/* $Id: Config.h 82968 2020-02-04 10:35:17Z vboxsync $ */ /** @file * DHCP server - server configuration */ /* * 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_Config_h #define VBOX_INCLUDED_SRC_Dhcpd_Config_h #ifndef RT_WITHOUT_PRAGMA_ONCE # pragma once #endif #include "DhcpdInternal.h" #include #include #include #include #include #include "DhcpOptions.h" #include "ClientId.h" class Config; /** * Base configuration * * @author bird (2019-07-15) */ class ConfigLevelBase { private: /** DHCP options. */ optmap_t m_Options; protected: /** Minimum lease time, zero means try next level up. */ uint32_t m_secMinLeaseTime; /** Default lease time, zero means try next level up. */ uint32_t m_secDefaultLeaseTime; /** Maximum lease time, zero means try next level up. */ uint32_t m_secMaxLeaseTime; /** Options forced unsolicited upon the client. */ octets_t m_vecForcedOptions; /** Options (typcially from higher up) that should be hidden from the client. */ octets_t m_vecSuppressedOptions; public: ConfigLevelBase() : m_Options() , m_secMinLeaseTime(0) , m_secDefaultLeaseTime(0) , m_secMaxLeaseTime(0) , m_vecForcedOptions() , m_vecSuppressedOptions() { } virtual ~ConfigLevelBase() { } virtual void initFromXml(xml::ElementNode const *pElmConfig, bool fStrict, Config const *pConfig); virtual const char *getType() const RT_NOEXCEPT = 0; virtual const char *getName() const RT_NOEXCEPT = 0; /** * Tries to find DHCP option @a bOpt, returning an success indicator and * iterator to the result. */ bool findOption(uint8_t bOpt, optmap_t::const_iterator &a_rItRet) const RT_NOEXCEPT { a_rItRet = m_Options.find(bOpt); return a_rItRet != m_Options.end(); } /** Checks if @a bOpt is suppressed or not. */ bool isOptionSuppressed(uint8_t bOpt) const RT_NOEXCEPT { return m_vecSuppressedOptions.size() > 0 && memchr(&m_vecSuppressedOptions.front(), bOpt, m_vecSuppressedOptions.size()) != NULL; } /** @name Accessors * @{ */ uint32_t getMinLeaseTime() const RT_NOEXCEPT { return m_secMinLeaseTime; } uint32_t getDefaultLeaseTime() const RT_NOEXCEPT { return m_secDefaultLeaseTime; } uint32_t getMaxLeaseTime() const RT_NOEXCEPT { return m_secMaxLeaseTime; } octets_t const &getForcedOptions() const RT_NOEXCEPT { return m_vecForcedOptions; } octets_t const &getSuppressedOptions() const RT_NOEXCEPT { return m_vecSuppressedOptions; } optmap_t const &getOptions() const RT_NOEXCEPT { return m_Options; } /** @} */ protected: void i_parseOption(const xml::ElementNode *pElmOption); void i_parseForcedOrSuppressedOption(const xml::ElementNode *pElmOption, bool fForced); virtual void i_parseChild(const xml::ElementNode *pElmChild, bool fStrict, Config const *pConfig); }; /** * Global config */ class GlobalConfig : public ConfigLevelBase { public: GlobalConfig() : ConfigLevelBase() { } void initFromXml(xml::ElementNode const *pElmOptions, bool fStrict, Config const *pConfig) RT_OVERRIDE; const char *getType() const RT_NOEXCEPT RT_OVERRIDE { return "global"; } const char *getName() const RT_NOEXCEPT RT_OVERRIDE { return "GlobalConfig"; } }; /** * Group membership condition. */ class GroupCondition { protected: /** The value. */ RTCString m_strValue; /** Inclusive (true) or exclusive (false), latter takes precedency. */ bool m_fInclusive; public: virtual ~GroupCondition() {} virtual int initCondition(const char *a_pszValue, bool a_fInclusive); virtual bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const RT_NOEXCEPT = 0; /** @name accessors * @{ */ RTCString const &getValue() const RT_NOEXCEPT { return m_strValue; } bool getInclusive() const RT_NOEXCEPT { return m_fInclusive; } /** @} */ protected: bool matchClassId(bool a_fPresent, std::vector const &a_rBytes, bool fWildcard = false) const RT_NOEXCEPT; }; /** MAC condition. */ class GroupConditionMAC : public GroupCondition { private: RTMAC m_MACAddress; public: int initCondition(const char *a_pszValue, bool a_fInclusive) RT_OVERRIDE; bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const RT_NOEXCEPT RT_OVERRIDE; }; /** MAC wildcard condition. */ class GroupConditionMACWildcard : public GroupCondition { public: bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const RT_NOEXCEPT RT_OVERRIDE; }; /** Vendor class ID condition. */ class GroupConditionVendorClassID : public GroupCondition { public: bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const RT_NOEXCEPT RT_OVERRIDE; }; /** Vendor class ID wildcard condition. */ class GroupConditionVendorClassIDWildcard : public GroupCondition { public: bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const RT_NOEXCEPT RT_OVERRIDE; }; /** User class ID condition. */ class GroupConditionUserClassID : public GroupCondition { public: bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const RT_NOEXCEPT RT_OVERRIDE; }; /** User class ID wildcard condition. */ class GroupConditionUserClassIDWildcard : public GroupCondition { public: bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const RT_NOEXCEPT RT_OVERRIDE; }; /** * Group config */ class GroupConfig : public ConfigLevelBase { private: typedef std::vector GroupConditionVec; /** The group name. */ RTCString m_strName; /** Vector containing the inclusive membership conditions (must match one). */ GroupConditionVec m_Inclusive; /** Vector containing the exclusive membership conditions (must match none). */ GroupConditionVec m_Exclusive; public: GroupConfig() : ConfigLevelBase() { } void initFromXml(xml::ElementNode const *pElmGroup, bool fStrict, Config const *pConfig) RT_OVERRIDE; bool match(const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const; /** @name Accessors * @{ */ const char *getType() const RT_NOEXCEPT RT_OVERRIDE { return "group"; } const char *getName() const RT_NOEXCEPT RT_OVERRIDE { return m_strName.c_str(); } RTCString const &getGroupName() const RT_NOEXCEPT { return m_strName; } /** @} */ protected: void i_parseChild(const xml::ElementNode *pElmChild, bool fStrict, Config const *pConfig) RT_OVERRIDE; /** Used to name unnamed groups. */ static uint32_t s_uGroupNo; }; /** * Host (MAC address) specific configuration. */ class HostConfig : public ConfigLevelBase { protected: /** The MAC address. */ RTMAC m_MACAddress; /** Name annotating the entry. */ RTCString m_strName; /** Fixed address assignment when m_fHaveFixedAddress is true. */ RTNETADDRIPV4 m_FixedAddress; /** Set if we have a fixed address asignment. */ bool m_fHaveFixedAddress; public: HostConfig() : ConfigLevelBase() , m_fHaveFixedAddress(false) { RT_ZERO(m_MACAddress); RT_ZERO(m_FixedAddress); } void initFromXml(xml::ElementNode const *pElmConfig, bool fStrict, Config const *pConfig) RT_OVERRIDE; const char *getType() const RT_NOEXCEPT RT_OVERRIDE { return "host"; } const char *getName() const RT_NOEXCEPT RT_OVERRIDE { return m_strName.c_str(); } /** @name Accessors * @{ */ RTMAC const &getMACAddress() const RT_NOEXCEPT { return m_MACAddress; } bool haveFixedAddress() const RT_NOEXCEPT { return m_fHaveFixedAddress; } RTNETADDRIPV4 const & getFixedAddress() const RT_NOEXCEPT { return m_FixedAddress; } /** @} */ }; /** * DHCP server configuration. */ class Config { /** Group configuration map. */ typedef std::map GroupConfigMap; /** Host configuration map. */ typedef std::map HostConfigMap; RTCString m_strHome; /**< path of ~/.VirtualBox or equivalent, */ RTCString m_strNetwork; /**< The name of the internal network the DHCP server is connected to. */ RTCString m_strLeasesFilename;/**< The lease DB filename. */ RTCString m_strTrunk; /**< The trunk name of the internal network. */ INTNETTRUNKTYPE m_enmTrunkType; /**< The trunk type of the internal network. */ RTMAC m_MacAddress; /**< The MAC address for the DHCP server. */ RTNETADDRIPV4 m_IPv4Address; /**< The IPv4 address of the DHCP server. */ RTNETADDRIPV4 m_IPv4Netmask; /**< The IPv4 netmask for the DHCP server. */ RTNETADDRIPV4 m_IPv4PoolFirst; /**< The first IPv4 address in the pool. */ RTNETADDRIPV4 m_IPv4PoolLast; /**< The last IPV4 address in the pool (inclusive like all other 'last' variables). */ /** The global configuration. */ GlobalConfig m_GlobalConfig; /** The group configurations, indexed by group name. */ GroupConfigMap m_GroupConfigs; /** The host configurations, indexed by MAC address. */ HostConfigMap m_HostConfigs; /** Set if we've initialized the log already (via command line). */ static bool g_fInitializedLog; private: Config(); int i_init() RT_NOEXCEPT; int i_homeInit() RT_NOEXCEPT; static Config *i_createInstanceAndCallInit() RT_NOEXCEPT; int i_logInit() RT_NOEXCEPT; static int i_logInitWithFilename(const char *pszFilename) RT_NOEXCEPT; int i_complete() RT_NOEXCEPT; public: /** @name Factory methods * @{ */ static Config *hardcoded() RT_NOEXCEPT; /**< For testing. */ static Config *create(int argc, char **argv) RT_NOEXCEPT; /**< --config */ static Config *compat(int argc, char **argv); /** @} */ /** @name Accessors * @{ */ const RTCString &getHome() const RT_NOEXCEPT { return m_strHome; } const RTCString &getNetwork() const RT_NOEXCEPT { return m_strNetwork; } const RTCString &getLeasesFilename() const RT_NOEXCEPT { return m_strLeasesFilename; } const RTCString &getTrunk() const RT_NOEXCEPT { return m_strTrunk; } INTNETTRUNKTYPE getTrunkType() const RT_NOEXCEPT { return m_enmTrunkType; } const RTMAC &getMacAddress() const RT_NOEXCEPT { return m_MacAddress; } RTNETADDRIPV4 getIPv4Address() const RT_NOEXCEPT { return m_IPv4Address; } RTNETADDRIPV4 getIPv4Netmask() const RT_NOEXCEPT { return m_IPv4Netmask; } RTNETADDRIPV4 getIPv4PoolFirst() const RT_NOEXCEPT { return m_IPv4PoolFirst; } RTNETADDRIPV4 getIPv4PoolLast() const RT_NOEXCEPT { return m_IPv4PoolLast; } /** @} */ /** Gets the network (IP masked by network mask). */ RTNETADDRIPV4 getIPv4Network() const RT_NOEXCEPT { RTNETADDRIPV4 Network; Network.u = m_IPv4Netmask.u & m_IPv4Address.u; return Network; } /** Checks if the given IPv4 address is in the DHCP server network. */ bool isInIPv4Network(RTNETADDRIPV4 a_rAddress) const RT_NOEXCEPT { return (a_rAddress.u & getIPv4Netmask().u) == getIPv4Network().u; } /** Host configuration vector. */ typedef std::vector HostConfigVec; int getFixedAddressConfigs(HostConfigVec &a_rRetConfigs) const; /** Configuration vector. */ typedef std::vector ConfigVec; ConfigVec &getConfigsForClient(ConfigVec &a_rRetConfigs, const ClientId &a_ridClient, const OptVendorClassId &a_ridVendorClass, const OptUserClassId &a_ridUserClass) const; optmap_t &getOptionsForClient(optmap_t &a_rRetOpts, const OptParameterRequest &a_rReqOpts, ConfigVec &a_rConfigs) const; private: /** @name Configuration file reading and parsing * @{ */ static Config *i_read(const char *pszFilename, bool fStrict) RT_NOEXCEPT; void i_parseConfig(const xml::ElementNode *pElmRoot, bool fStrict); void i_parseServer(const xml::ElementNode *pElmServer, bool fStrict); /** @} */ }; #endif /* !VBOX_INCLUDED_SRC_Dhcpd_Config_h */