#include "server_tflite.h" #include #include #include "string.h" #include "esp_log.h" #include #include #include "../../include/defines.h" #include "Helper.h" #include "statusled.h" #include "esp_camera.h" #include "time_sntp.h" #include "ClassControllCamera.h" #include "ClassFlowControll.h" #include "ClassLogFile.h" #include "server_GPIO.h" #include "server_file.h" #include "read_wlanini.h" #include "connect_wlan.h" ClassFlowControll tfliteflow; TaskHandle_t xHandletask_autodoFlow = NULL; bool bTaskAutoFlowCreated = false; bool flowisrunning = false; long auto_interval = 0; bool auto_isrunning = false; int countRounds = 0; bool isPlannedReboot = false; static const char *TAG = "TFLITE SERVER"; //#define DEBUG_DETAIL_ON void CheckIsPlannedReboot() { FILE *pfile; if ((pfile = fopen("/sdcard/reboot.txt", "r")) == NULL) { //LogFile.WriteToFile(ESP_LOG_DEBUG, TAG, "Initial boot or not a planned reboot"); isPlannedReboot = false; } else { LogFile.WriteToFile(ESP_LOG_DEBUG, TAG, "Planned reboot"); DeleteFile("/sdcard/reboot.txt"); // Prevent Boot Loop!!! isPlannedReboot = true; } } bool getIsPlannedReboot() { return isPlannedReboot; } int getCountFlowRounds() { return countRounds; } esp_err_t GetJPG(std::string _filename, httpd_req_t *req) { return tfliteflow.GetJPGStream(_filename, req); } esp_err_t GetRawJPG(httpd_req_t *req) { return tfliteflow.SendRawJPG(req); } bool isSetupModusActive() { return tfliteflow.getStatusSetupModus(); return false; } void KillTFliteTasks() { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "KillTFliteTasks: xHandletask_autodoFlow: %ld", (long) xHandletask_autodoFlow); #endif if( xHandletask_autodoFlow != NULL ) { vTaskDelete(xHandletask_autodoFlow); xHandletask_autodoFlow = NULL; } #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Killed: xHandletask_autodoFlow"); #endif } void doInit(void) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Start tfliteflow.InitFlow(config);"); #endif tfliteflow.InitFlow(CONFIG_FILE); #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Finished tfliteflow.InitFlow(config);"); #endif /* GPIO handler has to be initialized before MQTT init to ensure proper topic subscription */ gpio_handler_init(); #ifdef ENABLE_MQTT tfliteflow.StartMQTTService(); #endif //ENABLE_MQTT } bool doflow(void) { std::string zw_time = getCurrentTimeString(LOGFILE_TIME_FORMAT); ESP_LOGD(TAG, "doflow - start %s", zw_time.c_str()); flowisrunning = true; tfliteflow.doFlow(zw_time); flowisrunning = false; #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "doflow - end %s", zw_time.c_str()); #endif return true; } esp_err_t handler_get_heap(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_get_heap - Start"); ESP_LOGD(TAG, "handler_get_heap uri: %s", req->uri); #endif std::string zw = "Heap info:
" + getESPHeapInfo(); #ifdef TASK_ANALYSIS_ON char* pcTaskList = (char*) heap_caps_calloc(1, sizeof(char) * 768, MALLOC_CAP_8BIT | MALLOC_CAP_SPIRAM); if (pcTaskList) { vTaskList(pcTaskList); zw = zw + "

Task info:

Name | State | Prio | Lowest stacksize | Creation order | CPU (-1=NoAffinity)
"
                    + std::string(pcTaskList) + "

"; heap_caps_free(pcTaskList); } else { zw = zw + "

Task info:
ERROR - Allocation of TaskList buffer in PSRAM failed"; } #endif httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); if (zw.length() > 0) { httpd_resp_send(req, zw.c_str(), zw.length()); } else { httpd_resp_send(req, NULL, 0); } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_get_heap - Done"); #endif return ESP_OK; } esp_err_t handler_init(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_init - Start"); ESP_LOGD(TAG, "handler_doinit uri: %s", req->uri); #endif httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); const char* resp_str = "Init started
"; httpd_resp_send(req, resp_str, HTTPD_RESP_USE_STRLEN); doInit(); resp_str = "Init done
"; httpd_resp_send(req, resp_str, HTTPD_RESP_USE_STRLEN); #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_init - Done"); #endif return ESP_OK; } esp_err_t handler_flow_start(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_flow_start - Start"); #endif ESP_LOGD(TAG, "handler_flow_start uri: %s", req->uri); httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); if (auto_isrunning) { xTaskAbortDelay(xHandletask_autodoFlow); // Delay will be aborted if task is in blocked (waiting) state. If task is already running, no action LogFile.WriteToFile(ESP_LOG_DEBUG, TAG, "Flow start triggered by REST API /flow_start"); const char* resp_str = "The flow is going to be started immediately or is already running"; httpd_resp_send(req, resp_str, HTTPD_RESP_USE_STRLEN); } else { LogFile.WriteToFile(ESP_LOG_WARN, TAG, "Flow start triggered by REST API, but flow is not active!"); const char* resp_str = "WARNING: Flow start triggered by REST API, but flow is not active"; httpd_resp_send(req, resp_str, HTTPD_RESP_USE_STRLEN); } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_flow_start - Done"); #endif return ESP_OK; } #ifdef ENABLE_MQTT esp_err_t MQTTCtrlFlowStart(std::string _topic) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("MQTTCtrlFlowStart - Start"); #endif ESP_LOGD(TAG, "MQTTCtrlFlowStart: topic %s", _topic.c_str()); if (auto_isrunning) { xTaskAbortDelay(xHandletask_autodoFlow); // Delay will be aborted if task is in blocked (waiting) state. If task is already running, no action LogFile.WriteToFile(ESP_LOG_DEBUG, TAG, "Flow start triggered by MQTT topic " + _topic); } else { LogFile.WriteToFile(ESP_LOG_WARN, TAG, "Flow start triggered by MQTT topic " + _topic + ", but flow is not active!"); } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("MQTTCtrlFlowStart - Done"); #endif return ESP_OK; } #endif //ENABLE_MQTT esp_err_t handler_json(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_json - Start"); #endif ESP_LOGD(TAG, "handler_JSON uri: %s", req->uri); if (bTaskAutoFlowCreated) { httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_set_type(req, "application/json"); std::string zw = tfliteflow.getJSON(); if (zw.length() > 0) { httpd_resp_send(req, zw.c_str(), zw.length()); } else { httpd_resp_send(req, NULL, 0); } } else { httpd_resp_send_err(req, HTTPD_403_FORBIDDEN, "Flow not (yet) started: REST API /json not yet available!"); return ESP_ERR_NOT_FOUND; } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_JSON - Done"); #endif return ESP_OK; } esp_err_t handler_wasserzaehler(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler water counter - Start"); #endif if (bTaskAutoFlowCreated) { bool _rawValue = false; bool _noerror = false; bool _all = false; std::string _type = "value"; string zw; ESP_LOGD(TAG, "handler water counter uri: %s", req->uri); char _query[100]; char _size[10]; if (httpd_req_get_url_query_str(req, _query, 100) == ESP_OK) { // ESP_LOGD(TAG, "Query: %s", _query); if (httpd_query_key_value(_query, "all", _size, 10) == ESP_OK) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "all is found%s", _size); #endif _all = true; } if (httpd_query_key_value(_query, "type", _size, 10) == ESP_OK) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "all is found: %s", _size); #endif _type = std::string(_size); } if (httpd_query_key_value(_query, "rawvalue", _size, 10) == ESP_OK) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "rawvalue is found: %s", _size); #endif _rawValue = true; } if (httpd_query_key_value(_query, "noerror", _size, 10) == ESP_OK) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "noerror is found: %s", _size); #endif _noerror = true; } } httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); if (_all) { httpd_resp_set_type(req, "text/plain"); ESP_LOGD(TAG, "TYPE: %s", _type.c_str()); int _intype = READOUT_TYPE_VALUE; if (_type == "prevalue") _intype = READOUT_TYPE_PREVALUE; if (_type == "raw") _intype = READOUT_TYPE_RAWVALUE; if (_type == "error") _intype = READOUT_TYPE_ERROR; zw = tfliteflow.getReadoutAll(_intype); ESP_LOGD(TAG, "ZW: %s", zw.c_str()); if (zw.length() > 0) httpd_resp_send(req, zw.c_str(), zw.length()); return ESP_OK; } zw = tfliteflow.getReadout(_rawValue, _noerror); if (zw.length() > 0) httpd_resp_sendstr_chunk(req, zw.c_str()); string query = std::string(_query); // ESP_LOGD(TAG, "Query: %s, query.c_str()); if (query.find("full") != std::string::npos) { string txt, zw; std::string *status = tfliteflow.getActStatus(); if ((countRounds <= 1) && (*status != std::string("Flow finished"))) { // First round not completed yet txt = ""; txt += "

Please wait for the first round to complete!

Current state: " + *status + "

\n"; httpd_resp_sendstr_chunk(req, txt.c_str()); } else { /* Digital ROIs */ txt = ""; txt += "

Recognized Digit ROIs (previous round)

\n"; txt += "\n"; std::vector htmlinfodig; htmlinfodig = tfliteflow.GetAllDigital(); for (int i = 0; i < htmlinfodig.size(); ++i) { if (tfliteflow.GetTypeDigital() == Digital) { if (htmlinfodig[i]->val == 10) zw = "NaN"; else zw = to_string((int) htmlinfodig[i]->val); txt += "\n"; } else { std::stringstream stream; stream << std::fixed << std::setprecision(1) << htmlinfodig[i]->val; zw = stream.str(); txt += "\n"; } delete htmlinfodig[i]; } htmlinfodig.clear(); txt += "

" + zw + "

filename + "\">

" + zw + "

filename + "\">

\n"; httpd_resp_sendstr_chunk(req, txt.c_str()); /* Analog ROIs */ txt = "

Recognized Analog ROIs (previous round)

\n"; txt += "\n"; std::vector htmlinfoana; htmlinfoana = tfliteflow.GetAllAnalog(); for (int i = 0; i < htmlinfoana.size(); ++i) { std::stringstream stream; stream << std::fixed << std::setprecision(1) << htmlinfoana[i]->val; zw = stream.str(); txt += "\n"; delete htmlinfoana[i]; } htmlinfoana.clear(); txt += "\n

" + zw + "

filename + "\">

\n"; httpd_resp_sendstr_chunk(req, txt.c_str()); /* Full Image * Only show it after the image got taken and aligned */ txt = "

Aligned Image (current round)

\n"; if ((*status == std::string("Initialization")) || (*status == std::string("Initialization (delayed)")) || (*status == std::string("Take Image"))) { txt += "

Current state: " + *status + "

\n"; } else { txt += "

\n"; } httpd_resp_sendstr_chunk(req, txt.c_str()); } } /* Respond with an empty chunk to signal HTTP response completion */ httpd_resp_sendstr_chunk(req, NULL); } else { httpd_resp_send_err(req, HTTPD_403_FORBIDDEN, "Flow not (yet) started: REST API /value not available!"); return ESP_ERR_NOT_FOUND; } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_wasserzaehler - Done"); #endif return ESP_OK; } esp_err_t handler_editflow(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_editflow - Start"); #endif ESP_LOGD(TAG, "handler_editflow uri: %s", req->uri); char _query[200]; char _valuechar[30]; string _task; if (httpd_req_get_url_query_str(req, _query, 200) == ESP_OK) { if (httpd_query_key_value(_query, "task", _valuechar, 30) == ESP_OK) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "task is found: %s", _valuechar); #endif _task = string(_valuechar); } } if (_task.compare("namenumbers") == 0) { ESP_LOGD(TAG, "Get NUMBER list"); return get_numbers_file_handler(req); } if (_task.compare("data") == 0) { ESP_LOGD(TAG, "Get data list"); return get_data_file_handler(req); } if (_task.compare("tflite") == 0) { ESP_LOGD(TAG, "Get tflite list"); return get_tflite_file_handler(req); } if (_task.compare("copy") == 0) { string in, out, zw; httpd_query_key_value(_query, "in", _valuechar, 30); in = string(_valuechar); httpd_query_key_value(_query, "out", _valuechar, 30); out = string(_valuechar); #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "in: %s", in.c_str()); ESP_LOGD(TAG, "out: %s", out.c_str()); #endif in = "/sdcard" + in; out = "/sdcard" + out; CopyFile(in, out); zw = "Copy Done"; httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, zw.c_str(), zw.length()); } if (_task.compare("cutref") == 0) { string in, out, zw; int x, y, dx, dy; bool enhance = false; httpd_query_key_value(_query, "in", _valuechar, 30); in = string(_valuechar); httpd_query_key_value(_query, "out", _valuechar, 30); out = string(_valuechar); httpd_query_key_value(_query, "x", _valuechar, 30); zw = string(_valuechar); x = stoi(zw); httpd_query_key_value(_query, "y", _valuechar, 30); zw = string(_valuechar); y = stoi(zw); httpd_query_key_value(_query, "dx", _valuechar, 30); zw = string(_valuechar); dx = stoi(zw); httpd_query_key_value(_query, "dy", _valuechar, 30); zw = string(_valuechar); dy = stoi(zw); #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "in: %s", in.c_str()); ESP_LOGD(TAG, "out: %s", out.c_str()); ESP_LOGD(TAG, "x: %s", zw.c_str()); ESP_LOGD(TAG, "y: %s", zw.c_str()); ESP_LOGD(TAG, "dx: %s", zw.c_str()); ESP_LOGD(TAG, "dy: %s", zw.c_str()); #endif if (httpd_query_key_value(_query, "enhance", _valuechar, 10) == ESP_OK) { zw = string(_valuechar); if (zw.compare("true") == 0) { enhance = true; } } in = "/sdcard" + in; out = "/sdcard" + out; string out2 = out.substr(0, out.length() - 4) + "_org.jpg"; CAlignAndCutImage *caic = new CAlignAndCutImage(in); caic->CutAndSave(out2, x, y, dx, dy); delete caic; CImageBasis *cim = new CImageBasis(out2); if (enhance) { cim->Contrast(90); } cim->SaveToFile(out); delete cim; zw = "CutImage Done"; httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, zw.c_str(), zw.length()); } if (_task.compare("test_take") == 0) { std::string _host = ""; std::string _bri = ""; std::string _con = ""; std::string _sat = ""; std::string _int = ""; int bri = -100; int sat = -100; int con = -100; int intens = -100; if (httpd_query_key_value(_query, "host", _valuechar, 30) == ESP_OK) { _host = std::string(_valuechar); } if (httpd_query_key_value(_query, "int", _valuechar, 30) == ESP_OK) { _int = std::string(_valuechar); intens = stoi(_int); } if (httpd_query_key_value(_query, "bri", _valuechar, 30) == ESP_OK) { _bri = std::string(_valuechar); bri = stoi(_bri); } if (httpd_query_key_value(_query, "con", _valuechar, 30) == ESP_OK) { _con = std::string(_valuechar); con = stoi(_con); } if (httpd_query_key_value(_query, "sat", _valuechar, 30) == ESP_OK) { _sat = std::string(_valuechar); sat = stoi(_sat); } // ESP_LOGD(TAG, "Parameter host: %s", _host.c_str()); // string zwzw = "Do " + _task + " start\n"; ESP_LOGD(TAG, zwzw.c_str()); Camera.SetBrightnessContrastSaturation(bri, con, sat); Camera.SetLEDIntensity(intens); ESP_LOGD(TAG, "test_take - vor TakeImage"); std::string zw = tfliteflow.doSingleStep("[TakeImage]", _host); httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, zw.c_str(), zw.length()); } if (_task.compare("test_align") == 0) { std::string _host = ""; if (httpd_query_key_value(_query, "host", _valuechar, 30) == ESP_OK) { _host = std::string(_valuechar); } // ESP_LOGD(TAG, "Parameter host: %s", _host.c_str()); // string zwzw = "Do " + _task + " start\n"; ESP_LOGD(TAG, zwzw.c_str()); std::string zw = tfliteflow.doSingleStep("[Alignment]", _host); httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, zw.c_str(), zw.length()); } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_editflow - Done"); #endif return ESP_OK; } esp_err_t handler_statusflow(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_prevalue - Start"); #endif const char* resp_str; httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); if (bTaskAutoFlowCreated) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "handler_prevalue: %s", req->uri); #endif string* zw = tfliteflow.getActStatusWithTime(); resp_str = zw->c_str(); httpd_resp_send(req, resp_str, HTTPD_RESP_USE_STRLEN); } else { resp_str = "Flow task not yet created"; httpd_resp_send(req, resp_str, HTTPD_RESP_USE_STRLEN); } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_prevalue - Done"); #endif return ESP_OK; } esp_err_t handler_cputemp(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_cputemp - Start"); #endif httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, std::to_string((int)temperatureRead()).c_str(), HTTPD_RESP_USE_STRLEN); #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_cputemp - End"); #endif return ESP_OK; } esp_err_t handler_rssi(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_rssi - Start"); #endif if (getWIFIisConnected()) { httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, std::to_string(get_WIFI_RSSI()).c_str(), HTTPD_RESP_USE_STRLEN); } else { httpd_resp_send_err(req, HTTPD_403_FORBIDDEN, "WIFI not (yet) connected: REST API /rssi not available!"); return ESP_ERR_NOT_FOUND; } #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_rssi - End"); #endif return ESP_OK; } esp_err_t handler_uptime(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_uptime - Start"); #endif std::string formatedUptime = getFormatedUptime(false); httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, formatedUptime.c_str(), formatedUptime.length()); #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_uptime - End"); #endif return ESP_OK; } esp_err_t handler_prevalue(httpd_req_t *req) { #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_prevalue - Start"); #endif const char* resp_str; string zw; #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "handler_prevalue: %s", req->uri); #endif char _query[100]; char _size[10] = ""; char _numbers[50] = "default"; if (httpd_req_get_url_query_str(req, _query, 100) == ESP_OK) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Query: %s", _query); #endif if (httpd_query_key_value(_query, "value", _size, 10) == ESP_OK) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Value: %s", _size); #endif } httpd_query_key_value(_query, "numbers", _numbers, 50); } if (strlen(_size) == 0) { zw = tfliteflow.GetPrevalue(std::string(_numbers)); } else { zw = "SetPrevalue to " + tfliteflow.UpdatePrevalue(_size, _numbers, true); } resp_str = zw.c_str(); httpd_resp_set_hdr(req, "Access-Control-Allow-Origin", "*"); httpd_resp_send(req, resp_str, HTTPD_RESP_USE_STRLEN); #ifdef DEBUG_DETAIL_ON LogFile.WriteHeapInfo("handler_prevalue - End"); #endif return ESP_OK; } void task_autodoFlow(void *pvParameter) { int64_t fr_start, fr_delta_ms; bTaskAutoFlowCreated = true; if (!isPlannedReboot && (esp_reset_reason() == ESP_RST_PANIC)) { tfliteflow.setActStatus("Initialization (delayed)"); //#ifdef ENABLE_MQTT //MQTTPublish(mqttServer_getMainTopic() + "/" + "status", "Initialization (delayed)", false); // Right now, not possible -> MQTT Service is going to be started later //#endif //ENABLE_MQTT vTaskDelay(60*5000 / portTICK_PERIOD_MS); // Wait 5 minutes to give time to do an OTA update or fetch the log } ESP_LOGD(TAG, "task_autodoFlow: start"); doInit(); auto_isrunning = tfliteflow.isAutoStart(auto_interval); if (isSetupModusActive()) { auto_isrunning = false; std::string zw_time = getCurrentTimeString(LOGFILE_TIME_FORMAT); tfliteflow.doFlowTakeImageOnly(zw_time); } while (auto_isrunning) { LogFile.WriteToFile(ESP_LOG_DEBUG, TAG, "----------------------------------------------------------------"); // Clear separation between runs std::string _zw = "Round #" + std::to_string(++countRounds) + " started"; time_t roundStartTime = getUpTime(); LogFile.WriteToFile(ESP_LOG_INFO, TAG, _zw); fr_start = esp_timer_get_time(); if (flowisrunning) { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Autoflow: doFlow is already running!"); #endif } else { #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Autoflow: doFlow is started"); #endif flowisrunning = true; doflow(); #ifdef DEBUG_DETAIL_ON ESP_LOGD(TAG, "Remove older log files"); #endif LogFile.RemoveOldLogFile(); LogFile.RemoveOldDataLog(); } //Round finished -> Logfile LogFile.WriteToFile(ESP_LOG_INFO, TAG, "Round #" + std::to_string(countRounds) + " completed (" + std::to_string(getUpTime() - roundStartTime) + " seconds)"); //CPU Temp -> Logfile LogFile.WriteToFile(ESP_LOG_DEBUG, TAG, "CPU Temperature: " + std::to_string((int)temperatureRead()) + "°C"); // WIFI Signal Strength (RSSI) -> Logfile LogFile.WriteToFile(ESP_LOG_DEBUG, TAG, "WIFI Signal (RSSI): " + std::to_string(get_WIFI_RSSI()) + "dBm"); // Check if time is synchronized (if NTP is configured) if (getUseNtp() && !getTimeIsSet()) { LogFile.WriteToFile(ESP_LOG_WARN, TAG, "Time server is configured, but time is not yet set. Check configuration"); StatusLED(TIME_CHECK, 1, false); } fr_delta_ms = (esp_timer_get_time() - fr_start) / 1000; if (auto_interval > fr_delta_ms) { const TickType_t xDelay = (auto_interval - fr_delta_ms) / portTICK_PERIOD_MS; ESP_LOGD(TAG, "Autoflow: sleep for: %ldms", (long) xDelay); vTaskDelay( xDelay ); } } vTaskDelete(NULL); //Delete this task if it exits from the loop above xHandletask_autodoFlow = NULL; ESP_LOGD(TAG, "task_autodoFlow: end"); } void TFliteDoAutoStart() { BaseType_t xReturned; ESP_LOGD(TAG, "getESPHeapInfo: %s", getESPHeapInfo().c_str()); xReturned = xTaskCreatePinnedToCore(&task_autodoFlow, "task_autodoFlow", 16 * 1024, NULL, tskIDLE_PRIORITY+2, &xHandletask_autodoFlow, 0); //xReturned = xTaskCreate(&task_autodoFlow, "task_autodoFlow", 16 * 1024, NULL, tskIDLE_PRIORITY+2, &xHandletask_autodoFlow); if( xReturned != pdPASS ) { ESP_LOGD(TAG, "ERROR task_autodoFlow konnte nicht erzeugt werden!"); } ESP_LOGD(TAG, "getESPHeapInfo: %s", getESPHeapInfo().c_str()); } #ifdef ENABLE_MQTT std::string GetMQTTMainTopic() { return tfliteflow.GetMQTTMainTopic(); } #endif//ENABLE_MQTT void register_server_tflite_uri(httpd_handle_t server) { ESP_LOGI(TAG, "server_part_camera - Registering URI handlers"); httpd_uri_t camuri = { }; camuri.method = HTTP_GET; camuri.uri = "/doinit"; camuri.handler = handler_init; camuri.user_ctx = (void*) "Light On"; httpd_register_uri_handler(server, &camuri); // Legacy API => New: "/setPreValue" camuri.uri = "/setPreValue.html"; camuri.handler = handler_prevalue; camuri.user_ctx = (void*) "Prevalue"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/setPreValue"; camuri.handler = handler_prevalue; camuri.user_ctx = (void*) "Prevalue"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/flow_start"; camuri.handler = handler_flow_start; camuri.user_ctx = (void*) "Flow Start"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/statusflow.html"; camuri.handler = handler_statusflow; camuri.user_ctx = (void*) "Light Off"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/statusflow"; camuri.handler = handler_statusflow; camuri.user_ctx = (void*) "Light Off"; httpd_register_uri_handler(server, &camuri); // Legacy API => New: "/cpu_temperature" camuri.uri = "/cputemp.html"; camuri.handler = handler_cputemp; camuri.user_ctx = (void*) "Light Off"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/cpu_temperature"; camuri.handler = handler_cputemp; camuri.user_ctx = (void*) "Light Off"; httpd_register_uri_handler(server, &camuri); // Legacy API => New: "/rssi" camuri.uri = "/rssi.html"; camuri.handler = handler_rssi; camuri.user_ctx = (void*) "Light Off"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/rssi"; camuri.handler = handler_rssi; camuri.user_ctx = (void*) "Light Off"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/uptime"; camuri.handler = handler_uptime; camuri.user_ctx = (void*) "Light Off"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/editflow"; camuri.handler = handler_editflow; camuri.user_ctx = (void*) "EditFlow"; httpd_register_uri_handler(server, &camuri); // Legacy API => New: "/value" camuri.uri = "/value.html"; camuri.handler = handler_wasserzaehler; camuri.user_ctx = (void*) "Value"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/value"; camuri.handler = handler_wasserzaehler; camuri.user_ctx = (void*) "Value"; httpd_register_uri_handler(server, &camuri); // Legacy API => New: "/value" camuri.uri = "/wasserzaehler.html"; camuri.handler = handler_wasserzaehler; camuri.user_ctx = (void*) "Wasserzaehler"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/json"; camuri.handler = handler_json; camuri.user_ctx = (void*) "JSON"; httpd_register_uri_handler(server, &camuri); camuri.uri = "/heap"; camuri.handler = handler_get_heap; camuri.user_ctx = (void*) "Heap"; httpd_register_uri_handler(server, &camuri); }