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Merge pull request #17 from Mit4el/ver4dev

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обновление с основы
This commit is contained in:
Mit4el
2023-10-03 22:56:25 +03:00
committed by GitHub
parent 264c1c3c71 eb171b2128
commit 660591dc60
37 changed files with 747 additions and 813 deletions
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2
data_svelte/items.json
View File

@@ -712,7 +712,7 @@
"type": "Writing",
"subtype": "IoTServo",
"id": "servo",
"widget": "range",
"widget": "rangeServo",
"page": "servo",
"descr": "угол",
"int": 1,

14
data_svelte/myProfile.json
View File

@@ -3,8 +3,14 @@
"name": "IoTmanagerVer4",
"apssid": "IoTmanager",
"appass": "",
"routerssid": ["iot","wifi"],
"routerpass": ["hostel3333","pswd"],
"routerssid": [
"iot",
"wifi"
],
"routerpass": [
"hostel3333",
"pswd"
],
"timezone": 2,
"ntp": "pool.ntp.org",
"weblogin": "admin",
@@ -406,6 +412,10 @@
"path": "src/modules/display/NextionUpload",
"active": false
},
{
"path": "src/modules/display/Oled128",
"active": false
},
{
"path": "src/modules/display/Smi2_m",
"active": true

4
data_svelte/widgets.json
View File

@@ -246,11 +246,11 @@
"debounce": 500
},
{
"name": "range",
"name": "rangeServo",
"label": "Ползунок (Servo)",
"widget": "range",
"descrColor": "red",
"after": "%",
"after": "°",
"k": 1,
"min": 0,
"max": 180,

308
data_svelte_lite/widgets copy.json
View File

@@ -1,308 +0,0 @@
[
{
"name": "anydataRed",
"label": "Сообщение1",
"widget": "anydata",
"icon": "body",
"color": "red",
"descrColor": "red"
},
{
"name": "anydataDgr",
"label": "Сообщение2",
"widget": "anydata",
"after": "",
"color": "red",
"icon": "walk"
},
{
"name": "anydataDef",
"label": "Текст",
"widget": "anydata",
"after": "",
"icon": ""
},
{
"name": "anydataVlt",
"label": "Вольты",
"widget": "anydata",
"after": "V",
"icon": "speedometer"
},
{
"name": "anydataAmp",
"label": "Амперы",
"widget": "anydata",
"after": "A",
"icon": "speedometer"
},
{
"name": "anydataWt",
"label": "Ватты",
"widget": "anydata",
"after": "Wt",
"icon": "speedometer",
"color": [
{
"level": 0,
"value": ""
},
{
"level": 200,
"value": "#009933"
},
{
"level": 2000,
"value": "#FF9900"
},
{
"level": 4000,
"value": "red"
}
]
},
{
"name": "anydataWth",
"label": "Энергия",
"widget": "anydata",
"after": "kWh",
"icon": "speedometer"
},
{
"name": "anydataHtz",
"label": "Герцы",
"widget": "anydata",
"after": "Hz",
"icon": "speedometer"
},
{
"name": "anydataTmp",
"label": "Температура",
"widget": "anydata",
"after": "°С",
"icon": "thermometer",
"font": "OCR A Std",
"color": [
{
"level": -20,
"value": "#0000CC"
},
{
"level": -10,
"value": "#0000CC"
},
{
"level": 0,
"value": "#0000CC"
},
{
"level": 12,
"value": "#3366FF"
},
{
"level": 16,
"value": "#33CCFF"
},
{
"level": 18,
"value": "#009933"
},
{
"level": 30,
"value": "#FF9900"
},
{
"level": 40,
"value": "red"
}
]
},
{
"name": "anydataMm",
"label": "Давление",
"widget": "anydata",
"after": "mm",
"icon": "speedometer"
},
{
"name": "anydataHum",
"label": "Влажность",
"widget": "anydata",
"after": "%",
"icon": "water",
"color": "#88AADF"
},
{
"name": "anydataTm",
"label": "Время",
"widget": "anydata",
"after": "",
"icon": "speedometer"
},
{
"name": "button",
"label": "Кнопка",
"widget": "btn",
"size": "large",
"color": "green",
"send": "test"
},
{
"name": "toggle",
"label": "Переключатель",
"widget": "toggle",
"icon": "",
"iconOff": ""
},
{
"name": "chart1",
"label": "График без точек",
"widget": "chart",
"dateFormat": "HH:mm",
"maxCount": 86400,
"pointRadius": 0
},
{
"name": "chart2",
"label": "График с точками",
"widget": "chart",
"maxCount": 86400,
"dateFormat": "HH:mm"
},
{
"name": "chart3",
"label": "График Дневной",
"widget": "chart",
"dateFormat": "DD.MM.YYYY",
"maxCount": 86400,
"type": "bar"
},
{
"name": "fillgauge",
"label": "Бочка",
"widget": "fillgauge",
"circleColor": "#00FFFF",
"textColor": "#FFFFFF",
"waveTextColor": "#000000",
"waveColor": "#00FFFF"
},
{
"name": "inputDate",
"label": "Ввод даты",
"widget": "input",
"size": "small",
"color": "orange",
"type": "date"
},
{
"name": "inputDgt",
"label": "Ввод числа",
"widget": "input",
"color": "blue",
"type": "number"
},
{
"name": "inputTxt",
"label": "Ввод текста",
"widget": "input",
"size": "small",
"color": "orange",
"type": "text"
},
{
"name": "inputTm",
"label": "Ввод времени",
"widget": "input",
"color": "blue",
"type": "time"
},
{
"name": "progressLine",
"label": "Статус линия",
"widget": "progress-line",
"icon": "sunny",
"max": "100",
"stroke": "10"
},
{
"name": "progressRound",
"label": "Статус круг",
"widget": "progress-round",
"max": "100",
"stroke": "20",
"color": "#45ccce",
"background": "#777",
"semicircle": "1"
},
{
"name": "range",
"label": "Ползунок",
"widget": "range",
"descrColor": "red",
"after": "%",
"k": 0.0977,
"min": 0,
"max": 100,
"debounce": 500
},
{
"name": "range",
"label": "Ползунок (Servo)",
"widget": "range",
"descrColor": "red",
"after": "%",
"k": 1,
"min": 0,
"max": 180,
"debounce": 500
},
{
"name": "select",
"label": "Выпадающий",
"widget": "select",
"options": [
"Выключен",
"Включен"
],
"status": 0
},
{
"name": "anydataPpm",
"label": "PPM",
"widget": "anydata",
"after": "ppm",
"icon": "speedometer"
},
{
"name": "anydatamAmp",
"label": "миллиАмперы",
"widget": "anydata",
"after": "mAmp",
"icon": "speedometer"
},
{
"name": "anydatamVlt",
"label": "миллиВольты",
"widget": "anydata",
"after": "mVlt",
"icon": "speedometer"
},
{
"name": "anydatamWt",
"label": "миллиВатты",
"widget": "anydata",
"after": "mWt",
"icon": "speedometer"
},
{
"name": "anydataCm",
"label": "Сантиметры",
"widget": "anydata",
"after": "cm",
"icon": "speedometer"
},
{
"name": "nil",
"label": "Без виджета"
}
]

4
data_svelte_lite/widgets.json
View File

@@ -246,11 +246,11 @@
"debounce": 500
},
{
"name": "range",
"name": "rangeServo",
"label": "Ползунок (Servo)",
"widget": "range",
"descrColor": "red",
"after": "%",
"after": "°",
"k": 1,
"min": 0,
"max": 180,

3
include/WsServer.h
View File

@@ -20,4 +20,5 @@ void periodicWsSend();
void sendFileToWsByFrames(const String& filename, const String& header, const String& json, int client_id, size_t frameSize);
void sendStringToWs(const String& header, String& payload, int client_id);
void sendDeviceList(uint8_t num);
void sendDeviceList(uint8_t num);
int getNumWSClients();

11
include/classes/IoTItem.h
View File

@@ -11,7 +11,7 @@ struct IoTValue {
class IoTItem {
public:
IoTItem(const String& parameters);
virtual ~IoTItem() {}
virtual ~IoTItem() {};
virtual void loop();
virtual void doByInterval();
virtual IoTValue execute(String command, std::vector<IoTValue>& param);
@@ -35,9 +35,12 @@ class IoTItem {
void setInterval(long interval);
void setIntFromNet(int interval);
unsigned long currentMillis;
unsigned long prevMillis;
unsigned long difference;
// unsigned long currentMillis;
// unsigned long prevMillis;
// unsigned long difference;
unsigned long nextMillis=0; // достаточно 1 переменной, надо экономить память
// задержка следующего вызова, не изменяет текущий _interval
void suspendNextDoByInt(unsigned long _delay); // 0 - force
IoTValue value; // хранение основного значения, которое обновляется из сценария, execute(), loop() или doByInterval()

5
include/utils/WiFiUtils.h
View File

@@ -2,9 +2,8 @@
#include "Global.h"
#include "MqttClient.h"
#include <vector>
// boolean isNetworkActive();
inline boolean isNetworkActive() {return WiFi.status() == WL_CONNECTED;};
boolean isNetworkActive();
uint8_t getNumAPClients();
void routerConnect();
bool startAPMode();
boolean RouterFind(std::vector<String> jArray);

8
myProfile.json
View File

@@ -3,8 +3,8 @@
"name": "IoTmanagerVer4",
"apssid": "IoTmanager",
"appass": "",
"routerssid": ["iot","wifi"],
"routerpass": ["hostel3333","pswd"],
"routerssid": "iot",
"routerpass": "hostel3333",
"timezone": 2,
"ntp": "pool.ntp.org",
"weblogin": "admin",
@@ -406,6 +406,10 @@
"path": "src/modules/display/NextionUpload",
"active": false
},
{
"path": "src/modules/display/Oled128",
"active": false
},
{
"path": "src/modules/display/Smi2_m",
"active": true

17
myProfileDef.json
View File

@@ -32,6 +32,11 @@
"firmware": "0x00000",
"littlefs": "0x300000"
},
{
"name": "esp8266_16mb",
"firmware": "0x00000",
"littlefs": "0x200000"
},
{
"name": "esp32_4mb",
"boot_app0": "0xe000",
@@ -40,6 +45,14 @@
"partitions": "0x8000",
"littlefs": "0x290000"
},
{
"name": "esp32_16mb",
"boot_app0": "0xe000",
"bootloader_qio_80m": "0x1000",
"firmware": "0x10000",
"partitions": "0x8000",
"littlefs": "0x910000"
},
{
"name": "esp8266_1mb",
"firmware": "0x00000000",
@@ -381,6 +394,10 @@
"path": "src/modules/display/NextionUpload",
"active": false
},
{
"path": "src/modules/display/Oled128",
"active": false
},
{
"path": "src/modules/display/Smi2_m",
"active": true

4
src/Main.cpp
View File

@@ -10,8 +10,8 @@
IoTScenario iotScen; // объект управления сценарием
String volStrForSave = "";
unsigned long currentMillis;
unsigned long prevMillis;
// unsigned long currentMillis; // это сдесь лишнее
// unsigned long prevMillis;
void elementsLoop() {
// передаем управление каждому элементу конфигурации для выполнения своих функций

11
src/MqttClient.cpp
View File

@@ -5,7 +5,7 @@ void mqttInit() {
ts.add(
WIFI_MQTT_CONNECTION_CHECK, MQTT_RECONNECT_INTERVAL,
[&](void*) {
if (WiFi.status() == WL_CONNECTED) {
if (isNetworkActive()) {
SerialPrint("i", F("WIFI"), "http://" + jsonReadStr(settingsFlashJson, F("ip")));
wifiUptimeCalc();
if (mqtt.connected()) {
@@ -121,13 +121,16 @@ void mqttSubscribe() {
}
void mqttSubscribeExternal(String topic, bool usePrefix) {
SerialPrint("i", F("MQTT"), ("subscribed external" + topic).c_str());
// SerialPrint("i", F("MQTT"), mqttRootDevice);
String _sb_topic = topic;
if (usePrefix)
{
mqtt.subscribe((mqttPrefix + topic).c_str());
_sb_topic = mqttPrefix + "/" + topic;
}
mqtt.subscribe(topic.c_str());
mqtt.subscribe(_sb_topic.c_str());
SerialPrint("i", F("MQTT"), ("subscribed external " + _sb_topic).c_str());
}
void mqttCallback(char* topic, uint8_t* payload, size_t length) {

505
src/StandWebServer.cpp
View File

@@ -7,24 +7,22 @@ String unsupportedFiles = String();
static const char TEXT_PLAIN[] PROGMEM = "text/plain";
static const char FS_INIT_ERROR[] PROGMEM = "FS INIT ERROR";
static const char FILE_NOT_FOUND[] PROGMEM = "FileNotFound";
//static bool fsOK;
//const char* fsName = "LittleFS";
// static bool fsOK;
// const char* fsName = "LittleFS";
void standWebServerInit()
{
void standWebServerInit() {
// Кэшировать файлы для быстрой работы
HTTP.serveStatic("/bundle.js", FileFS, "/", "max-age=31536000"); // кеширование на 1 год
HTTP.serveStatic("/bundle.css", FileFS, "/", "max-age=31536000"); // кеширование на 1 год
HTTP.serveStatic("/bundle.js.gz", FileFS, "/", "max-age=31536000"); // кеширование на 1 год
HTTP.serveStatic("/bundle.css.gz", FileFS, "/", "max-age=31536000"); // кеширование на 1 год
HTTP.serveStatic("/favicon.png", FileFS, "/", "max-age=31536000"); // кеширование на 1 год
// если указана директория то все файлы будут отмечены как Directory Request Handler
// если указан файл то он будет отмечен как File Request Handler
HTTP.serveStatic("/build", FileFS, "/build", "max-age=31536000"); // кеширование на 1 год
HTTP.serveStatic("/favicon.ico", FileFS, "/favicon.ico", "max-age=31536000"); // кеширование на 1 год
// HTTP.on("/devicelist.json", HTTP_GET, []() {
// HTTP.send(200, "application/json", devListHeapJson);
// });
HTTP.on("/settings.h.json", HTTP_GET, []() {
HTTP.send(200, "application/json", settingsFlashJson);
});
// HTTP.on("/settings.h.json", HTTP_GET, []() {
// HTTP.send(200, "application/json", settingsFlashJson);
//});
// HTTP.on("/settings.f.json", HTTP_GET, []() {
// HTTP.send(200, "application/json", readFile(F("settings.json"), 20000));
// });
@@ -46,21 +44,19 @@ void standWebServerInit()
// HTTP.send(200, "text/plain", "ok");
// });
HTTP.on("/set", HTTP_GET, []() {
if (HTTP.hasArg(F("routerssid")) && WiFi.getMode() == WIFI_AP) {
jsonWriteStr(settingsFlashJson, F("routerssid"), HTTP.arg(F("routerssid")));
syncSettingsFlashJson();
HTTP.send(200, "text/plain", "ok");
}
jsonWriteStr(settingsFlashJson, F("routerssid"), HTTP.arg(F("routerssid")));
syncSettingsFlashJson();
HTTP.send(200, "text/plain", "ok");
}
if (HTTP.hasArg(F("routerpass")) && WiFi.getMode() == WIFI_AP) {
jsonWriteStr(settingsFlashJson, F("routerpass"), HTTP.arg(F("routerpass")));
syncSettingsFlashJson();
HTTP.send(200, "text/plain", "ok");
}
});
jsonWriteStr(settingsFlashJson, F("routerpass"), HTTP.arg(F("routerpass")));
syncSettingsFlashJson();
HTTP.send(200, "text/plain", "ok");
}
});
// Добавляем функцию Update для перезаписи прошивки по WiFi при 1М(256K FileFS) и выше
// httpUpdater.setup(&HTTP);
@@ -101,39 +97,33 @@ void standWebServerInit()
////////////////////////////////
// Utils to return HTTP codes, and determine content-type
void replyOK()
{
void replyOK() {
HTTP.send(200, FPSTR(TEXT_PLAIN), "");
}
void replyOKWithMsg(String msg)
{
void replyOKWithMsg(String msg) {
HTTP.send(200, FPSTR(TEXT_PLAIN), msg);
}
void replyNotFound(String msg)
{
void replyNotFound(String msg) {
HTTP.send(404, FPSTR(TEXT_PLAIN), msg);
}
void replyBadRequest(String msg)
{
// DBG_OUTPUT_PORT.println(msg);
void replyBadRequest(String msg) {
// DBG_OUTPUT_PORT.println(msg);
HTTP.send(400, FPSTR(TEXT_PLAIN), msg + "\r\n");
}
void replyServerError(String msg)
{
// DBG_OUTPUT_PORT.println(msg);
void replyServerError(String msg) {
// DBG_OUTPUT_PORT.println(msg);
HTTP.send(500, FPSTR(TEXT_PLAIN), msg + "\r\n");
}
/*
Return the FS type, status and size info
*/
void handleStatus()
{
// DBG_OUTPUT_PORT.println("handleStatus");
void handleStatus() {
// DBG_OUTPUT_PORT.println("handleStatus");
String json;
json.reserve(128);
@@ -141,22 +131,22 @@ void handleStatus()
json += FS_NAME;
json += "\", \"isOk\":";
#ifdef ESP8266
#ifdef ESP8266
FSInfo fs_info;
FileFS.info(fs_info);
json += F("\"true\", \"totalBytes\":\"");
json += fs_info.totalBytes;
json += F("\", \"usedBytes\":\"");
json += fs_info.usedBytes;
json += "\"";
#endif
FileFS.info(fs_info);
json += F("\"true\", \"totalBytes\":\"");
json += fs_info.totalBytes;
json += F("\", \"usedBytes\":\"");
json += fs_info.usedBytes;
json += "\"";
#endif
#ifdef ESP32
json += F("\"true\", \"totalBytes\":\"");
json += String(FileFS.totalBytes());
json += F("\", \"usedBytes\":\"");
json += String(FileFS.usedBytes());
json += "\"";
json += F("\"true\", \"totalBytes\":\"");
json += String(FileFS.totalBytes());
json += F("\", \"usedBytes\":\"");
json += String(FileFS.usedBytes());
json += "\"";
#endif
json += F(",\"unsupportedFiles\":\"");
@@ -168,74 +158,66 @@ void handleStatus()
#ifdef ESP32
String getContentType(String filename) {
if (HTTP.hasArg("download")) {
return "application/octet-stream";
} else if (filename.endsWith(".htm")) {
return "text/html";
} else if (filename.endsWith(".html")) {
return "text/html";
} else if (filename.endsWith(".css")) {
return "text/css";
} else if (filename.endsWith(".js")) {
return "application/javascript";
} else if (filename.endsWith(".png")) {
return "image/png";
} else if (filename.endsWith(".gif")) {
return "image/gif";
} else if (filename.endsWith(".jpg")) {
return "image/jpeg";
} else if (filename.endsWith(".ico")) {
return "image/x-icon";
} else if (filename.endsWith(".xml")) {
return "text/xml";
} else if (filename.endsWith(".pdf")) {
return "application/x-pdf";
} else if (filename.endsWith(".zip")) {
return "application/x-zip";
} else if (filename.endsWith(".gz")) {
return "application/x-gzip";
}
return "text/plain";
if (HTTP.hasArg("download")) {
return "application/octet-stream";
} else if (filename.endsWith(".htm")) {
return "text/html";
} else if (filename.endsWith(".html")) {
return "text/html";
} else if (filename.endsWith(".css")) {
return "text/css";
} else if (filename.endsWith(".js")) {
return "application/javascript";
} else if (filename.endsWith(".png")) {
return "image/png";
} else if (filename.endsWith(".gif")) {
return "image/gif";
} else if (filename.endsWith(".jpg")) {
return "image/jpeg";
} else if (filename.endsWith(".ico")) {
return "image/x-icon";
} else if (filename.endsWith(".xml")) {
return "text/xml";
} else if (filename.endsWith(".pdf")) {
return "application/x-pdf";
} else if (filename.endsWith(".zip")) {
return "application/x-zip";
} else if (filename.endsWith(".gz")) {
return "application/x-gzip";
}
return "text/plain";
}
#endif
/*
Read the given file from the filesystem and stream it back to the client
*/
bool handleFileRead(String path)
{
// DBG_OUTPUT_PORT.println(String("handleFileRead: ") + path);
if (path.endsWith("/"))
{
bool handleFileRead(String path) {
// DBG_OUTPUT_PORT.println(String("handleFileRead: ") + path);
if (path.endsWith("/")) {
path += "index.html";
}
String contentType;
if (HTTP.hasArg("download"))
{
if (HTTP.hasArg("download")) {
contentType = F("application/octet-stream");
}
else
{
#ifdef ESP32
} else {
#ifdef ESP32
contentType = getContentType(path);
#endif
#ifdef ESP8266
contentType = mime::getContentType(path);
#endif
#endif
}
if (!FileFS.exists(path))
{
if (!FileFS.exists(path)) {
// File not found, try gzip version
path = path + ".gz";
}
if (FileFS.exists(path))
{
if (FileFS.exists(path)) {
File file = FileFS.open(path, "r");
if (HTTP.streamFile(file, contentType) != file.size())
{
// DBG_OUTPUT_PORT.println("Sent less data than expected!");
if (HTTP.streamFile(file, contentType) != file.size()) {
// DBG_OUTPUT_PORT.println("Sent less data than expected!");
}
file.close();
return true;
@@ -248,90 +230,69 @@ bool handleFileRead(String path)
As some FS (e.g. LittleFS) delete the parent folder when the last child has been removed,
return the path of the closest parent still existing
*/
String lastExistingParent(String path)
{
while (!path.isEmpty() && !FileFS.exists(path))
{
if (path.lastIndexOf('/') > 0)
{
String lastExistingParent(String path) {
while (!path.isEmpty() && !FileFS.exists(path)) {
if (path.lastIndexOf('/') > 0) {
path = path.substring(0, path.lastIndexOf('/'));
}
else
{
path = String(); // No slash => the top folder does not exist
} else {
path = String(); // No slash => the top folder does not exist
}
}
// DBG_OUTPUT_PORT.println(String("Last existing parent: ") + path);
// DBG_OUTPUT_PORT.println(String("Last existing parent: ") + path);
return path;
}
/*
Handle a file upload request
*/
void handleFileUpload()
{
if (HTTP.uri() != "/edit")
{
void handleFileUpload() {
if (HTTP.uri() != "/edit") {
return;
}
HTTPUpload &upload = HTTP.upload();
if (upload.status == UPLOAD_FILE_START)
{
if (upload.status == UPLOAD_FILE_START) {
String filename = upload.filename;
// Make sure paths always start with "/"
if (!filename.startsWith("/"))
{
if (!filename.startsWith("/")) {
filename = "/" + filename;
}
// DBG_OUTPUT_PORT.println(String("handleFileUpload Name: ") + filename);
// DBG_OUTPUT_PORT.println(String("handleFileUpload Name: ") + filename);
uploadFile = FileFS.open(filename, "w");
if (!uploadFile)
{
if (!uploadFile) {
return replyServerError(F("CREATE FAILED"));
}
// DBG_OUTPUT_PORT.println(String("Upload: START, filename: ") + filename);
}
else if (upload.status == UPLOAD_FILE_WRITE)
{
if (uploadFile)
{
// DBG_OUTPUT_PORT.println(String("Upload: START, filename: ") + filename);
} else if (upload.status == UPLOAD_FILE_WRITE) {
if (uploadFile) {
size_t bytesWritten = uploadFile.write(upload.buf, upload.currentSize);
if (bytesWritten != upload.currentSize)
{
if (bytesWritten != upload.currentSize) {
return replyServerError(F("WRITE FAILED"));
}
}
// DBG_OUTPUT_PORT.println(String("Upload: WRITE, Bytes: ") + upload.currentSize);
}
else if (upload.status == UPLOAD_FILE_END)
{
if (uploadFile)
{
// DBG_OUTPUT_PORT.println(String("Upload: WRITE, Bytes: ") + upload.currentSize);
} else if (upload.status == UPLOAD_FILE_END) {
if (uploadFile) {
uploadFile.close();
}
// DBG_OUTPUT_PORT.println(String("Upload: END, Size: ") + upload.totalSize);
// DBG_OUTPUT_PORT.println(String("Upload: END, Size: ") + upload.totalSize);
}
}
#ifdef ESP8266
void deleteRecursive(String path)
{
void deleteRecursive(String path) {
File file = FileFS.open(path, "r");
bool isDir = file.isDirectory();
file.close();
// If it's a plain file, delete it
if (!isDir)
{
if (!isDir) {
FileFS.remove(path);
return;
}
Dir dir = FileFS.openDir(path);
while (dir.next())
{
while (dir.next()) {
deleteRecursive(path + '/' + dir.fileName());
}
}
// Then delete the folder itself
FileFS.rmdir(path);
@@ -339,41 +300,37 @@ void deleteRecursive(String path)
#endif
#ifdef ESP32
struct treename{
uint8_t type;
char *name;
struct treename {
uint8_t type;
char *name;
};
void deleteRecursive(String path) {
fs::File dir = FileFS.open(path);
void deleteRecursive( String path ){
fs::File dir = FileFS.open( path );
if(!dir.isDirectory()){
Serial.printf("%s is a file\n", path);
dir.close();
Serial.printf( "result of removing file %s: %d\n", path, FileFS.remove( path ) );
return;
if (!dir.isDirectory()) {
Serial.printf("%s is a file\n", path);
dir.close();
Serial.printf("result of removing file %s: %d\n", path, FileFS.remove(path));
return;
}
Serial.printf("%s is a directory\n", path);
fs::File entry, nextentry;
while ( entry = dir.openNextFile() ){
if ( entry.isDirectory() ){
deleteRecursive( entry.path() );
} else{
String tmpname = path+"/"+strdup( entry.name() ); // buffer file name
entry.close();
Serial.printf( "result of removing file %s: %d\n", tmpname, FileFS.remove( tmpname ) );
}
while (entry = dir.openNextFile()) {
if (entry.isDirectory()) {
deleteRecursive(entry.path());
} else {
String tmpname = path + "/" + strdup(entry.name()); // buffer file name
entry.close();
Serial.printf("result of removing file %s: %d\n", tmpname, FileFS.remove(tmpname));
}
}
dir.close();
Serial.printf( "result of removing directory %s: %d\n", path, FileFS.rmdir( path ) );
dir.close();
Serial.printf("result of removing directory %s: %d\n", path, FileFS.rmdir(path));
}
#endif
/*
@@ -383,23 +340,18 @@ if ( entry.isDirectory() ){
Delete file | parent of deleted file, or remaining ancestor
Delete folder | parent of deleted folder, or remaining ancestor
*/
void handleFileDelete()
{
void handleFileDelete() {
String path = HTTP.arg(0);
if (path.isEmpty() || path == "/")
{
if (path.isEmpty() || path == "/") {
return replyBadRequest("BAD PATH");
}
// DBG_OUTPUT_PORT.println(String("handleFileDelete: ") + path);
if (!FileFS.exists(path))
{
// DBG_OUTPUT_PORT.println(String("handleFileDelete: ") + path);
if (!FileFS.exists(path)) {
return replyNotFound(FPSTR(FILE_NOT_FOUND));
}
deleteRecursive(path);
replyOKWithMsg(lastExistingParent(path));
}
@@ -414,93 +366,72 @@ void handleFileDelete()
Rename folder | parent of source folder
Move folder | parent of source folder, or remaining ancestor
*/
void handleFileCreate()
{
void handleFileCreate() {
String path = HTTP.arg("path");
if (path.isEmpty())
{
if (path.isEmpty()) {
return replyBadRequest(F("PATH ARG MISSING"));
}
#ifdef USE_SPIFFS
if (checkForUnsupportedPath(path).length() > 0)
{
if (checkForUnsupportedPath(path).length() > 0) {
return replyServerError(F("INVALID FILENAME"));
}
#endif
if (path == "/")
{
if (path == "/") {
return replyBadRequest("BAD PATH");
}
if (FileFS.exists(path))
{
if (FileFS.exists(path)) {
return replyBadRequest(F("PATH FILE EXISTS"));
}
String src = HTTP.arg("src");
if (src.isEmpty())
{
if (src.isEmpty()) {
// No source specified: creation
// DBG_OUTPUT_PORT.println(String("handleFileCreate: ") + path);
if (path.endsWith("/"))
{
// DBG_OUTPUT_PORT.println(String("handleFileCreate: ") + path);
if (path.endsWith("/")) {
// Create a folder
path.remove(path.length() - 1);
if (!FileFS.mkdir(path))
{
if (!FileFS.mkdir(path)) {
return replyServerError(F("MKDIR FAILED"));
}
}
else
{
} else {
// Create a file
File file = FileFS.open(path, "w");
if (file)
{
#ifdef ESP8266
if (file) {
#ifdef ESP8266
file.write((const char *)0);
#endif
#ifdef ESP32
file.write(0);
#endif
#endif
file.close();
}
else
{
} else {
return replyServerError(F("CREATE FAILED"));
}
}
if (path.lastIndexOf('/') > -1)
{
if (path.lastIndexOf('/') > -1) {
path = path.substring(0, path.lastIndexOf('/'));
}
replyOKWithMsg(path);
}
else
{
} else {
// Source specified: rename
if (src == "/")
{
if (src == "/") {
return replyBadRequest("BAD SRC");
}
if (!FileFS.exists(src))
{
if (!FileFS.exists(src)) {
return replyBadRequest(F("SRC FILE NOT FOUND"));
}
// DBG_OUTPUT_PORT.println(String("handleFileCreate: ") + path + " from " + src);
// DBG_OUTPUT_PORT.println(String("handleFileCreate: ") + path + " from " + src);
if (path.endsWith("/"))
{
if (path.endsWith("/")) {
path.remove(path.length() - 1);
}
if (src.endsWith("/"))
{
if (src.endsWith("/")) {
src.remove(src.length() - 1);
}
if (!FileFS.rename(src, path))
{
if (!FileFS.rename(src, path)) {
return replyServerError(F("RENAME FAILED"));
}
replyOKWithMsg(lastExistingParent(src));
@@ -512,26 +443,22 @@ void handleFileCreate()
Also demonstrates the use of chunked responses.
*/
#ifdef ESP8266
void handleFileList()
{
if (!HTTP.hasArg("dir"))
{
void handleFileList() {
if (!HTTP.hasArg("dir")) {
return replyBadRequest(F("DIR ARG MISSING"));
}
String path = HTTP.arg("dir");
if (path != "/" && !FileFS.exists(path))
{
if (path != "/" && !FileFS.exists(path)) {
return replyBadRequest("BAD PATH");
}
// DBG_OUTPUT_PORT.println(String("handleFileList: ") + path);
// DBG_OUTPUT_PORT.println(String("handleFileList: ") + path);
Dir dir = FileFS.openDir(path);
path.clear();
// use HTTP/1.1 Chunked response to avoid building a huge temporary string
if (!HTTP.chunkedResponseModeStart(200, "text/json"))
{
if (!HTTP.chunkedResponseModeStart(200, "text/json")) {
HTTP.send(505, F("text/html"), F("HTTP1.1 required"));
return;
}
@@ -539,47 +466,36 @@ void handleFileList()
// use the same string for every line
String output;
output.reserve(64);
while (dir.next())
{
while (dir.next()) {
#ifdef USE_SPIFFS
String error = checkForUnsupportedPath(dir.fileName());
if (error.length() > 0)
{
// DBG_OUTPUT_PORT.println(String("Ignoring ") + error + dir.fileName());
if (error.length() > 0) {
// DBG_OUTPUT_PORT.println(String("Ignoring ") + error + dir.fileName());
continue;
}
#endif
if (output.length())
{
if (output.length()) {
// send string from previous iteration
// as an HTTP chunk
HTTP.sendContent(output);
output = ',';
}
else
{
} else {
output = '[';
}
output += "{\"type\":\"";
if (dir.isDirectory())
{
if (dir.isDirectory()) {
output += "dir";
}
else
{
} else {
output += F("file\",\"size\":\"");
output += dir.fileSize();
}
output += F("\",\"name\":\"");
// Always return names without leading "/"
if (dir.fileName()[0] == '/')
{
if (dir.fileName()[0] == '/') {
output += &(dir.fileName()[1]);
}
else
{
} else {
output += dir.fileName();
}
@@ -595,65 +511,57 @@ void handleFileList()
#ifdef ESP32
void handleFileList() {
if (!HTTP.hasArg("dir")) {
HTTP.send(500, "text/plain", "BAD ARGS");
return;
}
if (!HTTP.hasArg("dir")) {
HTTP.send(500, "text/plain", "BAD ARGS");
return;
}
String path = HTTP.arg("dir");
// DBG_OUTPUT_PORT.println("handleFileList: " + path);
String path = HTTP.arg("dir");
// DBG_OUTPUT_PORT.println("handleFileList: " + path);
File root = FileFS.open(path);
path = String();
File root = FileFS.open(path);
path = String();
String output = "[";
if (root.isDirectory()) {
File file = root.openNextFile();
while (file) {
if (output != "[") {
output += ',';
}
output += "{\"type\":\"";
// output += (file.isDirectory()) ? "dir" : "file";
if (file.isDirectory()) {
output += "dir";
} else {
output += F("file\",\"size\":\"");
output += file.size();
}
String output = "[";
if(root.isDirectory()){
File file = root.openNextFile();
while(file){
if (output != "[") {
output += ',';
}
output += "{\"type\":\"";
// output += (file.isDirectory()) ? "dir" : "file";
if (file.isDirectory())
{
output += "dir";
}
else
{
output += F("file\",\"size\":\"");
output += file.size();
}
output += "\",\"name\":\"";
output += "\",\"name\":\"";
output += String(file.name());
output += "\"}";
file = root.openNextFile();
}
}
output += "]";
HTTP.send(200, "text/json", output);
output += "\"}";
file = root.openNextFile();
}
}
output += "]";
HTTP.send(200, "text/json", output);
}
#endif
/*
The "Not Found" handler catches all URI not explicitly declared in code
First try to find and return the requested file from the filesystem,
and if it fails, return a 404 page with debug information
*/
void handleNotFound()
{
void handleNotFound() {
#ifdef ESP8266
String uri = ESP8266WebServer::urlDecode(HTTP.uri()); // required to read paths with blanks
String uri = ESP8266WebServer::urlDecode(HTTP.uri()); // required to read paths with blanks
#endif
#ifdef ESP32
String uri = WebServer::urlDecode(HTTP.uri()); // required to read paths with blanks
String uri = WebServer::urlDecode(HTTP.uri()); // required to read paths with blanks
#endif
if (handleFileRead(uri))
{
if (handleFileRead(uri)) {
return;
}
@@ -667,8 +575,7 @@ void handleNotFound()
message += F("\nArguments: ");
message += HTTP.args();
message += '\n';
for (uint8_t i = 0; i < HTTP.args(); i++)
{
for (uint8_t i = 0; i < HTTP.args(); i++) {
message += F(" NAME:");
message += HTTP.argName(i);
message += F("\n VALUE:");
@@ -678,7 +585,7 @@ void handleNotFound()
message += "path=";
message += HTTP.arg("path");
message += '\n';
// DBG_OUTPUT_PORT.print(message);
// DBG_OUTPUT_PORT.print(message);
return replyNotFound(message);
}
@@ -689,10 +596,8 @@ void handleNotFound()
embedded in the program code.
Otherwise, fails with a 404 page with debug information
*/
void handleGetEdit()
{
if (handleFileRead(F("/edit.htm")))
{
void handleGetEdit() {
if (handleFileRead(F("/edit.htm"))) {
return;
}

38
src/WsServer.cpp
View File

@@ -450,25 +450,27 @@ void sendFileToWsByFrames(const String& filename, const String& header,
}
void sendStringToWs(const String& header, String& payload, int client_id) {
if (!(WiFi.softAPgetStationNum() || isNetworkActive())) {
return;
}
if ((!getNumAPClients() && !isNetworkActive()) || !getNumWSClients()) {
// standWebSocket.disconnect(); // это и ниже надо сделать при -
// standWebSocket.close(); // - отключении AP И WiFi(STA), надо менять ядро WiFi. Сейчас не закрывается сессия клиента при пропаже AP И WiFi(STA)
return;
}
if (header.length() != 6) {
SerialPrint("E", "FS", F("wrong header size"));
return;
}
if (header.length() != 6) {
SerialPrint("E", "FS", F("wrong header size"));
return;
}
String msg = header + "|0012|" + payload;
size_t totalSize = msg.length();
String msg = header + "|0012|" + payload;
size_t totalSize = msg.length();
char dataArray[totalSize];
msg.toCharArray(dataArray, totalSize + 1);
if (client_id == -1) {
standWebSocket.broadcastBIN((uint8_t*)dataArray, totalSize);
} else {
standWebSocket.sendBIN(client_id, (uint8_t*)dataArray, totalSize);
}
char dataArray[totalSize];
msg.toCharArray(dataArray, totalSize + 1);
if (client_id == -1) {
standWebSocket.broadcastBIN((uint8_t*)dataArray, totalSize);
} else {
standWebSocket.sendBIN(client_id, (uint8_t*)dataArray, totalSize);
}
}
void sendDeviceList(uint8_t num) {
@@ -483,3 +485,7 @@ void sendDeviceList(uint8_t num) {
SerialPrint("i", "FS", "flash list");
}
}
int getNumWSClients() {
return standWebSocket.connectedClients(false);
}

24
src/classes/IoTItem.cpp
View File

@@ -7,9 +7,7 @@
IoTItem::IoTItem(const String& parameters) {
jsonRead(parameters, F("int"), _interval, false);
if (_interval == 0) enableDoByInt = false; // выключаем использование периодического выполнения в модуле
if (_interval > 0) _interval = _interval * 1000; // если int положителен, то считаем, что получены секунды
if (_interval < 0) _interval = _interval * -1; // если int отрицательный, то миллисекунды
setInterval(_interval);
jsonRead(parameters, F("subtype"), _subtype, false);
jsonRead(parameters, F("id"), _id);
if (!jsonRead(parameters, F("multiply"), _multiply, false)) _multiply = 1;
@@ -38,12 +36,16 @@ IoTItem::IoTItem(const String& parameters) {
setValue(valAsStr, false);
}
void IoTItem::suspendNextDoByInt(unsigned long _delay) { // 0 - force
nextMillis = millis() + _delay;
}
void IoTItem::loop() {
if (enableDoByInt) {
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= _interval) {
prevMillis = millis();
unsigned long currentMillis = millis(); // _interval должен быть < 2147483647 мс (24 суток)
if (nextMillis - currentMillis > 2147483647UL /*ULONG_MAX/2*/ ) {
nextMillis = currentMillis + _interval;
// SerialPrint(F("i"), _id, "this->doByInterval");
this->doByInterval();
}
}
@@ -202,7 +204,13 @@ bool IoTItem::isStrInID(const String& str) {
}
void IoTItem::setInterval(long interval) {
_interval = interval;
if (interval == 0) enableDoByInt = false; // выключаем использование периодического выполнения в модуле
else {
enableDoByInt = true;
if (interval > 0) _interval = interval * 1000; // если int положителен, то считаем, что получены секунды
else if (interval < 0) _interval = interval * -1; // если int отрицательный, то миллисекунды
}
// SerialPrint(F("i"), F("IoTItem"), "setInterval: " + _interval.toString);
}
IoTGpio* IoTItem::getGpioDriver() {

11
src/modules/display/NextionUpload/NextionUpload.cpp
View File

@@ -43,13 +43,16 @@ public:
#if defined ESP8266
if (!http.begin(_host, 80, _url))
{
#elif defined ESP32
if (!http.begin(String("http://") + _host + _url))
{
#endif
// Serial.println("connection failed");
SerialPrint("I", F("NextionUpdate"), "connection failed ");
}
#elif defined ESP32
if (!http.begin(String("http://") + _host + _url))
{
// Serial.println("connection failed");
SerialPrint("I", F("NextionUpdate"), "connection failed ");
}
#endif
SerialPrint("I", F("NextionUpdate"), "Requesting file: " + (String)_url);
int code = http.GET();

174
src/modules/display/Oled128/Oled128.cpp Normal file
View File

@@ -0,0 +1,174 @@
#include "Global.h"
#include "classes/IoTItem.h"
#include <GyverOLED.h>
GyverOLED<SSD1306_128x64, OLED_BUFFER> oled;
// GyverOLED<SSD1306_128x32, OLED_BUFFER> oled;
// GyverOLED<SSD1306_128x32, OLED_NO_BUFFER> oled;
// GyverOLED<SSD1306_128x64, OLED_NO_BUFFER> oled;
// GyverOLED<SSD1306_128x64, OLED_BUFFER, OLED_SPI, 8, 7, 6> oled;
// GyverOLED<SSH1106_128x64> oled;
class Oled128 : public IoTItem {
private:
unsigned int _x;
unsigned int _y;
unsigned int _k;
int _shrift;
String _id2show;
String _descr;
String _descr1;
int _prevStrSize;
bool _isShow = true; // экран показывает
public:
Oled128(String parameters) : IoTItem(parameters) {
String addr, size, xy, k;
_prevStrSize = 0;
jsonRead(parameters, "addr", addr);
if (addr == "") {
// scanI2C();
return;
}
jsonRead(parameters, "coord", xy);
_x = selectFromMarkerToMarker(xy, ",", 0).toInt();
_y = selectFromMarkerToMarker(xy, ",", 1).toInt();
jsonRead(parameters, "descr", _descr);
jsonRead(parameters, "id2show", _id2show);
jsonRead(parameters, "descr1", _descr1);
// jsonRead(parameters, "scale", _k);
jsonRead(parameters, "shrift", _shrift);
// Wire.begin(2,0); // Инициализация шины I2C для модуля E01
oled.init(); // инициализация экрана
}
void doByInterval() {
printBlankStr(_prevStrSize);
String tmpStr = "";
// if (_descr != "none") tmpStr = _descr + " " + getItemValue(_id2show);
if (_descr != "none")
tmpStr = _descr + " " + getItemValue(_id2show) + " " + _descr1;
else
tmpStr = getItemValue(_id2show);
// oled.setScale(2);
oled.setScale(_shrift);
oled.setCursorXY(_x, _y);
oled.print(tmpStr);
oled.update();
_prevStrSize = tmpStr.length();
}
IoTValue execute(String command, std::vector<IoTValue> &param) { // будет возможным использовать, когда сценарии запустятся
if (command == "scroll") {
String tmpStr = "";
oled.clear();
uint32_t tmr = millis();
oled.autoPrintln(false);
int val = 128;
for (;;) {
// oled.clear(); // ЗАКОММЕНТИРУЙ, ЕСЛИ ВКЛЮЧЕН БУФЕР
// oled.setScale(2);
oled.setScale(_shrift);
oled.setCursor(val, _y);
oled.print(tmpStr);
oled.update();
val--;
if (millis() - tmr > 5000)
; // return;
_isShow = true;
}
}
else if (command == "stopscroll") {
_isShow = true;
// display->backlight();
// else if (command == "noDisplay") {
// display->noDisplay();
// _isShow = false;
} else if (command == "display") {
// display.display();
_isShow = true;
} else if (command == "toggle") {
if (_isShow) {
// display->noDisplay();
_isShow = false;
} else {
// display.display();
_isShow = true;
}
} else if (command == "x") {
if (param.size()) {
_x = param[0].valD;
}
} else if (command == "y") {
if (param.size()) {
_y = param[0].valD;
}
} else if (command == "descr") {
if (param.size()) {
_descr = param[0].valS;
}
} else if (command == "descr1") {
if (param.size()) {
_descr1 = param[0].valS;
}
} else if (command == "id2show") {
if (param.size()) {
_id2show = param[0].valS;
}
}
doByInterval();
return {};
}
// печать пустой строки нужной длинны для затирания предыдущего значения на экране
void printBlankStr(int strSize) {
String tmpStr = "";
for (int i = 0; i < strSize; i++) tmpStr += " ";
// oled.setScale(2);
oled.setScale(_shrift);
oled.setCursorXY(_x, _y);
oled.print(tmpStr);
}
~Oled128(){};
};
void *getAPI_Oled128(String subtype, String param) {
if (subtype == F("Oled128")) {
return new Oled128(param);
} else {
return nullptr;
}
}

86
src/modules/display/Oled128/modinfo.json Normal file
View File

@@ -0,0 +1,86 @@
{
"menuSection": "screens",
"configItem": [
{
"name": "OLED экран 128*64",
"type": "Reading",
"subtype": "Oled128",
"id": "oled",
"widget": "",
"page": "",
"descr": "T",
"descr1": "C",
"int": 1,
"addr": "0x3C",
"coord": "0,10",
"id2show": "id датчика",
"shrift": "2"
}
],
"about": {
"authorName": "Serghei Crasnicov",
"authorContact": "https://t.me/Serghei63",
"authorGit": "https://github.com/Serghei63",
"specialThanks": "Ilya Belyakov @Biveraxe",
"moduleName": "Oled128",
"moduleVersion": "1.0",
"moduleDesc": "Позволяет выводить на матричные Oled экраны по указанным позициям значения других элементов конфигурации.",
"usedRam": 15,
"propInfo": {
"int": "Период времени в секундах обновления информации на экране по конкретному элементу.",
"addr": "Адрес устройства на шине, обычно 0x3c.",
"coord": "Координата позиции для вывода данных элемента конфигурации.",
"id2show": "id элемента конфигурации.",
"shrift": "Шрифт текста от 1 до 4 "
},
"funcInfo": [
{
"name": "x",
"descr": "Устанавливает первую координату",
"params": [
"Номер строки первого символа"
]
},
{
"name": "y",
"descr": "Устанавливает вторую координату",
"params": [
"Номер столбца первого символа"
]
},
{
"name": "descr",
"descr": "Задает приставку слева от значения, если none значит пусто",
"params": [
"Строка"
]
},
{
"name": "descr1",
"descr": "Задает приставку справа от значения. Если descr none , то не выводится",
"params": [
"Строка"
]
},
{
"name": "id2show",
"descr": "Задает ИД элемента, значение которого хотим отображать на экране",
"params": [
"Имя элемента конфигурации"
]
}
]
},
"defActive": false,
"usedLibs": {
"esp32_4mb": [
"gyverlibs/GyverOLED @ 1.4"
],
"esp32_16mb": [
"gyverlibs/GyverOLED @ 1.4"
],
"esp8266_4mb": [
"gyverlibs/GyverOLED @ 1.4"
]
}
}

40
src/modules/exec/ButtonOut/ButtonOut.cpp
View File

@@ -3,24 +3,28 @@
extern IoTGpio IoTgpio;
class ButtonOut : public IoTItem {
private:
int _pin, _inv;
int _pin;
bool _inv;
public:
ButtonOut(String parameters): IoTItem(parameters) {
jsonRead(parameters, "pin", _pin);
jsonRead(parameters, "inv", _inv);
_round = 0;
IoTgpio.pinMode(_pin, OUTPUT);
IoTgpio.digitalWrite(_pin, _inv?!value.valD:value.valD);
enableDoByInt = false;
}
void doByInterval() {
//value.valD = IoTgpio.analogRead(_pin);
int val = _inv?1:0;
IoTgpio.digitalWrite(_pin, val);
// SerialPrint("I", "ButtonOut","single pulse end");
value.valD = 0;
regEvent(0, "ButtonOut");
enableDoByInt = false;
//regEvent(value.valD, "ButtonOut"); //обязательный вызов хотяб один
}
@@ -30,24 +34,40 @@ class ButtonOut : public IoTItem {
// param - вектор ("массив") значений параметров переданных вместе с командой: ID.Команда("пар1", 22, 33) -> param[0].ValS = "пар1", param[1].ValD = 22
if (command == "change") {
value.valD = 1 - IoTgpio.digitalRead(_pin);
IoTgpio.digitalWrite(_pin, value.valD);
value.valD = 1 - (int)value.valD;
IoTgpio.digitalWrite(_pin, _inv?!value.valD:value.valD);
regEvent(value.valD, "ButtonOut");
}
else if (command == "pulse") {
if (param[0].isDecimal && (param[0].valD != 0)) {
value.valD = !_inv?1:0;
enableDoByInt = true;
// SerialPrint("I", "ButtonOut","single pulse start");
regEvent((String)(int)!_inv?1:0, "ButtonOut");
suspendNextDoByInt(param[0].valD);
IoTgpio.digitalWrite(_pin, !_inv?1:0);
}
}
return {}; // команда поддерживает возвращаемое значения. Т.е. по итогу выполнения команды или общения с внешней системой, можно вернуть значение в сценарий для дальнейшей обработки
}
void setValue(const IoTValue& Value, bool genEvent = true) {
value = Value;
IoTgpio.digitalWrite(_pin, _inv?!value.valD:value.valD);
if ((value.valD == !_inv?1:0) && (_interval != 0)) {
value.valD = !_inv?1:0;
enableDoByInt = true;
// SerialPrint("I", "ButtonOut","single pulse start");
suspendNextDoByInt(_interval);
} else {
enableDoByInt = false;
}
regEvent((String)(int)value.valD, "ButtonOut", false, genEvent);
IoTgpio.digitalWrite(_pin, _inv?!value.valD:value.valD);
}
String getValue() {
return (String)(int)value.valD;
}
//=======================================================================================================
~ButtonOut() {};
};

5
src/modules/exec/ButtonOut/modinfo.json
View File

@@ -39,6 +39,11 @@
"name": "change",
"descr": "Инвертирует значение переключателя",
"params": []
},
{
"name": "pulse",
"descr": "Генерирует одиночный импульс",
"params": ["Длительность (ms)"]
}
]
},

11
src/modules/exec/Buzzer/Buzzer.cpp
View File

@@ -79,16 +79,7 @@ public:
case 1:
// for doByIntervals
if (enableDoByInt)
{
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= _interval)
{
prevMillis = millis();
this->doByInterval();
}
}
IoTItem::loop();
break;
case 2:

2
src/modules/exec/HttpGet/HttpGet.cpp
View File

@@ -10,7 +10,7 @@ public:
void sendHttpPOST(String url, String msg)
{
if (WiFi.status() == WL_CONNECTED)
if (isNetworkActive())
{
WiFiClient client;

2
src/modules/exec/IoTServo/modinfo.json
View File

@@ -7,7 +7,7 @@
"type": "Writing",
"subtype": "IoTServo",
"id": "servo",
"widget": "range",
"widget": "rangeServo",
"page": "servo",
"descr": "угол",
"int": 1,

5
src/modules/exec/MySensors/MySensorsGate.cpp
View File

@@ -3,6 +3,11 @@
#include "Arduino.h"
#include "MySensorsGate.h"
// временное решение
unsigned long currentMillis;
unsigned long prevMillis;
unsigned long difference;
#ifdef MYSENSORS
// callback библиотеки mysensors
void receive(const MyMessage& message) {

2
src/modules/exec/TelegramLT/TelegramLT.cpp
View File

@@ -13,7 +13,7 @@ class TelegramLT : public IoTItem {
}
void sendTelegramMsg(bool often, String msg) {
if (WiFi.status() == WL_CONNECTED && (often || !often && _prevMsg != msg)) {
if (isNetworkActive() && (often || !often && _prevMsg != msg)) {
WiFiClient client;
HTTPClient http;
http.begin(client, "http://live-control.com/iotm/telegram.php");

5
src/modules/exec/Thermostat/Thermostat.cpp
View File

@@ -246,6 +246,11 @@ protected:
pv_last = pv;
}
// временное решение
unsigned long currentMillis;
unsigned long prevMillis;
unsigned long difference;
void loop()
{
if (enableDoByInt)

8
src/modules/sensors/AnalogAdc/AnalogAdc.cpp
View File

@@ -64,13 +64,7 @@ class AnalogAdc : public IoTItem {
_avgSumm = _avgSumm + IoTgpio.analogRead(_pin);
_avgCount++;
}
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= _interval) {
prevMillis = millis();
this->doByInterval();
}
IoTItem::loop();
}
~AnalogAdc(){};

8
src/modules/sensors/ExampleModule/ExampleModule.cpp
View File

@@ -107,13 +107,7 @@ public:
adc = IoTgpio.analogRead(_pin);
// Блок вызова doByInterval, так как если определили loop, то сам он не вызовится
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= _interval)
{
prevMillis = millis();
this->doByInterval();
}
IoTItem::loop();
}
~ExampleModule_A()

15
src/modules/sensors/ExternalMQTT/ExternalMQTT.cpp
View File

@@ -17,6 +17,7 @@ private:
bool _isJson;
bool _addPrefix;
bool _debug;
bool sendOk = false;
public:
ExternalMQTT(String parameters) : IoTItem(parameters)
@@ -26,10 +27,12 @@ public:
jsonRead(parameters, F("red"), red);
jsonRead(parameters, F("offline"), offline);
_topic = jsonReadStr(parameters, "topic");
_isJson = jsonReadBool(parameters, "isJson");
_addPrefix = jsonReadBool(parameters, "addPrefix");
_debug = jsonReadBool(parameters, "debug");
jsonRead(parameters, "isJson", _isJson);
jsonRead(parameters, "addPrefix", _addPrefix);
jsonRead(parameters, "debug", _debug);
dataFromNode = false;
if (mqttIsConnect())
sendOk = true;
mqttSubscribeExternal(_topic, _addPrefix);
}
char *TimeToString(unsigned long t)
@@ -58,6 +61,7 @@ public:
{
return;
}
if (_isJson)
{
DynamicJsonDocument doc(JSON_BUFFER_SIZE);
@@ -106,6 +110,11 @@ public:
{
_minutesPassed++;
setNewWidgetAttributes();
if (mqttIsConnect() && !sendOk)
{
sendOk = true;
mqttSubscribeExternal(_topic, _addPrefix);
}
}
void onMqttWsAppConnectEvent()
{

21
src/modules/sensors/Sds011/Sds011.cpp
View File

@@ -157,16 +157,17 @@ public:
void loop()
{
ts_sds.update();
if (enableDoByInt)
{
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= _interval)
{
prevMillis = millis();
this->doByInterval();
}
}
IoTItem::loop();
// if (enableDoByInt)
// {
// currentMillis = millis();
// difference = currentMillis - prevMillis;
// if (difference >= _interval)
// {
// prevMillis = millis();
// this->doByInterval();
// }
// }
}
//=======================================================================================================
// doByInterval()

39
src/modules/virtual/GoogleSheet/GoogleSheet.cpp
View File

@@ -10,7 +10,7 @@ private:
String scid = "";
String shname = "";
// bool init = false;
int interval = 1;
// int interval = 1;
// long interval;
String URL = ("http://iotmanager.org/projects/google.php?/macros/s/"); // F("https://script.google.com/macros/s/");
String urlFinal;
@@ -24,14 +24,17 @@ public:
jsonRead(parameters, F("logid"), logid);
jsonRead(parameters, F("scid"), scid);
jsonRead(parameters, F("shname"), shname);
jsonRead(parameters, F("int"), interval);
interval = interval * 1000 * 60; // так как у нас в минутах
// jsonRead(parameters, F("int"), interval);
long interval;
jsonRead(parameters, F("int"), interval); // в минутах
setInterval(interval * 60);
// interval = interval * 1000 * 60; // так как у нас в минутах
urlFinal = URL + scid + F("/exec?") + F("sheet=") + shname;
}
void doByInterval()
{
if (WiFi.status() == WL_CONNECTED)
if (isNetworkActive())
{
String value = getItemValue(logid);
if (value != "")
@@ -39,23 +42,23 @@ public:
}
}
void loop()
{
if (enableDoByInt)
{
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= interval)
{
prevMillis = millis();
this->doByInterval();
}
}
}
// void loop()
// {
// if (enableDoByInt)
// {
// currentMillis = millis();
// difference = currentMillis - prevMillis;
// if (difference >= interval)
// {
// prevMillis = millis();
// this->doByInterval();
// }
// }
// }
IoTValue execute(String command, std::vector<IoTValue> &param)
{
if (WiFi.status() == WL_CONNECTED)
if (isNetworkActive())
{
if (command == F("logGoogle"))
{ // Логирование определенного элемента по его идентификатору в GoogleSheet

31
src/modules/virtual/Loging/Loging.cpp
View File

@@ -23,7 +23,7 @@ class Loging : public IoTItem {
String prevDate = "";
bool firstTimeInit = true;
long interval;
// long interval;
public:
Loging(String parameters) : IoTItem(parameters) {
@@ -34,8 +34,9 @@ class Loging : public IoTItem {
points = 300;
SerialPrint("E", F("Loging"), "'" + id + "' user set more points than allowed, value reset to 300");
}
jsonRead(parameters, F("int"), interval);
interval = interval * 1000 * 60; // приводим к милисекундам
long interval;
jsonRead(parameters, F("int"), interval); // в минутах
setInterval(interval * 60);
//jsonRead(parameters, F("keepdays"), keepdays, false);
// создадим экземпляр класса даты
@@ -303,18 +304,18 @@ class Loging : public IoTItem {
return "";
}
void loop() {
if (enableDoByInt) {
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= interval) {
prevMillis = millis();
if (interval != 0) {
this->doByInterval();
}
}
}
}
// void loop() {
// if (enableDoByInt) {
// currentMillis = millis();
// difference = currentMillis - prevMillis;
// if (difference >= interval) {
// prevMillis = millis();
// if (interval != 0) {
// this->doByInterval();
// }
// }
// }
// }
void regEvent(const String &value, const String &consoleInfo, bool error = false, bool genEvent = true) {
String userDate = getItemValue(id + "-date");

27
src/modules/virtual/LogingDaily/LogingDaily.cpp
View File

@@ -25,7 +25,7 @@ class LogingDaily : public IoTItem {
String prevDate = "";
bool firstTimeInit = true;
long interval;
// long interval;
public:
LogingDaily(String parameters) : IoTItem(parameters) {
@@ -40,8 +40,9 @@ class LogingDaily : public IoTItem {
points = 365;
SerialPrint("E", F("LogingDaily"), "'" + id + "' user set more points than allowed, value reset to 365");
}
jsonRead(parameters, F("int"), interval);
interval = interval * 1000 * 60; // приводим к милисекундам
long interval;
jsonRead(parameters, F("int"), interval); // в минутах
setInterval(interval * 60);
}
void doByInterval() {
@@ -225,16 +226,16 @@ class LogingDaily : public IoTItem {
return "";
}
void loop() {
if (enableDoByInt) {
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= interval) {
prevMillis = millis();
this->doByInterval();
}
}
}
// void loop() {
// if (enableDoByInt) {
// currentMillis = millis();
// difference = currentMillis - prevMillis;
// if (difference >= interval) {
// prevMillis = millis();
// this->doByInterval();
// }
// }
// }
// просто максимальное количество точек
int calculateMaxCount() {

37
src/modules/virtual/Weather/Weather.cpp
View File

@@ -11,22 +11,23 @@ class Weather : public IoTItem
private:
String _location;
String _param;
long interval;
// long interval;
public:
Weather(String parameters) : IoTItem(parameters)
{
_location = jsonReadStr(parameters, "location");
_param = jsonReadStr(parameters, "param");
jsonRead(parameters, F("int"), interval);
interval = interval * 1000 * 60 * 60; // интервал проверки погоды в часах
long interval;
jsonRead(parameters, F("int"), interval); // интервал проверки погоды в часах
setInterval(interval * 60 * 60);
}
void getWeather()
{
String ret;
if (WiFi.status() == WL_CONNECTED)
if (isNetworkActive())
{
// char c;
String payload;
@@ -113,19 +114,21 @@ public:
regEvent(value.valS, "Weather");
}
}
void loop()
{
if (enableDoByInt)
{
currentMillis = millis();
difference = currentMillis - prevMillis;
if (difference >= interval)
{
prevMillis = millis();
this->doByInterval();
}
}
}
// void loop()
// {
// if (enableDoByInt)
// {
// currentMillis = millis();
// difference = currentMillis - prevMillis;
// if (difference >= interval)
// {
// prevMillis = millis();
// this->doByInterval();
// }
// }
// }
IoTValue execute(String command, std::vector<IoTValue> &param)
{
if (command == "get")

8
src/utils/SerialPrint.cpp
View File

@@ -11,11 +11,11 @@ void SerialPrint(const String& errorLevel, const String& module, const String& m
tosend += msg;
Serial.println(tosend);
if (isNetworkActive()) {
if (jsonReadInt(settingsFlashJson, F("log")) != 0) {
sendStringToWs(F("corelg"), tosend, -1);
}
// if (isNetworkActive()) { // все проверки происходят в sendStringToWs()
if (jsonReadInt(settingsFlashJson, F("log")) != 0) {
sendStringToWs(F("corelg"), tosend, -1);
}
// }
if (errorLevel == "E") {
cleanString(tosend);

2
src/utils/Statistic.cpp
View File

@@ -20,7 +20,7 @@ void updateDeviceStatus() {
// jsonRead(settingsFlashJson, F("serverip"), serverIP);
String url = serverIP + F("/projects/esprebootstat.php");
// SerialPrint("i", "Stat", "url " + url);
if ((WiFi.status() == WL_CONNECTED)) {
if ((isNetworkActive())) {
WiFiClient client;
HTTPClient http;
http.begin(client, url);

63
src/utils/WiFiUtils.cpp
View File

@@ -171,40 +171,31 @@ boolean RouterFind(std::vector<String> jArray)
return res;
}
// boolean isNetworkActive() {
// return WiFi.status() == WL_CONNECTED;
// }
uint8_t RSSIquality()
{
uint8_t res = 0;
if (WiFi.status() == WL_CONNECTED)
{
int rssi = WiFi.RSSI();
if (rssi >= -50)
{
res = 6; //"Excellent";
}
else if (rssi < -50 && rssi >= -60)
{
res = 5; //"Very good";
}
else if (rssi < -60 && rssi >= -70)
{
res = 4; //"Good";
}
else if (rssi < -70 && rssi >= -80)
{
res = 3; //"Low";
}
else if (rssi < -80 && rssi > -100)
{
res = 2; //"Very low";
}
else if (rssi <= -100)
{
res = 1; //"No signal";
}
}
return res;
boolean isNetworkActive() {
return WiFi.status() == WL_CONNECTED;
}
uint8_t getNumAPClients() {
return WiFi.softAPgetStationNum();
}
uint8_t RSSIquality() {
uint8_t res = 0;
if (isNetworkActive()) {
int rssi = WiFi.RSSI();
if (rssi >= -50) {
res = 6; //"Excellent";
} else if (rssi < -50 && rssi >= -60) {
res = 5; //"Very good";
} else if (rssi < -60 && rssi >= -70) {
res = 4; //"Good";
} else if (rssi < -70 && rssi >= -80) {
res = 3; //"Low";
} else if (rssi < -80 && rssi > -100) {
res = 2; //"Very low";
} else if (rssi <= -100) {
res = 1; //"No signal";
}
}
return res;
}