/* * Copyright (c) 2012, Nasel * 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 "macros.h" #include "pdu.h" #include "endianness.h" #include "hw_address.h" #include "ip_address.h" namespace Tins { class NetworkInterface; class EthernetII; /** * \brief Class that represents an ARP PDU. * */ class 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 Default constructor for ARP PDU objects. * * ARP requests and replies can be constructed easily using * ARP::make_arp_request/reply static functions. */ 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 Constructor which creates an ARP object from a buffer and adds all identifiable * PDUs found in the buffer as children of this one. * \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 _arp.ar_sha; } /** * \brief Getter for the sender's IP address. * * \return The sender IP address. */ ipaddress_type sender_ip_addr() const { return ipaddress_type(_arp.ar_sip); } /** * \brief Getter for the target's hardware address. * * \return The target hardware address. */ hwaddress_type target_hw_addr() const { return _arp.ar_tha; } /** * \brief Getter for the target's IP address. * * \return The target IP address. */ ipaddress_type target_ip_addr() const { return ipaddress_type(_arp.ar_tip); } /** * \brief Getter for the hardware address format. * * \return The hardware address format. */ uint16_t hw_addr_format() const { return Endian::be_to_host(_arp.ar_hrd); } /** * \brief Getter for the protocol address format. * * \return The protocol address format. */ uint16_t prot_addr_format() const { return Endian::be_to_host(_arp.ar_pro); } /** * \brief Getter for the hardware address length. * * \return The hardware address length. */ uint8_t hw_addr_length() const { return _arp.ar_hln; } /** * \brief Getter for the protocol address length. * * \return The protocol address length. */ uint8_t prot_addr_length() const { return _arp.ar_pln; } /** * \brief Getter for the ARP opcode. * * \return The ARP opcode. */ uint16_t opcode() const { return Endian::be_to_host(_arp.ar_op); } /** \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 new_snd_hw_addr The new sender hardware address. */ void sender_hw_addr(const hwaddress_type &new_snd_hw_addr); /** * \brief Setter for the sender's IP address. * * \param new_snd_ip_addr The new sender IP address. */ void sender_ip_addr(ipaddress_type new_snd_ip_addr); /** * \brief Setter for the target's hardware address. * * \param new_tgt_hw_addr The new target hardware address. */ void target_hw_addr(const hwaddress_type &new_tgt_hw_addr); /** * \brief Setter for the target's IP address. * * \param new_tgt_ip_addr The new target IP address. */ void target_ip_addr(ipaddress_type new_tgt_ip_addr); /** * \brief Setter for the hardware address format. * * \param new_hw_addr_fmt The new hardware address format. */ void hw_addr_format(uint16_t new_hw_addr_fmt); /** * \brief Setter for the protocol address format. * * \param new_prot_addr_fmt The new protocol address format. */ void prot_addr_format(uint16_t new_prot_addr_fmt); /** * \brief Setter for the hardware address length. * * \param new_hw_addr_len The new hardware address length. */ void hw_addr_length(uint8_t new_hw_addr_len); /** * \brief Setter for the protocol address length. * * \param new_prot_addr_len The new protocol address length. */ void prot_addr_length(uint8_t new_prot_addr_len); /** * \brief Setter for the ARP opcode. * * \param new_opcode Flag enum value of the ARP opcode to set. */ void opcode(Flags new_opcode); /** * \brief Getter for the PDU's type. * \sa PDU::pdu_type */ PDUType pdu_type() const { return PDU::ARP; } /** * \brief Creates an ARP Request within a Layer 2 PDU using uint32_t for target and sender. * * Creates an ARP Request PDU and embeds it within a Layer 2 PDU ready to be * sent. The target and sender's protocol address are given using uint32_t. * * \param iface string with the interface from where to send the ARP. * \param target IPv4Address with the target's IP. * \param sender IPv4Address with the sender's IP. * \param hw_snd uint8_t array of 6 bytes containing the sender's hardware address. * \return Returns a EthernetII containing the ARP Request. */ static EthernetII make_arp_request(const NetworkInterface& iface, ipaddress_type target, ipaddress_type sender, const hwaddress_type &hw_snd = hwaddress_type()); /** * \brief Creates an ARP Reply within a Layer 2 PDU using uint32_t for target and sender. * * Creates an ARP Reply PDU and embeds it within a Layer 2 PDU ready to be * sent. The target and sender's protocol address are given using uint32_t. * * \param iface string with the interface from where to send the ARP. * \param target IPv4Address with the target's IP. * \param sender IPv4Address with the sender's IP. * \param hw_tgt uint8_t array of 6 bytes containing the target's hardware address. * \param hw_snd uint8_t array of 6 bytes containing the sender's hardware address. * \return Returns an EthetnetII containing the ARP Replay. */ static EthernetII make_arp_reply(const NetworkInterface& iface, ipaddress_type target, ipaddress_type sender, const hwaddress_type &hw_tgt = hwaddress_type(), const hwaddress_type &hw_snd = hwaddress_type()); /** \brief Check wether 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(uint8_t *ptr, uint32_t total_sz); /** \brief Clones this pdu, filling the corresponding header with data * extracted from a buffer. * * \param ptr The pointer to the from from which the data will be extracted. * \param total_sz The size of the buffer. * \return The cloned PDU. * \sa PDU::clone_packet */ PDU *clone_packet(const uint8_t *ptr, uint32_t total_sz); /** * \sa PDU::clone */ ARP *clone() const { return new ARP(*this); } private: TINS_BEGIN_PACK struct arphdr { uint16_t ar_hrd; /* format of hardware address */ uint16_t ar_pro; /* format of protocol address */ uint8_t ar_hln; /* length of hardware address */ uint8_t ar_pln; /* length of protocol address */ uint16_t ar_op; /* ARP opcode (command) */ /* sender hardware address */ uint8_t ar_sha[hwaddress_type::address_size]; /* sender IP address */ uint32_t ar_sip; /* target hardware address */ uint8_t ar_tha[hwaddress_type::address_size]; /* target IP address */ uint32_t ar_tip; } TINS_END_PACK; void write_serialization(uint8_t *buffer, uint32_t total_sz, const PDU *parent); arphdr _arp; }; } #endif //TINS_ARP_H