/*************************************************************************** * ARPHeader.cc -- The ARPHeader Class represents an ARP packet. It * * contains methods to set any header field. In general, these methods do * * error checkings and byte order conversion. * * * ***********************IMPORTANT NMAP LICENSE TERMS************************ * * The Nmap Security Scanner is (C) 1996-2024 Nmap Software LLC ("The Nmap * Project"). Nmap is also a registered trademark of the Nmap Project. * * This program is distributed under the terms of the Nmap Public Source * License (NPSL). The exact license text applying to a particular Nmap * release or source code control revision is contained in the LICENSE * file distributed with that version of Nmap or source code control * revision. More Nmap copyright/legal information is available from * https://nmap.org/book/man-legal.html, and further information on the * NPSL license itself can be found at https://nmap.org/npsl/ . This * header summarizes some key points from the Nmap license, but is no * substitute for the actual license text. * * Nmap is generally free for end users to download and use themselves, * including commercial use. It is available from https://nmap.org. * * The Nmap license generally prohibits companies from using and * redistributing Nmap in commercial products, but we sell a special Nmap * OEM Edition with a more permissive license and special features for * this purpose. See https://nmap.org/oem/ * * If you have received a written Nmap license agreement or contract * stating terms other than these (such as an Nmap OEM license), you may * choose to use and redistribute Nmap under those terms instead. * * The official Nmap Windows builds include the Npcap software * (https://npcap.com) for packet capture and transmission. It is under * separate license terms which forbid redistribution without special * permission. So the official Nmap Windows builds may not be redistributed * without special permission (such as an Nmap OEM license). * * Source is provided to this software because we believe users have a * right to know exactly what a program is going to do before they run it. * This also allows you to audit the software for security holes. * * Source code also allows you to port Nmap to new platforms, fix bugs, and * add new features. You are highly encouraged to submit your changes as a * Github PR or by email to the dev@nmap.org mailing list for possible * incorporation into the main distribution. Unless you specify otherwise, it * is understood that you are offering us very broad rights to use your * submissions as described in the Nmap Public Source License Contributor * Agreement. This is important because we fund the project by selling licenses * with various terms, and also because the inability to relicense code has * caused devastating problems for other Free Software projects (such as KDE * and NASM). * * The free version of Nmap is distributed in the hope that it will be * useful, but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Warranties, * indemnification and commercial support are all available through the * Npcap OEM program--see https://nmap.org/oem/ * ***************************************************************************/ /* This code was originally part of the Nping tool. */ #include "ARPHeader.h" /******************************************************************************/ /* CONTRUCTORS, DESTRUCTORS AND INITIALIZATION METHODS */ /******************************************************************************/ ARPHeader::ARPHeader() { this->reset(); } /* End of ARPHeader constructor */ ARPHeader::~ARPHeader() { } /* End of ARPHeader destructor */ /** Sets every attribute to its default value */ void ARPHeader::reset(){ memset (&this->h, 0, sizeof(nping_arp_hdr_t)); this->length=ARP_HEADER_LEN; } /* End of reset() */ /******************************************************************************/ /* PacketElement:: OVERWRITTEN METHODS */ /******************************************************************************/ /** @warning This method is essential for the superclass getBinaryBuffer() * method to work. Do NOT change a thing unless you know what you're doing */ u8 *ARPHeader::getBufferPointer(){ return (u8*)(&h); } /* End of getBufferPointer() */ /** Stores supplied packet in the internal buffer so the information * can be accessed using the standard get & set methods. * @warning The ARPHeader class is able to hold a maximum of 28 bytes. * If the supplied buffer is longer than that, only the first 28 bytes will be * stored in the internal buffer. * @warning Supplied len MUST be at least 28 bytes (ARP header length). * @return OP_SUCCESS on success and OP_FAILURE in case of error */ int ARPHeader::storeRecvData(const u8 *buf, size_t len){ if(buf==NULL || lenreset(); /* Re-init the object, just in case the caller had used it already */ this->length=ARP_HEADER_LEN; memcpy(&(this->h), buf, ARP_HEADER_LEN); } return OP_SUCCESS; } /* End of storeRecvData() */ /* Returns a protocol identifier. This is used by packet parsing funtions * that return linked lists of PacketElement objects, to determine the protocol * the object represents. */ int ARPHeader::protocol_id() const { return HEADER_TYPE_ARP; } /* End of protocol_id() */ /** Determines if the data stored in the object after an storeRecvData() call * is valid and safe to use. This mainly checks the length of the data but may * also test the value of certain protocol fields to ensure their correctness. * @return the length, in bytes, of the header, if its found to be valid or * OP_FAILURE (-1) otherwise. */ int ARPHeader::validate(){ if( this->length!=ARP_HEADER_LEN) return OP_FAILURE; else return ARP_HEADER_LEN; } /* End of validate() */ /** Prints the contents of the header and calls print() on the next protocol * header in the chain (if there is any). * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::print(FILE *output, int detail) const { fprintf(output, "ARP[]"); if(this->next!=NULL){ print_separator(output, detail); next->print(output, detail); } return OP_SUCCESS; } /* End of print() */ /******************************************************************************/ /* PROTOCOL-SPECIFIC METHODS */ /******************************************************************************/ /** Sets HardwareType. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setHardwareType(u16 val){ this->h.ar_hrd=htons(val); return OP_SUCCESS; } /* End of setHardwareType() */ /** Sets HardwareType to ETHERNET. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setHardwareType(){ this->h.ar_hrd=htons(HDR_ETH10MB); return OP_SUCCESS; } /* End of setHardwareType() */ /** Returns value of attribute h.ar_hrd */ u16 ARPHeader::getHardwareType(){ return ntohs(this->h.ar_hrd); } /* End of getHardwareType() */ /** Sets ProtocolType. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setProtocolType(u16 val){ this->h.ar_pro=htons(val); return OP_SUCCESS; } /* End of setProtocolType() */ /** Sets ProtocolType. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setProtocolType(){ this->h.ar_pro=htons(0x0800); /* DEFAULT: IPv4 */ return OP_SUCCESS; } /* End of setProtocolType() */ /** Returns value of attribute h.ar_pro */ u16 ARPHeader::getProtocolType(){ return ntohs(this->h.ar_pro); } /* End of getProtocolType() */ /** Sets HwAddrLen. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setHwAddrLen(u8 val){ this->h.ar_hln=val; return OP_SUCCESS; } /* End of setHwAddrLen() */ /** Sets HwAddrLen. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setHwAddrLen(){ this->h.ar_hln=ETH_ADDRESS_LEN; return OP_SUCCESS; } /* End of setHwAddrLen() */ /** Returns value of attribute h.ar_hln */ u8 ARPHeader::getHwAddrLen(){ return this->h.ar_hln; } /* End of getHwAddrLen() */ /** Sets ProtoAddrLen. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setProtoAddrLen(u8 val){ this->h.ar_pln=val; return OP_SUCCESS; } /* End of setProtoAddrLen() */ /** Sets ProtoAddrLen. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setProtoAddrLen(){ this->h.ar_pln=IPv4_ADDRESS_LEN; /* DEFAULT: IPv4 */ return OP_SUCCESS; } /* End of setProtoAddrLen() */ /** Returns value of attribute h.ar_pln */ u8 ARPHeader::getProtoAddrLen(){ return this->h.ar_pln; } /* End of getProtoAddrLen() */ /** Sets OpCode. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setOpCode(u16 val){ this->h.ar_op=htons(val); return OP_SUCCESS; } /* End of setOpCode() */ /** Returns value of attribute h.ar_op */ u16 ARPHeader::getOpCode(){ return ntohs(this->h.ar_op); } /* End of getOpCode() */ /** Sets SenderMAC. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setSenderMAC(const u8 * val){ if(val==NULL) return OP_FAILURE; memcpy(this->h.data, val, ETH_ADDRESS_LEN); return OP_SUCCESS; } /* End of setSenderMAC() */ /** Returns value of attribute h.ar_sha */ u8 * ARPHeader::getSenderMAC(){ return this->h.data; } /* End of getSenderMAC() */ /** Sets SenderIP. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setSenderIP(struct in_addr val){ memcpy(this->h.data+6, &val.s_addr, 4); return OP_SUCCESS; } /* End of setSenderIP() */ /** Returns value of attribute h.ar_sip */ u32 ARPHeader::getSenderIP(){ u32 *p = (u32 *)(this->h.data+6); return *p; } /* End of getSenderIP() */ /** Sets TargetMAC. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setTargetMAC(u8 * val){ if(val==NULL) return OP_FAILURE; memcpy(this->h.data+10, val, ETH_ADDRESS_LEN); return OP_SUCCESS; } /* End of setTargetMAC() */ /** Returns value of attribute h.ar_tha */ u8 * ARPHeader::getTargetMAC(){ return this->h.data+10; } /* End of getTargetMAC() */ /** Sets TargetIP. * @return OP_SUCCESS on success and OP_FAILURE in case of error. */ int ARPHeader::setTargetIP(struct in_addr val){ memcpy(this->h.data+16, &val.s_addr, 4); return OP_SUCCESS; } /* End of setTargetIP() */ /** Returns value of attribute h.ar_tip */ u32 ARPHeader::getTargetIP(){ u32 *p = (u32 *)(this->h.data+16); return *p; } /* End of getTargetIP() */