// wok the cables // Follow conditions and interpret instructions relayed in hotspot/ESSID tags at 10 minute intervals. // Document all findings of divinatory art on any social media using hashtag #wokthecables. #include #include #include #include #include // Over-the-Air updates #include #include "./DNSServer.h" // Dns server #include // SPIFFS const char *final_mess[3] = {"0","0","READ&EXE#wokthecables"}; const char *wildcards[44] = {"WOKthescooter","andrideto", "takeESSIDX","stepsforward=", "ShopforLAST-", "CLose*to", "Crawlyourskin", "BACKto", "Buyandfollow", "a CABLEto", "TOAST-eatair", "wire1-0sign", "FollowtheONE", "seenJUST NOW", "go-EXE-","UNdergroundTO", "RemainSTAYand","struggle|with", "SendTHISmessage","@lastMESSAGEE", "GOTOfoundreceiver","thenTOSScoins", "DOtlastINSTRUCT","AGAIN&comment", "turn0/left>0right","@next Xroads", "REVdirection","forXsteps=", "firstleft","fromNXT_", "doitagainAND","darklyfollow_", "goINside","@nearest*_", "watchsigns~for","&#shinesto", "revealitand","showit_2_", "climb_nearest","^^^^", "NOWMAKE_YOUR","YOURFULL_INVENTORY", "GAMEOVER","-return_to" }; // add a modifier: 0=none, 1-number, 2=operands, 3=instruction char wildifmod[22]={2,1,2,2,2,0,0,2,2,0,0,0,1,1,2,2,2,2,2,2,0,2}; const char *cards[22] = {"aFOOL-","aMAGIC-","aWITCH-","aQUEEN-","aKING-","aAMETHYST-","aLOVERS-","aCAR-","aADJUST-","aHERMIT-","aFORTUNE-","aLUST-","aHANGED-","aDEATH-","aART-","aDEVIL-","aTOWER-","aSTAR-","aMOON-","aSUN-","aAEON-","aUNIVERS-"}; const char *conditions[22] = {"BEGIN","always","letME_","ifOpen","0x","if","EQU","0x","else","Nver","when","4ever","CMP","ifending","ifNOT","ifAlways","WAIT","when","ifnight","ifday","LOOP","<-"}; char condif[22]={1,1,1,1,0,1,1,0,1,1,1,1,1,1,1,1,1,1,1,1,1,0}; const char *cond_operands[22] = {"start","Want","guided","opposed","ordered","hidden","two","inmotion","==","Alone","SURplus","l0nging","changing","ending","ZERO","shad0w","BRK","sh1n1ng","reflecting","day","forever","r3turned"}; const char *instruction[22]={"RIDE","WANT","dream","buRy","WOK","reveal","LICK","GO","dis-ASM","stay","shop","SHOUT!","stand","leave","raise","MINE","Dstroy","SHine","refl3ct","BURN","LOOP4_","reboot"}; const char *inst_mods[22] = {"_2_","FROM","back","INto","IN","thru","of","of","@","-","N","N","N","0","1","both","ALL","EXE","from","over","IN","_2to"}; char numericmod[22]={0,0,0,0,0,0,0,0,0,0,1,1,1,0,0,0,0,0,0,1,0}; const char *inst_operands[22] = {"scooter","Tur/n/ing","TREE","earth","SACRIFICE","U-Bahn","JOINING","crow","cafe","LAIR","shop","stain","COIL","mask","future","tunnel","building","water","mirror","SUN","fire","EXCEPTION"}; const char *cars[22] = {"$","%","\(",")","*","*","_","#",".","$","+","V","¬","\\","/","^","@","*","\(",".","~","0"}; DNSServer dnsServer; const byte DNS_PORT = 53; int taroty=6001, mess=0; ESP8266WebServer server(80); #ifndef STASSID #define STASSID "\xF0\x9F\x9B\xB4 beta" //#define STASPSK "mypassword" #endif IPAddress apIP(192, 168, 4, 1); const char* ssid = STASSID; //const char* password = STAPSK; void setup() { Serial.begin(115200); Serial.println("Booting"); WiFi.mode(WIFI_AP); WiFi.softAPConfig(apIP, apIP, IPAddress(255, 255, 255, 0)); WiFi.softAP(ssid); dnsServer.start(DNS_PORT, "*", apIP); // redirect dns request to AP ip MDNS.begin("esp8266", WiFi.softAPIP()); Serial.println("Ready"); Serial.print("IP address: "); Serial.println(WiFi.softAPIP()); //Over-the-Air updates ArduinoOTA.setHostname("ESP8266"); ArduinoOTA.setPassword("change-me"); ArduinoOTA.begin(); SPIFFS.begin(); //redirect all traffic to index.html server.onNotFound([]() { Serial.println("NOTFOUND"); if(!handleFileRead(server.uri())){ const char *metaRefreshStr = "

redirecting...

"; server.send(200, "text/html", metaRefreshStr); } }); server.begin(); randomSeed(RANDOM_REG32); } void loop() { char picked_card, inter[3]; char fullessid[2][64]; // loop to display // code to generate ESSID string from cards // run this every 10 minutes for new ESSID if ((taroty++) > 6000){ // test with 100 = 10 seconds so 600onemin - 6000=tenmins taroty=0; if ((rand()%12)==11) { // pick wildcard with suitable modifier picked_card=rand()%22; strcpy(fullessid[0], cards[picked_card]); strcat(fullessid[0], wildcards[picked_card*2]); strcpy(fullessid[1], wildcards[(picked_card*2)+1]); if (wildifmod[picked_card]==1) { sprintf(inter,"%d",(rand()%12)); strcat(fullessid[1], inter); } if (wildifmod[picked_card]==2) { picked_card=rand()%22; strcat(fullessid[1], inst_operands[picked_card]); } }////// else { picked_card=rand()%22; strcpy(fullessid[0], cards[picked_card]); picked_card=rand()%22; if (condif[picked_card]==1) strcat(fullessid[0], conditions[picked_card]); picked_card=rand()%22; strcat(fullessid[0], cond_operands[picked_card]); if ((rand()%6)==2) { picked_card=rand()%22; strcat(fullessid[0], cars[picked_card]); } picked_card=rand()%22; strcpy(fullessid[1], instruction[picked_card]); picked_card=rand()%22; if (numericmod[picked_card]==0) strcat(fullessid[1], inst_mods[picked_card]); else { sprintf(inter,"%d",rand()%12); strcat(fullessid[1], inter); } if ((rand()%6)==2) { picked_card=rand()%22; strcat(fullessid[1], cars[picked_card]); } picked_card=rand()%22; strcat(fullessid[1], inst_operands[picked_card]); } // if is longer than 32 truncate // if (strlen(fullessid)>31) fullessid[31]='\0'; // printf("%s \n", fullessid); // printf("%d \n",strlen(fullessid)); // is it longer than 32 if so cut. // Serial.println(fullessid[0]); // Serial.println(fullessid[1]); } // loop through ESSID as my HANDY only shows 16 say characters // so first 2 fullessids and then final mess // WiFi.softAP(fullessid); if ((taroty%200)==0) {// was 200 but now less for testing if (mess>2) mess=0; if (mess<2) { Serial.println(fullessid[mess]); WiFi.softAP(fullessid[mess]); } else { Serial.println(final_mess[mess]); WiFi.softAP(final_mess[mess]); } mess++; } // MDNS.begin("esp8266", WiFi.softAPIP()); // Serial.println("Ready"); // Serial.print("IP address: "); // Serial.println(WiFi.softAPIP()); dnsServer.processNextRequest(); ArduinoOTA.handle(); server.handleClient(); delay(50); } String getContentType(String filename){ if(server.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(".mp4")) return "video/mp4"; 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"; } //Given a file path, look for it in the SPIFFS file storage. Returns true if found, returns false if not found. bool handleFileRead(String path){ if(path.endsWith("/")) path += "index.html"; String contentType = getContentType(path); String pathWithGz = path + ".gz"; if(SPIFFS.exists(pathWithGz) || SPIFFS.exists(path)){ if(SPIFFS.exists(pathWithGz)) path += ".gz"; File file = SPIFFS.open(path, "r"); size_t sent = server.streamFile(file, contentType); file.close(); return true; } return false; }