/* $Id: DhcpOptions.h 85231 2020-07-11 16:26:34Z vboxsync $ */ /** @file * DHCP server - DHCP options */ /* * 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. */ #ifndef VBOX_INCLUDED_SRC_Dhcpd_DhcpOptions_h #define VBOX_INCLUDED_SRC_Dhcpd_DhcpOptions_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif #include "DhcpdInternal.h" #include #include #include #include #include class DhcpClientMessage; typedef struct DhcpIpv4AddrAndMask { RTNETADDRIPV4 Ipv4; RTNETADDRIPV4 Mask; } DhcpIpv4AddrAndMask; class DhcpOption { protected: uint8_t m_OptCode; bool m_fPresent; public: explicit DhcpOption(uint8_t aOptCode) : m_OptCode(aOptCode), m_fPresent(true) {} DhcpOption(uint8_t aOptCode, bool fPresent) : m_OptCode(aOptCode), m_fPresent(fPresent) {} virtual DhcpOption *clone() const = 0; virtual ~DhcpOption() {} public: static DhcpOption *parse(uint8_t aOptCode, int aEnc, const char *pcszValue, int *prc = NULL); static const char *name(uint8_t bOptcode); public: uint8_t optcode() const RT_NOEXCEPT { return m_OptCode; } bool present() const RT_NOEXCEPT { return m_fPresent; } public: int encode(octets_t &dst) const; int decode(const rawopts_t &map); int decode(const DhcpClientMessage &req); protected: virtual ssize_t encodeValue(octets_t &dst) const = 0; virtual int decodeValue(const octets_t &src, size_t cb) = 0; protected: static const octets_t *findOption(const rawopts_t &aOptMap, uint8_t aOptCode); protected: /** @name Serialization * @{ */ static void append(octets_t &aDst, bool aValue) { uint8_t b = aValue ? 1 : 0; aDst.push_back(b); } static void append(octets_t &aDst, uint8_t aValue) { aDst.push_back(aValue); } static void append(octets_t &aDst, uint16_t aValue) { RTUINT16U u16 = { RT_H2N_U16(aValue) }; aDst.insert(aDst.end(), u16.au8, u16.au8 + sizeof(aValue)); } static void append(octets_t &aDst, uint32_t aValue) { RTUINT32U u32 = { RT_H2N_U32(aValue) }; aDst.insert(aDst.end(), u32.au8, u32.au8 + sizeof(aValue)); } static void append(octets_t &aDst, RTNETADDRIPV4 aIPv4) { aDst.insert(aDst.end(), aIPv4.au8, aIPv4.au8 + sizeof(aIPv4)); } static void append(octets_t &aDst, DhcpIpv4AddrAndMask aIPv4) { aDst.insert(aDst.end(), (uint8_t *)&aIPv4, (uint8_t *)&aIPv4 + sizeof(aIPv4)); } static void append(octets_t &aDst, const char *pszString, size_t cb) { aDst.insert(aDst.end(), pszString, pszString + cb); } static void append(octets_t &aDst, const RTCString &str) { append(aDst, str.c_str(), str.length()); } /* non-overloaded name to avoid ambiguity */ static void appendLength(octets_t &aDst, size_t cb) { append(aDst, static_cast(cb)); } /** @} */ /** @name Deserialization * @{ */ static void extract(bool &aValue, octets_t::const_iterator &pos) { aValue = *pos != 0; pos += sizeof(uint8_t); } static void extract(uint8_t &aValue, octets_t::const_iterator &pos) { aValue = *pos; pos += sizeof(uint8_t); } static void extract(uint16_t &aValue, octets_t::const_iterator &pos) { RTUINT16U u16; memcpy(u16.au8, &pos[0], sizeof(uint16_t)); aValue = RT_N2H_U16(u16.u); pos += sizeof(uint16_t); } static void extract(uint32_t &aValue, octets_t::const_iterator &pos) { RTUINT32U u32; memcpy(u32.au8, &pos[0], sizeof(uint32_t)); aValue = RT_N2H_U32(u32.u); pos += sizeof(uint32_t); } static void extract(RTNETADDRIPV4 &aValue, octets_t::const_iterator &pos) { memcpy(aValue.au8, &pos[0], sizeof(RTNETADDRIPV4)); pos += sizeof(RTNETADDRIPV4); } static void extract(DhcpIpv4AddrAndMask &aValue, octets_t::const_iterator &pos) { memcpy(&aValue, &pos[0], sizeof(aValue)); pos += sizeof(aValue); } #if 0 /** @todo fix me */ static void extract(RTCString &aString, octets_t::const_iterator &pos, size_t cb) { aString.replace(aString.begin(), aString.end(), &pos[0], &pos[cb]); pos += cb; } #endif /** @} */ /** @name Parse textual representation (e.g. in config file) * @{ */ static int parse1(bool &aValue, const char *pcszValue); static int parse1(uint8_t &aValue, const char *pcszValue); static int parse1(uint16_t &aValue, const char *pcszValue); static int parse1(uint32_t &aValue, const char *pcszValue); static int parse1(RTNETADDRIPV4 &aValue, const char *pcszValue); static int parse1(DhcpIpv4AddrAndMask &aValue, const char *pcszValue); template static int parseList(std::vector &aList, const char *pcszValue); static int parseHex(octets_t &aRawValue, const char *pcszValue); /** @} */ }; inline octets_t &operator<<(octets_t &dst, const DhcpOption &option) { option.encode(dst); return dst; } #ifndef IN_VBOXSVC optmap_t &operator<<(optmap_t &optmap, DhcpOption *option); optmap_t &operator<<(optmap_t &optmap, const std::shared_ptr &option); #endif /** * Only for << OptEnd() syntactic sugar... */ struct OptEnd {}; inline octets_t &operator<<(octets_t &dst, const OptEnd &end) { RT_NOREF(end); dst.push_back(RTNET_DHCP_OPT_END); return dst; } /** * Option that has no value */ class OptNoValueBase : public DhcpOption { public: explicit OptNoValueBase(uint8_t aOptCode) : DhcpOption(aOptCode, false) {} OptNoValueBase(uint8_t aOptCode, bool fPresent) : DhcpOption(aOptCode, fPresent) {} OptNoValueBase(uint8_t aOptCode, const DhcpClientMessage &req) : DhcpOption(aOptCode, false) { decode(req); } virtual OptNoValueBase *clone() const { return new OptNoValueBase(*this); } protected: virtual ssize_t encodeValue(octets_t &dst) const { RT_NOREF(dst); return 0; } public: static bool isLengthValid(size_t cb) { return cb == 0; } virtual int decodeValue(const octets_t &src, size_t cb) { RT_NOREF(src); if (!isLengthValid(cb)) return VERR_INVALID_PARAMETER; m_fPresent = true; return VINF_SUCCESS; } }; template class OptNoValue : public OptNoValueBase { public: static const uint8_t optcode = _OptCode; OptNoValue() : OptNoValueBase(optcode) {} explicit OptNoValue(bool fPresent) /* there's no overloaded ctor with value */ : OptNoValueBase(optcode, fPresent) {} explicit OptNoValue(const DhcpClientMessage &req) : OptNoValueBase(optcode, req) {} }; /* * Option that contains single value of fixed-size type T */ template class OptValueBase : public DhcpOption { public: typedef T value_t; protected: T m_Value; explicit OptValueBase(uint8_t aOptCode) : DhcpOption(aOptCode, false), m_Value() {} OptValueBase(uint8_t aOptCode, const T &aOptValue) : DhcpOption(aOptCode), m_Value(aOptValue) {} OptValueBase(uint8_t aOptCode, const DhcpClientMessage &req) : DhcpOption(aOptCode, false), m_Value() { decode(req); } public: virtual OptValueBase *clone() const { return new OptValueBase(*this); } public: T &value() { return m_Value; } const T &value() const { return m_Value; } protected: virtual ssize_t encodeValue(octets_t &dst) const { append(dst, m_Value); return sizeof(T); } public: static bool isLengthValid(size_t cb) { return cb == sizeof(T); } virtual int decodeValue(const octets_t &src, size_t cb) { if (!isLengthValid(cb)) return VERR_INVALID_PARAMETER; octets_t::const_iterator pos(src.begin()); extract(m_Value, pos); m_fPresent = true; return VINF_SUCCESS; } }; template class OptValue : public OptValueBase { public: using typename OptValueBase::value_t; public: static const uint8_t optcode = _OptCode; OptValue() : OptValueBase(optcode) {} explicit OptValue(const T &aOptValue) : OptValueBase(optcode, aOptValue) {} explicit OptValue(const DhcpClientMessage &req) : OptValueBase(optcode, req) {} static OptValue *parse(const char *pcszValue, int *prc) { typename OptValueBase::value_t v; int rc = DhcpOption::parse1(v, pcszValue); *prc = rc; if (RT_SUCCESS(rc)) return new OptValue(v); return NULL; } }; /** * Option that contains a string. */ class OptStringBase : public DhcpOption { public: typedef RTCString value_t; protected: RTCString m_String; explicit OptStringBase(uint8_t aOptCode) : DhcpOption(aOptCode, false), m_String() {} OptStringBase(uint8_t aOptCode, const RTCString &aOptString) : DhcpOption(aOptCode), m_String(aOptString) {} OptStringBase(uint8_t aOptCode, const DhcpClientMessage &req) : DhcpOption(aOptCode, false), m_String() { decode(req); } public: virtual OptStringBase *clone() const { return new OptStringBase(*this); } public: RTCString &value() { return m_String; } const RTCString &value() const { return m_String; } protected: virtual ssize_t encodeValue(octets_t &dst) const { if (!isLengthValid(m_String.length())) return -1; append(dst, m_String); return (ssize_t)m_String.length(); } public: static bool isLengthValid(size_t cb) { return cb <= UINT8_MAX; } virtual int decodeValue(const octets_t &src, size_t cb) { if (!isLengthValid(cb)) return VERR_INVALID_PARAMETER; int rc = m_String.assignNoThrow((char *)&src.front(), cb); /** @todo encoding. */ m_fPresent = true; return rc; } }; template class OptString : public OptStringBase { public: static const uint8_t optcode = _OptCode; OptString() : OptStringBase(optcode) {} explicit OptString(const RTCString &aOptString) : OptStringBase(optcode, aOptString) {} explicit OptString(const DhcpClientMessage &req) : OptStringBase(optcode, req) {} static OptString *parse(const char *pcszValue, int *prc) { *prc = VINF_SUCCESS; return new OptString(pcszValue); } }; /* * Option that contains a list of values of type T */ template class OptListBase : public DhcpOption { public: typedef std::vector value_t; protected: std::vector m_List; explicit OptListBase(uint8_t aOptCode) : DhcpOption(aOptCode, false), m_List() {} OptListBase(uint8_t aOptCode, const T &aOptSingle) : DhcpOption(aOptCode), m_List(1, aOptSingle) {} OptListBase(uint8_t aOptCode, const std::vector &aOptList) : DhcpOption(aOptCode), m_List(aOptList) {} OptListBase(uint8_t aOptCode, const DhcpClientMessage &req) : DhcpOption(aOptCode, false), m_List() { decode(req); } public: virtual OptListBase *clone() const { return new OptListBase(*this); } public: std::vector &value() { return m_List; } const std::vector &value() const { return m_List; } protected: virtual ssize_t encodeValue(octets_t &dst) const { const size_t cbItem = sizeof(T); size_t cbValue = 0; for (size_t i = 0; i < m_List.size(); ++i) { if (cbValue + cbItem > UINT8_MAX) break; append(dst, m_List[i]); cbValue += cbItem; } return (ssize_t)cbValue; } public: static bool isLengthValid(size_t cb) { return cb % sizeof(T) == 0; } virtual int decodeValue(const octets_t &src, size_t cb) { if (!isLengthValid(cb)) return VERR_INVALID_PARAMETER; m_List.erase(m_List.begin(), m_List.end()); octets_t::const_iterator pos(src.begin()); for (size_t i = 0; i < cb / sizeof(T); ++i) { T item; extract(item, pos); m_List.push_back(item); } m_fPresent = true; return VINF_SUCCESS; } }; template class OptList : public OptListBase { public: using typename OptListBase::value_t; public: static const uint8_t optcode = _OptCode; OptList() : OptListBase(optcode) {} explicit OptList(const T &aOptSingle) : OptListBase(optcode, aOptSingle) {} explicit OptList(const std::vector &aOptList) : OptListBase(optcode, aOptList) {} explicit OptList(const DhcpClientMessage &req) : OptListBase(optcode, req) {} static OptList *parse(const char *pcszValue, int *prc) { typename OptListBase::value_t v; int rc = DhcpOption::parseList(v, pcszValue); if (RT_SUCCESS(rc)) { if (!v.empty()) { *prc = rc; return new OptList(v); } rc = VERR_NO_DATA; } *prc = rc; return NULL; } }; template class OptPairList : public OptListBase { public: using typename OptListBase::value_t; public: static const uint8_t optcode = _OptCode; OptPairList() : OptListBase(optcode) {} explicit OptPairList(const T &aOptSingle) : OptListBase(optcode, aOptSingle) {} explicit OptPairList(const std::vector &aOptList) : OptListBase(optcode, aOptList) {} explicit OptPairList(const DhcpClientMessage &req) : OptListBase(optcode, req) {} static OptPairList *parse(const char *pcszValue, int *prc) { typename OptListBase::value_t v; int rc = DhcpOption::parseList(v, pcszValue); if (RT_SUCCESS(rc)) { if (!v.empty()) { if ((v.size() & 1) == 0) { *prc = rc; return new OptPairList(v); } rc = VERR_UNEVEN_INPUT; } else rc = VERR_NO_DATA; } *prc = rc; return NULL; } }; /* * Options specified by raw binary data that we don't know how to * interpret. */ class RawOption : public DhcpOption { protected: octets_t m_Data; public: explicit RawOption(uint8_t aOptCode) : DhcpOption(aOptCode, false), m_Data() {} RawOption(uint8_t aOptCode, const octets_t &aSrc) : DhcpOption(aOptCode), m_Data(aSrc) {} public: virtual RawOption *clone() const { return new RawOption(*this); } protected: virtual ssize_t encodeValue(octets_t &dst) const { dst.insert(dst.end(), m_Data.begin(), m_Data.end()); return (ssize_t)m_Data.size(); } virtual int decodeValue(const octets_t &src, size_t cb) { octets_t::const_iterator beg(src.begin()); octets_t data(beg, beg + (ssize_t)cb); m_Data.swap(data); m_fPresent = true; return VINF_SUCCESS; } public: static RawOption *parse(uint8_t aOptCode, const char *pcszValue, int *prc) { octets_t data; int rc = DhcpOption::parseHex(data, pcszValue); *prc = rc; if (RT_SUCCESS(rc)) return new RawOption(aOptCode, data); return NULL; } }; /** @name The DHCP options types. * @{ */ typedef OptValue<1, RTNETADDRIPV4> OptSubnetMask; typedef OptValue<2, uint32_t> OptTimeOffset; typedef OptList<3, RTNETADDRIPV4> OptRouters; typedef OptList<4, RTNETADDRIPV4> OptTimeServers; typedef OptList<5, RTNETADDRIPV4> OptNameServers; typedef OptList<6, RTNETADDRIPV4> OptDNSes; typedef OptList<7, RTNETADDRIPV4> OptLogServers; typedef OptList<8, RTNETADDRIPV4> OptCookieServers; typedef OptList<9, RTNETADDRIPV4> OptLPRServers; typedef OptList<10, RTNETADDRIPV4> OptImpressServers; typedef OptList<11, RTNETADDRIPV4> OptResourceLocationServers; typedef OptString<12> OptHostName; typedef OptValue<13, uint16_t> OptBootFileSize; typedef OptString<14> OptMeritDumpFile; typedef OptString<15> OptDomainName; typedef OptValue<16, RTNETADDRIPV4> OptSwapServer; typedef OptString<17> OptRootPath; typedef OptString<18> OptExtensionPath; typedef OptValue<19, bool> OptIPForwarding; typedef OptValue<20, bool> OptNonLocalSourceRouting; typedef OptList<21, DhcpIpv4AddrAndMask> OptPolicyFilter; typedef OptValue<22, uint16_t> OptMaxDgramReassemblySize; typedef OptValue<23, uint16_t> OptDefaultIPTTL; typedef OptValue<24, uint32_t> OptPathMTUAgingTimeout; typedef OptList<25, uint16_t> OptPathMTUPlateauTable; typedef OptValue<26, uint16_t> OptInterfaceMTU; typedef OptValue<27, bool> OptAllSubnetsAreLocal; typedef OptValue<28, RTNETADDRIPV4> OptBroadcastAddress; typedef OptValue<29, bool> OptPerformMaskDiscovery; typedef OptValue<30, bool> OptMaskSupplier; typedef OptValue<31, bool> OptPerformRouterDiscovery; typedef OptValue<32, RTNETADDRIPV4> OptRouterSolicitationAddress; typedef OptPairList<33, RTNETADDRIPV4> OptStaticRoute; typedef OptValue<34, bool> OptTrailerEncapsulation; typedef OptValue<35, uint32_t> OptARPCacheTimeout; typedef OptValue<36, bool> OptEthernetEncapsulation; typedef OptValue<37, uint8_t> OptTCPDefaultTTL; typedef OptValue<38, uint32_t> OptTCPKeepaliveInterval; typedef OptValue<39, bool> OptTCPKeepaliveGarbage; typedef OptString<40> OptNISDomain; typedef OptList<41, RTNETADDRIPV4> OptNISServers; typedef OptList<42, RTNETADDRIPV4> OptNTPServers; /* DHCP related options: */ typedef OptList<43, uint8_t> OptVendorSpecificInfo; typedef OptList<44, RTNETADDRIPV4> OptNetBIOSNameServers; typedef OptList<45, RTNETADDRIPV4> OptNetBIOSDatagramServers; typedef OptValue<46, uint8_t> OptNetBIOSNodeType; typedef OptList<47, uint8_t> OptNetBIOSScope; /**< uint8_t or string? */ typedef OptList<48, RTNETADDRIPV4> OptXWindowsFontServers; typedef OptList<49, RTNETADDRIPV4> OptXWindowsDisplayManager; typedef OptValue<50, RTNETADDRIPV4> OptRequestedAddress; typedef OptValue<51, uint32_t> OptLeaseTime; /* 52 - option overload is syntactic and handled internally */ typedef OptValue<53, uint8_t> OptMessageType; typedef OptValue<54, RTNETADDRIPV4> OptServerId; typedef OptList<55, uint8_t> OptParameterRequest; typedef OptString<56> OptMessage; typedef OptValue<57, uint16_t> OptMaxDHCPMessageSize; typedef OptValue<58, uint32_t> OptRenewalTime; typedef OptValue<59, uint32_t> OptRebindingTime; typedef OptList<60, uint8_t> OptVendorClassId; typedef OptList<61, uint8_t> OptClientId; typedef OptString<62> OptNetWareIPDomainName; /**< RFC2242 */ typedef OptList<63, uint8_t> OptNetWareIPInformation; /**< complicated, so just byte list for now. RFC2242 */ typedef OptString<64> OptNISPlusDomain; typedef OptString<65> OptNISPlusServers; typedef OptString<66> OptTFTPServerName; /**< when overloaded */ typedef OptString<67> OptBootfileName; /**< when overloaded */ typedef OptList<68, RTNETADDRIPV4> OptMobileIPHomeAgents; typedef OptList<69, RTNETADDRIPV4> OptSMTPServers; typedef OptList<70, RTNETADDRIPV4> OptPOP3Servers; typedef OptList<71, RTNETADDRIPV4> OptNNTPServers; typedef OptList<72, RTNETADDRIPV4> OptWWWServers; typedef OptList<73, RTNETADDRIPV4> OptFingerServers; typedef OptList<74, RTNETADDRIPV4> OptIRCServers; typedef OptList<75, RTNETADDRIPV4> OptStreetTalkServers; typedef OptList<76, RTNETADDRIPV4> OptSTDAServers; typedef OptList<77, uint8_t> OptUserClassId; typedef OptList<78, uint8_t> OptSLPDirectoryAgent; /**< complicated, so just byte list for now. RFC2610 */ typedef OptList<79, uint8_t> OptSLPServiceScope; /**< complicated, so just byte list for now. RFC2610 */ typedef OptNoValue<80> OptRapidCommit; /**< RFC4039 */ typedef OptList<119, uint8_t> OptDomainSearch; /**< RFC3397 */ /** @} */ #endif /* !VBOX_INCLUDED_SRC_Dhcpd_DhcpOptions_h */