#define VERTICAL 1 #define ENA_SPRITE 1 #include #include #include #include #include #include #include #include #include #include #include "time.h" #include "index.h" #undef VERTICAL #ifdef VERTICAL #include "font.h" #endif #include #include "esp_log.h" #include #include #include #include #include const char *ntpServer = "pool.ntp.org"; const char *tzone = "AEST-10AEDT,M10.1.0,M4.1.0/3"; Preferences preferences; TaskHandle_t wifitask; #define HARDWARE_TYPE MD_MAX72XX::FC16_HW #define MAX_DEVICES 16 #define CS_PIN 5 #define NUM_MESSAGES 20 #define MSG_SIZE 200 JsonDocument jsonDocument; JsonDocument jsonPumps; // ap const char *ssid = "dev test wip"; const char *password = "devtest123"; IPAddress dns1(1, 1, 1, 1); IPAddress dns2(8, 8, 8, 8); /* Put IP Address details */ IPAddress local_ip(192, 168, 1, 1); IPAddress gateway(192, 168, 1, 1); IPAddress subnet(255, 255, 255, 0); WebServer server(80); struct { int pos; int brightness; bool autoBrightness; int autoBrightnessValue; char cssid[256]; char cpassword[256]; char date[32]; } globalconf; char pumpmsg[MSG_SIZE]; struct message { bool enabled; bool invert; char msg[MSG_SIZE]; textEffect_t effect1; textEffect_t effect2; int scrollpause; int speed; }; bool wificonnected; bool displayon; void saveconfig(); void printLocalTime(); void loadconfig(); void defaultdata(); void handlecmd(); struct message messages[NUM_MESSAGES] = {0}; MD_Parola myDisplay = MD_Parola(HARDWARE_TYPE, CS_PIN, MAX_DEVICES); #define LIGHT_SENSOR_PIN GPIO_NUM_34 void handleroot() { server.send(200, "text/html", index_html); } Dictionary *pumpDic = new Dictionary(); void pumpstring() { /* pump1, pump2, pump3 ... vs thisvar=thisval, thatvar=thatval */ String body = server.arg("plain"); deserializeJson(jsonPumps, body); String msgjson = jsonPumps["pump"]; strncpy(pumpmsg, msgjson.c_str(), MSG_SIZE); printf("pump: %s\n", pumpmsg); printf("%s\n", body.c_str()); pumpDic->jload(body.c_str()); server.send(200, "text/html", pumpmsg); } void handlein() { // save String body = server.arg("plain"); deserializeJson(jsonDocument, body); int brightness = jsonDocument["brightness"]; bool autoBrightness = jsonDocument["autoBrightness"]; String cssid = jsonDocument["cssid"]; String cpassword = jsonDocument["cpassword"]; String date = jsonDocument["datep"]; globalconf.brightness = brightness; globalconf.autoBrightness = autoBrightness; strncpy(globalconf.cssid, cssid.c_str(), 256); strncpy(globalconf.cpassword, cpassword.c_str(), 256); strncpy(globalconf.date, date.c_str(), 32); printf("Saving wifi: \"%s\" \"%s\"\n", globalconf.cssid, globalconf.cpassword); char mstring[15]; char m[15]; char menabled[15]; char minvert[15]; char meffect[15]; char meffect2[15]; char mpause[15]; char mspeed[15]; for (int i = 0; i < NUM_MESSAGES; i++) { sprintf(m, "m%d", i + 1); sprintf(menabled, "m%denabled", i + 1); sprintf(minvert, "m%dinvert", i + 1); sprintf(meffect, "m%deffect", i + 1); sprintf(meffect2, "m%deffect2", i + 1); sprintf(mpause, "m%dpause", i + 1); sprintf(mspeed, "m%dspeed", i + 1); sprintf(mstring, "m%d", i + 1); String msg = jsonDocument[mstring]; messages[i].enabled = (jsonDocument[menabled] == "Enabled") ? true : false; strncpy(messages[i].msg, msg.c_str(), MSG_SIZE); if (jsonDocument[minvert] == "Invert") { messages[i].invert = 1; } else { messages[i].invert = 0; } String m1eff = jsonDocument[meffect]; String m2eff = jsonDocument[meffect2]; messages[i].effect1 = (textEffect_t)m1eff.toInt(); messages[i].effect2 = (textEffect_t)m2eff.toInt(); // if (jsonDocument[meffect] == "rtl"){messages[i].effect1 = PA_SCROLL_LEFT;} else {messages[i].effect1 = PA_SCROLL_RIGHT;} // if (jsonDocument[mpause] == "Pause"){messages[i].scrollpause = 2000;} else {messages[i].scrollpause = 0;} String p = jsonDocument[mpause]; int pause = atoi(p.c_str()); messages[i].scrollpause = pause; if (jsonDocument[mspeed] == "slow") { messages[i].speed = 60; } else if (jsonDocument[mspeed] == "medium") { messages[i].speed = 40; } else if (jsonDocument[mspeed] == "fast") { messages[i].speed = 20; } else { messages[i].speed = 40; } printf("message to save: %s\n", messages[i].msg); } saveconfig(); server.send(200, "application/json", "{}"); } char buffer[10800]; char wifistatus[32] = {0}; void handleconfigout() { jsonDocument.clear(); jsonDocument["brightness"] = globalconf.brightness; jsonDocument["autoBrightness"] = globalconf.autoBrightness; jsonDocument["cssid"] = globalconf.cssid; jsonDocument["cpassword"] = globalconf.cpassword; jsonDocument["datep"] = globalconf.date; if (WiFi.localIP()) { strncpy(wifistatus, WiFi.localIP().toString().c_str(), 32); } else { strncpy(wifistatus, "Not connected", 32); } jsonDocument["wifistatus"] = wifistatus; char m[15]; char menabled[15]; char minvert[15]; char meffect[15]; char meffect2[15]; char mpause[15]; char mspeed[15]; for (int i = 0; i < NUM_MESSAGES; i++) { sprintf(m, "m%d", i + 1); sprintf(menabled, "m%denabled", i + 1); sprintf(minvert, "m%dinvert", i + 1); sprintf(meffect, "m%deffect", i + 1); sprintf(meffect2, "m%deffect2", i + 1); sprintf(mpause, "m%dpause", i + 1); sprintf(mspeed, "m%dspeed", i + 1); jsonDocument[m] = messages[i].msg; jsonDocument[menabled] = messages[i].enabled; jsonDocument[minvert] = messages[i].invert; jsonDocument[meffect] = messages[i].effect1; // TO INTERPRET jsonDocument[meffect2] = messages[i].effect2; // TO INTERPRET jsonDocument[mpause] = messages[i].scrollpause; // TO INTERPRET jsonDocument[mspeed] = messages[i].speed; // TO INTERPRET } serializeJson(jsonDocument, buffer); server.send(200, "application/json", buffer); } void handlenotfound() { } void resetesp32() { ESP.restart(); } void synctime() { printf("Syncing time\n"); configTime(0, 0, ntpServer); setenv("TZ", tzone, 1); tzset(); printLocalTime(); } std::map> matrixCommands = { {"off", [&]() { printf("turning matrix off\n"); displayon = false; myDisplay.displayShutdown(true); }}, {"on", [&]() { printf("turning matrix on\n"); displayon = true; myDisplay.displayShutdown(false); }}, {"toggle", [&]() { printf("toggling matrix\n"); displayon = !displayon; myDisplay.displayShutdown(!displayon); }} }; void handlecmd() { String body = server.arg("plain"); deserializeJson(jsonPumps, body); const char *cmd = NULL; const char *value = NULL; JsonObject obj = jsonPumps.as(); for (JsonPair kv : obj) { cmd = kv.key().c_str(); value = kv.value().as(); printf("%s : %s\n", cmd, value); // cmd handling if (strcmp(cmd, "matrix") == 0) { auto it = matrixCommands.find(value); if (it != matrixCommands.end()) { it->second(); } } else if (strcmp(cmd, "restart") == 0) { resetesp32(); } } server.send(200, "application/json", ""); } void wifi(void *pvParameters) { Serial.println("start wifi"); WiFi.mode(WIFI_STA); Serial.println("set wifi mode\n"); // web serverrouting server.on("/", handleroot); server.on("/msg", HTTP_POST, handlein); server.on("/config", handleconfigout); server.on("/reset", resetesp32); server.on("/pump", pumpstring); server.on("/cmd", handlecmd); server.begin(); int retry = 0; WiFi.begin(globalconf.cssid, globalconf.cpassword); // WiFi.begin("nodwdw", "wqdqwr23er23"); printf("wifi connect to: %s : %s\n", globalconf.cssid, globalconf.cpassword); Serial.println("Connecting to WiFi.."); while (WiFi.status() != WL_CONNECTED) { delay(500); Serial.print("."); retry++; if (retry > 10) { printf("Too many first boot connect attempts to wifi.\nStarting AP mode..\n"); WiFi.disconnect(); WiFi.mode(WIFI_STA); WiFi.softAPConfig(local_ip, gateway, subnet); WiFi.softAP(ssid, password); IPAddress IP = WiFi.softAPIP(); Serial.print("AP IP address: "); Serial.println(IP); break; } } wificonnected = WiFi.status() == WL_CONNECTED; if (retry <= 10 && wificonnected) { Serial.print("ESP32 IP on the WiFi network: "); Serial.println(WiFi.localIP()); Serial.println(WiFi.dnsIP()); synctime(); ArduinoOTA.begin(); } const unsigned long hourInterval = 3600000; // 1 hour in milliseconds unsigned long previousMillis = 0; unsigned long currentMillis = 0; while (1) { server.handleClient(); if (wificonnected) { ArduinoOTA.handle(); } // sync time hourly currentMillis = millis(); if (wificonnected && currentMillis - previousMillis >= hourInterval) { previousMillis = currentMillis; synctime(); } // delay(400); } } uint8_t scrollSpeed = 40; // default frame delay value textEffect_t scrollEffect = PA_SCROLL_LEFT; textPosition_t scrollAlign = PA_LEFT; uint16_t scrollPause = 2000; void printLocalTime() { struct tm timeinfo; if (!getLocalTime(&timeinfo)) { Serial.println("Failed to obtain time"); return; } Serial.println(&timeinfo, "%A, %B %d %Y %H:%M:%S"); } void setup() { wificonnected = false; displayon = true; esp_log_level_set("*", ESP_LOG_VERBOSE); preferences.begin("matrixdisplay", false); globalconf.pos = 0; globalconf.brightness = 7; Serial.begin(115200); // Intialize the object myDisplay.begin(); loadconfig(); #ifdef VERTICAL myDisplay.setFont(_fontVertical); myDisplay.setInvert(9); #endif // Set the intensity (brightness) of the display (0-15) myDisplay.setIntensity(5); // Clear the display myDisplay.displayClear(); xTaskCreatePinnedToCore( wifi, /* Task function. */ "Task1", /* name of task. */ 10000, /* Stack size of task */ NULL, /* parameter of the task */ 1, /* priority of the task */ &wifitask, /* Task handle to keep track of created task */ 0); /* pin task to core 0 */ myDisplay.setTextAlignment(PA_LEFT); pinMode(LIGHT_SENSOR_PIN, INPUT); } void saveconfig() { printf("saving matrixconfig of size: %ul\n", sizeof(messages)); size_t ret = preferences.putBytes("matrixconfig", &messages, sizeof(messages)); printf("actually wrote %u\n", ret); preferences.putBytes("globalconfig", &globalconf, sizeof(globalconf)); } void loadconfig() { int res = 0; res += preferences.getBytes("matrixconfig", &messages, sizeof(messages)); res += preferences.getBytes("globalconfig", &globalconf, sizeof(globalconf)); if (res == 0) { defaultdata(); } // dont load pos globalconf.pos = 0; } void defaultdata() { globalconf.pos = 0; globalconf.brightness = 4; globalconf.autoBrightness = false; strncpy(globalconf.cssid, "Gensokyo", 256); strncpy(globalconf.cpassword, "passwordhere", 256); strncpy(globalconf.date, "0", 32); messages[0].enabled = true; messages[0].invert = false; strncpy(messages[0].msg, "Not Setup", MSG_SIZE); messages[0].scrollpause = 5; messages[0].speed = 1; } void wipeconfig() { preferences.clear(); saveconfig(); } #ifdef VERTICAL void strrev(char *str) { int i; int j; unsigned char a; unsigned int len = strlen((const char *)str); for (i = 0, j = len - 1; i < j; i++, j--) { a = str[i]; str[i] = str[j]; str[j] = a; } } #endif char *string_replace(const char *source, size_t sourceSize, const char *substring, const char *with) { char *substring_source = strstr(source, substring); if (substring_source == NULL) { return NULL; } memmove( substring_source + strlen(with), substring_source + strlen(substring), strlen(substring_source) - strlen(substring) + 1); memcpy(substring_source, with, strlen(with)); return substring_source + strlen(with); } char msgbuff[MSG_SIZE]; char rtemp[15] = {0}; void nextmessage() { if (!displayon) return; if (globalconf.pos >= NUM_MESSAGES) { globalconf.pos = 0; } if (messages[globalconf.pos].enabled == false) { globalconf.pos++; nextmessage(); return; } memset(msgbuff, 0, MSG_SIZE); strcpy(msgbuff, messages[globalconf.pos].msg); time_t now = time(NULL); struct tm *t = localtime(&now); // Define the replacement patterns and their corresponding format strings const std::pair replacements[] = { {"%date%", "%d/%m/%y"}, {"%shortdate%", "%d %b"}, {"%time12%", "%I:%M"}, {"%time12s%", "%I:%M:%S"}, {"%time24%", "%R"}, {"%time24s%", "%T"}, {"%pump%", pumpmsg} }; // Iterate over the replacements and perform the string replacements for (const auto& [pattern, format] : replacements) { if (strstr(msgbuff, pattern)) { if (strcmp(pattern, "%pump%") == 0) { string_replace(msgbuff, strlen(msgbuff), pattern, format); } else { strftime(rtemp, sizeof(rtemp), format, t); string_replace(msgbuff, strlen(msgbuff), pattern, rtemp); } } } /* replace pump messages */ for (int i = 0; i < pumpDic->count(); i++) { if (strstr(msgbuff, pumpDic->key(i).c_str())) { printf("replace: %s\n", pumpDic->value(i)); string_replace(msgbuff, strlen(msgbuff), (char *)pumpDic->key(i).c_str(), (char *)pumpDic->value(i).c_str()); } } // doomsdate stuff struct tm doom = {0}; strptime(globalconf.date, "%Y-%m-%d", &doom); time_t rawtime; struct tm *info; time(&rawtime); info = localtime(&rawtime); time_t t0 = mktime(info); time_t t1 = mktime(&doom); double diff = difftime(t1, t0); // Difference in seconds const char* timeUnits[] = {"%seconds%", "%minutes%", "%hours%", "%days%", "%weeks%"}; const double unitDivisors[] = {1, 60, 3600, 86400, 604800}; const int numUnits = sizeof(timeUnits) / sizeof(timeUnits[0]); for (int i = 0; i < numUnits; i++) { if (strstr(msgbuff, timeUnits[i])) { int value = static_cast(diff / unitDivisors[i]); itoa(value, rtemp, 10); string_replace(msgbuff, strlen(msgbuff), timeUnits[i], rtemp); } } #ifdef VERTICAL strrev(msgbuff); #endif if (globalconf.autoBrightness) { int lightValue = analogRead(LIGHT_SENSOR_PIN); int brightness = map(lightValue, 0, 950, 0, 15); // Map the light value to brightness range (0-15) printf("light value: %d\n", lightValue); printf("Brightness: %d\n", brightness); myDisplay.setIntensity(brightness); } else { myDisplay.setIntensity(globalconf.brightness); } myDisplay.setInvert(messages[globalconf.pos].invert); scrollAlign = PA_CENTER; myDisplay.displayText(msgbuff, scrollAlign, messages[globalconf.pos].speed, messages[globalconf.pos].scrollpause * 1000, messages[globalconf.pos].effect1, messages[globalconf.pos].effect2); globalconf.pos++; } void loop() { if (displayon && myDisplay.displayAnimate()) { nextmessage(); myDisplay.displayReset(); } }