/* * Copyright (c)2019 ZeroTier, Inc. * * Use of this software is governed by the Business Source License included * in the LICENSE.TXT file in the project's root directory. * * Change Date: 2023-01-01 * * On the date above, in accordance with the Business Source License, use * of this software will be governed by version 2.0 of the Apache License. */ /****/ #include #include #include #include "Arp.hpp" #include "OSUtils.hpp" namespace ZeroTier { static const uint8_t ARP_REQUEST_HEADER[8] = { 0x00,0x01,0x08,0x00,0x06,0x04,0x00,0x01 }; static const uint8_t ARP_RESPONSE_HEADER[8] = { 0x00,0x01,0x08,0x00,0x06,0x04,0x00,0x02 }; Arp::Arp() : _cache(256), _lastCleaned(OSUtils::now()) { } void Arp::addLocal(uint32_t ip,const MAC &mac) { _ArpEntry &e = _cache[ip]; e.lastQuerySent = 0; // local IP e.lastResponseReceived = 0; // local IP e.mac = mac; e.local = true; } void Arp::remove(uint32_t ip) { _cache.erase(ip); } uint32_t Arp::processIncomingArp(const void *arp,unsigned int len,void *response,unsigned int &responseLen,MAC &responseDest) { const uint64_t now = OSUtils::now(); uint32_t ip = 0; responseLen = 0; responseDest.zero(); if (len >= 28) { if (!memcmp(arp,ARP_REQUEST_HEADER,8)) { // Respond to ARP requests for locally-known IPs _ArpEntry *targetEntry = _cache.get(reinterpret_cast(arp)[6]); if ((targetEntry)&&(targetEntry->local)) { memcpy(response,ARP_RESPONSE_HEADER,8); targetEntry->mac.copyTo(reinterpret_cast(response) + 8,6); memcpy(reinterpret_cast(response) + 14,reinterpret_cast(arp) + 24,4); memcpy(reinterpret_cast(response) + 18,reinterpret_cast(arp) + 8,10); responseLen = 28; responseDest.setTo(reinterpret_cast(arp) + 8,6); } } else if (!memcmp(arp,ARP_RESPONSE_HEADER,8)) { // Learn cache entries for remote IPs from relevant ARP replies uint32_t responseIp = 0; memcpy(&responseIp,reinterpret_cast(arp) + 14,4); _ArpEntry *queryEntry = _cache.get(responseIp); if ((queryEntry)&&(!queryEntry->local)&&((now - queryEntry->lastQuerySent) <= ZT_ARP_QUERY_MAX_TTL)) { queryEntry->lastResponseReceived = now; queryEntry->mac.setTo(reinterpret_cast(arp) + 8,6); ip = responseIp; } } } if ((now - _lastCleaned) >= ZT_ARP_EXPIRE) { _lastCleaned = now; Hashtable< uint32_t,_ArpEntry >::Iterator i(_cache); uint32_t *k = (uint32_t *)0; _ArpEntry *v = (_ArpEntry *)0; while (i.next(k,v)) { if ((!v->local)&&((now - v->lastResponseReceived) >= ZT_ARP_EXPIRE)) _cache.erase(*k); } } return ip; } MAC Arp::query(const MAC &localMac,uint32_t localIp,uint32_t targetIp,void *query,unsigned int &queryLen,MAC &queryDest) { const uint64_t now = OSUtils::now(); _ArpEntry &e = _cache[targetIp]; if ( ((e.mac)&&((now - e.lastResponseReceived) >= (ZT_ARP_EXPIRE / 3))) || ((!e.mac)&&((now - e.lastQuerySent) >= ZT_ARP_QUERY_INTERVAL)) ) { e.lastQuerySent = now; uint8_t *q = reinterpret_cast(query); memcpy(q,ARP_REQUEST_HEADER,8); q += 8; // ARP request header information, always the same localMac.copyTo(q,6); q += 6; // sending host MAC address memcpy(q,&localIp,4); q += 4; // sending host IP (IP already in big-endian byte order) memset(q,0,6); q += 6; // sending zeros for target MAC address as thats what we want to find memcpy(q,&targetIp,4); // target IP address for resolution (IP already in big-endian byte order) queryLen = 28; if (e.mac) queryDest = e.mac; // confirmation query, send directly to address holder else queryDest = (uint64_t)0xffffffffffffULL; // broadcast query } else { queryLen = 0; queryDest.zero(); } return e.mac; } } // namespace ZeroTier