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base: iotmanager:267
Branches Tags
iotmanager:ver4stable iotmanager:ver4dev iotmanager:ver3 iotmanager:ver3dev
iotmanager:278 iotmanager:275 iotmanager:276 iotmanager:267 iotmanager:264 iotmanager:2.3.4 iotmanager:2.3.3 iotmanager:2.3.2 iotmanager:2.3.1 iotmanager:2.3_esp32 iotmanager:2.3_esp8266 iotmanager:2.2 iotmanager:2.2_esp32 iotmanager:2.1.1 iotmanager:2.1.0
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compare: iotmanager:2.3.4
Branches Tags
iotmanager:ver4dev iotmanager:ver4stable iotmanager:ver3 iotmanager:ver3dev
iotmanager:278 iotmanager:275 iotmanager:276 iotmanager:267 iotmanager:264 iotmanager:2.3.4 iotmanager:2.3.3 iotmanager:2.3.2 iotmanager:2.3.1 iotmanager:2.3_esp32 iotmanager:2.3_esp8266 iotmanager:2.2 iotmanager:2.2_esp32 iotmanager:2.1.1 iotmanager:2.1.0

11 Commits
267 ... 2.3.4

Author SHA1 Message Date
Dmitry Borisenko
ad440eef94 Merge pull request #5 from DmitryBorisenko33/development 
Pressure calculation changed
 2020-06-12 15:47:45 +02:00
Dmitry Borisenko
5ab6d13ae6 Merge branch 'development' of https://github.com/DmitryBorisenko33/esp32_iot-manager_modules_firmware into development 2020-06-12 15:46:52 +02:00
Dmitry Borisenko
970136bb75 Pressure calc changed 2020-06-12 15:46:29 +02:00
Dmitry Borisenko
0de1df8625 Merge pull request #4 from DmitryBorisenko33/development 
2.3.4 version
 2020-06-12 15:41:49 +02:00
Dmitry Borisenko
708eb5f67e Merge branch 'master' into development 2020-06-12 15:41:29 +02:00
Dmitry Borisenko
83d1531267 add led blink 2020-06-12 15:34:30 +02:00
Dmitry Borisenko
be5bd3ede4 web interface changed 2020-06-11 22:51:34 +02:00
Dmitry Borisenko
e79be004b9 some changes 2020-06-04 01:08:08 +02:00
Dmitry Borisenko
3135e5658f Global Webinterface Upgrade 2020-05-28 00:33:26 +02:00
Dmitry Borisenko
48ddb1a505 Update set.h 2020-05-26 22:18:27 +02:00
Dmitry Borisenko
01a419d987 uncomment 2020-05-26 22:12:35 +02:00
430 changed files with 5544 additions and 33950 deletions
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# Auto detect text files and perform LF normalization
* text=auto

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.pio
.vscode/.browse.c_cpp.db*
.vscode/c_cpp_properties.json
.vscode/launch.json
.vscode/ipch
lib/libraies-master

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{
// See http://go.microsoft.com/fwlink/?LinkId=827846
// for the documentation about the extensions.json format
"recommendations": [
"platformio.platformio-ide"
]
}

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{
"files.associations": {
"*.tcc": "cpp",
"string": "cpp",
"functional": "cpp",
"array": "cpp",
"atomic": "cpp",
"bitset": "cpp",
"cctype": "cpp",
"chrono": "cpp",
"clocale": "cpp",
"cmath": "cpp",
"cstdarg": "cpp",
"cstdint": "cpp",
"cstdio": "cpp",
"cstdlib": "cpp",
"cstring": "cpp",
"ctime": "cpp",
"cwchar": "cpp",
"cwctype": "cpp",
"deque": "cpp",
"list": "cpp",
"unordered_map": "cpp",
"vector": "cpp",
"exception": "cpp",
"fstream": "cpp",
"initializer_list": "cpp",
"iosfwd": "cpp",
"iostream": "cpp",
"istream": "cpp",
"limits": "cpp",
"mutex": "cpp",
"new": "cpp",
"ostream": "cpp",
"numeric": "cpp",
"ratio": "cpp",
"sstream": "cpp",
"stdexcept": "cpp",
"streambuf": "cpp",
"system_error": "cpp",
"cinttypes": "cpp",
"regex": "cpp",
"tuple": "cpp",
"type_traits": "cpp",
"utility": "cpp",
"typeinfo": "cpp"
},
"cmake.configureOnOpen": true
}

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void CMD_init() {
sCmd.addCommand("button", button);
sCmd.addCommand("buttonSet", buttonSet);
sCmd.addCommand("buttonChange", buttonChange);
sCmd.addCommand("pinSet", pinSet);
sCmd.addCommand("pinChange", pinChange);
sCmd.addCommand("pwm", pwm);
sCmd.addCommand("pwmSet", pwmSet);
sCmd.addCommand("switch", switch_);
#ifdef analog_enable
sCmd.addCommand("analog", analog);
#endif
#ifdef level_enable
sCmd.addCommand("level", level);
#endif
#ifdef dallas_enable
sCmd.addCommand("dallas", dallas);
#endif
#ifdef dht_enable
sCmd.addCommand("dhtT", dhtT);
sCmd.addCommand("dhtH", dhtH);
sCmd.addCommand("dhtPerception", dhtP);
sCmd.addCommand("dhtComfort", dhtC);
sCmd.addCommand("dhtDewpoint", dhtD);
#endif
#ifdef bmp_enable
sCmd.addCommand("bmp280T", bmp280T);
sCmd.addCommand("bmp280P", bmp280P);
#endif
#ifdef bme_enable
sCmd.addCommand("bme280T", bme280T);
sCmd.addCommand("bme280P", bme280P);
sCmd.addCommand("bme280H", bme280H);
sCmd.addCommand("bme280A", bme280A);
#endif
#ifdef stepper_enable
sCmd.addCommand("stepper", stepper);
sCmd.addCommand("stepperSet", stepperSet);
#endif
#ifdef servo_enable
sCmd.addCommand("servo", servo_);
sCmd.addCommand("servoSet", servoSet);
#endif
#ifdef serial_enable
sCmd.addCommand("serialBegin", serialBegin);
sCmd.addCommand("serialWrite", serialWrite);
#endif
#ifdef logging_enable
sCmd.addCommand("logging", logging);
#endif
sCmd.addCommand("inputDigit", inputDigit);
sCmd.addCommand("digitSet", digitSet);
sCmd.addCommand("inputTime", inputTime);
sCmd.addCommand("timeSet", timeSet);
sCmd.addCommand("timerStart", timerStart);
sCmd.addCommand("timerStop", timerStop);
sCmd.addCommand("text", text);
sCmd.addCommand("textSet", textSet);
sCmd.addCommand("mqtt", mqttOrderSend);
sCmd.addCommand("http", httpOrderSend);
#ifdef push_enable
sCmd.addCommand("push", pushControl);
#endif
sCmd.addCommand("update", update_firmware);
sCmd.addCommand("firmware", firmware);
handle_time_init();
}
//==========================================================================================================
//==========================================Модуль кнопок===================================================
void button() {
String button_number = sCmd.next();
String button_param = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String start_state = sCmd.next();
String page_number = sCmd.next();
jsonWriteStr(configOptionJson, "button_param" + button_number, button_param);
jsonWriteStr(configLiveJson, "button" + button_number, start_state);
if (isDigitStr (button_param)) {
pinMode(button_param.toInt(), OUTPUT);
digitalWrite(button_param.toInt(), start_state.toInt());
}
if (button_param == "scen") {
jsonWriteStr(configSetupJson, "scen", start_state);
Scenario_init();
saveConfig();
}
if (button_param.indexOf("line") != -1) {
String str = button_param;
while (str.length() != 0) {
if (str == "") return;
String tmp = selectToMarker (str, ","); //line1,
String number = deleteBeforeDelimiter(tmp, "e"); //1,
number.replace(",", "");
Serial.println(number);
int number_int = number.toInt();
scenario_line_status[number_int] = start_state.toInt();
str = deleteBeforeDelimiter(str, ",");
}
}
createWidget (widget_name, page_name, page_number, "widgets/widget.toggle.json", "button" + button_number);
}
void buttonSet() {
String button_number = sCmd.next();
String button_state = sCmd.next();
String button_param = jsonReadStr(configOptionJson, "button_param" + button_number);
if (button_param != "na" || button_param != "scen" || button_param.indexOf("line") != -1) {
digitalWrite(button_param.toInt(), button_state.toInt());
}
if (button_param == "scen") {
jsonWriteStr(configSetupJson, "scen", button_state);
Scenario_init();
saveConfig();
}
if (button_param.indexOf("line") != -1) {
String str = button_param;
while (str.length() != 0) {
if (str == "") return;
String tmp = selectToMarker (str, ","); //line1,
String number = deleteBeforeDelimiter(tmp, "e"); //1,
number.replace(",", "");
Serial.println(number);
int number_int = number.toInt();
scenario_line_status[number_int] = button_state.toInt();
str = deleteBeforeDelimiter(str, ",");
}
}
eventGen ("button", button_number);
jsonWriteStr(configLiveJson, "button" + button_number, button_state);
sendSTATUS("button" + button_number, button_state);
}
void buttonChange() {
String button_number = sCmd.next();
String current_state = jsonReadStr(configLiveJson, "button" + button_number);
if (current_state == "1") {
current_state = "0";
} else if (current_state == "0") {
current_state = "1";
}
order_loop += "buttonSet " + button_number + " " + current_state + ",";
jsonWriteStr(configLiveJson, "button" + button_number, current_state);
sendSTATUS("button" + button_number, current_state);
}
void pinSet() {
String pin_number = sCmd.next();
String pin_state = sCmd.next();
pinMode(pin_number.toInt(), OUTPUT);
digitalWrite(pin_number.toInt(), pin_state.toInt());
}
void pinChange() {
String pin_number = sCmd.next();
pinMode(pin_number.toInt(), OUTPUT);
digitalWrite(pin_number.toInt(), !digitalRead(pin_number.toInt()));
}
//==================================================================================================================
//==========================================Модуль управления ШИМ===================================================
void pwm() {
static boolean flag = true;
String pwm_number = sCmd.next();
String pwm_pin = sCmd.next();
String widget_name = sCmd.next();
widget_name.replace("#", " ");
String page_name = sCmd.next();
String start_state = sCmd.next();
String page_number = sCmd.next();
uint8_t pwm_pin_int = pwm_pin.toInt();
jsonWriteStr(configOptionJson, "pwm_pin" + pwm_number, pwm_pin);
pinMode(pwm_pin_int, INPUT);
analogWrite(pwm_pin_int, start_state.toInt());
//analogWriteFreq(32000);
jsonWriteStr(configLiveJson, "pwm" + pwm_number, start_state);
createWidget (widget_name, page_name, page_number, "widgets/widget.range.json", "pwm" + pwm_number);
}
void pwmSet() {
String pwm_number = sCmd.next();
String pwm_state = sCmd.next();
int pwm_state_int = pwm_state.toInt();
int pin = jsonReadInt(configOptionJson, "pwm_pin" + pwm_number);
analogWrite(pin, pwm_state_int);
eventGen ("pwm", pwm_number);
jsonWriteStr(configLiveJson, "pwm" + pwm_number, pwm_state);
sendSTATUS("pwm" + pwm_number, pwm_state);
}
//==================================================================================================================
//==========================================Модуль физической кнопки================================================
void switch_ () {
String switch_number = sCmd.next();
String switch_pin = sCmd.next();
String switch_delay = sCmd.next();
buttons[switch_number.toInt()].attach(switch_pin.toInt());
buttons[switch_number.toInt()].interval(switch_delay.toInt());
but[switch_number.toInt()] = true;
}
void handleButton() {
static uint8_t switch_number = 1;
if (but[switch_number]) {
buttons[switch_number].update();
if (buttons[switch_number].fell()) {
eventGen ("switch", String(switch_number));
jsonWriteStr(configLiveJson, "switch" + String(switch_number), "1");
}
if (buttons[switch_number].rose()) {
eventGen ("switch", String(switch_number));
jsonWriteStr(configLiveJson, "switch" + String(switch_number), "0");
}
}
switch_number++;
if (switch_number == NUM_BUTTONS) switch_number = 0;
}
//=====================================================================================================================================
//=========================================Добавление окна ввода цифры=================================================================
void inputDigit() {
String value_name = sCmd.next();
String number = value_name.substring(5);
String widget_name = sCmd.next();
widget_name.replace("#", " ");
String page_name = sCmd.next();
page_name.replace("#", " ");
String start_state = sCmd.next();
String page_number = sCmd.next();
jsonWriteStr(configLiveJson, "digit" + number, start_state);
createWidget (widget_name, page_name, page_number, "widgets/widget.inputNum.json", "digit" + number);
}
void digitSet() {
String number = sCmd.next();
String value = sCmd.next();
jsonWriteStr(configLiveJson, "digit" + number, value);
sendSTATUS("digit" + number, value);
}
//=====================================================================================================================================
//=========================================Добавление окна ввода времени===============================================================
void inputTime() {
String value_name = sCmd.next();
String number = value_name.substring(4);
String widget_name = sCmd.next();
widget_name.replace("#", " ");
String page_name = sCmd.next();
page_name.replace("#", " ");
String start_state = sCmd.next();
String page_number = sCmd.next();
jsonWriteStr(configLiveJson, "time" + number, start_state);
createWidget (widget_name, page_name, page_number, "widgets/widget.inputTime.json", "time" + number);
}
void timeSet() {
String number = sCmd.next();
String value = sCmd.next();
jsonWriteStr(configLiveJson, "time" + number, value);
sendSTATUS("time" + number, value);
}
void handle_time_init() {
ts.add(TIME, 1000, [&](void*) {
String tmp = GetTime();
jsonWriteStr(configLiveJson, "time", tmp);
tmp.replace(":", "-");
jsonWriteStr(configLiveJson, "timenow", tmp);
eventGen ("timenow", "");
}, nullptr, true);
}
//=====================================================================================================================================
//=========================================Добавление текстового виджета============================================================
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, "widgets/widget.anyData.json", "text" + number);
}
void textSet() {
String number = sCmd.next();
String text = sCmd.next();
text.replace("_", " ");
if (text.indexOf("-time") >= 0) {
text.replace("-time", "");
text.replace("#", " ");
String time = GetTime();
time.replace(":", ".");
text = text + " " + GetDataDigital() + " " + time;
}
jsonWriteStr(configLiveJson, "text" + number, text);
sendSTATUS("text" + number, text);
}
//=====================================================================================================================================
//=========================================Модуль шагового мотора======================================================================
#ifdef stepper_enable
//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_enable
//servo 1 13 50 Мой#сервопривод Сервоприводы 0 100 0 180 2
void servo_() {
String servo_number = sCmd.next();
String servo_pin = sCmd.next();
String start_state = sCmd.next();
int start_state_int = start_state.toInt();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String min_value = sCmd.next();
String max_value = sCmd.next();
String min_deg = sCmd.next();
String max_deg = sCmd.next();
String page_number = sCmd.next();
jsonWriteStr(configOptionJson, "servo_pin" + servo_number, servo_pin);
start_state_int = map(start_state_int, min_value.toInt(), max_value.toInt(), min_deg.toInt(), max_deg.toInt());
if (servo_number == "1") {
#ifdef ESP8266
myServo1.attach(servo_pin.toInt());
myServo1.write(start_state_int);
#endif
#ifdef ESP32
myServo1.attach(servo_pin.toInt(), 500, 2400);
myServo1.write(start_state_int);
#endif
}
if (servo_number == "2") {
#ifdef ESP8266
myServo2.attach(servo_pin.toInt());
myServo2.write(start_state_int);
#endif
#ifdef ESP32
myServo2.attach(servo_pin.toInt(), 500, 2400);
myServo2.write(start_state_int);
#endif
}
jsonWriteStr(configOptionJson, "s_min_val" + servo_number, min_value);
jsonWriteStr(configOptionJson, "s_max_val" + servo_number, max_value);
jsonWriteStr(configOptionJson, "s_min_deg" + servo_number, min_deg);
jsonWriteStr(configOptionJson, "s_max_deg" + servo_number, max_deg);
jsonWriteStr(configLiveJson, "servo" + servo_number, start_state);
createWidgetParam (widget_name, page_name, page_number, "widgets/widget.range.json", "servo" + servo_number, "min", min_value, "max", max_value, "k", "1");
}
void servoSet() {
String servo_number = sCmd.next();
String servo_state = sCmd.next();
int servo_state_int = servo_state.toInt();
int pin = jsonReadInt(configOptionJson, "servo_pin" + servo_number);
servo_state_int = map(servo_state_int,
jsonReadInt(configOptionJson, "s_min_val" + servo_number),
jsonReadInt(configOptionJson, "s_max_val" + servo_number),
jsonReadInt(configOptionJson, "s_min_deg" + servo_number),
jsonReadInt(configOptionJson, "s_max_deg" + servo_number));
if (servo_number == "1") {
#ifdef ESP8266
myServo1.write(servo_state_int);
#endif
#ifdef ESP32
myServo1.write(servo_state_int);
#endif
}
if (servo_number == "2") {
#ifdef ESP8266
myServo2.write(servo_state_int);
#endif
#ifdef ESP32
myServo2.write(servo_state_int);
#endif
}
//Serial.println(servo_state_int);
eventGen ("servo", servo_number);
jsonWriteStr(configLiveJson, "servo" + servo_number, servo_state);
sendSTATUS("servo" + servo_number, servo_state);
}
#endif
//====================================================================================================================================================
//===================================================================================serial===========================================================
#ifdef serial_enable
void serialBegin() {
//String s_speed = sCmd.next();
//String rxPin = sCmd.next();
//String txPin = sCmd.next();
//SoftwareSerial mySerial(rxPin.toInt(), txPin.toInt());
//mySerial.begin(s_speed.toInt());
}
void serialWrite() {
//String text = sCmd.next();
//mySerial.println(text);
}
#endif
//====================================================================================================================================================
//=================================================Глобальные команды удаленного управления===========================================================
void mqttOrderSend() {
String id = sCmd.next();
String order = sCmd.next();
String all_line = jsonReadStr(configSetupJson, "mqttPrefix") + "/" + id + "/order";
//Serial.print(all_line);
//Serial.print("->");
//Serial.println(order);
int send_status = client_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 update_firmware() {
upgrade = true;
}
void firmware() {
String widget_name = sCmd.next();
String page_name = sCmd.next();
String page_number = sCmd.next();
jsonWriteStr(configLiveJson, "firm1", firmware_version);
choose_widget_and_create(widget_name, page_name, page_number, "any-data", "firm1");
}
//==============================================================================================================================
//============================выполнение команд (в лупе) по очереди из строки order=============================================
void handleCMD_loop() {
if (order_loop != "") {
String tmp = selectToMarker(order_loop, ","); //выделяем из страки order первую команду rel 5 1,
sCmd.readStr(tmp); //выполняем первую команду
Serial.println("[ORDER] => " + order_loop);
order_loop = deleteBeforeDelimiter(order_loop, ","); //осекаем выполненную команду
}
}
//=======================================================================================================================================
//=======================================================================================================================================
void txtExecution(String file) {
String command_all = readFile(file, 2048) + "\r\n";
command_all.replace("\r\n", "\n");
command_all.replace("\r", "\n");
while (command_all.length() != 0) {
String tmp = selectToMarker (command_all, "\n");
sCmd.readStr(tmp);
command_all = deleteBeforeDelimiter(command_all, "\n");
}
command_all = "";
}
void stringExecution(String str) {
str = str + "\r\n";
str.replace("\r\n", "\n");
str.replace("\r", "\n");
while (str.length() != 0) {
String tmp = selectToMarker (str, "\n");
sCmd.readStr(tmp);
str = deleteBeforeDelimiter(str, "\n");
}
}

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void File_system_init() {
Serial.begin(115200);
//Serial.setDebugOutput(true);
Serial.println("--------------started----------------");
//--------------------------------------------------------------
SPIFFS.begin();
configSetupJson = readFile("config.json", 4096);
configSetupJson.replace(" ", "");
configSetupJson.replace("\r\n", "");
Serial.println(configSetupJson);
//jsonWriteStr(configLiveJson, "name", jsonReadStr(configSetupJson, "name"));
//jsonWriteStr(configLiveJson, "lang", jsonReadStr(configSetupJson, "lang"));
#ifdef ESP32
uint32_t chipID_u = ESP.getEfuseMac();
chipID = String(chipID_u);
jsonWriteStr(configSetupJson, "chipID", chipID);
#endif
#ifdef ESP8266
chipID = String( ESP.getChipId() ) + "-" + String(ESP.getFlashChipId());
jsonWriteStr(configSetupJson, "chipID", chipID);
Serial.setDebugOutput(0);
#endif
jsonWriteStr(configSetupJson, "firmware_version", firmware_version);
prex = jsonReadStr(configSetupJson, "mqttPrefix") + "/" + chipID;
Serial.println(chipID);
}
void get_esp_info() {
}

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void All_init() {
Device_init();
Scenario_init();
Timer_countdown_init();
}
void Device_init() {
logging_value_names_list = "";
enter_to_logging_counter = LOG1 - 1;
analog_value_names_list = "";
enter_to_analog_counter = 0;
level_value_name = "";
dhtT_value_name = "";
dhtH_value_name = "";
bmp280T_value_name = "";
bmp280P_value_name = "";
bme280T_value_name = "";
bme280P_value_name = "";
bme280H_value_name = "";
bme280A_value_name = "";
int array_sz = sizeof(sensors_reading_map) / sizeof(sensors_reading_map[0]);
for (int i = 0; i <= array_sz; i++) {
sensors_reading_map[i] = 0;
}
for (int i = LOG1; i <= LOG5; i++) {
ts.remove(i);
}
#ifdef layout_in_ram
all_widgets = "";
#else
SPIFFS.remove("/layout.txt");
#endif
txtExecution("firmware.c.txt");
//outcoming_date();
}
//-------------------------------сценарии-----------------------------------------------------
void Scenario_init() {
if (jsonReadStr(configSetupJson, "scen") == "1") {
scenario = readFile("firmware.s.txt", 2048);
}
}
void uptime_init() {
ts.add(UPTIME, 5000, [&](void*) {
handle_uptime();
}, nullptr, true);
ts.add(STATISTICS, statistics_update, [&](void*) {
handle_statistics();
}, nullptr, true);
}
void handle_uptime() {
if (myUpTime.check()) {
jsonWriteStr(configSetupJson, "uptime", uptime_as_string());
}
}
void handle_statistics() {
if (WiFi.status() == WL_CONNECTED) {
String urls = "http://backup.privet.lv/visitors/?";
//-----------------------------------------------------------------
urls += WiFi.macAddress().c_str();
urls += "&";
//-----------------------------------------------------------------
#ifdef ESP8266
urls += "iot-manager_esp8266";
#endif
#ifdef ESP32
urls += "iot-manager_esp32";
#endif
urls += "&";
//-----------------------------------------------------------------
#ifdef ESP8266
urls += ESP.getResetReason();
//Serial.println(ESP.getResetReason());
#endif
#ifdef ESP32
urls += "Power on";
#endif
urls += "&";
//-----------------------------------------------------------------
urls += "ver: " + firmware_version;
//-----------------------------------------------------------------
String stat = getURL(urls);
//Serial.println(stat);
}
}

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Logging.ino Normal file
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#ifdef logging_enable
//===============================================Логирование============================================================
//logging temp1 1 10 Температура Датчики 2
void logging() {
String value_name = sCmd.next();
String period_min = sCmd.next();
String maxCount = sCmd.next();
String widget_name = sCmd.next();
widget_name.replace("#", " ");
String page_name = sCmd.next();
String page_number = sCmd.next();
logging_value_names_list += value_name + ",";
enter_to_logging_counter++; //считаем количество входов в эту функцию
jsonWriteStr(configOptionJson, value_name + "_c", maxCount); //создаем в файловой системе переменную количества точек на графике с отметкой _c что значит count
createChart (widget_name, page_name, page_number, "widgets/widget.chart.json", value_name + "_ch", maxCount); //создаем график в приложении с топиком _ch /prefix/3234045-1589487/value_name_ch
if (enter_to_logging_counter == LOG1) {
ts.add(LOG1, period_min.toInt() * 1000 * 60, [&](void*) {
String tmp_buf_1 = selectFromMarkerToMarker(logging_value_names_list, ",", 0);
deleteOldDate("log." + tmp_buf_1 + ".txt", jsonReadInt(configOptionJson, tmp_buf_1 + "_c"), jsonReadStr(configLiveJson, tmp_buf_1));
Serial.println("[i] LOGGING for sensor '" + tmp_buf_1 + "' done");
}, nullptr, false);
}
if (enter_to_logging_counter == LOG2) {
ts.add(LOG2, period_min.toInt() * 1000 * 60, [&](void*) {
String tmp_buf_2 = selectFromMarkerToMarker(logging_value_names_list, ",", 1);
deleteOldDate("log." + tmp_buf_2 + ".txt", jsonReadInt(configOptionJson, tmp_buf_2 + "_c"), jsonReadStr(configLiveJson, tmp_buf_2));
Serial.println("[i] LOGGING for sensor '" + tmp_buf_2 + "' done");
}, nullptr, false);
}
if (enter_to_logging_counter == LOG3) {
ts.add(LOG3, period_min.toInt() * 1000 * 60, [&](void*) {
String tmp_buf_3 = selectFromMarkerToMarker(logging_value_names_list, ",", 2);
deleteOldDate("log." + tmp_buf_3 + ".txt", jsonReadInt(configOptionJson, tmp_buf_3 + "_c"), jsonReadStr(configLiveJson, tmp_buf_3));
Serial.println("[i] LOGGING for sensor '" + tmp_buf_3 + "' done");
}, nullptr, false);
}
if (enter_to_logging_counter == LOG4) {
ts.add(LOG4, period_min.toInt() * 1000 * 60, [&](void*) {
String tmp_buf_4 = selectFromMarkerToMarker(logging_value_names_list, ",", 3);
deleteOldDate("log." + tmp_buf_4 + ".txt", jsonReadInt(configOptionJson, tmp_buf_4 + "_c"), jsonReadStr(configLiveJson, tmp_buf_4));
Serial.println("[i] LOGGING for sensor '" + tmp_buf_4 + "' done");
}, nullptr, false);
}
if (enter_to_logging_counter == LOG5) {
ts.add(LOG5, period_min.toInt() * 1000 * 60, [&](void*) {
String tmp_buf_5 = selectFromMarkerToMarker(logging_value_names_list, ",", 4);
deleteOldDate("log." + tmp_buf_5 + ".txt", jsonReadInt(configOptionJson, tmp_buf_5 + "_c"), jsonReadStr(configLiveJson, tmp_buf_5));
Serial.println("[i] LOGGING for sensor '" + tmp_buf_5 + "' done");
}, nullptr, false);
}
}
//=========================================Удаление стрых данных и запись новых==================================================================
void deleteOldDate(String file, int seted_number_of_lines, String date_to_add) {
String log_date = readFile(file, 5000);
int current_number_of_lines = count(log_date, "\r\n");
Serial.println("=====> [i] in log file " + file + " " + current_number_of_lines + " lines");
if (current_number_of_lines > seted_number_of_lines + 1) {
SPIFFS.remove("/" + file);
current_number_of_lines = 0;
}
if (current_number_of_lines == 0) {
SPIFFS.remove("/" + file);
current_number_of_lines = 0;
}
if (current_number_of_lines > seted_number_of_lines) {
log_date = deleteBeforeDelimiter(log_date, "\r\n");
if (GetTimeUnix() != "failed") {
log_date += GetTimeUnix() + " " + date_to_add + "\r\n";
writeFile(file, log_date);
}
} else {
if (GetTimeUnix() != "failed") {
addFile(file, GetTimeUnix() + " " + date_to_add);
}
}
log_date = "";
}
//=========================================Выбор какие данные отправлять==================================================================
void choose_log_date_and_send() {
String all_line = logging_value_names_list;
while (all_line.length() != 0) {
String tmp = selectToMarker (all_line, ",");
sendLogData("log." + tmp + ".txt", tmp + "_ch");
all_line = deleteBeforeDelimiter(all_line, ",");
}
all_line = "";
}
//=========================================Отправка данных===================================================================================
void sendLogData(String file, String topic) {
String log_date = readFile(file, 5000);
if (log_date != "Failed") {
log_date.replace("\r\n", "\n");
log_date.replace("\r", "\n");
String buf = "{}";
String json_array;
String unix_time;
String value;
while (log_date.length() != 0) {
String tmp = selectToMarker (log_date, "\n");
log_date = deleteBeforeDelimiter(log_date, "\n");
unix_time = selectToMarker (tmp, " ");
jsonWriteInt(buf, "x", unix_time.toInt());
value = deleteBeforeDelimiter(tmp, " ");
jsonWriteFloat(buf, "y1", value.toFloat());
if (log_date.length() < 3) {
json_array += buf;
} else {
json_array += buf + ",";
}
buf = "{}";
}
unix_time = "";
value = "";
log_date = "";
json_array = "{\"status\":[" + json_array + "]}";
Serial.println(json_array);
sendCHART(topic, json_array);
json_array = "";
getMemoryLoad("[i] after send log date");
}
}
/*
//----------------------------------------------
File configFile = SPIFFS.open("/" + file, "r");
if (!configFile) {
return;
}
configFile.seek(0, SeekSet); //поставим курсор в начало файла
while (configFile.position() != configFile.size()) {
String tmp = configFile.readStringUntil('\r\n');
String unix_time = selectToMarker (tmp, " ");
String value = deleteBeforeDelimiter(tmp, " ");
String final_line = "{\"status\":{\"x\":" + unix_time + ",\"y1\":" + value + "}}";
//Serial.println(final_line);
sendCHART(topic, final_line);
}
getMemoryLoad("[i] after send log date");
*/
//=========================================Очистка данных===================================================================================
void clean_log_date() {
String all_line = logging_value_names_list;
while (all_line.length() != 0) {
String tmp = selectToMarker (all_line, ",");
SPIFFS.remove("/log." + tmp + ".txt");
all_line = deleteBeforeDelimiter(all_line, ",");
}
all_line = "";
}
#endif

40
README.md
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@@ -1,5 +1,37 @@
# IoTManager # esp32-esp8266_iot-manager_modules_firmware
Это модульная система беспроводной автоматизации на базе ESP32/ESP8266 микроконтроллеров и приложения IoT Manager.
# [Инструкция](https://github.com/IoTManagerProject/IoTManager/wiki) It is based on esp8266 and esp32 automation system. Each module has a web interface for its initial configuration. The modules are managed using the "iot manager" application. This application is released for both android and ios platform. The application connects to a MQTT broker, you can add several brokers and switch between them. All modules also connect to same broker. All esp8266 esp32 are combined and appear in the application as widgets.
There are two configuration options in the web interface of the modules:
1. Select a ready-made preset.
The following presets are available:
- On off relay
- On off relay according to the schedule specified in the application
- On off the relay after a period of time specified in the application
- On off relay groups on different devices with one button in the application
- Light switch module
- PWM controlled by the slider in the application
- Reading and logging analog input into graph with scaling function
- Reading and logging in the graph of the following sensors:
DHT22, DHT33, DHT44, AM2302, RHT03
DS18B20
JSN-SR04T, HC-SR04, HY-SRF05
BME280 BMP280 and other i2c sensors
-ds18b20 termostat controlled from application with graph (you can use any sensor for termostat any other supported).
2. Configure with special scripts. A simple programming language was invented which can very flexibly configure the module.
People who do not know how to program can use ready-made presets (option 1), and people who want to play with the system can use scripts (option 2).
Scenarios:
The web interface has the ability to configure Scenarios. An event occurs on one esp, and a reaction to this event can setup to occurs on another.
Logging of sensors data in this project made with out any server. All data for graf storring in esp flash. You can look any time your sensor history for 2 - 3 days or week in mobile app in graf. And for this option needed only esp.
![](https://github.com/IoTManagerProject/IoTManager/blob/beta/doc/pictures/007%20iot%20manager.jpg)

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Scenario.ino Normal file
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void handleScenario() {
if (jsonReadStr(configSetupJson, "scen") == "1") {
if ((jsonReadStr(configOptionJson, "scenario_status") != "")) {
int i = 0;
String str = scenario; //читаем переменную с сценариями (то что из файла на странице)
str += "\n";
str.replace("\r\n", "\n");
str.replace("\r", "\n");
while (str.length() != 0) {
//-----------------------------------------------------------------------------------------------------------------------
String tmp = selectToMarker (str, "end"); //выделяем первый сценарий из файла вместе с командами
if (tmp == "") return;
i++;
if (scenario_line_status[i] == 1) {
//Serial.println(i);
String condition = selectToMarker (tmp, "\n"); //выделяем первую строку самого сценария button1 = 1 (условие)
String param_name = selectFromMarkerToMarker(condition, " " , 0);
String order = jsonReadStr(configOptionJson, "scenario_status"); //читаем весь файл событий
String param = selectToMarker (order, ","); //читаем первое событие из файла событий
if (param_name == param) { //если поступившее событие равно событию заданному buttonSet1 в файле начинаем его обработку
String sign = selectFromMarkerToMarker(condition, " " , 1); //читаем знак (=)
String value = selectFromMarkerToMarker(condition, " " , 2); //читаем значение (1)
if (value.indexOf("digit") != -1) {
// value = add_set(value);
value = jsonReadStr(configLiveJson, value);
}
if (value.indexOf("time") != -1) {
// value = add_set(value);
value = jsonReadStr(configLiveJson, value);
}
boolean flag = false; //если одно из значений совпало то только тогда начинаем выполнять комнады
if (sign == "=") {
if (jsonReadStr(configLiveJson, param_name) == value) flag = true;
}
if (sign == "!=") {
if (jsonReadStr(configLiveJson, param_name) != value) flag = true;
}
if (sign == "<") {
if (jsonReadStr(configLiveJson, param_name).toInt() < value.toInt()) flag = true;
}
if (sign == ">") {
if (jsonReadStr(configLiveJson, param_name).toInt() > value.toInt()) flag = true;
}
if (sign == ">=") {
if (jsonReadStr(configLiveJson, param_name).toInt() >= value.toInt()) flag = true;
}
if (sign == "<=") {
if (jsonReadStr(configLiveJson, param_name).toInt() <= value.toInt()) flag = true;
}
if (flag) {
tmp = deleteBeforeDelimiter(tmp, "\n"); //удаляем строку самого сценария оставляя только команды
stringExecution(tmp); //выполняем все команды
Serial.println("[SCENARIO] '" + condition + "'");
//Serial.println(" " + tmp);
}
}
}
str = deleteBeforeDelimiter(str, "end\n"); //удаляем первый сценарий
//-----------------------------------------------------------------------------------------------------------------------
}
String tmp2 = jsonReadStr(configOptionJson, "scenario_status"); //читаем файл событий
tmp2 = deleteBeforeDelimiter(tmp2, ","); //удаляем выполненное событие
jsonWriteStr(configOptionJson, "scenario_status", tmp2); //записываем обновленный файл событий
i = 0;
}
}
}
void eventGen (String event_name, String number) { //событие выглядит как имя плюс set плюс номер: button+Set+1
if (jsonReadStr(configSetupJson, "scen") == "1") {
String tmp = jsonReadStr(configOptionJson, "scenario_status") ; //генерирование события
//Serial.println(event_name);
jsonWriteStr(configOptionJson, "scenario_status", tmp + event_name + number + ",");
}
}
String add_set(String param_name) {
String num1 = param_name.substring(param_name.length() - 1);
String num2 = param_name.substring(param_name.length() - 2, param_name.length() - 1);
if (isDigitStr(num1) && isDigitStr(num2)) {
param_name = param_name.substring(0, param_name.length() - 2) + "Set" + num2 + num1;
} else {
if (isDigitStr(num1)) {
param_name = param_name.substring(0, param_name.length() - 1) + "Set" + num1;
}
}
return param_name;
}

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Sensors.ino Normal file
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void sensors_init() {
ts.add(SENSORS, 1000, [&](void*) {
static int counter;
counter++;
#ifdef level_enable
if (sensors_reading_map[0] == 1) level_reading();
#endif
if (counter > 10) {
counter = 0;
#ifdef analog_enable
if (sensors_reading_map[1] == 1) analog_reading1();
if (sensors_reading_map[2] == 1) analog_reading2();
#endif
#ifdef dallas_enable
if (sensors_reading_map[3] == 1) dallas_reading();
#endif
#ifdef dht_enable
if (sensors_reading_map[4] == 1) dhtT_reading();
if (sensors_reading_map[5] == 1) dhtH_reading();
if (sensors_reading_map[6] == 1) dhtP_reading();
if (sensors_reading_map[7] == 1) dhtC_reading();
if (sensors_reading_map[8] == 1) dhtD_reading();
#endif
#ifdef bmp_enable
if (sensors_reading_map[9] == 1) bmp280T_rading();
if (sensors_reading_map[10] == 1) bmp280P_reading();
#endif
#ifdef bme_enable
if (sensors_reading_map[11] == 1) bme280T_reading();
if (sensors_reading_map[12] == 1) bme280P_reading();
if (sensors_reading_map[13] == 1) bme280H_reading();
if (sensors_reading_map[14] == 1) bme280A_reading();
#endif
}
}, nullptr, true);
}
//=========================================================================================================================================
//=========================================Модуль измерения уровня в баке==================================================================
#ifdef level_enable
//level L 14 12 Вода#в#баке,#% Датчики fill-gauge 125 20 1
void level() {
String value_name = sCmd.next();
String trig = sCmd.next();
String echo = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String empty_level = sCmd.next();
String full_level = sCmd.next();
String page_number = sCmd.next();
level_value_name = value_name;
jsonWriteStr(configOptionJson, "e_lev", empty_level);
jsonWriteStr(configOptionJson, "f_lev", full_level);
jsonWriteStr(configOptionJson, "trig", trig);
jsonWriteStr(configOptionJson, "echo", echo);
pinMode(trig.toInt(), OUTPUT);
pinMode(echo.toInt(), INPUT);
choose_widget_and_create(widget_name, page_name, page_number, type, value_name);
sensors_reading_map[0] = 1;
}
void level_reading() {
long duration_;
int distance_cm;
int level;
static int counter;
int trig = jsonReadInt(configOptionJson, "trig");
int echo = jsonReadInt(configOptionJson, "echo");
digitalWrite(trig, LOW);
delayMicroseconds(2);
digitalWrite(trig, HIGH);
delayMicroseconds(10);
digitalWrite(trig, LOW);
duration_ = pulseIn(echo, HIGH, 30000); // 3000 µs = 50cm // 30000 µs = 5 m
distance_cm = duration_ / 29 / 2;
distance_cm = medianFilter.filtered(distance_cm);//отсечение промахов медианным фильтром
counter++;
if (counter > tank_level_times_to_send) {
counter = 0;
level = map(distance_cm,
jsonReadInt(configOptionJson, "e_lev"),
jsonReadInt(configOptionJson, "f_lev"), 0, 100);
jsonWriteInt(configLiveJson, level_value_name, level);
eventGen (level_value_name, "");
sendSTATUS(level_value_name, String(level));
Serial.println("[i] sensor '" + level_value_name + "' data: " + String(level));
}
}
#endif
//=========================================================================================================================================
//=========================================Модуль аналогового сенсора======================================================================
#ifdef analog_enable
//analog adc 0 Аналоговый#вход,#% Датчики any-data 1 1023 1 100 1
void analog() {
String value_name = sCmd.next();
String pin = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String analog_start = sCmd.next();
String analog_end = sCmd.next();
String analog_start_out = sCmd.next();
String analog_end_out = sCmd.next();
String page_number = sCmd.next();
analog_value_names_list += value_name + ",";
enter_to_analog_counter++;
jsonWriteStr(configOptionJson, value_name + "_st", analog_start);
jsonWriteStr(configOptionJson, value_name + "_end", analog_end);
jsonWriteStr(configOptionJson, value_name + "_st_out", analog_start_out);
jsonWriteStr(configOptionJson, value_name + "_end_out", analog_end_out);
choose_widget_and_create(widget_name, page_name, page_number, type, value_name);
if (enter_to_analog_counter == 1) {
sensors_reading_map[1] = 1;
}
if (enter_to_analog_counter == 2) {
sensors_reading_map[2] = 1;
}
}
void analog_reading1() {
String value_name = selectFromMarkerToMarker(analog_value_names_list, ",", 0);
#ifdef ESP32
int analog_in = analogRead(34);
#endif
#ifdef ESP8266
int analog_in = analogRead(A0);
#endif
int analog = map(analog_in,
jsonReadInt(configOptionJson, value_name + "_st") ,
jsonReadInt(configOptionJson, value_name + "_end"),
jsonReadInt(configOptionJson, value_name + "_st_out"),
jsonReadInt(configOptionJson, value_name + "_end_out"));
jsonWriteInt(configLiveJson, value_name, analog);
eventGen (value_name, "");
sendSTATUS(value_name, String(analog));
Serial.println("[i] sensor '" + value_name + "' data: " + String(analog));
}
void analog_reading2() {
String value_name = selectFromMarkerToMarker(analog_value_names_list, ",", 1);
#ifdef ESP32
int analog_in = analogRead(35);
#endif
#ifdef ESP8266
int analog_in = analogRead(A0);
#endif
int analog = map(analog_in,
jsonReadInt(configOptionJson, value_name + "_st") ,
jsonReadInt(configOptionJson, value_name + "_end"),
jsonReadInt(configOptionJson, value_name + "_st_out"),
jsonReadInt(configOptionJson, value_name + "_end_out"));
jsonWriteInt(configLiveJson, value_name, analog);
eventGen (value_name, "");
sendSTATUS(value_name, String(analog));
Serial.println("[i] sensor '" + value_name + "' data: " + String(analog));
}
#endif
//=========================================================================================================================================
//=========================================Модуль температурного сенсора ds18b20===========================================================
#ifdef dallas_enable
void dallas() {
String value_name = sCmd.next();
String pin = 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();
oneWire = new OneWire((uint8_t) pin.toInt());
sensors.setOneWire(oneWire);
sensors.begin();
sensors.setResolution(12);
choose_widget_and_create(widget_name, page_name, page_number, type, "dallas");
sensors_reading_map[3] = 1;
}
void dallas_reading() {
float temp = 0;
sensors.requestTemperatures();
temp = sensors.getTempCByIndex(0);
jsonWriteStr(configLiveJson, "dallas", String(temp));
eventGen ("dallas", "");
sendSTATUS("dallas", String(temp));
Serial.println("[i] sensor 'dallas' send date " + String(temp));
}
#endif
//=========================================================================================================================================
//=========================================Модуль сенсоров DHT=============================================================================
#ifdef dht_enable
//dhtT t 2 dht11 Температура#DHT,#t°C Датчики any-data 1
void dhtT() {
String value_name = sCmd.next();
String pin = sCmd.next();
String sensor_type = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
dhtT_value_name = value_name;
if (sensor_type == "dht11") {
dht.setup(pin.toInt(), DHTesp::DHT11);
}
if (sensor_type == "dht22") {
dht.setup(pin.toInt(), DHTesp::DHT22);
}
choose_widget_and_create(widget_name, page_name, page_number, type, value_name);
sensors_reading_map[4] = 1;
}
void dhtT_reading() {
float value = 0;
static int counter;
if (dht.getStatus() != 0 && counter < 5) {
sendSTATUS(dhtT_value_name, String(dht.getStatusString()));
counter++;
} else {
counter = 0;
value = dht.getTemperature();
if (String(value) != "nan") {
eventGen (dhtT_value_name, "");
jsonWriteStr(configLiveJson, dhtT_value_name, String(value));
sendSTATUS(dhtT_value_name, String(value));
Serial.println("[i] sensor '" + dhtT_value_name + "' data: " + String(value));
}
}
}
//dhtH h 2 dht11 Влажность#DHT,#t°C Датчики any-data 1
void dhtH() {
String value_name = sCmd.next();
String pin = sCmd.next();
String sensor_type = sCmd.next();
String widget_name = sCmd.next();
String page_name = sCmd.next();
String type = sCmd.next();
String page_number = sCmd.next();
dhtH_value_name = value_name;
if (sensor_type == "dht11") {
dht.setup(pin.toInt(), DHTesp::DHT11);
}
if (sensor_type == "dht22") {
dht.setup(pin.toInt(), DHTesp::DHT22);
}
choose_widget_and_create(widget_name, page_name, page_number, type, value_name);
sensors_reading_map[5] = 1;
}
void dhtH_reading() {
float value = 0;
static int counter;
if (dht.getStatus() != 0 && counter < 5) {
sendSTATUS(dhtH_value_name, String(dht.getStatusString()));
counter++;
} else {
counter = 0;
value = dht.getHumidity();
if (String(value) != "nan") {
eventGen (dhtH_value_name, "");
jsonWriteStr(configLiveJson, dhtH_value_name, String(value));
sendSTATUS(dhtH_value_name, String(value));
Serial.println("[i] sensor '" + dhtH_value_name + "' data: " + String(value));
}
}
}
//dhtPerception Восприятие: Датчики 4
void dhtP() {
String widget_name = sCmd.next();
String page_name = sCmd.next();
String page_number = sCmd.next();
choose_widget_and_create(widget_name, page_name, page_number, "any-data", "dhtPerception");
sensors_reading_map[6] = 1;
}
void dhtP_reading() {
byte value;
if (dht.getStatus() != 0) {
sendSTATUS("dhtPerception", String(dht.getStatusString()));
} else {
value = dht.computePerception(jsonReadStr(configLiveJson, dhtT_value_name).toFloat(), jsonReadStr(configLiveJson, dhtH_value_name).toFloat(), false);
String final_line = perception(value);
jsonWriteStr(configLiveJson, "dhtPerception", final_line);
eventGen ("dhtPerception", "");
sendSTATUS("dhtPerception", final_line);
if (client_mqtt.connected()) {
Serial.println("[i] sensor 'dhtPerception' data: " + final_line);
}
}
}
String perception(byte value) {
if (value == 0) return "Сухой воздух";
if (value == 1) return "Комфортно";
if (value == 2) return "Уютно";
if (value == 3) return "Хорошо";
if (value == 4) return "Неудобно";
if (value == 5) return "Довольно неудобно";
if (value == 6) return "Очень неудобно";
if (value == 7) return "Сильно неудобно, полный звиздец";
}
//dhtComfort Степень#комфорта: Датчики 3
void dhtC() {
String widget_name = sCmd.next();
String page_name = sCmd.next();
String page_number = sCmd.next();
choose_widget_and_create(widget_name, page_name, page_number, "any-data", "dhtComfort");
sensors_reading_map[7] = 1;
}
void dhtC_reading() {
float value;
ComfortState cf;
if (dht.getStatus() != 0) {
sendSTATUS("dhtComfort", String(dht.getStatusString()));
} else {
value = dht.getComfortRatio(cf, jsonReadStr(configLiveJson, dhtT_value_name).toFloat(), jsonReadStr(configLiveJson, dhtH_value_name).toFloat(), false);
String final_line = get_comfort_status(cf);
jsonWriteStr(configLiveJson, "dhtComfort", final_line);
eventGen ("dhtComfort", "");
sendSTATUS("dhtComfort", final_line);
Serial.println("[i] sensor 'dhtComfort' send date " + final_line);
}
}
String get_comfort_status(ComfortState cf) {
String comfortStatus;
switch (cf) {
case Comfort_OK:
comfortStatus = "Отлично";
break;
case Comfort_TooHot:
comfortStatus = "Очень жарко";
break;
case Comfort_TooCold:
comfortStatus = "Очень холодно";
break;
case Comfort_TooDry:
comfortStatus = "Очень сухо";
break;
case Comfort_TooHumid:
comfortStatus = "Очень влажно";
break;
case Comfort_HotAndHumid:
comfortStatus = "Жарко и влажно";
break;
case Comfort_HotAndDry:
comfortStatus = "Жарко и сухо";
break;
case Comfort_ColdAndHumid:
comfortStatus = "Холодно и влажно";
break;
case Comfort_ColdAndDry:
comfortStatus = "Холодно и сухо";
break;
default:
comfortStatus = "Неизвестно";
break;
};
return comfortStatus;
}
//dhtDewpoint Точка#росы: Датчики 5
void dhtD() {
String widget_name = sCmd.next();
String page_name = sCmd.next();
String page_number = sCmd.next();
choose_widget_and_create(widget_name, page_name, page_number, "any-data", "dhtDewpoint");
sensors_reading_map[8] = 1;
}
void dhtD_reading() {
float value;
if (dht.getStatus() != 0) {
sendSTATUS("dhtDewpoint", String(dht.getStatusString()));
} else {
value = dht.computeDewPoint(jsonReadStr(configLiveJson, dhtT_value_name).toFloat(), jsonReadStr(configLiveJson, dhtH_value_name).toFloat(), false);
jsonWriteInt(configLiveJson, "dhtDewpoint", value);
eventGen ("dhtDewpoint", "");
sendSTATUS("dhtDewpoint", String(value));
Serial.println("[i] sensor 'dhtDewpoint' data: " + String(value));
}
}
#endif
//=========================================i2c bus esp8266 scl-4 sda-5 ====================================================================
//=========================================================================================================================================
//=========================================Модуль сенсоров bmp280==========================================================================
#ifdef bmp_enable
//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;
choose_widget_and_create(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_rading() {
float value = 0;
sensors_event_t temp_event, pressure_event;
bmp_temp->getEvent(&temp_event);
value = temp_event.temperature;
jsonWriteStr(configLiveJson, bmp280T_value_name, String(value));
eventGen(bmp280T_value_name, "");
sendSTATUS(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;
choose_widget_and_create(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 temp_event, 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, "");
sendSTATUS(bmp280P_value_name, String(value));
Serial.println("[i] sensor '" + bmp280P_value_name + "' data: " + String(value));
}
#endif
//=========================================================================================================================================
//=============================================Модуль сенсоров bme280======================================================================
#ifdef bme_enable
//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;
choose_widget_and_create(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, "");
sendSTATUS(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;
choose_widget_and_create(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;
jsonWriteStr(configLiveJson, bme280P_value_name, String(value));
eventGen(bme280P_value_name, "");
sendSTATUS(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;
choose_widget_and_create(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, "");
sendSTATUS(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;
choose_widget_and_create(widget_name, page_name, page_number, type, value_name);
bme.begin(hexStringToUint8(address));
sensors_reading_map[14] = 1;
}
void bme280A_reading() {
float value = 0;
value = bme.readAltitude(1013.25);
jsonWriteStr(configLiveJson, bme280A_value_name, String(value));
eventGen(bme280A_value_name, "");
sendSTATUS(bme280A_value_name, String(value));
Serial.println("[i] sensor '" + bme280A_value_name + "' data: " + String(value));
}
#endif

87
Ticker_for_TickerScheduler/Ticker/Ticker.cpp Normal file
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/*
Ticker.cpp - esp8266 library that calls functions periodically
Copyright (c) 2014 Ivan Grokhotkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <stddef.h>
#include <stdint.h>
#include "c_types.h"
#include "eagle_soc.h"
#include "ets_sys.h"
#include "osapi.h"
static const int ONCE = 0;
static const int REPEAT = 1;
#include "Ticker.h"
Ticker::Ticker()
: _timer(nullptr)
{
}
Ticker::~Ticker()
{
detach();
}
void Ticker::_attach_ms(uint32_t milliseconds, bool repeat, callback_with_arg_t callback, uint32_t arg)
{
if (_timer)
{
os_timer_disarm(_timer);
}
else
{
_timer = new ETSTimer;
}
os_timer_setfn(_timer, reinterpret_cast<ETSTimerFunc*>(callback), reinterpret_cast<void*>(arg));
os_timer_arm(_timer, milliseconds, (repeat)?REPEAT:ONCE);
}
void Ticker::detach()
{
if (!_timer)
return;
os_timer_disarm(_timer);
delete _timer;
_timer = nullptr;
_callback_function = nullptr;
}
bool Ticker::active() const
{
return (bool)_timer;
}
void Ticker::_static_callback(void* arg)
{
Ticker* _this = (Ticker*)arg;
if (_this == nullptr)
{
return;
}
if (_this->_callback_function)
{
_this->_callback_function();
}
}

136
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/*
Ticker.h - esp8266 library that calls functions periodically
Copyright (c) 2014 Ivan Grokhotkov. All rights reserved.
This file is part of the esp8266 core for Arduino environment.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef TICKER_H
#define TICKER_H
#include <stdint.h>
#include <stdbool.h>
#include <stddef.h>
#include <functional>
#include <Schedule.h>
extern "C" {
typedef struct _ETSTIMER_ ETSTimer;
}
class Ticker
{
public:
Ticker();
~Ticker();
typedef void (*callback_t)(void);
typedef void (*callback_with_arg_t)(void*);
typedef std::function<void(void)> callback_function_t;
void attach_scheduled(float seconds, callback_function_t callback)
{
attach(seconds,std::bind(schedule_function, callback));
}
void attach(float seconds, callback_function_t callback)
{
_callback_function = callback;
attach(seconds, _static_callback, (void*)this);
}
void attach_ms_scheduled(uint32_t milliseconds, callback_function_t callback)
{
attach_ms(milliseconds, std::bind(schedule_function, callback));
}
void attach_ms(uint32_t milliseconds, callback_function_t callback)
{
_callback_function = callback;
attach_ms(milliseconds, _static_callback, (void*)this);
}
template<typename TArg>
void attach(float seconds, void (*callback)(TArg), TArg arg)
{
static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach() callback argument size must be <= 4 bytes");
// C-cast serves two purposes:
// static_cast for smaller integer types,
// reinterpret_cast + const_cast for pointer types
uint32_t arg32 = (uint32_t)arg;
_attach_ms(seconds * 1000, true, reinterpret_cast<callback_with_arg_t>(callback), arg32);
}
template<typename TArg>
void attach_ms(uint32_t milliseconds, void (*callback)(TArg), TArg arg)
{
static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach_ms() callback argument size must be <= 4 bytes");
uint32_t arg32 = (uint32_t)arg;
_attach_ms(milliseconds, true, reinterpret_cast<callback_with_arg_t>(callback), arg32);
}
void once_scheduled(float seconds, callback_function_t callback)
{
once(seconds, std::bind(schedule_function, callback));
}
void once(float seconds, callback_function_t callback)
{
_callback_function = callback;
once(seconds, _static_callback, (void*)this);
}
void once_ms_scheduled(uint32_t milliseconds, callback_function_t callback)
{
once_ms(milliseconds, std::bind(schedule_function, callback));
}
void once_ms(uint32_t milliseconds, callback_function_t callback)
{
_callback_function = callback;
once_ms(milliseconds, _static_callback, (void*)this);
}
template<typename TArg>
void once(float seconds, void (*callback)(TArg), TArg arg)
{
static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach() callback argument size must be <= 4 bytes");
uint32_t arg32 = (uint32_t)(arg);
_attach_ms(seconds * 1000, false, reinterpret_cast<callback_with_arg_t>(callback), arg32);
}
template<typename TArg>
void once_ms(uint32_t milliseconds, void (*callback)(TArg), TArg arg)
{
static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach_ms() callback argument size must be <= 4 bytes");
uint32_t arg32 = (uint32_t)(arg);
_attach_ms(milliseconds, false, reinterpret_cast<callback_with_arg_t>(callback), arg32);
}
void detach();
bool active() const;
protected:
void _attach_ms(uint32_t milliseconds, bool repeat, callback_with_arg_t callback, uint32_t arg);
static void _static_callback (void* arg);
protected:
ETSTimer* _timer;
callback_function_t _callback_function = nullptr;
};
#endif//TICKER_H

45
Ticker_for_TickerScheduler/Ticker/examples/TickerBasic/TickerBasic.ino Normal file
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/*
Basic Ticker usage
Ticker is an object that will call a given function with a certain period.
Each Ticker calls one function. You can have as many Tickers as you like,
memory being the only limitation.
A function may be attached to a ticker and detached from the ticker.
There are two variants of the attach function: attach and attach_ms.
The first one takes period in seconds, the second one in milliseconds.
The built-in LED will be blinking.
*/
#include <Ticker.h>
Ticker flipper;
int count = 0;
void flip() {
int state = digitalRead(LED_BUILTIN); // get the current state of GPIO1 pin
digitalWrite(LED_BUILTIN, !state); // set pin to the opposite state
++count;
// when the counter reaches a certain value, start blinking like crazy
if (count == 20) {
flipper.attach(0.1, flip);
}
// when the counter reaches yet another value, stop blinking
else if (count == 120) {
flipper.detach();
}
}
void setup() {
pinMode(LED_BUILTIN, OUTPUT);
digitalWrite(LED_BUILTIN, LOW);
// flip the pin every 0.3s
flipper.attach(0.3, flip);
}
void loop() {
}

64
Ticker_for_TickerScheduler/Ticker/examples/TickerFunctional/TickerFunctional.ino Normal file
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#include "Arduino.h"
#include "Ticker.h"
#define LED1 2
#define LED2 4
#define LED3 12
#define LED4 14
#define LED5 15
class ExampleClass {
public:
ExampleClass(int pin, int duration) : _pin(pin), _duration(duration) {
pinMode(_pin, OUTPUT);
_myTicker.attach_ms(_duration, std::bind(&ExampleClass::classBlink, this));
}
~ExampleClass() {};
int _pin, _duration;
Ticker _myTicker;
void classBlink() {
digitalWrite(_pin, !digitalRead(_pin));
}
};
void staticBlink() {
digitalWrite(LED2, !digitalRead(LED2));
}
void scheduledBlink() {
digitalWrite(LED3, !digitalRead(LED2));
}
void parameterBlink(int p) {
digitalWrite(p, !digitalRead(p));
}
Ticker staticTicker;
Ticker scheduledTicker;
Ticker parameterTicker;
Ticker lambdaTicker;
ExampleClass example(LED1, 100);
void setup() {
pinMode(LED2, OUTPUT);
staticTicker.attach_ms(100, staticBlink);
pinMode(LED3, OUTPUT);
scheduledTicker.attach_ms_scheduled(100, scheduledBlink);
pinMode(LED4, OUTPUT);
parameterTicker.attach_ms(100, std::bind(parameterBlink, LED4));
pinMode(LED5, OUTPUT);
lambdaTicker.attach_ms(100, []() {
digitalWrite(LED5, !digitalRead(LED5));
});
}
void loop() {
}

35
Ticker_for_TickerScheduler/Ticker/examples/TickerParameter/TickerParameter.ino Normal file
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/*
Passing paramters to Ticker callbacks
Apart from void(void) functions, the Ticker library supports
functions taking one argument. This argument's size has to be less or
equal to 4 bytes (so char, short, int, float, void*, char* types will do).
This sample runs two tickers that both call one callback function,
but with different arguments.
The built-in LED will be pulsing.
*/
#include <Ticker.h>
Ticker tickerSetHigh;
Ticker tickerSetLow;
void setPin(int state) {
digitalWrite(LED_BUILTIN, state);
}
void setup() {
pinMode(LED_BUILTIN, OUTPUT);
digitalWrite(1, LOW);
// every 25 ms, call setPin(0)
tickerSetLow.attach_ms(25, setPin, 0);
// every 26 ms, call setPin(1)
tickerSetHigh.attach_ms(26, setPin, 1);
}
void loop() {
}

22
lib/ESP8266-StringCommand/keywords.txt → Ticker_for_TickerScheduler/Ticker/keywords.txt
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@@ -1,23 +1,29 @@
#######################################
# Syntax Coloring Map For Wire
#######################################
####################################### #######################################
# Datatypes (KEYWORD1) # Datatypes (KEYWORD1)
####################################### #######################################
StringCommand KEYWORD1
####################################### #######################################
# Methods and Functions (KEYWORD2) # Methods and Functions (KEYWORD2)
####################################### #######################################
addCommand KEYWORD2 attach KEYWORD2
setDefaultHandler KEYWORD2 attach_ms KEYWORD2
readString KEYWORD2 once KEYWORD2
clearBuffer KEYWORD2 once_ms KEYWORD2
next KEYWORD2 detach KEYWORD2
active KEYWORD2
####################################### #######################################
# Instances (KEYWORD2) # Instances (KEYWORD2)
####################################### #######################################
Ticker KEYWORD2
####################################### #######################################
# Constants (LITERAL1) # Constants (LITERAL1)
####################################### #######################################

10
Ticker_for_TickerScheduler/Ticker/library.properties Normal file
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name=Ticker
version=1.0
author=Ivan Grokhtokov <ivan@esp8266.com>
maintainer=Ivan Grokhtokov <ivan@esp8266.com>
sentence=Allows to call functions with a given interval.
paragraph=
category=Timing
url=
architectures=esp8266
dot_a_linkage=true

131
Time.ino Normal file
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void Time_Init() {
ts.add(TIME_SYNC, 30000, [&](void*) {
time_check();
}, nullptr, true);
}
void time_check() {
if (GetTimeUnix() == "failed") {
Serial.println("[i] Time is not synchronized, start synchronization");
reconfigTime();
}
}
void reconfigTime() {
if (WiFi.status() == WL_CONNECTED) {
String ntp = jsonReadStr(configSetupJson, "ntp");
configTime(0, 0, ntp.c_str());
int i = 0;
Serial.println("[i] Awaiting for time ");
#ifdef ESP32
struct tm timeinfo;
while (!getLocalTime(&timeinfo) && i <= 4) {
Serial.print(".");
i++;
delay(1000);
}
#endif
#ifdef ESP8266
//while (!time(nullptr) && i < 4) {
// Serial.print(".");
// i++;
delay(2000);
//}
#endif
if (GetTimeUnix() != "failed") {
Serial.print("[V] Time synchronized = ");
Serial.print(GetDataDigital());
Serial.print(" ");
Serial.println(GetTime());
} else {
Serial.println("[E] Time server or internet connection error, will try again in 30 sec");
}
} else {
Serial.println("[E] Get time impossible, no wifi connection");
}
}
//Получаем время в формате linux gmt
String GetTimeUnix() {
time_t now = time(nullptr);
if (now < 30000) {
return "failed";
} else {
return String(now);
}
}
// Получение текущего времени
String GetTime() {
time_t now = time(nullptr); // получаем время с помощью библиотеки time.h
int zone = 3600 * jsonReadStr(configSetupJson, "timezone").toInt();
now = now + zone;
String Time = ""; // Строка для результатов времени
Time += ctime(&now); // Преобразуем время в строку формата Thu Jan 19 00:55:35 2017
int i = Time.indexOf(":"); //Ишем позицию первого символа :
Time = Time.substring(i - 2, i + 6); // Выделяем из строки 2 символа перед символом : и 6 символов после
return Time; // Возврашаем полученное время
}
String GetTimeWOsec() {
time_t now = time(nullptr); // получаем время с помощью библиотеки time.h
int zone = 3600 * jsonReadStr(configSetupJson, "timezone").toInt();
now = now + zone;
String Time = ""; // Строка для результатов времени
Time += ctime(&now); // Преобразуем время в строку формата Thu Jan 19 00:55:35 2017
int i = Time.indexOf(":"); //Ишем позицию первого символа :
Time = Time.substring(i - 2, i + 3); // Выделяем из строки 2 символа перед символом : и 6 символов после
return Time; // Возврашаем полученное время
}
// Получение даты
String GetDate() {
time_t now = time(nullptr); // получаем время с помощью библиотеки time.h
int zone = 3600 * jsonReadStr(configSetupJson, "timezone").toInt();
now = now + zone;
String Data = ""; // Строка для результатов времени
Data += ctime(&now); // Преобразуем время в строку формата Thu Jan 19 00:55:35 2017
Data.replace("\n", "");
uint8_t i = Data.lastIndexOf(" "); //Ишем позицию последнего символа пробел
String Time = Data.substring(i - 8, i + 1); // Выделяем время и пробел
Data.replace(Time, ""); // Удаляем из строки 8 символов времени и пробел
return Data; // Возврашаем полученную дату
}
String GetDataDigital() {
String date = GetDate();
date = deleteBeforeDelimiter(date, " ");
date.replace("Jan", "01");
date.replace("Feb", "02");
date.replace("Mar", "03");
date.replace("Apr", "04");
date.replace("May", "05");
date.replace("Jun", "06");
date.replace("Jul", "07");
date.replace("Aug", "08");
date.replace("Sep", "09");
date.replace("Oct", "10");
date.replace("Nov", "11");
date.replace("Dec", "12");
String month = date.substring(0, 2);
String day = date.substring(3, 5);
String year = date.substring(8, 10);
String out = day;
out += ".";
out += month;
out += ".";
out += year;
return out;
}
int timeToMin(String Time) {
//"00:00:00" время в секунды
long min = selectToMarker(Time, ":").toInt() * 60; //общее количество секунд в полных часах
Time = deleteBeforeDelimiter (Time, ":"); // Теперь здесь минуты секунды
min += selectToMarker(Time, ":").toInt(); // Добавим секунды из полных минут
return min;
}

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Timers.ino Normal file
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//================================================================================================================
//=========================================Таймеры=================================================================
void Timer_countdown_init() {
ts.add(TIMER_COUNTDOWN, 1000, [&](void*) {
String old_line = jsonReadStr(configOptionJson, "timers");
if (old_line != "") {
//Serial.println(old_line);
int i = 0;
do {
String timer = selectFromMarkerToMarker(old_line, "," , i);
Serial.print("timer no " + String (i) + ": ");
Serial.println(timer);
if (timer == "not found" || timer == "") return;
int number = selectToMarker (timer, ":").toInt();
int time = readTimer(number);
if (time == 0) {
delTimer (String (number));
jsonWriteStr(configLiveJson, "timer" + String(number), "0");
eventGen ("timer", String(number));
} else {
time--;
addTimer(String (number), String (time));
}
i++;
} while (i <= 9);
}
}, nullptr, true);
}
void timerStart() {
String number = sCmd.next();
String period_of_time = sCmd.next();
String type = sCmd.next();
if (period_of_time.indexOf("digit") != -1) {
//period_of_time = add_set(period_of_time);
period_of_time = jsonReadStr(configLiveJson, period_of_time);
}
if (type == "sec") period_of_time = period_of_time;
if (type == "min") period_of_time = String(period_of_time.toInt() * 60);
if (type == "hours") period_of_time = String(period_of_time.toInt() * 60 * 60);
addTimer(number, period_of_time);
jsonWriteStr(configLiveJson, "timer" + number, "1");
}
void addTimer(String number, String time) {
String tmp = jsonReadStr(configOptionJson, "timers"); //1:60,2:120,
String new_timer = number + ":" + time;
int psn1 = tmp.indexOf(number + ":"); //0 ищем позицию таймера который надо заменить
if (psn1 != -1) { //если он есть
int psn2 = tmp.indexOf(",", psn1); //4 от этой позиции находим позицию запятой
String timer = tmp.substring(psn1, psn2); //1:60 выделяем таймер который надо заменить
///tmp.replace(timer, new_timer); //заменяем таймер на новый (во всей стороке)
tmp.replace(timer + ",", "");
tmp += new_timer + ",";
} else { //если его нет
tmp += new_timer + ",";
}
jsonWriteStr(configOptionJson, "timers", tmp);
//Serial.println("ura");
}
void timerStop() {
String number = sCmd.next();
delTimer(number);
}
void delTimer (String number) {
String tmp = jsonReadStr(configOptionJson, "timers"); //1:60,2:120,
int psn1 = tmp.indexOf(number + ":"); //0 ищем позицию таймера который надо удалить
if (psn1 != -1) { //если он есть
int psn2 = tmp.indexOf(",", psn1); //4 от этой позиции находим позицию запятой
String timer = tmp.substring(psn1, psn2) + ","; //1:60, выделяем таймер который надо удалить
tmp.replace(timer, ""); //удаляем таймер
jsonWriteStr(configOptionJson, "timers", tmp);
}
}
int readTimer(int number) {
String tmp = jsonReadStr(configOptionJson, "timers"); //1:60,2:120,
int psn1 = tmp.indexOf(String(number) + ":"); //0 ищем позицию таймера который надо прочитать
String timer;
if (psn1 != -1) { //если он есть
int psn2 = tmp.indexOf(",", psn1); //4 от этой позиции находим позицию запятой
timer = tmp.substring(psn1, psn2); //1:60 выделяем таймер который надо прочитать
timer = deleteBeforeDelimiter(timer, ":");
}
return timer.toInt();
}

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Upgrade.ino Normal file
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void initUpgrade() {
#ifdef ESP8266
if (WiFi.status() == WL_CONNECTED) last_version = getURL("http://91.204.228.124:1100/update/esp8266/version.txt");
#endif
#ifdef ESP32
if (WiFi.status() == WL_CONNECTED) last_version = getURL("http://91.204.228.124:1100/update/esp32/version.txt");
#endif
jsonWriteStr(configSetupJson, "last_version", last_version);
Serial.print("[i] Last firmware version: ");
Serial.println(last_version);
}
void do_upgrade_url() {
if (upgrade_url) {
upgrade_url = false;
#ifdef ESP32
last_version = getURL("http://91.204.228.124:1100/update/esp32/version.txt");
#endif
#ifdef ESP8266
last_version = getURL("http://91.204.228.124:1100/update/esp8266/version.txt");
#endif
jsonWriteStr(configSetupJson, "last_version", last_version);
}
}
void upgrade_firmware() {
String scenario_for_update;
String config_for_update;
String configSetup_for_update;
scenario_for_update = readFile("firmware.s.txt", 4000);
config_for_update = readFile("firmware.c.txt", 4000);
configSetup_for_update = configSetupJson;
Serial.println("Start upgrade SPIFFS, please wait...");
WiFiClient client_for_upgrade;
#ifdef ESP32
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");
#endif
#ifdef ESP8266
ESPhttpUpdate.rebootOnUpdate(false);
t_httpUpdate_return ret = ESPhttpUpdate.updateSpiffs(client_for_upgrade, "http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.spiffs.bin");
#endif
if (ret == HTTP_UPDATE_OK) {
writeFile("firmware.s.txt", scenario_for_update);
writeFile("firmware.c.txt", config_for_update);
writeFile("config.json", configSetup_for_update);
saveConfig();
Serial.println("SPIFFS upgrade done!");
Serial.println("Start upgrade BUILD, please wait...");
#ifdef ESP32
//httpUpdate.rebootOnUpdate(true);
t_httpUpdate_return ret = httpUpdate.update(client_for_upgrade, "http://91.204.228.124:1100/update/esp32/esp32-esp8266_iot-manager_modules_firmware.ino.bin");
#endif
#ifdef ESP8266
//ESPhttpUpdate.rebootOnUpdate(true);
t_httpUpdate_return ret = ESPhttpUpdate.update(client_for_upgrade, "http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.ino.bin");
#endif
if (ret == HTTP_UPDATE_OK) {
Serial.println("BUILD upgrade done!");
Serial.println("Restart ESP....");
ESP.restart();
} else {
Serial.println("!!!!BUILD upgrade ERROR");
}
} else {
Serial.println("!!!!SPIFFS upgrade ERROR");
}
}
void do_upgrade() {
if (upgrade) {
upgrade = false;
upgrade_firmware();
}
}
/*
void upgrade_status(t_httpUpdate_return set) {
switch (set) {
case HTTP_UPDATE_FAILED:
Serial.printf("UPDATE_FAILED Error (%d): %s", httpUpdate.getLastError(), httpUpdate.getLastErrorString().c_str());
break;
case HTTP_UPDATE_NO_UPDATES:
Serial.println("NO_UPDATES");
break;
case HTTP_UPDATE_OK:
Serial.println("HTTP_UPDATE_OK");
break;
}
}
*/
/*
// ----------------------- Обновление с сайта
void webUpgrade() {
#ifdef ESP8266
String spiffsData = "http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.spiffs.bin";
String buildData = "http://91.204.228.124:1100/update/esp8266/esp32-esp8266_iot-manager_modules_firmware.ino.bin";
#endif
#ifdef ESP32
String spiffsData = "http://91.204.228.124:1100/update/esp32/esp32-esp8266_iot-manager_modules_firmware.spiffs.bin";
String buildData = "http://91.204.228.124:1100/update/esp32/esp32-esp8266_iot-manager_modules_firmware.ino.bin";
#endif
if (spiffsData != "") { // Если нужно прошить FS
String scenario_for_update;
String config_for_update;
String configSetup_for_update;
Serial.println(spiffsData);
scenario_for_update = readFile("firmware.s.txt", 2048);
config_for_update = readFile("config.all.txt", 2048);
configSetup_for_update = configSetup;
ESPhttpUpdate.rebootOnUpdate(false); // Отключим перезагрузку после обновления
updateHTTP(spiffsData, true);
writeFile("firmware.s.txt", scenario_for_update);
writeFile("config.all.txt", config_for_update);
writeFile("config.json", configSetup_for_update);
saveConfig();
}
if (buildData != "") { // Если нужно прошить build
Serial.println(buildData);
ESPhttpUpdate.rebootOnUpdate(true); // Включим перезагрузку после обновления
updateHTTP(buildData, false);
}
}
// ------------------ Обновление по url
void updateHTTP(String url, boolean mode) {
if (url == "") return;
ESPhttpUpdate.setLedPin(LED_BUILTIN, LOW);
if (mode) {
Serial.println("Update Spiffs...");
t_httpUpdate_return ret = ESPhttpUpdate.updateSpiffs(url);
UpdateStatus(ret , "Spiffs");
} else {
Serial.println("Update Build...");
t_httpUpdate_return ret = ESPhttpUpdate.update(url);
UpdateStatus(ret , "build");
}
}
void UpdateStatus(t_httpUpdate_return set, String mode) {
switch (set) {
case HTTP_UPDATE_FAILED:
Serial.println(mode + "_FAILED");
var = "{}";
jsonWriteStr(var, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>_FAILED");
jsonWriteStr(var, "class", "pop-up");
//request->send(200, "text/text", var);
break;
case HTTP_UPDATE_NO_UPDATES:
Serial.println(mode + "_NO_UPDATES");
var = "{}";
jsonWriteStr(var, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>_NO_UPDATES");
jsonWriteStr(var, "class", "pop-up");
//request->send(200, "text/text", var);
break;
case HTTP_UPDATE_OK:
Serial.println(mode + "_UPDATE_OK");
var = "{}";
jsonWriteStr(var, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>_UPDATE_OK");
jsonWriteStr(var, "class", "pop-up");
//request->send(200, "text/text", var);
break;
}
}
*/

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Web.ino Normal file
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void web_init() {
server.on("/set", HTTP_GET, [](AsyncWebServerRequest * request) {
String value;
//============================device settings=====================================
if (request->hasArg("preset")) {
//--------------------------------------------------------------------------------
String value;
value = request->getParam("preset")->value();
if (value == "1") {
writeFile("firmware.c.txt", readFile("configs/1-relay.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/1-relay.s.txt", 2048));
}
if (value == "2") {
writeFile("firmware.c.txt", readFile("configs/2-relay.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/2-relay.s.txt", 2048));
}
if (value == "3") {
writeFile("firmware.c.txt", readFile("configs/3-relay.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/3-relay.s.txt", 2048));
}
if (value == "4") {
writeFile("firmware.c.txt", readFile("configs/4-relay.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/4-relay.s.txt", 2048));
}
if (value == "5") {
writeFile("firmware.c.txt", readFile("configs/5-relay.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/5-relay.s.txt", 2048));
}
if (value == "6") {
writeFile("firmware.c.txt", readFile("configs/6-relay.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/6-relay.s.txt", 2048));
}
if (value == "7") {
writeFile("firmware.c.txt", readFile("configs/7-relay.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/7-relay.s.txt", 2048));
}
if (value == "8") {
writeFile("firmware.c.txt", readFile("configs/8-pwm.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/8-pwm.s.txt", 2048));
}
if (value == "9") {
writeFile("firmware.c.txt", readFile("configs/9-dht11.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/9-dht11.s.txt", 2048));
}
if (value == "10") {
writeFile("firmware.c.txt", readFile("configs/10-dht22.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/10-dht22.s.txt", 2048));
}
if (value == "11") {
writeFile("firmware.c.txt", readFile("configs/11-analog.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/11-analog.s.txt", 2048));
}
if (value == "12") {
writeFile("firmware.c.txt", readFile("configs/12-bmp280.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/12-bmp280.s.txt", 2048));
}
if (value == "13") {
writeFile("firmware.c.txt", readFile("configs/13-bme280.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/13-bme280.s.txt", 2048));
}
if (value == "14") {
writeFile("firmware.c.txt", readFile("configs/14-dallas.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/14-dallas.s.txt", 2048));
}
if (value == "15") {
writeFile("firmware.c.txt", readFile("configs/15-termostat.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/15-termostat.s.txt", 2048));
}
if (value == "16") {
writeFile("firmware.c.txt", readFile("configs/16-level.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/16-level.s.txt", 2048));
}
if (value == "17") {
writeFile("firmware.c.txt", readFile("configs/17-moution.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/17-moution.s.txt", 2048));
}
if (value == "18") {
writeFile("firmware.c.txt", readFile("configs/18-moution.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/18-moution.s.txt", 2048));
}
if (value == "19") {
writeFile("firmware.c.txt", readFile("configs/19-stepper.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/19-stepper.s.txt", 2048));
}
if (value == "20") {
writeFile("firmware.c.txt", readFile("configs/20-servo.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/20-servo.s.txt", 2048));
}
if (value == "21") {
writeFile("firmware.c.txt", readFile("configs/firmware.c.txt", 2048));
writeFile("firmware.s.txt", readFile("configs/firmware.s.txt", 2048));
}
Device_init();
Scenario_init();
request->redirect("/?set.device");
}
//--------------------------------------------------------------------------------
if (request->hasArg("devinit")) {
Device_init();
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("scen")) {
value = request->getParam("scen")->value();
if (value == "0") {
jsonWriteStr(configSetupJson, "scen", value);
saveConfig();
Scenario_init();
}
if (value == "1") {
jsonWriteStr(configSetupJson, "scen", value);
saveConfig();
Scenario_init();
}
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("sceninit")) {
Scenario_init();
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
#ifdef logging_enable
if (request->hasArg("cleanlog")) {
clean_log_date();
request->send(200, "text/text", "OK");
}
#endif
//==============================udp settings=============================================
if (request->hasArg("udponoff")) {
value = request->getParam("udponoff")->value();
if (value == "0") {
jsonWriteStr(configSetupJson, "udponoff", value);
saveConfig();
Scenario_init();
}
if (value == "1") {
jsonWriteStr(configSetupJson, "udponoff", value);
saveConfig();
Scenario_init();
}
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("updatelist")) {
SPIFFS.remove("/dev.csv");
addFile("dev.csv", "device id;device name;ip address");
request->redirect("/?set.udp");
}
//--------------------------------------------------------------------------------
if (request->hasArg("updatepage")) {
request->redirect("/?set.udp");
}
//--------------------------------------------------------------------------------
if (request->hasArg("devname")) {
jsonWriteStr(configSetupJson, "name", request->getParam("devname")->value());
saveConfig();
request->send(200, "text/text", "OK");
}
//==============================wifi settings=============================================
if (request->hasArg("routerssid")) {
jsonWriteStr(configSetupJson, "routerssid", request->getParam("routerssid")->value());
saveConfig();
request->send(200, "text/text", "OK");
}
if (request->hasArg("routerpass")) {
jsonWriteStr(configSetupJson, "routerpass", request->getParam("routerpass")->value());
saveConfig();
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("apssid")) {
jsonWriteStr(configSetupJson, "apssid", request->getParam("apssid")->value());
saveConfig();
request->send(200, "text/text", "OK");
}
if (request->hasArg("appass")) {
jsonWriteStr(configSetupJson, "appass", request->getParam("appass")->value());
saveConfig();
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("weblogin")) {
jsonWriteStr(configSetupJson, "weblogin", request->getParam("weblogin")->value());
saveConfig();
request->send(200, "text/text", "OK");
}
if (request->hasArg("webpass")) {
jsonWriteStr(configSetupJson, "webpass", request->getParam("webpass")->value());
saveConfig();
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("timezone")) {
jsonWriteStr(configSetupJson, "timezone", request->getParam("timezone")->value());
saveConfig();
reconfigTime();
request->send(200, "text/text", "OK");
}
if (request->hasArg("ntp")) {
jsonWriteStr(configSetupJson, "ntp", request->getParam("ntp")->value());
saveConfig();
reconfigTime();
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("device")) {
if (request->getParam("device")->value() == "ok") ESP.restart();
request->send(200, "text/text", "OK");
}
//--------------------------------------------------------------------------------
if (request->hasArg("blink")) {
value = request->getParam("blink")->value();
if (value == "0") {
jsonWriteStr(configSetupJson, "blink", value);
saveConfig();
}
if (value == "1") {
jsonWriteStr(configSetupJson, "blink", value);
saveConfig();
}
request->send(200, "text/text", "OK");
}
//==============================mqtt settings=============================================
if (request->hasArg("mqttServer")) {
jsonWriteStr(configSetupJson, "mqttServer", request->getParam("mqttServer")->value());
saveConfig();
mqtt_connection = true;
request->send(200, "text/text", "ok");
}
if (request->hasArg("mqttPort")) {
int port = (request->getParam("mqttPort")->value()).toInt();
jsonWriteInt(configSetupJson, "mqttPort", port);
saveConfig();
mqtt_connection = true;
request->send(200, "text/text", "ok");
}
if (request->hasArg("mqttPrefix")) {
jsonWriteStr(configSetupJson, "mqttPrefix", request->getParam("mqttPrefix")->value());
saveConfig();
mqtt_connection = true;
request->send(200, "text/text", "ok");
}
if (request->hasArg("mqttUser")) {
jsonWriteStr(configSetupJson, "mqttUser", request->getParam("mqttUser")->value());
saveConfig();
mqtt_connection = true;
request->send(200, "text/text", "ok");
}
if (request->hasArg("mqttPass")) {
jsonWriteStr(configSetupJson, "mqttPass", request->getParam("mqttPass")->value());
saveConfig();
mqtt_connection = true;
request->send(200, "text/text", "ok");
}
//--------------------------------------------------------------------------------
if (request->hasArg("mqttsend")) {
mqtt_send_settings_to_udp = true;
request->send(200, "text/text", "ok");
}
//--------------------------------------------------------------------------------
if (request->hasArg("mqttcheck")) {
String tmp = "{}";
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>" + stateMQTT());
jsonWriteStr(tmp, "class", "pop-up");
request->send(200, "text/text", tmp);
}
//==============================push settings=============================================
#ifdef push_enable
if (request->hasArg("pushingboxid")) {
jsonWriteStr(configSetupJson, "pushingboxid", request->getParam("pushingboxid")->value());
saveConfig();
request->send(200, "text/text", "ok");
}
#endif
//==============================utilities settings=============================================
if (request->hasArg("itoc")) {
i2c_scanning = true;
request->redirect("/?set.utilities");
}
});
//==============================upgrade settings=============================================
server.on("/check", HTTP_GET, [](AsyncWebServerRequest * request) {
upgrade_url = true;
Serial.print("[i] Last firmware version: ");
Serial.println(last_version);
String tmp = "{}";
int case_of_update;
if (WiFi.status() != WL_CONNECTED) last_version = "nowifi";
if (!mb_4_of_memory) last_version = "less";
if (last_version == firmware_version) case_of_update = 1;
if (last_version != firmware_version) case_of_update = 2;
if (last_version == "error") case_of_update = 3;
if (last_version == "") case_of_update = 4;
if (last_version == "less") case_of_update = 5;
if (last_version == "nowifi") case_of_update = 6;
if (last_version == "notsupported") case_of_update = 7;
switch (case_of_update) {
case 1: {
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>Последняя версия прошивки уже установлена.");
jsonWriteStr(tmp, "class", "pop-up");
}
break;
case 2: {
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>Имеется новая версия прошивки<a href=\"#\" class=\"btn btn-block btn-danger\" onclick=\"send_request(this, '/upgrade');setTimeout(function(){ location.href='/'; }, 120000);html('my-block','<span class=loader></span>Идет обновление прошивки, после обновления страница перезагрузится автоматически...')\">Установить</a>");
jsonWriteStr(tmp, "class", "pop-up");
}
break;
case 3: {
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>Ошибка... Cервер не найден. Попробуйте позже...");
jsonWriteStr(tmp, "class", "pop-up");
}
break;
case 4: {
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>Нажмите на кнопку \"обновить прошивку\" повторно...");
jsonWriteStr(tmp, "class", "pop-up");
break;
}
case 5: {
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>Обновление по воздуху не поддерживается, модуль имеет меньше 4 мб памяти...");
jsonWriteStr(tmp, "class", "pop-up");
break;
}
case 6: {
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>Устройство не подключено к роутеру...");
jsonWriteStr(tmp, "class", "pop-up");
break;
}
case 7: {
jsonWriteStr(tmp, "title", "<button class=\"close\" onclick=\"toggle('my-block')\">×</button>Обновление на новую версию возможно только через usb...");
jsonWriteStr(tmp, "class", "pop-up");
break;
}
}
request->send(200, "text/text", tmp);
});
server.on("/upgrade", HTTP_GET, [](AsyncWebServerRequest * request) {
upgrade = true;
String tmp = "{}";
request->send(200, "text/text", "ok");
});
}

232
Web_server.ino Normal file
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void Web_server_init() {
/*********************************************************************************
***************************************OTA****************************************
*********************************************************************************/
#ifdef OTA_enable
ArduinoOTA.onStart([]() {
events.send("Update Start", "ota");
});
ArduinoOTA.onEnd([]() {
events.send("Update End", "ota");
});
ArduinoOTA.onProgress([](unsigned int progress, unsigned int total) {
char p[32];
sprintf(p, "Progress: %u%%\n", (progress / (total / 100)));
events.send(p, "ota");
});
ArduinoOTA.onError([](ota_error_t error) {
if (error == OTA_AUTH_ERROR) events.send("Auth Failed", "ota");
else if (error == OTA_BEGIN_ERROR) events.send("Begin Failed", "ota");
else if (error == OTA_CONNECT_ERROR) events.send("Connect Failed", "ota");
else if (error == OTA_RECEIVE_ERROR) events.send("Recieve Failed", "ota");
else if (error == OTA_END_ERROR) events.send("End Failed", "ota");
});
ArduinoOTA.setHostname(hostName);
ArduinoOTA.begin();
#endif
/*********************************************************************************
**************************************MDNS****************************************
*********************************************************************************/
#ifdef MDNS_enable
MDNS.addService("http", "tcp", 80);
#endif
//SPIFFS.begin();
/*********************************************************************************
**************************************WS******************************************
*********************************************************************************/
#ifdef WS_enable
ws.onEvent(onWsEvent);
server.addHandler(&ws);
events.onConnect([](AsyncEventSourceClient * client) {
//!!!client->send("hello!", NULL, millis(), 1000);
});
server.addHandler(&events);
#endif
/*********************************************************************************
**************************************WEB****************************************
*********************************************************************************/
#ifdef ESP32
server.addHandler(new SPIFFSEditor(SPIFFS, jsonReadStr(configSetupJson, "web_login").c_str(), jsonReadStr(configSetupJson, "web_pass").c_str()));
#elif defined(ESP8266)
server.addHandler(new SPIFFSEditor(jsonReadStr(configSetupJson, "web_login").c_str(), jsonReadStr(configSetupJson, "web_pass").c_str()));
#endif
/* server.on("/heap", HTTP_GET, [](AsyncWebServerRequest * request) {
request->send(200, "text/plain", String(ESP.getFreeHeap()));
});*/
server.serveStatic("/css/", SPIFFS, "/css/").setCacheControl("max-age=31536000");
server.serveStatic("/js/", SPIFFS, "/js/").setCacheControl("max-age=31536000");
server.serveStatic("/favicon.ico", SPIFFS, "/favicon.ico").setCacheControl("max-age=31536000");
server.serveStatic("/icon.jpeg", SPIFFS, "/icon.jpeg").setCacheControl("max-age=31536000");
server.serveStatic("/", SPIFFS, "/").setDefaultFile("index.htm")
.setAuthentication(jsonReadStr(configSetupJson, "web_login").c_str(), jsonReadStr(configSetupJson, "web_pass").c_str());
server.onNotFound([](AsyncWebServerRequest * request) {
Serial.printf("NOT_FOUND: ");
if (request->method() == HTTP_GET)
Serial.printf("GET");
else if (request->method() == HTTP_POST)
Serial.printf("POST");
else if (request->method() == HTTP_DELETE)
Serial.printf("DELETE");
else if (request->method() == HTTP_PUT)
Serial.printf("PUT");
else if (request->method() == HTTP_PATCH)
Serial.printf("PATCH");
else if (request->method() == HTTP_HEAD)
Serial.printf("HEAD");
else if (request->method() == HTTP_OPTIONS)
Serial.printf("OPTIONS");
else
Serial.printf("UNKNOWN");
Serial.printf(" http://%s%s\n", request->host().c_str(), request->url().c_str());
if (request->contentLength()) {
Serial.printf("_CONTENT_TYPE: %s\n", request->contentType().c_str());
Serial.printf("_CONTENT_LENGTH: %u\n", request->contentLength());
}
int headers = request->headers();
int i;
for (i = 0; i < headers; i++) {
AsyncWebHeader* h = request->getHeader(i);
Serial.printf("_HEADER[%s]: %s\n", h->name().c_str(), h->value().c_str());
}
int params = request->params();
for (i = 0; i < params; i++) {
AsyncWebParameter* p = request->getParam(i);
if (p->isFile()) {
Serial.printf("_FILE[%s]: %s, size: %u\n", p->name().c_str(), p->value().c_str(), p->size());
} else if (p->isPost()) {
Serial.printf("_POST[%s]: %s\n", p->name().c_str(), p->value().c_str());
} else {
Serial.printf("_GET[%s]: %s\n", p->name().c_str(), p->value().c_str());
}
}
request->send(404);
});
server.onFileUpload([](AsyncWebServerRequest * request, const String & filename, size_t index, uint8_t *data, size_t len, bool final) {
if (!index)
Serial.printf("UploadStart: %s\n", filename.c_str());
Serial.printf("%s", (const char*)data);
if (final)
Serial.printf("UploadEnd: %s (%u)\n", filename.c_str(), index + len);
});
server.onRequestBody([](AsyncWebServerRequest * request, uint8_t *data, size_t len, size_t index, size_t total) {
if (!index)
Serial.printf("BodyStart: %u\n", total);
Serial.printf("%s", (const char*)data);
if (index + len == total)
Serial.printf("BodyEnd: %u\n", total);
});
server.begin();
// --------------------Выдаем данные configJson //config.live.json - динамические данные
server.on("/config.live.json", HTTP_GET, [](AsyncWebServerRequest * request) {
request->send(200, "application/json", configLiveJson);
});
// --------------------Выдаем данные optionJson //config.option.json - данные не являющиеся событиями
server.on("/config.option.json", HTTP_GET, [](AsyncWebServerRequest * request) {
request->send(200, "application/json", configOptionJson);
});
// -------------------Выдаем данные configSetup //config.setup.json - для хранения постоянных данных
server.on("/config.setup.json", HTTP_GET, [](AsyncWebServerRequest * request) {
request->send(200, "application/json", configSetupJson);
});
// ------------------Выполнение команды из запроса
//http://192.168.88.45/cmd?command=rel%201%201
server.on("/cmd", HTTP_GET, [](AsyncWebServerRequest * request) {
String com = request->getParam("command")->value();
Serial.println(com);
order_loop += com + ",";
request->send(200, "text/text", "OK"); // отправляем ответ о выполнении
});
}
/*********************************************************************************************************************************
*********************************************************WS**********************************************************************
********************************************************************************************************************************/
#ifdef WS_enable
void onWsEvent(AsyncWebSocket * server, AsyncWebSocketClient * client, AwsEventType type, void * arg, uint8_t *data, size_t len) {
if (type == WS_EVT_CONNECT) {
Serial.printf("ws[%s][%u] connect\n", server->url(), client->id());
client->printf(json.c_str(), client->id());
//client->ping();
} else if (type == WS_EVT_DISCONNECT) {
Serial.printf("ws[%s][%u] disconnect\n", server->url(), client->id());
} else if (type == WS_EVT_ERROR) {
Serial.printf("ws[%s][%u] error(%u): %s\n", server->url(), client->id(), *((uint16_t*)arg), (char*)data);
} else if (type == WS_EVT_PONG) {
Serial.printf("ws[%s][%u] pong[%u]: %s\n", server->url(), client->id(), len, (len) ? (char*)data : "");
} else if (type == WS_EVT_DATA) {
AwsFrameInfo * info = (AwsFrameInfo*)arg;
String msg = "";
if (info->final && info->index == 0 && info->len == len) {
//the whole message is in a single frame and we got all of it's data
Serial.printf("ws[%s][%u] %s-message[%llu]: ", server->url(), client->id(), (info->opcode == WS_TEXT) ? "text" : "binary", info->len);
if (info->opcode == WS_TEXT) {
for (size_t i = 0; i < info->len; i++) {
msg += (char) data[i];
}
} else {
char buff[3];
for (size_t i = 0; i < info->len; i++) {
sprintf(buff, "%02x ", (uint8_t) data[i]);
msg += buff ;
}
}
Serial.printf("%s\n", msg.c_str());
if (info->opcode == WS_TEXT)
client->text("{}");
else
client->binary("{}");
} else {
//message is comprised of multiple frames or the frame is split into multiple packets
if (info->index == 0) {
if (info->num == 0)
Serial.printf("ws[%s][%u] %s-message start\n", server->url(), client->id(), (info->message_opcode == WS_TEXT) ? "text" : "binary");
Serial.printf("ws[%s][%u] frame[%u] start[%llu]\n", server->url(), client->id(), info->num, info->len);
}
Serial.printf("ws[%s][%u] frame[%u] %s[%llu - %llu]: ", server->url(), client->id(), info->num, (info->message_opcode == WS_TEXT) ? "text" : "binary", info->index, info->index + len);
if (info->opcode == WS_TEXT) {
for (size_t i = 0; i < len; i++) {
msg += (char) data[i];
}
} else {
char buff[3];
for (size_t i = 0; i < len; i++) {
sprintf(buff, "%02x ", (uint8_t) data[i]);
msg += buff ;
}
}
Serial.printf("%s\n", msg.c_str());
if ((info->index + len) == info->len) {
Serial.printf("ws[%s][%u] frame[%u] end[%llu]\n", server->url(), client->id(), info->num, info->len);
if (info->final) {
Serial.printf("ws[%s][%u] %s-message end\n", server->url(), client->id(), (info->message_opcode == WS_TEXT) ? "text" : "binary");
if (info->message_opcode == WS_TEXT)
client->text("I got your text message");
else
client->binary("I got your binary message");
}
}
}
}
}
#endif

162
WiFi.ino Normal file
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@@ -0,0 +1,162 @@
void ROUTER_Connecting() {
led_blink("slow");
WiFi.mode(WIFI_STA);
byte tries = 20;
String _ssid = jsonReadStr(configSetupJson, "routerssid");
String _password = jsonReadStr(configSetupJson, "routerpass");
//WiFi.persistent(false);
if (_ssid == "" && _password == "") {
WiFi.begin();
}
else {
WiFi.begin(_ssid.c_str(), _password.c_str());
Serial.print("ssid: ");
Serial.println(_ssid);
}
// Делаем проверку подключения до тех пор пока счетчик tries
// не станет равен нулю или не получим подключение
while (--tries && WiFi.status() != WL_CONNECTED) {
if (WiFi.status() == WL_CONNECT_FAILED) {
Serial.println("[E] password is not correct");
tries = 1;
jsonWriteInt(configOptionJson, "pass_status", 1);
}
Serial.print(".");
delay(1000);
}
if (WiFi.status() != WL_CONNECTED)
{
// Если не удалось подключиться запускаем в режиме AP
Serial.println("");
// WiFi.disconnect(true);
StartAPMode();
}
else {
// Иначе удалось подключиться отправляем сообщение
// о подключении и выводим адрес IP
Serial.println("");
Serial.println("[V] WiFi connected");
Serial.print("[V] IP address: http://");
Serial.print(WiFi.localIP());
Serial.println("");
jsonWriteStr(configSetupJson, "ip", WiFi.localIP().toString());
led_blink("off");
//add_dev_in_list("dev.txt", chipID, WiFi.localIP().toString());
MQTT_init();
}
}
bool StartAPMode() {
Serial.println("WiFi up AP");
WiFi.disconnect();
WiFi.mode(WIFI_AP);
String _ssidAP = jsonReadStr(configSetupJson, "apssid");
String _passwordAP = jsonReadStr(configSetupJson, "appass");
WiFi.softAP(_ssidAP.c_str(), _passwordAP.c_str());
IPAddress myIP = WiFi.softAPIP();
led_blink("on");
Serial.print("AP IP address: ");
Serial.println(myIP);
jsonWriteStr(configSetupJson, "ip", myIP.toString());
//if (jsonReadInt(configOptionJson, "pass_status") != 1) {
ts.add(ROUTER_SEARCHING, 10 * 1000, [&](void*) {
Serial.println("->try find router");
if (RouterFind(jsonReadStr(configSetupJson, "routerssid"))) {
ts.remove(ROUTER_SEARCHING);
WiFi.scanDelete();
ROUTER_Connecting();
}
}, nullptr, true);
//}
return true;
}
boolean RouterFind(String ssid) {
int n = WiFi.scanComplete ();
Serial.println("n = " + String(n));
if (n == -2) { //Сканирование не было запущено, запускаем
Serial.println("[WIFI][i] scanning has not been triggered, starting scanning");
WiFi.scanNetworks (true, false); //async, show_hidden
return false;
}
if (n == -1) { //Сканирование все еще выполняется
Serial.println("[WIFI][i] scanning still in progress");
return false;
}
if (n == 0) { //ни одна сеть не найдена
Serial.println("[WIFI][i] no any wifi sations, starting scanning");
WiFi.scanNetworks (true, false);
return false;
}
if (n > 0) {
for (int i = 0; i <= n; i++) {
if (WiFi.SSID (i) == ssid) {
WiFi.scanDelete();
return true;
} else {
Serial.print(i);
Serial.print(")");
//Serial.print(ssid);
//Serial.print("<=>");
if (i == n) {
Serial.print(WiFi.SSID(i));
Serial.println("; ");
} else {
Serial.print(WiFi.SSID(i));
Serial.println("; ");
}
}
}
WiFi.scanDelete();
return false;
}
}
/*
String scanWIFI() {
uint8_t n = WiFi.scanNetworks();
DynamicJsonBuffer jsonBuffer;
JsonObject& json = jsonBuffer.createObject();
JsonArray& networks = json.createNestedArray("networks");
for (uint8_t i = 0; i < n; i++) {
JsonObject& data = networks.createNestedObject();
String ssidMy = WiFi.SSID(i);
data["routerssid"] = ssidMy;
data["pass"] = (WiFi.encryptionType(i) == ENC_TYPE_NONE) ? "" : "*";
int8_t dbm = WiFi.RSSI(i);
data["dbm"] = dbm;
if (ssidMy == jsonReadStr(configSetupJson, "routerssid")) {
jsonWriteStr(configLiveJson, "dbm", dbm);
}
}
String root;
json.printTo(root);
return root;
}
*/
/*
{
"type":"wifi",
"title":"{{LangWiFi1}}",
"name":"routerssid",
"state":"{{ssid}}",
"pattern":".{1,}"
},
{
"type":"routerpass",
"title":"{{LangPass}}",
"name":"routerpass",
"state":"{{ssidPass}}",
"pattern":".{8,}"
},
*/

88
Widgets.ino Normal file
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@@ -0,0 +1,88 @@
//======================================================================================================================
//===============================================Создание виджетов=======================================================
void createWidget (String widget_name, String page_name, String page_number, String file, String topic) {
String widget;
widget = readFile(file, 1024);
if (widget == "Failed") return;
if (widget == "Large") return;
widget_name.replace("#", " ");
page_name.replace("#", " ");
jsonWriteStr(widget, "page", page_name);
jsonWriteStr(widget, "order", page_number);
jsonWriteStr(widget, "descr", widget_name);
jsonWriteStr(widget, "topic", prex + "/" + topic);
#ifdef layout_in_ram
all_widgets += widget + "\r\n";
#else
addFile("layout.txt", widget);
#endif
widget = "";
}
void createWidgetParam (String widget_name, String page_name, String page_number, String file, String topic, String name1, String param1, String name2, String param2, String name3, String param3) {
String widget;
widget = readFile(file, 1024);
if (widget == "Failed") return;
if (widget == "Large") return;
widget_name.replace("#", " ");
page_name.replace("#", " ");
jsonWriteStr(widget, "page", page_name);
jsonWriteStr(widget, "order", page_number);
jsonWriteStr(widget, "descr", widget_name);
jsonWriteStr(widget, "topic", prex + "/" + topic);
if (name1 != "") jsonWriteStr(widget, name1, param1);
if (name2 != "") jsonWriteStr(widget, name2, param2);
if (name3 != "") jsonWriteStr(widget, name3, param3);
#ifdef layout_in_ram
all_widgets += widget + "\r\n";
#else
addFile("layout.txt", widget);
#endif
widget = "";
}
void createChart (String widget_name, String page_name, String page_number, String file, String topic, String maxCount) {
String widget;
widget = readFile(file, 1024);
if (widget == "Failed") return;
if (widget == "Large") return;
widget_name.replace("#", " ");
page_name.replace("#", " ");
jsonWriteStr(widget, "page", page_name);
jsonWriteStr(widget, "order", page_number);
//jsonWriteStr(widget, "descr", widget_name);
jsonWriteStr(widget, "series", widget_name);
jsonWriteStr(widget, "maxCount", maxCount);
jsonWriteStr(widget, "topic", prex + "/" + topic);
#ifdef layout_in_ram
all_widgets += widget + "\r\n";
#else
addFile("layout.txt", widget);
#endif
widget = "";
}
void choose_widget_and_create(String widget_name, String page_name, String page_number, String type, String topik) {
if (type == "any-data") createWidget (widget_name, page_name, page_number, "widgets/widget.anyData.json", topik);
if (type == "progress-line") createWidget (widget_name, page_name, page_number, "widgets/widget.progLine.json", topik);
if (type == "progress-round") createWidget (widget_name, page_name, page_number, "widgets/widget.progRound.json", topik);
if (type == "fill-gauge") createWidget (widget_name, page_name, page_number, "widgets/widget.fillGauge.json", topik);
}

33
bus.ino Normal file
View File

@@ -0,0 +1,33 @@
void do_i2c_scanning() {
if (i2c_scanning) {
i2c_scanning = false;
String tmp = i2c_scan();
if (tmp == "error") {
tmp = i2c_scan();
Serial.println(tmp);
jsonWriteStr(configLiveJson, "i2c", tmp);
} else {
Serial.println(tmp);
jsonWriteStr(configLiveJson, "i2c", tmp);
}
}
}
String i2c_scan() {
String out;
byte count = 0;
Wire.begin();
for (byte i = 8; i < 120; i++) {
Wire.beginTransmission(i);
if (Wire.endTransmission() == 0) {
count++;
out += String(count) + ". 0x" + String(i, HEX) + "; ";
delay(1);
}
}
if (count == 0) {
return "error";
} else {
return out;
}
}

23
data/config.json
View File

@@ -3,22 +3,19 @@
"chipID": "", "chipID": "",
"apssid": "IoTmanager", "apssid": "IoTmanager",
"appass": "", "appass": "",
"routerssid": "VOLODYA", "routerssid": "rise",
"routerpass": "BELCHENKO", "routerpass": "hostel3333",
"timezone": 1, "timezone": 2,
"ntp": "pool.ntp.org", "ntp": "pool.ntp.org",
"mqttServer": "m12.cloudmqtt.com", "mqttServer": "91.204.228.124",
"mqttPort": 14053, "mqttPort": 1883,
"mqttPrefix": "/iotTest", "mqttPrefix": "/rise",
"mqttUser": "lbscvzuj", "mqttUser": "test",
"mqttPass": "bLxlveOgaF8F", "mqttPass": "test",
"scen": "1", "scen": "1",
"telegramApi": "1416711569:AAEI0j83GmXqwzb_gnK1B0Am0gDwZoJt5xo", "pushingboxid": "v7C133E426B0C69E",
"telegonof": "0",
"weblogin": "admin", "weblogin": "admin",
"webpass": "admin", "webpass": "admin",
"udponoff": "1", "udponoff": "1",
"blink": "1", "blink":"1"
"oneWirePin": "2",
"serverip": "http://206.189.49.244"
} }

0
doc/conf/c001.txt → data/configs/1-relay.c.txt
View File

0
doc/conf/s001.txt → data/configs/1-relay.s.txt
View File

4
doc/conf/c010.txt → data/configs/10-dht22.c.txt
View File

@@ -1,5 +1,5 @@
dhtT t 2 dht22 Температура#DHT,#t°C Датчики anydata 1 dhtT t 2 dht22 Температура#DHT,#t°C Датчики any-data 1
dhtH h 2 dht22 Влажность#DHT,#t°C Датчики anydata 2 dhtH h 2 dht22 Влажность#DHT,#t°C Датчики any-data 2
dhtComfort Степень#комфорта: Датчики 3 dhtComfort Степень#комфорта: Датчики 3
dhtPerception Восприятие: Датчики 4 dhtPerception Восприятие: Датчики 4
dhtDewpoint Точка#росы: Датчики 5 dhtDewpoint Точка#росы: Датчики 5

0
doc/conf/s008.txt → data/configs/10-dht22.s.txt
View File

2
doc/conf/c011.txt → data/configs/11-analog.c.txt
View File

@@ -5,4 +5,4 @@ logging adc 5 100 Аналоговый#вход Датчики 2
//значение чтения аналогового входа будут примерно равным //значение чтения аналогового входа будут примерно равным
//при 1 вольте - 310, а при 2 вольтах - 620 (считаем по пропорции) //при 1 вольте - 310, а при 2 вольтах - 620 (считаем по пропорции)
//данная строка переведет диапазон 310-620 в диапазон 1-100 и отобразит в приложении //данная строка переведет диапазон 310-620 в диапазон 1-100 и отобразит в приложении
//варианты отображения: anydata, progress-round, progress-line, fillgauge //варианты отображения: any-data, progress-round, progress-line, fill-gauge

0
doc/conf/s009.txt → data/configs/11-analog.s.txt
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4
doc/conf/c012.txt → data/configs/12-bmp280.c.txt
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@@ -1,5 +1,5 @@
bmp280T temp1 0x76 Температура#bmp280 Датчики anydata 1 bmp280T temp1 0x76 Температура#bmp280 Датчики any-data 1
bmp280P press1 0x76 Давление#bmp280 Датчики anydata 2 bmp280P press1 0x76 Давление#bmp280 Датчики any-data 2
logging temp1 1 100 Температура Датчики 3 logging temp1 1 100 Температура Датчики 3
logging press1 1 100 Давление Датчики 4 logging press1 1 100 Давление Датчики 4

0
doc/conf/s010.txt → data/configs/12-bmp280.s.txt
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8
doc/conf/c013.txt → data/configs/13-bme280.c.txt
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@@ -1,7 +1,7 @@
bme280T temp1 0x76 Температура#bmp280 Датчики anydata 1 bme280T temp1 0x76 Температура#bmp280 Датчики any-data 1
bme280P pres1 0x76 Давление#bmp280 Датчики anydata 2 bme280P pres1 0x76 Давление#bmp280 Датчики any-data 2
bme280H hum1 0x76 Влажность#bmp280 Датчики anydata 3 bme280H hum1 0x76 Влажность#bmp280 Датчики any-data 3
bme280A altit1 0x76 Высота#bmp280 Датчики anydata 4 bme280A altit1 0x76 Высота#bmp280 Датчики any-data 4
logging temp1 1 100 Температура Датчики 5 logging temp1 1 100 Температура Датчики 5
logging press1 1 100 Давление Датчики 6 logging press1 1 100 Давление Датчики 6
logging hum1 1 100 Влажность Датчики 7 logging hum1 1 100 Влажность Датчики 7

0
doc/conf/s011.txt → data/configs/13-bme280.s.txt
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5
data/configs/14-dallas.c.txt Normal file
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@@ -0,0 +1,5 @@
dallas 2 Водонагреватель,#t°C Датчики any-data 1
logging dallas 1 100 Температура Датчики 2
//2 - номер пина датчика
//варианты отображения: any-data, progress-round, progress-line, fill-gauge

0
doc/conf/s012.txt → data/configs/14-dallas.s.txt
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2
doc/conf/c015.txt → data/configs/15-termostat.c.txt
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@@ -1,4 +1,4 @@
dallas 2 Водонагреватель,#t°C Термостат anydata 1 dallas 2 Водонагреватель,#t°C Термостат any-data 1
logging dallas 5 100 Температура Термостат 2 logging dallas 5 100 Температура Термостат 2
inputDigit digit1 При#скольки#выключить? Термостат 40 3 inputDigit digit1 При#скольки#выключить? Термостат 40 3
inputDigit digit2 При#скольки#включить? Термостат 20 4 inputDigit digit2 При#скольки#включить? Термостат 20 4

0
doc/conf/s015.txt → data/configs/15-termostat.s.txt
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11
data/configs/16-level.c.txt Normal file
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@@ -0,0 +1,11 @@
level lev 14 12 Вода#в#баке,#% Датчики fill-gauge 125 20 1
inputDigit digit1 При#скольки#выключить? Датчики 95 2
inputDigit digit2 При#скольки#включить? Датчики 10 3
button 1 5 Насос Датчики 0 4
button 2 line1,line2, Автоматический#режим Датчики 1 5
logging lev 1 100 Вода#в#баке Датчики 6
//125 - это расстояние от датчика до дна бака в сантиметрах
//20 - это расстояние от датчика до поверхности воды когда бак полный в сантиметрах
//вывод данных будет в процентах заполнения бака
//варианты отображения: any-data, progress-round, progress-line, fill-gauge

4
doc/conf/s016.txt → data/configs/16-level.s.txt
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@@ -1,6 +1,6 @@
p > digit1 lev > digit1
buttonSet 1 0 buttonSet 1 0
end end
p < digit2 lev < digit2
buttonSet 1 1 buttonSet 1 1
end end

0
doc/conf/c017.txt → data/configs/17-moution.c.txt
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0
doc/conf/s017.txt → data/configs/17-moution.s.txt
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0
doc/conf/c018.txt → data/configs/18-moution.c.txt
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0
doc/conf/s018.txt → data/configs/18-moution.s.txt
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0
doc/conf/c019.txt → data/configs/19-stepper.c.txt
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0
doc/conf/s019.txt → data/configs/19-stepper.s.txt
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0
doc/conf/c002.txt → data/configs/2-relay.c.txt
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0
doc/conf/s002.txt → data/configs/2-relay.s.txt
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0
doc/conf/c020.txt → data/configs/20-servo.c.txt
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0
doc/conf/s020.txt → data/configs/20-servo.s.txt
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0
doc/conf/c003.txt → data/configs/3-relay.c.txt
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0
doc/conf/s003.txt → data/configs/3-relay.s.txt
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0
doc/conf/c004.txt → data/configs/4-relay.c.txt
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0
doc/conf/s004.txt → data/configs/4-relay.s.txt
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0
doc/conf/c005.txt → data/configs/5-relay.c.txt
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0
doc/conf/s005.txt → data/configs/5-relay.s.txt
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0
doc/conf/c006.txt → data/configs/6-relay.c.txt
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0
doc/conf/s006.txt → data/configs/6-relay.s.txt
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0
doc/conf/c007.txt → data/configs/7-relay.c.txt
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0
doc/conf/s007.txt → data/configs/7-relay.s.txt
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0
doc/conf/c008.txt → data/configs/8-pwm.c.txt
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0
doc/conf/s013.txt → data/configs/8-pwm.s.txt
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4
doc/conf/c009.txt → data/configs/9-dht11.c.txt
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@@ -1,5 +1,5 @@
dhtT t 2 dht11 Температура#DHT,#t°C Датчики anydata 1 dhtT t 2 dht11 Температура#DHT,#t°C Датчики any-data 1
dhtH h 2 dht11 Влажность#DHT,#t°C Датчики anydata 2 dhtH h 2 dht11 Влажность#DHT,#t°C Датчики any-data 2
dhtComfort Степень#комфорта: Датчики 3 dhtComfort Степень#комфорта: Датчики 3
dhtPerception Восприятие: Датчики 4 dhtPerception Восприятие: Датчики 4
dhtDewpoint Точка#росы: Датчики 5 dhtDewpoint Точка#росы: Датчики 5

0
doc/conf/s014.txt → data/configs/9-dht11.s.txt
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2
doc/conf/c100.txt → data/configs/firmware.c.txt
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@@ -3,7 +3,7 @@ button 2 13 Прихожая Реле 0 2
button 3 14 Кухня Реле 0 3 button 3 14 Кухня Реле 0 3
pwm 1 3 Яркость#коредор: Реле 1023 4 pwm 1 3 Яркость#коредор: Реле 1023 4
pwm 2 4 Яркость#ванная: Реле 510 5 pwm 2 4 Яркость#ванная: Реле 510 5
analog adc 0 Аналоговый#вход Датчики fillgauge 1 1023 1 1023 6 analog adc 0 Аналоговый#вход Датчики fill-gauge 1 1023 1 1023 6
logging adc 1 100 Аналоговый#вход Датчики 7 logging adc 1 100 Аналоговый#вход Датчики 7
//Это демо конфигурация. В ней показано как связать кнопки c помощью сценариев //Это демо конфигурация. В ней показано как связать кнопки c помощью сценариев

0
doc/conf/s100.txt → data/configs/firmware.s.txt
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BIN
data/css/build.css.gz
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Binary file not shown.

658
data/edit.htm
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@@ -1,658 +0,0 @@
<!--This is the plain html source of the hex encoded Editor-Page embedded in SPIFFSEditor.cpp -->
<!DOCTYPE html>
<html lang="en">
<head>
<title>FS Editor</title>
<style type="text/css" media="screen">
.cm {
z-index: 300;
position: absolute;
left: 5px;
border: 1px solid #444;
background-color: #F5F5F5;
display: none;
box-shadow: 0 0 10px rgba(0, 0, 0, .4);
font-size: 12px;
font-family: sans-serif;
font-weight: bold;
}
.cm ul {
list-style: none;
top: 0;
left: 0;
margin: 0;
padding: 0;
}
.cm li {
position: relative;
min-width: 60px;
cursor: pointer;
}
.cm span {
color: #444;
display: inline-block;
padding: 6px;
}
.cm li:hover {
background: #444;
}
.cm li:hover span {
color: #EEE;
}
.tvu ul,
.tvu li {
padding: 0;
margin: 0;
list-style: none;
}
.tvu input {
position: absolute;
opacity: 0;
}
.tvu {
font: normal 12px Verdana, Arial, Sans-serif;
-moz-user-select: none;
-webkit-user-select: none;
user-select: none;
color: #444;
line-height: 16px;
}
.tvu span {
margin-bottom: 5px;
padding: 0 0 0 18px;
cursor: pointer;
display: inline-block;
height: 16px;
vertical-align: middle;
background: url('data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAABAAAAAQCAQAAAC1+jfqAAAABGdBTUEAAK/INwWK6QAAABl0RVh0U29mdHdhcmUAQWRvYmUgSW1hZ2VSZWFkeXHJZTwAAADoSURBVBgZBcExblNBGAbA2ceegTRBuIKOgiihSZNTcC5LUHAihNJR0kGKCDcYJY6D3/77MdOinTvzAgCw8ysThIvn/VojIyMjIyPP+bS1sUQIV2s95pBDDvmbP/mdkft83tpYguZq5Jh/OeaYh+yzy8hTHvNlaxNNczm+la9OTlar1UdA/+C2A4trRCnD3jS8BB1obq2Gk6GU6QbQAS4BUaYSQAf4bhhKKTFdAzrAOwAxEUAH+KEM01SY3gM6wBsEAQB0gJ+maZoC3gI6iPYaAIBJsiRmHU0AALOeFC3aK2cWAACUXe7+AwO0lc9eTHYTAAAAAElFTkSuQmCC') no-repeat;
background-position: 0px 0px;
}
.tvu span:hover {
text-decoration: underline;
}
@media screen and (-webkit-min-device-pixel-ratio:0) {
.tvu {
-webkit-animation: webkit-adjacent-element-selector-bugfix infinite 1s;
}
@-webkit-keyframes webkit-adjacent-element-selector-bugfix {
from {
padding: 0;
}
to {
padding: 0;
}
}
}
#uploader {
position: absolute;
top: 0;
right: 0;
left: 0;
height: 28px;
line-height: 24px;
padding-left: 10px;
background-color: #444;
color: #EEE;
}
#tree {
position: absolute;
top: 28px;
bottom: 0;
left: 0;
width: 160px;
padding: 8px;
}
#editor,
#preview {
position: absolute;
top: 28px;
right: 0;
bottom: 0;
left: 160px;
border-left: 1px solid #EEE;
}
#preview {
background-color: #EEE;
padding: 5px;
}
#loader {
position: absolute;
top: 36%;
right: 40%;
}
.loader {
z-index: 10000;
border: 8px solid #b5b5b5;
/* Grey */
border-top: 8px solid #3498db;
/* Blue */
border-bottom: 8px solid #3498db;
/* Blue */
border-radius: 50%;
width: 240px;
height: 240px;
animation: spin 2s linear infinite;
display: none;
}
@keyframes spin {
0% {
transform: rotate(0deg);
}
100% {
transform: rotate(360deg);
}
}
</style>
<script>
if (typeof XMLHttpRequest === "undefined") {
XMLHttpRequest = function () {
try { return new ActiveXObject("Msxml2.XMLHTTP.6.0"); } catch (e) { }
try { return new ActiveXObject("Msxml2.XMLHTTP.3.0"); } catch (e) { }
try { return new ActiveXObject("Microsoft.XMLHTTP"); } catch (e) { }
throw new Error("This browser does not support XMLHttpRequest.");
};
}
function ge(a) {
return document.getElementById(a);
}
function ce(a) {
return document.createElement(a);
}
function sortByKey(array, key) {
return array.sort(function (a, b) {
var x = a[key]; var y = b[key];
return ((x < y) ? -1 : ((x > y) ? 1 : 0));
});
}
var QueuedRequester = function () {
this.queue = [];
this.running = false;
this.xmlhttp = null;
}
QueuedRequester.prototype = {
_request: function (req) {
this.running = true;
if (!req instanceof Object) return;
var that = this;
function ajaxCb(x, d) {
return function () {
if (x.readyState == 4) {
ge("loader").style.display = "none";
d.callback(x.status, x.responseText);
if (that.queue.length === 0) that.running = false;
if (that.running) that._request(that.queue.shift());
}
}
}
ge("loader").style.display = "block";
var p = "";
if (req.params instanceof FormData) {
p = req.params;
} else if (req.params instanceof Object) {
for (var key in req.params) {
if (p === "")
p += (req.method === "GET") ? "?" : "";
else
p += "&";
p += encodeURIComponent(key) + "=" + encodeURIComponent(req.params[key]);
};
}
this.xmlhttp = new XMLHttpRequest();
this.xmlhttp.onreadystatechange = ajaxCb(this.xmlhttp, req);
if (req.method === "GET") {
this.xmlhttp.open(req.method, req.url + p, true);
this.xmlhttp.send();
} else {
this.xmlhttp.open(req.method, req.url, true);
if (p instanceof String)
this.xmlhttp.setRequestHeader("Content-type", "application/x-www-form-urlencoded");
this.xmlhttp.send(p);
}
},
stop: function () {
if (this.running) this.running = false;
if (this.xmlhttp && this.xmlhttp.readyState < 4) {
this.xmlhttp.abort();
}
},
add: function (method, url, params, callback) {
this.queue.push({ url: url, method: method, params: params, callback: callback });
if (!this.running) {
this._request(this.queue.shift());
}
}
}
var requests = new QueuedRequester();
function createFileUploader(element, tree, editor) {
var xmlHttp;
var refresh = ce("button");
refresh.innerHTML = 'Refresh List';
ge(element).appendChild(refresh);
var input = ce("input");
input.type = "file";
input.multiple = false;
input.name = "data";
input.id = "upload-select";
ge(element).appendChild(input);
var path = ce("input");
path.id = "upload-path";
path.type = "text";
path.name = "path";
path.defaultValue = "/";
ge(element).appendChild(path);
var button = ce("button");
button.innerHTML = 'Upload';
ge(element).appendChild(button);
var mkfile = ce("button");
mkfile.innerHTML = 'Create';
ge(element).appendChild(mkfile);
var filename = ce("input");
filename.id = "editor-filename";
filename.type = "text";
filename.disabled = true;
filename.size = 20;
ge(element).appendChild(filename);
var savefile = ce("button");
savefile.innerHTML = ' Save ';
ge(element).appendChild(savefile);
function httpPostProcessRequest(status, responseText) {
if (status != 200)
alert("ERROR[" + status + "]: " + responseText);
else
tree.refreshPath(path.value);
}
function createPath(p) {
var formData = new FormData();
formData.append("path", p);
requests.add("PUT", "/edit", formData, httpPostProcessRequest);
}
mkfile.onclick = function (e) {
createPath(path.value);
editor.loadUrl(path.value);
path.value = "/";
};
savefile.onclick = function (e) {
editor.execCommand('saveCommand');
};
refresh.onclick = function (e) {
tree.refreshPath(path.value);
};
button.onclick = function (e) {
if (input.files.length === 0) {
return;
}
var formData = new FormData();
formData.append("data", input.files[0], path.value);
requests.add("POST", "/edit", formData, httpPostProcessRequest);
var uploadPath = ge("upload-path");
uploadPath.value = "/";
var uploadSelect = ge("upload-select");
uploadSelect.value = "";
};
input.onchange = function (e) {
if (input.files.length === 0) return;
var filename = input.files[0].name;
var ext = /(?:\.([^.]+))?$/.exec(filename)[1];
var name = /(.*)\.[^.]+$/.exec(filename)[1];
if (typeof name !== undefined) {
filename = name;
}
path.value = "/" + filename + "." + ext;
};
}
function createTree(element, editor) {
var preview = ge("preview");
var treeRoot = ce("div");
treeRoot.className = "tvu";
ge(element).appendChild(treeRoot);
function loadDownload(path) {
ge('download-frame').src = "/edit?download=" + path;
}
function loadPreview(path) {
var edfname = ge("editor-filename");
edfname.value = path;
ge("editor").style.display = "none";
preview.style.display = "block";
preview.innerHTML = '<img src="/edit?edit=' + path + '&_cb=' + Date.now() + '" style="max-width:100%; max-height:100%; margin:auto; display:block;" />';
}
function fillFileMenu(el, path) {
var list = ce("ul");
el.appendChild(list);
var action = ce("li");
list.appendChild(action);
if (isImageFile(path)) {
action.innerHTML = "<span>Preview</span>";
action.onclick = function (e) {
loadPreview(path);
if (document.body.getElementsByClassName('cm').length > 0) document.body.removeChild(el);
};
} else if (isTextFile(path)) {
action.innerHTML = "<span>Edit</span>";
action.onclick = function (e) {
editor.loadUrl(path);
if (document.body.getElementsByClassName('cm').length > 0) document.body.removeChild(el);
};
}
var download = ce("li");
list.appendChild(download);
download.innerHTML = "<span>Download</span>";
download.onclick = function (e) {
loadDownload(path);
if (document.body.getElementsByClassName('cm').length > 0) document.body.removeChild(el);
};
var delFile = ce("li");
list.appendChild(delFile);
delFile.innerHTML = "<span>Delete</span>";
delFile.onclick = function (e) {
httpDelete(path);
if (document.body.getElementsByClassName('cm').length > 0) document.body.removeChild(el);
};
}
function showContextMenu(event, path, isfile) {
var divContext = ce("div");
var scrollTop = document.body.scrollTop ? document.body.scrollTop : document.documentElement.scrollTop;
var scrollLeft = document.body.scrollLeft ? document.body.scrollLeft : document.documentElement.scrollLeft;
var left = event.clientX + scrollLeft;
var top = event.clientY + scrollTop;
divContext.className = 'cm';
divContext.style.display = 'block';
divContext.style.left = left + 'px';
divContext.style.top = top + 'px';
fillFileMenu(divContext, path);
document.body.appendChild(divContext);
var width = divContext.offsetWidth;
var height = divContext.offsetHeight;
divContext.onmouseout = function (e) {
if (e.clientX < left || e.clientX > (left + width) || e.clientY < top || e.clientY > (top + height)) {
if (document.body.getElementsByClassName('cm').length > 0) document.body.removeChild(divContext);
}
};
}
function createTreeLeaf(path, name, size) {
var leaf = ce("li");
leaf.id = name;
var label = ce("span");
label.innerHTML = name;
leaf.appendChild(label);
leaf.onclick = function (e) {
if (isTextFile(leaf.id.toLowerCase())) {
editor.loadUrl(leaf.id);
} else if (isImageFile(leaf.id.toLowerCase())) {
loadPreview(leaf.id);
}
};
leaf.oncontextmenu = function (e) {
e.preventDefault();
e.stopPropagation();
showContextMenu(e, leaf.id, true);
};
return leaf;
}
function addList(parent, path, items) {
sortByKey(items, 'name');
var list = ce("ul");
parent.appendChild(list);
var ll = items.length;
for (var i = 0; i < ll; i++) {
if (items[i].type === "file")
list.appendChild(createTreeLeaf(path, items[i].name, items[i].size));
}
}
function isTextFile(path) {
var ext = /(?:\.([^.]+))?$/.exec(path)[1];
if (typeof ext !== undefined) {
switch (ext) {
case "cnv":
case "txt":
case "htm":
case "html":
case "js":
case "css":
case "xml":
case "json":
case "conf":
case "ini":
return true;
}
}
return false;
}
function isImageFile(path) {
var ext = /(?:\.([^.]+))?$/.exec(path)[1];
if (typeof ext !== undefined) {
switch (ext) {
case "png":
case "jpg":
case "jpeg":
case "gif":
case "bmp":
return true;
}
}
return false;
}
this.refreshPath = function (path) {
treeRoot.removeChild(treeRoot.childNodes[0]);
httpGet(treeRoot, "/");
};
function delCb(path) {
return function (status, responseText) {
if (status != 200) {
alert("ERROR[" + status + "]: " + responseText);
} else {
treeRoot.removeChild(treeRoot.childNodes[0]);
httpGet(treeRoot, "/");
}
}
}
function httpDelete(filename) {
var formData = new FormData();
formData.append("path", filename);
requests.add("DELETE", "/edit", formData, delCb(filename));
}
function getCb(parent, path) {
return function (status, responseText) {
if (status == 200)
addList(parent, path, JSON.parse(responseText));
}
}
function httpGet(parent, path) {
requests.add("GET", "/edit", { list: path }, getCb(parent, path));
}
httpGet(treeRoot, "/");
return this;
}
function createEditor(element, file, lang, theme, type) {
function getLangFromFilename(filename) {
var lang = "plain";
var ext = /(?:\.([^.]+))?$/.exec(filename)[1];
if (typeof ext !== undefined) {
switch (ext) {
case "cnv": lang = "plain"; break;
case "txt": lang = "plain"; break;
case "hex": lang = "plain"; break;
case "conf": lang = "plain"; break;
case "htm": lang = "html"; break;
case "js": lang = "javascript"; break;
case "css":
case "scss":
case "php":
case "html":
case "json":
case "xml":
case "ini": lang = ext;
}
}
return lang;
}
if (typeof file === "undefined") file = "/index.html";
if (typeof lang === "undefined") {
lang = getLangFromFilename(file);
}
if (typeof theme === "undefined") theme = "textmate";
if (typeof type === "undefined") {
type = "text/" + lang;
if (lang === "c_cpp") type = "text/plain";
}
var editor = ace.edit(element);
function httpPostProcessRequest(status, responseText) {
if (status != 200) alert("ERROR[" + status + "]: " + responseText);
}
function httpPost(filename, data, type) {
var formData = new FormData();
formData.append("data", new Blob([data], { type: type }), filename);
requests.add("POST", "/edit", formData, httpPostProcessRequest);
}
function httpGetProcessRequest(status, responseText) {
ge("preview").style.display = "none";
ge("editor").style.display = "block";
if (status == 200)
editor.setValue(responseText);
else
editor.setValue("");
editor.clearSelection();
}
function httpGet(theUrl) {
requests.add("GET", "/edit", { edit: theUrl }, httpGetProcessRequest);
}
if (lang !== "plain") editor.getSession().setMode("ace/mode/" + lang);
editor.setTheme("ace/theme/" + theme);
editor.$blockScrolling = Infinity;
editor.getSession().setUseSoftTabs(true);
editor.getSession().setTabSize(2);
editor.setHighlightActiveLine(true);
editor.setShowPrintMargin(false);
editor.commands.addCommand({
name: 'saveCommand',
bindKey: { win: 'Ctrl-S', mac: 'Command-S' },
exec: function (editor) {
httpPost(file, editor.getValue() + "", type);
},
readOnly: false
});
editor.commands.addCommand({
name: 'undoCommand',
bindKey: { win: 'Ctrl-Z', mac: 'Command-Z' },
exec: function (editor) {
editor.getSession().getUndoManager().undo(false);
},
readOnly: false
});
editor.commands.addCommand({
name: 'redoCommand',
bindKey: { win: 'Ctrl-Shift-Z', mac: 'Command-Shift-Z' },
exec: function (editor) {
editor.getSession().getUndoManager().redo(false);
},
readOnly: false
});
editor.loadUrl = function (filename) {
var edfname = ge("editor-filename");
edfname.value = filename;
file = filename;
lang = getLangFromFilename(file);
type = "text/" + lang;
if (lang !== "plain") editor.getSession().setMode("ace/mode/" + lang);
httpGet(file);
};
return editor;
}
function onBodyLoad() {
var vars = {};
var parts = window.location.href.replace(/[?&]+([^=&]+)=([^&]*)/gi, function (m, key, value) { vars[key] = value; });
var editor = createEditor("editor", vars.file, vars.lang, vars.theme);
var tree = createTree("tree", editor);
createFileUploader("uploader", tree, editor);
if (typeof vars.file === "undefined") vars.file = "/dev_conf.txt";
editor.loadUrl(vars.file);
};
</script>
<script id='ace' src="https://cdnjs.cloudflare.com/ajax/libs/ace/1.2.6/ace.js" type="text/javascript"
charset="utf-8"></script>
<script>
if (typeof ace.edit == "undefined") {
var script = document.createElement('script');
script.src = "/ace.js";
script.async = false;
document.head.appendChild(script);
}
</script>
</head>
<body onload="onBodyLoad();">
<div id="loader" class="loader"></div>
<div id="uploader"></div>
<div id="tree"></div>
<div id="editor"></div>
<div id="preview" style="display:none;"></div>
<iframe id=download-frame style='display:none;'></iframe>
</body>
</html>

12
data/firmware.c.txt Normal file
View File

@@ -0,0 +1,12 @@
button 1 na Включить#все Реле 0 1
button 2 13 Прихожая Реле 0 2
button 3 14 Кухня Реле 0 3
pwm 1 3 Яркость#коредор: Реле 1023 4
pwm 2 4 Яркость#ванная: Реле 510 5
analog adc 0 Аналоговый#вход Датчики fill-gauge 1 1023 1 1023 6
logging adc 1 100 Аналоговый#вход Датчики 7
//Это демо конфигурация. В ней показано как связать кнопки c помощью сценариев
//Кнопка номер 1 связана с кнопкой 2, 3 и с pwm 2
//Так же продемонстрированна система логгирования данных строкой logging
//1 - это интервал между точками в минутах, 100 это количество точек

13
data/firmware.s.txt Normal file
View File

@@ -0,0 +1,13 @@
button1 = 1
buttonSet 2 1
buttonSet 3 1
pwmSet 2 1024
end
button1 = 0
buttonSet 2 0
buttonSet 3 0
pwmSet 2 0
end
adc > 50
buttonSet 2 1
end

BIN
data/index.htm.gz
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10
data/index.json
View File

@@ -23,6 +23,12 @@
"action": "/?set.device", "action": "/?set.device",
"class": "btn btn-block btn-default" "class": "btn btn-block btn-default"
}, },
{
"type": "link",
"title": "Список других устройств в сети",
"action": "/?set.udp",
"class": "btn btn-block btn-default"
},
{ {
"type": "link", "type": "link",
"title": "Конфигурация WIFI", "title": "Конфигурация WIFI",
@@ -37,8 +43,8 @@
}, },
{ {
"type": "link", "type": "link",
"title": "Конфигурация telegram", "title": "Конфигурация push",
"action": "/?set.telegram", "action": "/?set.push",
"class": "btn btn-block btn-default" "class": "btn btn-block btn-default"
}, },
{ {

1
data/items/analog-adc.txt
View File

@@ -1 +0,0 @@
0;analog-adc;id;fillgauge;Сенсоры;Аналоговый;order;gol;map[0,1024,0,100];c[1]

1
data/items/bme280-hum.txt
View File

@@ -1 +0,0 @@
0;bme280-hum;id;anydataHum;Сенсоры;Влажность;order;addr[0x76];c[1]

1
data/items/bme280-press.txt
View File

@@ -1 +0,0 @@
0;bme280-press;id;anydataPress;Сенсоры;Давление;order;addr[0x76];c[1]

1
data/items/bme280-temp.txt
View File

@@ -1 +0,0 @@
0;bme280-temp;id;anydataTemp;Сенсоры;Температура;order;addr[0x76];c[1]

1
data/items/bmp280-press.txt
View File

@@ -1 +0,0 @@
0;bmp280-press;id;anydataPress;Сенсоры;Давление;order;addr[0x76];c[1]

1
data/items/bmp280-temp.txt
View File

@@ -1 +0,0 @@
0;bmp280-temp;id;anydataTemp;Сенсоры;Температура;order;addr[0x76];c[1]

1
data/items/button-in.txt
View File

@@ -1 +0,0 @@
0;button-in;id;toggle;Кнопки;Освещение;order;pin;db[20]

1
data/items/button-out.inv.txt
View File

@@ -1 +0,0 @@
0;button-out;id;toggle;Кнопки;Освещение;order;pin;inv[1];st[1]

1
data/items/button-out.npin.txt
View File

@@ -1 +0,0 @@
0;button-out;id;toggle;Кнопки;Освещение;order;st[0]

1
data/items/button-out.pin.txt
View File

@@ -1 +0,0 @@
0;button-out;id;toggle;Кнопки;Освещение;order;pin;st[0]

1
data/items/dallas-temp.txt
View File

@@ -1 +0,0 @@
0;dallas-temp;id;anydataTemp;Сенсоры;Температура;order;sal;index[0];int[10]

1
data/items/dht11-hum.txt
View File

@@ -1 +0,0 @@
0;dht-hum;id;anydataHum;Сенсоры;Влажность;order;thd;type[dht11];c[1]

1
data/items/dht11-temp.txt
View File

@@ -1 +0,0 @@
0;dht-temp;id;anydataTemp;Сенсоры;Температура;order;thd;type[dht11];c[1]

1
data/items/dht22-hum.txt
View File

@@ -1 +0,0 @@
0;dht-hum;id;anydataHum;Сенсоры;Влажность;order;thd;type[dht22];c[1]

1
data/items/dht22-temp.txt
View File

@@ -1 +0,0 @@
0;dht-temp;id;anydataTemp;Сенсоры;Температура;order;thd;type[dht22];c[1]

1
data/items/impuls-out.txt
View File

@@ -1 +0,0 @@
0;impuls-out;id;na;na;na;order;pin

1
data/items/input-digit.txt
View File

@@ -1 +0,0 @@
0;input-digit;id;inputDigit;Ввод;Введите#цифру;order;st[60]

1
data/items/input-time.txt
View File

@@ -1 +0,0 @@
0;input-time;id;inputTime;Ввод;Введите#время;order;st[10:00]

1
data/items/logging.txt
View File

@@ -1 +0,0 @@
0;logging;id;chart;Графики;История;order;val[any];int[60];cnt[100]

1
data/items/modbus.txt
View File

@@ -1 +0,0 @@
0;modbus;id;anydata;Modbus;Регистр;order;addr[1];reg[0];c[1]

1
data/items/output-text.txt
View File

@@ -1 +0,0 @@
0;output-text;id;anydata;Вывод;Сигнализация;order;st[Обнаружено#движение]

1
data/items/pwm-out.txt
View File

@@ -1 +0,0 @@
0;pwm-out;id;range;Ползунки;Яркость;order;pin;st[500]

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