ESP8266 : Create a WiFi access point and provide a DNS and web server on it, catch all traffic

AccessPoint.ino

/* Create a WiFi access point and provide a web server on it. */

#include <ESP8266WiFi.h>
#include "./DNSServer.h"                  // Patched lib
#include <ESP8266WebServer.h>

const byte        DNS_PORT = 53;          // Capture DNS requests on port 53
IPAddress         apIP(10, 10, 10, 1);    // Private network for server
DNSServer         dnsServer;              // Create the DNS object
ESP8266WebServer  webServer(80);          // HTTP server

String responseHTML = "<!DOCTYPE html>"
  "<html lang=\"en\">"
  "<head>"
    "<meta charset=\"utf-8\">"
    "<meta name=\"viewport\" content=\"width=device-width, initial-scale=1\">"
    "<title>Internet of Bottles</title>"
  "</head>"
  "<body>"
  "<p>I'm just a stupid bottle with WiFi.</p>"
  "</body>"
  "</html>";
  

void setup() {
  // turn the LED on (HIGH is the voltage level)
  pinMode(LED_BUILTIN, OUTPUT);
  digitalWrite(LED_BUILTIN, HIGH);

  // configure access point
  WiFi.mode(WIFI_AP);
  WiFi.softAPConfig(apIP, apIP, IPAddress(255, 255, 255, 0));
  WiFi.softAP("IoT --- Free WiFi"); // WiFi name

  // if DNSServer is started with "*" for domain name, it will reply with
  // provided IP to all DNS request
  dnsServer.start(DNS_PORT, "*", apIP);

  // replay to all requests with same HTML
  webServer.onNotFound([]() {
    webServer.send(200, "text/html", responseHTML);
  });
  webServer.begin();
}

void loop() {
  dnsServer.processNextRequest();
  webServer.handleClient();
}

DNSServer.cpp

#include "./DNSServer.h"
#include <lwip/def.h>
#include <Arduino.h>

#define DEBUG
#define DEBUG_OUTPUT Serial

DNSServer::DNSServer()
{
  _ttl = htonl(60);
  _errorReplyCode = DNSReplyCode::NonExistentDomain;
}

bool DNSServer::start(const uint16_t &port, const String &domainName,
                     const IPAddress &resolvedIP)
{
  _port = port;
  _domainName = domainName;
  _resolvedIP[0] = resolvedIP[0];
  _resolvedIP[1] = resolvedIP[1];
  _resolvedIP[2] = resolvedIP[2];
  _resolvedIP[3] = resolvedIP[3];
  downcaseAndRemoveWwwPrefix(_domainName);
  return _udp.begin(_port) == 1;
}

void DNSServer::setErrorReplyCode(const DNSReplyCode &replyCode)
{
  _errorReplyCode = replyCode;
}

void DNSServer::setTTL(const uint32_t &ttl)
{
  _ttl = htonl(ttl);
}

void DNSServer::stop()
{
  _udp.stop();
}

void DNSServer::downcaseAndRemoveWwwPrefix(String &domainName)
{
  domainName.toLowerCase();
  domainName.replace("www.", "");
}

void DNSServer::processNextRequest()
{
  _currentPacketSize = _udp.parsePacket();
  if (_currentPacketSize)
  {
    _buffer = (unsigned char*)malloc(_currentPacketSize * sizeof(char));
    _udp.read(_buffer, _currentPacketSize);
    _dnsHeader = (DNSHeader*) _buffer;

    if (_dnsHeader->QR == DNS_QR_QUERY &&
        _dnsHeader->OPCode == DNS_OPCODE_QUERY &&
        requestIncludesOnlyOneQuestion() &&
        (_domainName == "*" || getDomainNameWithoutWwwPrefix() == _domainName)
       )
    {
      replyWithIP();
    }
    else if (_dnsHeader->QR == DNS_QR_QUERY)
    {
      replyWithCustomCode();
    }

    free(_buffer);
  }
}

bool DNSServer::requestIncludesOnlyOneQuestion()
{
  return ntohs(_dnsHeader->QDCount) == 1 &&
         _dnsHeader->ANCount == 0 &&
         _dnsHeader->NSCount == 0 &&
         _dnsHeader->ARCount == 0;
}

String DNSServer::getDomainNameWithoutWwwPrefix()
{
  String parsedDomainName = "";
  unsigned char *start = _buffer + 12;
  if (*start == 0)
  {
    return parsedDomainName;
  }
  int pos = 0;
  while(true)
  {
    unsigned char labelLength = *(start + pos);
    for(int i = 0; i < labelLength; i++)
    {
      pos++;
      parsedDomainName += (char)*(start + pos);
    }
    pos++;
    if (*(start + pos) == 0)
    {
      downcaseAndRemoveWwwPrefix(parsedDomainName);
      return parsedDomainName;
    }
    else
    {
      parsedDomainName += ".";
    }
  }
}

void DNSServer::replyWithIP()
{
  _dnsHeader->QR = DNS_QR_RESPONSE;
  _dnsHeader->ANCount = _dnsHeader->QDCount;
  _dnsHeader->QDCount = _dnsHeader->QDCount; 
  //_dnsHeader->RA = 1;  

  _udp.beginPacket(_udp.remoteIP(), _udp.remotePort());
  _udp.write(_buffer, _currentPacketSize);

  _udp.write((uint8_t)192); //  answer name is a pointer
  _udp.write((uint8_t)12);  // pointer to offset at 0x00c

  _udp.write((uint8_t)0);   // 0x0001  answer is type A query (host address)
  _udp.write((uint8_t)1);

  _udp.write((uint8_t)0);   //0x0001 answer is class IN (internet address)
  _udp.write((uint8_t)1);
 
  _udp.write((unsigned char*)&_ttl, 4);

  // Length of RData is 4 bytes (because, in this case, RData is IPv4)
  _udp.write((uint8_t)0);
  _udp.write((uint8_t)4);
  _udp.write(_resolvedIP, sizeof(_resolvedIP));
  _udp.endPacket();



  #ifdef DEBUG
    DEBUG_OUTPUT.print("DNS responds: ");
    DEBUG_OUTPUT.print(_resolvedIP[0]);
    DEBUG_OUTPUT.print(".");
    DEBUG_OUTPUT.print(_resolvedIP[1]);
    DEBUG_OUTPUT.print(".");
    DEBUG_OUTPUT.print(_resolvedIP[2]);
    DEBUG_OUTPUT.print(".");
    DEBUG_OUTPUT.print(_resolvedIP[3]);
    DEBUG_OUTPUT.print(" for ");
    DEBUG_OUTPUT.println(getDomainNameWithoutWwwPrefix());
  #endif
}

void DNSServer::replyWithCustomCode()
{
  _dnsHeader->QR = DNS_QR_RESPONSE;
  _dnsHeader->RCode = (unsigned char)_errorReplyCode;
  _dnsHeader->QDCount = 0;

  _udp.beginPacket(_udp.remoteIP(), _udp.remotePort());
  _udp.write(_buffer, sizeof(DNSHeader));
  _udp.endPacket();
}

DNSServer.h

#ifndef DNSServer_h
#define DNSServer_h
#include <WiFiUdp.h>

#define DNS_QR_QUERY 0
#define DNS_QR_RESPONSE 1
#define DNS_OPCODE_QUERY 0

enum class DNSReplyCode
{
  NoError = 0,
  FormError = 1,
  ServerFailure = 2,
  NonExistentDomain = 3,
  NotImplemented = 4,
  Refused = 5,
  YXDomain = 6,
  YXRRSet = 7,
  NXRRSet = 8
};

struct DNSHeader
{
  uint16_t ID;               // identification number
  unsigned char RD : 1;      // recursion desired
  unsigned char TC : 1;      // truncated message
  unsigned char AA : 1;      // authoritive answer
  unsigned char OPCode : 4;  // message_type
  unsigned char QR : 1;      // query/response flag
  unsigned char RCode : 4;   // response code
  unsigned char Z : 3;       // its z! reserved
  unsigned char RA : 1;      // recursion available
  uint16_t QDCount;          // number of question entries
  uint16_t ANCount;          // number of answer entries
  uint16_t NSCount;          // number of authority entries
  uint16_t ARCount;          // number of resource entries
};

class DNSServer
{
  public:
    DNSServer();
    void processNextRequest();
    void setErrorReplyCode(const DNSReplyCode &replyCode);
    void setTTL(const uint32_t &ttl);

    // Returns true if successful, false if there are no sockets available
    bool start(const uint16_t &port,
              const String &domainName,
              const IPAddress &resolvedIP);
    // stops the DNS server
    void stop();

  private:
    WiFiUDP _udp;
    uint16_t _port;
    String _domainName;
    unsigned char _resolvedIP[4];
    int _currentPacketSize;
    unsigned char* _buffer;
    DNSHeader* _dnsHeader;
    uint32_t _ttl;
    DNSReplyCode _errorReplyCode;

    void downcaseAndRemoveWwwPrefix(String &domainName);
    String getDomainNameWithoutWwwPrefix();
    bool requestIncludesOnlyOneQuestion();
    void replyWithIP();
    void replyWithCustomCode();
};
#endif

Is it possible to provide a DNS in Station Mode?

Is it possible to provide a DNS in Station Mode?

Talvez seja melhor dares uma vista de olhos ao esp8266 RTOS SDK .