0;
// value = bme.readHumidity();
// //jsonWriteStr(configLiveJson, bme280H_value_name, String(value));
// //eventGen(bme280H_value_name, "");
// //MqttClient::publishStatus(bme280H_value_name, String(value));
// //Serial.println("[I] sensor '" + bme280H_value_name + "' data: " + String(value));
//}
//
////bme280A altit1 0x76 Высота#bmp280 Датчики any-data 1
//void bme280A() {
// String value_name = sCmd.next();
// String address = sCmd.next();
// String widget_name = sCmd.next();
// String page_name = sCmd.next();
// String type = sCmd.next();
// String page_number = sCmd.next();
// //bme280A_value_name = value_name;
// createWidgetByType(widget_name, page_name, page_number, type, value_name);
// bme.begin(hexStringToUint8(address));
// //sensors_reading_map[14] = 1;
//}
//
//void bme280A_reading() {
// float value = bme.readAltitude(1013.25);
// //jsonWriteStr(configLiveJson, bme280A_value_name, String(value, 2));
//
// //eventGen(bme280A_value_name, "");
//
// //MqttClient::publishStatus(bme280A_value_name, String(value));
//
// //Serial.println("[I] sensor '" + bme280A_value_name + "' data: " + String(value));
//}

6
src/Upgrade.cpp
View File

@@ -56,10 +56,10 @@ void upgrade_firmware() {
WiFiClient wifiClient;
#ifdef ESP8266
ESPhttpUpdate.rebootOnUpdate(false);
t_httpUpdate_return ret = ESPhttpUpdate.updateSpiffs(wifiClient, "http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.spiffs.bin");
t_httpUpdate_return ret = ESPhttpUpdate.updateSpiffs(wifiClient, F("http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.spiffs.bin"));
#else
httpUpdate.rebootOnUpdate(false);
t_httpUpdate_return ret = httpUpdate.updateSpiffs(client_for_upgrade, "http://91.204.228.124:1100/update/esp32/esp32-esp8266_iot-manager_modules_firmware.spiffs.bin");
t_httpUpdate_return ret = httpUpdate.updateSpiffs(client_for_upgrade, F("http://91.204.228.124:1100/update/esp32/esp32-esp8266_iot-manager_modules_firmware.spiffs.bin"));
#endif
if (ret == HTTP_UPDATE_OK) {
writeFile(String(DEVICE_SCENARIO_FILE), scanerioBackup);
@@ -76,7 +76,7 @@ void upgrade_firmware() {
Serial.println("update firmware");
#ifdef ESP8266
ret = ESPhttpUpdate.update(wifiClient, "http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.ino.bin");
ret = ESPhttpUpdate.update(wifiClient, F("http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.ino.bin"));
#else
ret = httpUpdate.update(client_for_upgrade, "http://91.204.228.124:1100/update/esp32/esp32-esp8266_iot-manager_modules_firmware.ino.bin");
#endif

4
src/WebServer.cpp
View File

@@ -1,5 +1,5 @@
#include "HttpServer.h"
#include "BufferExecute.h"
#include "Utils/FileUtils.h"
#include "Utils/WebUtils.h"
#include "FSEditor.h"
@@ -61,7 +61,7 @@ void init() {
server.on("/cmd", HTTP_GET, [](AsyncWebServerRequest *request) {
String cmdStr = request->getParam("command")->value();
pm.info("do: " + cmdStr);
addCommandLoop(cmdStr);
loopCmdAdd(cmdStr);
request->send(200, "text/html", "OK");
});

2
src/items/ButtonInClass.cpp
View File

@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/ButtonInClass.h"
//==========================================Модуль физических кнопок========================================
//button-in switch1 toggle Кнопки Свет 1 pin[2] db[20]

2
src/items/ButtonOutClass.cpp
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@@ -1,6 +1,6 @@
#include "items/ButtonOutClass.h"
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
//==========================================Модуль кнопок===================================================
//button-out light toggle Кнопки Свет 1 pin[12] inv[1] st[1]
//==========================================================================================================

2
src/items/InputDigitClass.cpp
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@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/InputClass.h"
//==========================================Модуль ввода цифровых значений==================================
//input-digit digit1 inputDigit Ввод Введите.цифру 4 st[60]

2
src/items/InputTimeClass.cpp
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@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/InputClass.h"
//==========================================Модуль ввода времени============================================
//input-time time1 inputTime Ввод Введите.время 4 st[10-00-00]

2
src/items/OutputTextClass.cpp
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@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/OutputTextClass.h"
//===============================================Модуль вывода текста============================================
//output-text;id;anydata;Вывод;Сигнализация;order;st[Обнаружено.движение]

2
src/items/PwmOutClass.cpp
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@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/PwmOutClass.h"
//==========================================Модуль управления ШИМ===================================================
//pwm-out volume range Кнопки Свет 1 pin[12] st[500]

2
src/items/SensorAnalogClass.cpp
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@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/SensorAnalogClass.h"
#ifdef ANALOG_ENABLED
//==============================================Модуль аналогового сенсора===========================================================================================

2
src/items/SensorDallasClass.cpp
View File

@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/SensorDallasClass.h"
//#ifdef SensorDallasEnabled
//=========================================Модуль ультрозвукового дальномера==================================================================

2
src/items/SensorDhtClass.cpp
View File

@@ -1,6 +1,6 @@
#include "items/SensorDhtClass.h"
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
//#ifdef SensorDhtEnabled
//=========================================DHT Sensor==================================================================
//dht-temp;id;anydata;Сенсоры;Температура;order;pin;type[dht11];c[1]

2
src/items/SensorUltrasonicClass.cpp
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@@ -1,4 +1,4 @@
#include "items/ItemsGlobal.h"
#include "ItemsCmd.h"
#include "items/SensorUltrasonicClass.h"
//#ifdef SensorUltrasonicEnabled
//=========================================Модуль ультрозвукового дальномера==================================================================

8
src/main.cpp
View File

@@ -1,6 +1,6 @@
#include <SSDP.h>
#include "BufferExecute.h"
#include "Class/CallBackTest.h"
#include "Class/NotAsinc.h"
#include "Class/ScenarioClass.h"
@@ -73,7 +73,7 @@ void setup() {
pm.info("Broadcast UDP");
udpInit();
#endif
#ifdef SSDP
#ifdef SSDP_EN
pm.info("Ssdp Init");
SsdpInit();
#endif
@@ -105,8 +105,8 @@ void loop() {
MqttClient::loop();
myButtonIn.loop();
myScenario->loop();
loopCmd();
loopSerial();
loopCmdExecute();
//loopSerial();
myNotAsincActions->loop();
ts.update();