/*
* Copyright (c) 2017, Matias Fontanini
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#ifndef TINS_ARP_H
#define TINS_ARP_H
#include <tins/macros.h>
#include <tins/pdu.h>
#include <tins/endianness.h>
#include <tins/hw_address.h>
#include <tins/ip_address.h>
namespace Tins {
class NetworkInterface;
class EthernetII;
/**
* \class ARP
* \brief Represents an ARP PDU.
*
*/
class TINS_API ARP : public PDU {
public:
/**
* The type of the hardware address.
*/
typedef HWAddress<6> hwaddress_type;
/**
* The type of the IP address.
*/
typedef IPv4Address ipaddress_type;
/**
* \brief This PDU's flag.
*/
static const PDU::PDUType pdu_flag = PDU::ARP;
/**
* \brief Enum which indicates the type of ARP packet.
*/
enum Flags {
REQUEST = 0x0001,
REPLY = 0x0002
};
/**
* \brief Extracts metadata for this protocol based on the buffer provided
*
* \param buffer Pointer to a buffer
* \param total_sz Size of the buffer pointed by buffer
*/
static metadata extract_metadata(const uint8_t *buffer, uint32_t total_sz);
/**
* \brief Constructs an ARP object using the provided addresses.
*
* ARP requests and replies can be constructed easily using
* ARP::make_arp_request/reply static member functions.
*
* \sa ARP::make_arp_request
* \sa ARP::make_arp_reply
*
* \param target_ip The target IP address.
* \param sender_ip The sender IP address.
* \param target_hw The target hardware address.
* \param sender_hw The sender hardware address.
*/
ARP(ipaddress_type target_ip = ipaddress_type(),
ipaddress_type sender_ip = ipaddress_type(),
const hwaddress_type& target_hw = hwaddress_type(),
const hwaddress_type& sender_hw = hwaddress_type());
/**
* \brief Constructs an ARP object from a buffer.
*
* If there is not enough size for an ARP header in the buffer,
* a malformed_packet exception is thrown.
*
* If the buffer is bigger than the size of the ARP header,
* then the extra data is stored in a RawPDU.
*
* \param buffer The buffer from which this PDU will be constructed.
* \param total_sz The total size of the buffer.
*/
ARP(const uint8_t* buffer, uint32_t total_sz);
/* Getters */
/**
* \brief Getter for the sender's hardware address.
*
* \return The sender hardware address.
*/
hwaddress_type sender_hw_addr() const {
return header_.sender_hw_address;
}
/**
* \brief Getter for the sender's IP address.
*
* \return The sender IP address.
*/
ipaddress_type sender_ip_addr() const {
return ipaddress_type(header_.sender_ip_address);
}
/**
* \brief Getter for the target's hardware address.
*
* \return The target hardware address.
*/
hwaddress_type target_hw_addr() const {
return header_.target_hw_address;
}
/**
* \brief Getter for the target's IP address.
*
* \return The target IP address.
*/
ipaddress_type target_ip_addr() const {
return ipaddress_type(header_.target_ip_address);
}
/**
* \brief Getter for the hardware address format field.
*
* \return The hardware address format.
*/
uint16_t hw_addr_format() const {
return Endian::be_to_host(header_.hw_address_format);
}
/**
* \brief Getter for the protocol address format field.
*
* \return The protocol address format.
*/
uint16_t prot_addr_format() const {
return Endian::be_to_host(header_.proto_address_format);
}
/**
* \brief Getter for the hardware address length field.
*
* \return The hardware address length.
*/
uint8_t hw_addr_length() const {
return header_.hw_address_length;
}
/**
* \brief Getter for the protocol address length field.
*
* \return The protocol address length.
*/
uint8_t prot_addr_length() const {
return header_.proto_address_length;
}
/**
* \brief Getter for the ARP opcode field.
*
* \return The ARP opcode.
*/
uint16_t opcode() const {
return Endian::be_to_host(header_.opcode);
}
/**
* \brief Getter for the header size.
* \return Returns the ARP header size.
* \sa PDU::header_size
*/
uint32_t header_size() const;
/* Setters */
/**
* \brief Setter for the sender's hardware address.
*
* \param address The new sender hardware address.
*/
void sender_hw_addr(const hwaddress_type& address);
/**
* \brief Setter for the sender's IP address.
*
* \param address The new sender IP address.
*/
void sender_ip_addr(ipaddress_type address);
/**
* \brief Setter for the target's hardware address.
*
* \param address The new target hardware address.
*/
void target_hw_addr(const hwaddress_type& address);
/**
* \brief Setter for the target's IP address.
*
* \param address The new target IP address.
*/
void target_ip_addr(ipaddress_type address);
/**
* \brief Setter for the hardware address format field.
*
* \param format The new hardware address format.
*/
void hw_addr_format(uint16_t format);
/**
* \brief Setter for the protocol address format field.
*
* \param format The new protocol address format.
*/
void prot_addr_format(uint16_t format);
/**
* \brief Setter for the hardware address length field.
*
* \param length The new hardware address length.
*/
void hw_addr_length(uint8_t length);
/**
* \brief Setter for the protocol address length field.
*
* \param length The new protocol address length.
*/
void prot_addr_length(uint8_t length);
/**
* \brief Setter for the ARP opcode field.
*
* \param code Flag enum value of the ARP opcode to set.
*/
void opcode(Flags code);
/**
* \brief Getter for the PDU's type.
* \sa PDU::pdu_type
*/
PDUType pdu_type() const { return pdu_flag; }
/**
* \brief Creates an ARP Request within an EthernetII PDU.
*
* Creates an ARP Request PDU and embeds it inside an EthernetII
* PDU.
*
* \param target The target's IP address.
* \param sender The sender's IP address.
* \param hw_snd The sender's hardware address.
* \return EthernetII object containing the ARP Request.
*/
static EthernetII make_arp_request(ipaddress_type target,
ipaddress_type sender,
const hwaddress_type& hw_snd = hwaddress_type());
/**
* \brief Creates an ARP Reply within an EthernetII PDU.
*
* Creates an ARP Reply PDU and embeds it inside an EthernetII
* PDU.
*
* \param target The target's IP address.
* \param sender The sender's IP address.
* \param hw_tgt The target's hardware address.
* \param hw_snd The sender's hardware address.
* \return EthernetII object containing the ARP Reply.
*/
static EthernetII make_arp_reply(ipaddress_type target,
ipaddress_type sender,
const hwaddress_type& hw_tgt = hwaddress_type(),
const hwaddress_type& hw_snd = hwaddress_type());
/**
* \brief Check whether ptr points to a valid response for this PDU.
*
* \sa PDU::matches_response
* \param ptr The pointer to the buffer.
* \param total_sz The size of the buffer.
*/
bool matches_response(const uint8_t* ptr, uint32_t total_sz) const;
/**
* \sa PDU::clone
*/
ARP* clone() const {
return new ARP(*this);
}
private:
TINS_BEGIN_PACK
struct arp_header {
uint16_t hw_address_format;
uint16_t proto_address_format;
uint8_t hw_address_length;
uint8_t proto_address_length;
uint16_t opcode;
uint8_t sender_hw_address[hwaddress_type::address_size];
uint32_t sender_ip_address;
uint8_t target_hw_address[hwaddress_type::address_size];
uint32_t target_ip_address;
} TINS_END_PACK;
void write_serialization(uint8_t* buffer, uint32_t total_sz);
arp_header header_;
};
} // Tins
#endif // TINS_ARP_H