/* * * (C) 2013-25 - ntop.org * * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program 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. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * */ #ifndef _IP_ADDRESS_H_ #define _IP_ADDRESS_H_ #include "ntop_includes.h" struct ipAddress { u_int8_t ipVersion : 3 /* Either 4 or 6 */, loopbackIP : 1, privateIP : 1, multicastIP : 1, broadcastIP : 1, blacklistedIP : 1, localIP : 1; u_int8_t dnsServer : 1, dhcpServer : 1, smtpServer : 1, ntpServer : 1, imapServer : 1, popServer : 1, gateway: 1, httpServer : 1; u_int8_t sshServer : 1, rdpServer : 1, unused : 6; union { struct ndpi_in6_addr ipv6; u_int32_t ipv4; /* Host byte code */ } ipType; }; /* **************************************** */ class IpAddress { private: struct ipAddress addr; u_int32_t ip_key; char* intoa(char* buf, u_short bufLen, u_int8_t bitmask) const; void compute_key(); public: IpAddress(); IpAddress(const IpAddress& ipa); IpAddress(const struct ipAddress ipa); void checkIP(); bool isEmpty() const; inline void reset() { memset(&addr, 0, sizeof(addr)); } inline bool isIPv4() const { return ((addr.ipVersion == 4) ? true : false); } inline bool isIPv6() const { return ((addr.ipVersion == 6) ? true : false); } char* get_ip_hex(char* buf, u_int buf_len); inline u_int32_t get_ipv4() const { return ((addr.ipVersion == 4) ? addr.ipType.ipv4 : 0); } inline const struct ndpi_in6_addr* get_ipv6() const { return ((addr.ipVersion == 6) ? &addr.ipType.ipv6 : NULL); } void fillIP(ndpi_ip_addr_t *ip_addr); inline const struct ipAddress* getIP() const { return (&addr); }; inline u_int8_t getVersion() { return(addr.ipVersion); } inline bool equal(u_int32_t ipv4_addr) const { if ((addr.ipVersion == 4) && (addr.ipType.ipv4 == ipv4_addr)) return (true); else return (false); }; inline bool equal(struct ndpi_in6_addr* ip6_addr) const { if ((addr.ipVersion == 6) && (memcmp(&addr.ipType.ipv6, ip6_addr, sizeof(struct ndpi_in6_addr)) == 0)) return (true); else return (false); }; inline bool equal(const IpAddress* const _ip) const { return((this->compare(_ip) == 0) ? true : false); }; int compare(const IpAddress* const ip) const; inline u_int32_t key() const { return (ip_key); }; inline void set(u_int32_t _ipv4) { addr.ipVersion = 4, addr.ipType.ipv4 = _ipv4; compute_key(); } inline void set(struct ndpi_in6_addr* _ipv6) { addr.ipVersion = 6, memcpy(&addr.ipType.ipv6, _ipv6, sizeof(struct ndpi_in6_addr)); addr.privateIP = false; compute_key(); } inline void set(struct in6_addr* _ipv6) { addr.ipVersion = 6, memcpy(&addr.ipType.ipv6.u6_addr, _ipv6->s6_addr, sizeof(_ipv6->s6_addr)); addr.privateIP = false; compute_key(); } inline void set(const IpAddress* const ip) { memcpy(&addr, &ip->addr, sizeof(struct ipAddress)); ip_key = ip->ip_key; }; inline void set(const struct ipAddress* const ip) { memcpy(&addr, ip, sizeof(struct ipAddress)); compute_key(); }; void set(union usa* ip); void set(const char* ip); void reloadBlacklist(ndpi_detection_module_struct* ndpi_struct); inline bool isLoopbackAddress() const { return (addr.loopbackIP); }; inline bool isPrivateAddress() const { return (addr.privateIP); }; inline bool isMulticastAddress() const { return (addr.multicastIP); }; inline bool isBroadcastAddress() const { return (addr.broadcastIP); }; inline bool isBlacklistedAddress() const { return (addr.blacklistedIP); }; inline bool isBroadMulticastAddress() const { return (addr.broadcastIP || addr.multicastIP); }; inline bool isNonEmptyUnicastAddress() const { return (!isMulticastAddress() && !isBroadcastAddress() && !isEmpty()); }; inline bool isPublicAddress() const{ return ((!isPrivateAddress()) && isNonEmptyUnicastAddress()); } inline u_int8_t getVersion() const { return (addr.ipVersion); }; inline void setVersion(u_int8_t version) { addr.ipVersion = version; }; inline bool isDhcpServer() const { return (addr.dhcpServer); } inline void setDhcpServer() { addr.dhcpServer = true; } inline bool isDnsServer() const { return (addr.dnsServer); } inline void setDnsServer() { addr.dnsServer = true; } inline bool isSmtpServer() const { return (addr.smtpServer); } inline void setSmtpServer() { addr.smtpServer = true; } inline bool isImapServer() const { return (addr.imapServer); } inline void setImapServer() { addr.imapServer = true; } inline bool isPopServer() const { return (addr.popServer); } inline void setPopServer() { addr.popServer = true; } inline bool isNtpServer() const { return (addr.ntpServer); } inline void setNtpServer() { addr.ntpServer = true; } inline bool isHttpServer() const { return (addr.httpServer); } inline void setHttpServer() { addr.httpServer = true; } inline bool isSshServer() const { return (addr.sshServer); } inline void setSshServer() { addr.sshServer = true; } inline bool isRdpServer() const { return (addr.rdpServer); } inline void setRdpServer() { addr.rdpServer = true; } inline bool isGateway() const { return (addr.gateway); } inline void setGateway(bool is_gateway) { addr.gateway = is_gateway; } /* NOTE: update Host::updateView() when adding new services */ char* print(char* str, u_int str_len, u_int8_t bitmask = 0xFF) const; char* printMask(char* str, u_int str_len, bool isLocalIP); bool isLocalHost() const; bool isLocalHost(int32_t* network_id) const; bool isLocalInterfaceAddress(); bool get_sockaddr(struct sockaddr** const sa, ssize_t* const sa_len) const; json_object* getJSONObject(); bool match(const AddressTree* const tree) const; void* findAddress(AddressTree* ptree); void dump(); void incCardinality(Cardinality* c); }; #endif /* _IP_ADDRESS_H_ */