arduino-esp32/libraries/DNSServer/src/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
  union {
    struct {
      uint16_t RD : 1;      // recursion desired
      uint16_t TC : 1;      // truncated message
      uint16_t AA : 1;      // authoritive answer
      uint16_t OPCode : 4;  // message_type
      uint16_t QR : 1;      // query/response flag
      uint16_t RCode : 4;   // response code
      uint16_t Z : 3;       // its z! reserved
      uint16_t RA : 1;      // recursion available
    };
    uint16_t Flags;
  };
  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
Add DNS Server 2018-01-18 12:54:51 +01:00			`#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`
			`union {`
			`struct {`
			`uint16_t RD : 1; // recursion desired`
			`uint16_t TC : 1; // truncated message`
			`uint16_t AA : 1; // authoritive answer`
			`uint16_t OPCode : 4; // message_type`
			`uint16_t QR : 1; // query/response flag`
			`uint16_t RCode : 4; // response code`
			`uint16_t Z : 3; // its z! reserved`
			`uint16_t RA : 1; // recursion available`
			`};`
			`uint16_t Flags;`
			`};`
			`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`