/* $Id: DhcpMessage.cpp 82968 2020-02-04 10:35:17Z vboxsync $ */ /** @file * DHCP Message and its de/serialization. */ /* * Copyright (C) 2017-2020 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include "DhcpdInternal.h" #include "DhcpMessage.h" #include "DhcpOptions.h" #include #include DhcpMessage::DhcpMessage() : m_xid(0) , m_flags(0) , m_ciaddr() , m_yiaddr() , m_siaddr() , m_giaddr() #if 0 /* not currently unused */ , m_sname() , m_file() #endif , m_optMessageType() { } /** * Does common message dumping. */ void DhcpMessage::dump() const RT_NOEXCEPT { switch (m_optMessageType.value()) { case RTNET_DHCP_MT_DISCOVER: LogRel(("DISCOVER")); break; case RTNET_DHCP_MT_OFFER: LogRel(("OFFER")); break; case RTNET_DHCP_MT_REQUEST: LogRel(("REQUEST")); break; case RTNET_DHCP_MT_DECLINE: LogRel(("DECLINE")); break; case RTNET_DHCP_MT_ACK: LogRel(("ACK")); break; case RTNET_DHCP_MT_NAC: LogRel(("NAC")); break; case RTNET_DHCP_MT_RELEASE: LogRel(("RELEASE")); break; case RTNET_DHCP_MT_INFORM: LogRel(("INFORM")); break; default: LogRel(("", m_optMessageType.value())); break; } LogRel((" xid 0x%08x", m_xid)); LogRel((" chaddr %RTmac\n", &m_mac)); LogRel((" ciaddr %RTnaipv4", m_ciaddr.u)); if (m_yiaddr.u != 0) LogRel((" yiaddr %RTnaipv4", m_yiaddr.u)); if (m_siaddr.u != 0) LogRel((" siaddr %RTnaipv4", m_siaddr.u)); if (m_giaddr.u != 0) LogRel((" giaddr %RTnaipv4", m_giaddr.u)); if (broadcast()) LogRel((" broadcast\n")); else LogRel(("\n")); } /********************************************************************************************************************************* * DhcpClientMessage Implementation * *********************************************************************************************************************************/ /* static */ DhcpClientMessage *DhcpClientMessage::parse(bool broadcasted, const void *buf, size_t buflen) { /* * Validate the request. */ if (buflen < RT_OFFSETOF(RTNETBOOTP, bp_vend.Dhcp.dhcp_opts)) DHCP_LOG2_RET_NULL(("DhcpClientMessage::parse: %zu bytes datagram is too short\n", buflen)); PCRTNETBOOTP bp = (PCRTNETBOOTP)buf; if (bp->bp_op != RTNETBOOTP_OP_REQUEST) DHCP_LOG2_RET_NULL(("DhcpClientMessage::parse: bad opcode: %d\n", bp->bp_op)); if (bp->bp_htype != RTNET_ARP_ETHER) DHCP_LOG2_RET_NULL(("DhcpClientMessage::parse: unsupported htype %d\n", bp->bp_htype)); if (bp->bp_hlen != sizeof(RTMAC)) DHCP_LOG2_RET_NULL(("DhcpClientMessage::parse: unexpected hlen %d\n", bp->bp_hlen)); if ( (bp->bp_chaddr.Mac.au8[0] & 0x01) != 0 && (bp->bp_flags & RTNET_DHCP_FLAG_BROADCAST) == 0) LogRel2(("DhcpClientMessage::parse: multicast chaddr %RTmac without broadcast flag\n", &bp->bp_chaddr.Mac)); /* we don't want to deal with forwarding */ if (bp->bp_giaddr.u != 0) DHCP_LOG2_RET_NULL(("DhcpClientMessage::parse: giaddr %RTnaipv4\n", bp->bp_giaddr.u)); if (bp->bp_hops != 0) DHCP_LOG2_RET_NULL(("DhcpClientMessage::parse: non-zero hops %d\n", bp->bp_hops)); if (bp->bp_vend.Dhcp.dhcp_cookie != RT_H2N_U32_C(RTNET_DHCP_COOKIE)) DHCP_LOG2_RET_NULL(("DhcpClientMessage::parse: bad cookie %#RX32\n", bp->bp_vend.Dhcp.dhcp_cookie)); /* * Convert it into a DhcpClientMessage instance. */ std::unique_ptr msg(new DhcpClientMessage()); msg->m_broadcasted = broadcasted; msg->m_xid = bp->bp_xid; msg->m_flags = bp->bp_flags; msg->m_mac = bp->bp_chaddr.Mac; msg->m_ciaddr = bp->bp_ciaddr; msg->m_yiaddr = bp->bp_yiaddr; msg->m_siaddr = bp->bp_siaddr; msg->m_giaddr = bp->bp_giaddr; int fOptOverload = msg->i_parseOptions(&bp->bp_vend.Dhcp.dhcp_opts[0], buflen - RT_OFFSETOF(RTNETBOOTP, bp_vend.Dhcp.dhcp_opts)); if (fOptOverload < 0) return NULL; /* "The 'file' field MUST be interpreted next ..." */ if (fOptOverload & RTNET_DHCP_OPTION_OVERLOAD_FILE) { int status = msg->i_parseOptions(bp->bp_file, sizeof(bp->bp_file)); if (status != 0) return NULL; } #if 0 /* not currently unused */ else if (bp->bp_file[0] != '\0') { /* must be zero terminated, ignore if not */ const char *pszFile = (const char *)bp->bp_file; size_t len = RTStrNLen(pszFile, sizeof(bp->bp_file)); if (len < sizeof(bp->bp_file)) msg->m_file.assign(pszFile, len); } #endif /* "... followed by the 'sname' field." */ if (fOptOverload & RTNET_DHCP_OPTION_OVERLOAD_SNAME) { int status = msg->i_parseOptions(bp->bp_sname, sizeof(bp->bp_sname)); if (status != 0) /* NB: this includes "nested" Option Overload */ return NULL; } #if 0 /* not currently unused */ else if (bp->bp_sname[0] != '\0') { /* must be zero terminated, ignore if not */ const char *pszSName = (const char *)bp->bp_sname; size_t len = RTStrNLen(pszSName, sizeof(bp->bp_sname)); if (len < sizeof(bp->bp_sname)) msg->m_sname.assign(pszSName, len); } #endif msg->m_optMessageType = OptMessageType(*msg); if (!msg->m_optMessageType.present()) return NULL; msg->m_id = ClientId(msg->m_mac, OptClientId(*msg)); return msg.release(); } int DhcpClientMessage::i_parseOptions(const uint8_t *pbBuf, size_t cbBuf) RT_NOEXCEPT { int fOptOverload = 0; while (cbBuf > 0) { uint8_t const bOpt = *pbBuf++; --cbBuf; if (bOpt == RTNET_DHCP_OPT_PAD) continue; if (bOpt == RTNET_DHCP_OPT_END) break; if (cbBuf == 0) DHCP_LOG_RET(-1, ("option %d has no length field\n", bOpt)); uint8_t const cbOpt = *pbBuf++; --cbBuf; if (cbOpt > cbBuf) DHCP_LOG_RET(-1, ("option %d truncated (length %d, but only %zu bytes left)\n", bOpt, cbOpt, cbBuf)); #if 0 rawopts_t::const_iterator it(m_optmap.find(bOpt)); if (it != m_optmap.cend()) return -1; #endif if (bOpt == RTNET_DHCP_OPT_OPTION_OVERLOAD) { if (cbOpt != 1) DHCP_LOG_RET(-1, ("Overload Option (option %d) has invalid length %d\n", bOpt, cbOpt)); fOptOverload = *pbBuf; if ((fOptOverload & ~RTNET_DHCP_OPTION_OVERLOAD_MASK) != 0) DHCP_LOG_RET(-1, ("Overload Option (option %d) has invalid value 0x%x\n", bOpt, fOptOverload)); } else m_rawopts.insert(std::make_pair(bOpt, octets_t(pbBuf, pbBuf + cbOpt))); pbBuf += cbOpt; cbBuf -= cbOpt; } return fOptOverload; } /** * Dumps the message. */ void DhcpClientMessage::dump() const RT_NOEXCEPT { DhcpMessage::dump(); if (OptRapidCommit(*this).present()) LogRel((" (rapid commit)")); try { const OptServerId sid(*this); if (sid.present()) LogRel((" for server %RTnaipv4", sid.value().u)); const OptClientId cid(*this); if (cid.present()) { if (cid.value().size() > 0) LogRel((" client id: %.*Rhxs\n", cid.value().size(), &cid.value().front())); else LogRel((" client id: \n")); } const OptRequestedAddress reqAddr(*this); if (reqAddr.present()) LogRel((" requested address %RTnaipv4", reqAddr.value().u)); const OptLeaseTime reqLeaseTime(*this); if (reqLeaseTime.present()) LogRel((" requested lease time %d", reqAddr.value())); if (reqAddr.present() || reqLeaseTime.present()) LogRel(("\n")); const OptParameterRequest params(*this); if (params.present()) { LogRel((" params {")); typedef OptParameterRequest::value_t::const_iterator it_t; for (it_t it = params.value().begin(); it != params.value().end(); ++it) LogRel((" %d", *it)); LogRel((" }\n")); } } catch (std::bad_alloc &) { LogRel(("bad_alloc during dumping\n")); } for (rawopts_t::const_iterator it = m_rawopts.begin(); it != m_rawopts.end(); ++it) { const uint8_t optcode = (*it).first; switch (optcode) { case OptMessageType::optcode: /* FALLTHROUGH */ case OptClientId::optcode: /* FALLTHROUGH */ case OptRequestedAddress::optcode: /* FALLTHROUGH */ case OptLeaseTime::optcode: /* FALLTHROUGH */ case OptParameterRequest::optcode: /* FALLTHROUGH */ case OptRapidCommit::optcode: break; default: { size_t const cbBytes = it->second.size(); uint8_t const *pbBytes = &it->second.front(); bool fAllPrintable = true; for (size_t off = 0; off < cbBytes; off++) if (!RT_C_IS_PRINT((char )pbBytes[off])) { fAllPrintable = false; break; } if (fAllPrintable) LogRel((" %2d: '%.*s'\n", optcode, cbBytes, pbBytes)); else LogRel((" %2d: %.*Rhxs\n", optcode, cbBytes, pbBytes)); } } } } /********************************************************************************************************************************* * DhcpServerMessage Implementation * *********************************************************************************************************************************/ DhcpServerMessage::DhcpServerMessage(const DhcpClientMessage &req, uint8_t messageTypeParam, RTNETADDRIPV4 serverAddr) : DhcpMessage() , m_optServerId(serverAddr) { m_dst.u = 0xffffffff; /* broadcast */ m_optMessageType = OptMessageType(messageTypeParam); /* copy values from the request (cf. RFC2131 Table 3) */ m_xid = req.xid(); m_flags = req.flags(); m_giaddr = req.giaddr(); m_mac = req.mac(); if (req.messageType() == RTNET_DHCP_MT_REQUEST) m_ciaddr = req.ciaddr(); } void DhcpServerMessage::maybeUnicast(const DhcpClientMessage &req) RT_NOEXCEPT { if (!req.broadcast() && req.ciaddr().u != 0) setDst(req.ciaddr()); } /** * @throws std::bad_alloc */ void DhcpServerMessage::addOption(DhcpOption *opt) { m_optmap << opt; } /** * @throws std::bad_alloc */ void DhcpServerMessage::addOptions(const optmap_t &optmap) { for (optmap_t::const_iterator it = optmap.begin(); it != optmap.end(); ++it) m_optmap << it->second; } /** * @throws std::bad_alloc */ int DhcpServerMessage::encode(octets_t &data) { /* * Header, including DHCP cookie. */ RTNETBOOTP bp; RT_ZERO(bp); bp.bp_op = RTNETBOOTP_OP_REPLY; bp.bp_htype = RTNET_ARP_ETHER; bp.bp_hlen = sizeof(RTMAC); bp.bp_xid = m_xid; bp.bp_ciaddr = m_ciaddr; bp.bp_yiaddr = m_yiaddr; bp.bp_siaddr = m_siaddr; bp.bp_giaddr = m_giaddr; bp.bp_chaddr.Mac = m_mac; bp.bp_vend.Dhcp.dhcp_cookie = RT_H2N_U32_C(RTNET_DHCP_COOKIE); data.insert(data.end(), (uint8_t *)&bp, (uint8_t *)&bp.bp_vend.Dhcp.dhcp_opts); /** @todo TFTP, bootfile name, etc. pick from extended options if no * override in effect? */ /* * Options */ data << m_optServerId << m_optMessageType; for (optmap_t::const_iterator it = m_optmap.begin(); it != m_optmap.end(); ++it) { LogRel3(("encoding option %d (%s)\n", it->first, DhcpOption::name(it->first))); DhcpOption &opt = *it->second; data << opt; } data << OptEnd(); AssertCompile(RTNET_DHCP_NORMAL_SIZE == 548); if (data.size() < RTNET_DHCP_NORMAL_SIZE) data.resize(RTNET_DHCP_NORMAL_SIZE); /** @todo dump it */ if ((LogRelIs4Enabled() && LogRelIsEnabled()) || LogIsEnabled()) dump(); if ((LogRelIs5Enabled() && LogRelIsEnabled()) || LogIs5Enabled()) LogRel5(("encoded message: %u bytes\n%.*Rhxd\n", data.size(), data.size(), &data.front())); return VINF_SUCCESS; } /** * Dumps a server message to the log. */ void DhcpServerMessage::dump() const RT_NOEXCEPT { DhcpMessage::dump(); /** @todo dump option details. */ }