/*************************************************************************** * tcpip.h -- Various functions relating to low level TCP/IP handling, * * including sending raw packets, routing, printing packets, reading from * * libpcap, etc. * * * ***********************IMPORTANT NMAP LICENSE TERMS************************ * * * The Nmap Security Scanner is (C) 1996-2020 Insecure.Com LLC ("The Nmap * * Project"). Nmap is also a registered trademark of the Nmap Project. * * * * This program is distributed under the terms of the Nmap Public Source * * License (NPSL). The exact license text applying to a particular Nmap * * release or source code control revision is contained in the LICENSE * * file distributed with that version of Nmap or source code control * * revision. More Nmap copyright/legal information is available from * * https://nmap.org/book/man-legal.html, and further information on the * * NPSL license itself can be found at https://nmap.org/npsl. This header * * summarizes some key points from the Nmap license, but is no substitute * * for the actual license text. * * * * Nmap is generally free for end users to download and use themselves, * * including commercial use. It is available from https://nmap.org. * * * * The Nmap license generally prohibits companies from using and * * redistributing Nmap in commercial products, but we sell a special Nmap * * OEM Edition with a more permissive license and special features for * * this purpose. See https://nmap.org/oem * * * * If you have received a written Nmap license agreement or contract * * stating terms other than these (such as an Nmap OEM license), you may * * choose to use and redistribute Nmap under those terms instead. * * * * The official Nmap Windows builds include the Npcap software * * (https://npcap.org) for packet capture and transmission. It is under * * separate license terms which forbid redistribution without special * * permission. So the official Nmap Windows builds may not be * * redistributed without special permission (such as an Nmap OEM * * license). * * * * Source is provided to this software because we believe users have a * * right to know exactly what a program is going to do before they run it. * * This also allows you to audit the software for security holes. * * * * Source code also allows you to port Nmap to new platforms, fix bugs, * * and add new features. You are highly encouraged to submit your * * changes as a Github PR or by email to the dev@nmap.org mailing list * * for possible incorporation into the main distribution. Unless you * * specify otherwise, it is understood that you are offering us very * * broad rights to use your submissions as described in the Nmap Public * * Source License Contributor Agreement. This is important because we * * fund the project by selling licenses with various terms, and also * * because the inability to relicense code has caused devastating * * problems for other Free Software projects (such as KDE and NASM). * * * * The free version of Nmap 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. Warranties, * * indemnification and commercial support are all available through the * * Npcap OEM program--see https://nmap.org/oem. * * * ***************************************************************************/ /* $Id$ */ #ifndef TCPIP_H #define TCPIP_H #include "nbase.h" #include class Target; #ifndef INET_ADDRSTRLEN #define INET_ADDRSTRLEN 16 #endif int nmap_raw_socket(); /* Used for tracing all packets sent or received (eg the --packet-trace option) */ class PacketTrace { public: static const int SENT=1; /* These two values must not be changed */ static const int RCVD=2; typedef int pdirection; /* Takes an IP PACKET and prints it if packet tracing is enabled. 'packet' must point to the IPv4 header. The direction must be PacketTrace::SENT or PacketTrace::RCVD . Optional 'now' argument makes this function slightly more efficient by avoiding a gettimeofday() call. */ static void trace(pdirection pdir, const u8 *packet, u32 len, struct timeval *now=NULL); /* Adds a trace entry when a connect() is attempted if packet tracing is enabled. Pass IPPROTO_TCP or IPPROTO_UDP as the protocol. The sock may be a sockaddr_in or sockaddr_in6. The return code of connect is passed in connectrc. If the return code is -1, get the errno and pass that as connect_errno. */ static void traceConnect(u8 proto, const struct sockaddr *sock, int socklen, int connectrc, int connect_errno, const struct timeval *now); /* Takes an ARP PACKET (including ethernet header) and prints it if packet tracing is enabled. 'frame' must point to the 14-byte ethernet header (e.g. starting with destination addr). The direction must be PacketTrace::SENT or PacketTrace::RCVD . Optional 'now' argument makes this function slightly more efficient by avoiding a gettimeofday() call. */ static void traceArp(pdirection pdir, const u8 *frame, u32 len, struct timeval *now); static void traceND(pdirection pdir, const u8 *frame, u32 len, struct timeval *now); }; class PacketCounter { public: PacketCounter() : sendPackets(0), sendBytes(0), recvPackets(0), recvBytes(0) {} #if WIN32 unsigned __int64 #else unsigned long long #endif sendPackets, sendBytes, recvPackets, recvBytes; }; /* Some systems might not have this */ #ifndef IPPROTO_IGMP #define IPPROTO_IGMP 2 #endif /* Prototypes */ /* Converts an IP address given in a sockaddr_storage to an IPv4 or IPv6 IP address string. Since a static buffer is returned, this is not thread-safe and can only be used once in calls like printf() */ const char *inet_socktop(struct sockaddr_storage *ss); /* Tries to resolve the given name (or literal IP) into a sockaddr structure. This function calls getaddrinfo and returns the same addrinfo linked list that getaddrinfo produces. Returns NULL for any error or failure to resolve. */ struct addrinfo *resolve_all(const char *hostname, int pf); /* Takes a destination address (dst) and tries to determine the source address and interface necessary to route to this address. If no route is found, false is returned and rnfo is undefined. If a route is found, true is returned and rnfo is filled in with all of the routing details. This function takes into account -S and -e options set by user (o.spoofsource, o.device) */ int nmap_route_dst(const struct sockaddr_storage *dst, struct route_nfo *rnfo); /* Send a pre-built IPv4 or IPv6 packet */ int send_ip_packet(int sd, const struct eth_nfo *eth, const struct sockaddr_storage *dst, const u8 *packet, unsigned int packetlen); /* Builds an IP packet (including an IP header) by packing the fields with the given information. It allocates a new buffer to store the packet contents, and then returns that buffer. The packet is not actually sent by this function. Caller must delete the buffer when finished with the packet. The packet length is returned in packetlen, which must be a valid int pointer. */ u8 *build_ip_raw(const struct in_addr *source, const struct in_addr *victim, u8 proto, int ttl, u16 ipid, u8 tos, bool df, const u8* ipopt, int ipoptlen, const char *data, u16 datalen, u32 *packetlen); u8 *build_ipv6_raw(const struct in6_addr *source, const struct in6_addr *victim, u8 tc, u32 flowlabel, u8 nextheader, int hoplimit, const char *data, u16 datalen, u32 *outpacketlen); /* Builds a TCP packet (including an IP header) by packing the fields with the given information. It allocates a new buffer to store the packet contents, and then returns that buffer. The packet is not actually sent by this function. Caller must delete the buffer when finished with the packet. The packet length is returned in packetlen, which must be a valid int pointer. */ u8 *build_tcp_raw(const struct in_addr *source, const struct in_addr *victim, int ttl, u16 ipid, u8 tos, bool df, const u8* ipopt, int ipoptlen, u16 sport, u16 dport, u32 seq, u32 ack, u8 reserved, u8 flags, u16 window, u16 urp, const u8 *options, int optlen, const char *data, u16 datalen, u32 *packetlen); u8 *build_tcp_raw_ipv6(const struct in6_addr *source, const struct in6_addr *victim, u8 tc, u32 flowlabel, u8 hoplimit, u16 sport, u16 dport, u32 seq, u32 ack, u8 reserved, u8 flags, u16 window, u16 urp, const u8 *tcpopt, int tcpoptlen, const char *data, u16 datalen, u32 *packetlen); /* Build and send a raw tcp packet. If TTL is -1, a partially random (but likely large enough) one is chosen */ int send_tcp_raw(int sd, const struct eth_nfo *eth, const struct in_addr *source, const struct in_addr *victim, int ttl, bool df, u8* ipopt, int ipoptlen, u16 sport, u16 dport, u32 seq, u32 ack, u8 reserved, u8 flags, u16 window, u16 urp, u8 *options, int optlen, const char *data, u16 datalen); int send_tcp_raw_decoys(int sd, const struct eth_nfo *eth, const struct in_addr *victim, int ttl, bool df, u8* ipopt, int ipoptlen, u16 sport, u16 dport, u32 seq, u32 ack, u8 reserved, u8 flags, u16 window, u16 urp, u8 *options, int optlen, const char *data, u16 datalen); /* Builds a UDP packet (including an IP header) by packing the fields with the given information. It allocates a new buffer to store the packet contents, and then returns that buffer. The packet is not actually sent by this function. Caller must delete the buffer when finished with the packet. The packet length is returned in packetlen, which must be a valid int pointer. */ u8 *build_udp_raw(const struct in_addr *source, const struct in_addr *victim, int ttl, u16 ipid, u8 tos, bool df, u8* ipopt, int ipoptlen, u16 sport, u16 dport, const char *data, u16 datalen, u32 *packetlen); u8 *build_udp_raw_ipv6(const struct in6_addr *source, const struct in6_addr *victim, u8 tc, u32 flowlabel, u8 hoplimit, u16 sport, u16 dport, const char *data, u16 datalen, u32 *packetlen); int send_udp_raw(int sd, const struct eth_nfo *eth, struct in_addr *source, const struct in_addr *victim, int ttl, u16 ipid, u8* ipopt, int ipoptlen, u16 sport, u16 dport, const char *data, u16 datalen); int send_udp_raw_decoys(int sd, const struct eth_nfo *eth, const struct in_addr *victim, int ttl, u16 ipid, u8* ipops, int ip, u16 sport, u16 dport, const char *data, u16 datalen); /* Builds an SCTP packet (including an IP header) by packing the fields with the given information. It allocates a new buffer to store the packet contents, and then returns that buffer. The packet is not actually sent by this function. Caller must delete the buffer when finished with the packet. The packet length is returned in packetlen, which must be a valid int pointer. */ u8 *build_sctp_raw(const struct in_addr *source, const struct in_addr *victim, int ttl, u16 ipid, u8 tos, bool df, u8* ipopt, int ipoptlen, u16 sport, u16 dport, u32 vtag, char *chunks, int chunkslen, const char *data, u16 datalen, u32 *packetlen); u8 *build_sctp_raw_ipv6(const struct in6_addr *source, const struct in6_addr *victim, u8 tc, u32 flowlabel, u8 hoplimit, u16 sport, u16 dport, u32 vtag, char *chunks, int chunkslen, const char *data, u16 datalen, u32 *packetlen); /* Builds an ICMP packet (including an IP header) by packing the fields with the given information. It allocates a new buffer to store the packet contents, and then returns that buffer. The packet is not actually sent by this function. Caller must delete the buffer when finished with the packet. The packet length is returned in packetlen, which must be a valid int pointer. The id/seq will be converted to network byte order (if it differs from HBO) */ u8 *build_icmp_raw(const struct in_addr *source, const struct in_addr *victim, int ttl, u16 ipid, u8 tos, bool df, u8* ipopt, int ipoptlen, u16 seq, unsigned short id, u8 ptype, u8 pcode, const char *data, u16 datalen, u32 *packetlen); u8 *build_icmpv6_raw(const struct in6_addr *source, const struct in6_addr *victim, u8 tc, u32 flowlabel, u8 hoplimit, u16 seq, u16 id, u8 ptype, u8 pcode, const char *data, u16 datalen, u32 *packetlen); /* Builds an IGMP packet (including an IP header) by packing the fields with the given information. It allocates a new buffer to store the packet contents, and then returns that buffer. The packet is not actually sent by this function. Caller must delete the buffer when finished with the packet. The packet length is returned in packetlen, which must be a valid int pointer. */ u8 *build_igmp_raw(const struct in_addr *source, const struct in_addr *victim, int ttl, u16 ipid, u8 tos, bool df, u8* ipopt, int ipoptlen, u8 ptype, u8 pcode, const char *data, u16 datalen, u32 *packetlen); // Returns whether the packet receive time value obtained from libpcap // (and thus by readip_pcap()) should be considered valid. When // invalid (Windows and Amiga), readip_pcap returns the time you called it. bool pcap_recv_timeval_valid(); /* Prints stats from a pcap descriptor (number of received and dropped packets). */ void pcap_print_stats(int logt, pcap_t *pd); /* A simple function I wrote to help in debugging, shows the important fields of a TCP packet*/ int readtcppacket(const u8 *packet, int readdata); int readudppacket(const u8 *packet, int readdata); /* Fill buf (up to buflen -- truncate if necessary but always terminate) with a short representation of the packet stats. Returns buf. Aborts if there is a problem. */ char *getFinalPacketStats(char *buf, int buflen); /* This function tries to determine the target's ethernet MAC address from a received packet as follows: 1) If linkhdr is an ethernet header, grab the src mac (otherwise give up) 2) If overwrite is 0 and a MAC is already set for this target, give up. 3) If the packet source address is not the target, give up. 4) Use the routing table to try to determine rather target is directly connected to the src host running Nmap. If it is, set the MAC. This function returns 0 if it ends up setting the MAC, nonzero otherwise */ int setTargetMACIfAvailable(Target *target, struct link_header *linkhdr, const struct sockaddr_storage *src, int overwrite); /* This function ensures that the next hop MAC address for a target is filled in. This address is the target's own MAC if it is directly connected, and the next hop mac otherwise. Returns true if the address is set when the function ends, false if not. This function firt checks if it is already set, if not it tries the arp cache, and if that fails it sends an ARP request itself. This should be called after an ARP scan if many directly connected machines are involved. */ bool setTargetNextHopMAC(Target *target); bool getNextHopMAC(const char *iface, const u8 *srcmac, const struct sockaddr_storage *srcss, const struct sockaddr_storage *dstss, u8 *dstmac); /* If rcvdtime is non-null and a packet is returned, rcvd will be filled with the time that packet was captured from the wire by pcap. If linknfo is not NULL, lnkinfo->headerlen and lnkinfo->header will be filled with the appropriate values. */ const u8 *readipv4_pcap(pcap_t *pd, unsigned int *len, long to_usec, struct timeval *rcvdtime, struct link_header *linknfo, bool validate); const u8 *readip_pcap(pcap_t *pd, unsigned int *len, long to_usec, struct timeval *rcvdtime, struct link_header *linknfo, bool validate); /* Examines the given tcp packet and obtains the TCP timestamp option information if available. Note that the CALLER must ensure that "tcp" contains a valid header (in particular the th_off must be the true packet length and tcp must contain it). If a valid timestamp option is found in the header, nonzero is returned and the 'timestamp' and 'echots' parameters are filled in with the appropriate value (if non-null). Otherwise 0 is returned and the parameters (if non-null) are filled with 0. Remember that the correct way to check for errors is to look at the return value since a zero ts or echots could possibly be valid. */ int gettcpopt_ts(struct tcp_hdr *tcp, u32 *timestamp, u32 *echots); /* Maximize the receive buffer of a socket descriptor (up to 500K) */ void max_rcvbuf(int sd); /* Do a receive (recv()) on a socket and stick the results (upt to len) into buf . Give up after 'seconds'. Returns the number of bytes read (or -1 in the case of an error. It only does one recv (it will not keep going until len bytes are read). If timedout is not NULL, it will be set to zero (no timeout occurred) or 1 (it did). */ int recvtime(int sd, char *buf, int len, int seconds, int *timedout); /* Sets a pcap filter function -- makes SOCK_RAW reads easier */ void set_pcap_filter(const char *device, pcap_t *pd, const char *bpf, ...); #endif /*TCPIP_H*/