libnet_t * libnet_init (int injection_type, char *device, char *err_buf)

void libnet_destroy (libnet_t *l)

void libnet_clear_packet (libnet_t *l)

void libnet_stats (libnet_t *l, struct libnet_stats *ls)

int libnet_getfd (libnet_t *l)

int8_t * libnet_getdevice (libnet_t *l)

u_int8_t * libnet_getpbuf (libnet_t *l, libnet_ptag_t ptag)

u_int32_t libnet_getpbuf_size (libnet_t *l, libnet_ptag_t ptag)

char * libnet_geterror (libnet_t *l)

u_int32_t libnet_getpacket_size (libnet_t *l)

int libnet_seed_prand (libnet_t *l)

u_int32_t libnet_get_prand (int mod)

int libnet_toggle_checksum (libnet_t *l, libnet_ptag_t ptag, int mode)

char * libnet_addr2name4 (u_int32_t in, u_int8_t use_name)

u_int32_t libnet_name2addr4 (libnet_t *l, char *host_name, u_int8_t use_name)

libnet_in6_addr libnet_name2addr6 (libnet_t *l, char *host_name, u_int8_t use_name)

void libnet_addr2name6_r (struct libnet_in6_addr addr, u_int8_t use_name, char *host_name, int host_name_len)

int libnet_plist_chain_new (libnet_t *l, libnet_plist_t **plist, char *token_list)

int libnet_plist_chain_next_pair (libnet_plist_t *plist, u_int16_t *bport, u_int16_t *eport)

int libnet_plist_chain_dump (libnet_plist_t *plist)

char * libnet_plist_chain_dump_string (libnet_plist_t *plist)

int libnet_plist_chain_free (libnet_plist_t *plist)

libnet_ptag_t libnet_build_802_1q (u_int8_t *dst, u_int8_t *src, u_int16_t tpi, u_int8_t priority, u_int8_t cfi, u_int16_t vlan_id, u_int16_t len_proto, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_802_1x (u_int8_t eap_ver, u_int8_t eap_type, u_int16_t length, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_802_2 (u_int8_t dsap, u_int8_t ssap, u_int8_t control, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_802_2snap (u_int8_t dsap, u_int8_t ssap, u_int8_t control, u_int8_t *oui, u_int16_t type, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_802_3 (u_int8_t *dst, u_int8_t *src, u_int16_t len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ethernet (u_int8_t *dst, u_int8_t *src, u_int16_t type, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_autobuild_ethernet (u_int8_t *dst, u_int16_t type, libnet_t *l)

libnet_ptag_t libnet_build_fddi (u_int8_t fc, u_int8_t *dst, u_int8_t *src, u_int8_t dsap, u_int8_t ssap, u_int8_t cf, u_int8_t *org, u_int16_t type, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_autobuild_fddi (u_int8_t fc, u_int8_t *dst, u_int8_t dsap, u_int8_t ssap, u_int8_t cf, u_int8_t *org, u_int16_t type, libnet_t *l)

libnet_ptag_t libnet_build_arp (u_int16_t hrd, u_int16_t pro, u_int8_t hln, u_int8_t pln, u_int16_t op, u_int8_t *sha, u_int8_t *spa, u_int8_t *tha, u_int8_t *tpa, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_autobuild_arp (u_int16_t op, u_int8_t *sha, u_int8_t *spa, u_int8_t *tha, u_int8_t *tpa, libnet_t *l)

libnet_ptag_t libnet_build_tcp (u_int16_t sp, u_int16_t dp, u_int32_t seq, u_int32_t ack, u_int8_t control, u_int16_t win, u_int16_t sum, u_int16_t urg, u_int16_t len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_tcp_options (u_int8_t *options, u_int32_t options_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_udp (u_int16_t sp, u_int16_t dp, u_int16_t len, u_int16_t sum, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_cdp (u_int8_t version, u_int8_t ttl, u_int16_t sum, u_int16_t type, u_int16_t len, u_int8_t *value, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_icmpv4_echo (u_int8_t type, u_int8_t code, u_int16_t sum, u_int16_t id, u_int16_t seq, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_icmpv4_mask (u_int8_t type, u_int8_t code, u_int16_t sum, u_int16_t id, u_int16_t seq, u_int32_t mask, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_icmpv4_unreach (u_int8_t type, u_int8_t code, u_int16_t sum, u_int16_t orig_len, u_int8_t orig_tos, u_int16_t orig_id, u_int16_t orig_frag, u_int8_t orig_ttl, u_int8_t orig_prot, u_int16_t orig_check, u_int32_t orig_src, u_int32_t orig_dst, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_icmpv4_redirect (u_int8_t type, u_int8_t code, u_int16_t sum, u_int32_t gateway, u_int16_t orig_len, u_int8_t orig_tos, u_int16_t orig_id, u_int16_t orig_frag, u_int8_t orig_ttl, u_int8_t orig_prot, u_int16_t orig_check, u_int32_t orig_src, u_int32_t orig_dst, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_icmpv4_timeexceed (u_int8_t type, u_int8_t code, u_int16_t sum, u_int16_t orig_len, u_int8_t orig_tos, u_int16_t orig_id, u_int16_t orig_frag, u_int8_t orig_ttl, u_int8_t orig_prot, u_int16_t orig_check, u_int32_t orig_src, u_int32_t orig_dst, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_icmpv4_timestamp (u_int8_t type, u_int8_t code, u_int16_t sum, u_int16_t id, u_int16_t seq, n_time otime, n_time rtime, n_time ttime, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_igmp (u_int8_t type, u_int8_t code, u_int16_t sum, u_int32_t ip, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipv4 (u_int16_t len, u_int8_t tos, u_int16_t id, u_int16_t frag, u_int8_t ttl, u_int8_t prot, u_int16_t sum, u_int32_t src, u_int32_t dst, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipv4_options (u_int8_t *options, u_int32_t options_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_autobuild_ipv4 (u_int16_t len, u_int8_t prot, u_int32_t dst, libnet_t *l)

libnet_ptag_t libnet_build_ipv6 (u_int8_t tc, u_int32_t fl, u_int16_t len, u_int8_t nh, u_int8_t hl, struct libnet_in6_addr src, struct libnet_in6_addr dst, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipv6_frag (u_int8_t nh, u_int8_t reserved, u_int16_t frag, u_int32_t id, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipv6_routing (u_int8_t nh, u_int8_t len, u_int8_t rtype, u_int8_t segments, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipv6_destopts (u_int8_t nh, u_int8_t len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipv6_hbhopts (u_int8_t nh, u_int8_t len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_autobuild_ipv6 (u_int16_t len, u_int8_t nh, struct libnet_in6_addr dst, libnet_t *l)

libnet_ptag_t libnet_build_isl (u_int8_t *dhost, u_int8_t type, u_int8_t user, u_int8_t *shost, u_int16_t len, u_int8_t *snap, u_int16_t vid, u_int16_t index, u_int16_t reserved, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipsec_esp_hdr (u_int32_t spi, u_int32_t seq, u_int32_t iv, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipsec_esp_ftr (u_int8_t len, u_int8_t nh, int8_t *auth, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ipsec_ah (u_int8_t nh, u_int8_t len, u_int16_t res, u_int32_t spi, u_int32_t seq, u_int32_t auth, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_dnsv4 (u_int16_t h_len, u_int16_t id, u_int16_t flags, u_int16_t num_q, u_int16_t num_anws_rr, u_int16_t num_auth_rr, u_int16_t num_addi_rr, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_rip (u_int8_t cmd, u_int8_t version, u_int16_t rd, u_int16_t af, u_int16_t rt, u_int32_t addr, u_int32_t mask, u_int32_t next_hop, u_int32_t metric, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_rpc_call (u_int32_t rm, u_int32_t xid, u_int32_t prog_num, u_int32_t prog_vers, u_int32_t procedure, u_int32_t cflavor, u_int32_t clength, u_int8_t *cdata, u_int32_t vflavor, u_int32_t vlength, u_int8_t *vdata, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_stp_conf (u_int16_t id, u_int8_t version, u_int8_t bpdu_type, u_int8_t flags, u_int8_t *root_id, u_int32_t root_pc, u_int8_t *bridge_id, u_int16_t port_id, u_int16_t message_age, u_int16_t max_age, u_int16_t hello_time, u_int16_t f_delay, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_stp_tcn (u_int16_t id, u_int8_t version, u_int8_t bpdu_type, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_token_ring (u_int8_t ac, u_int8_t fc, u_int8_t *dst, u_int8_t *src, u_int8_t dsap, u_int8_t ssap, u_int8_t cf, u_int8_t *org, u_int16_t type, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_autobuild_token_ring (u_int8_t ac, u_int8_t fc, u_int8_t *dst, u_int8_t dsap, u_int8_t ssap, u_int8_t cf, u_int8_t *org, u_int16_t type, libnet_t *l)

libnet_ptag_t libnet_build_vrrp (u_int8_t version, u_int8_t type, u_int8_t vrouter_id, u_int8_t priority, u_int8_t ip_count, u_int8_t auth_type, u_int8_t advert_int, u_int16_t sum, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_mpls (u_int32_t label, u_int8_t experimental, u_int8_t bos, u_int8_t ttl, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ntp (u_int8_t leap_indicator, u_int8_t version, u_int8_t mode, u_int8_t stratum, u_int8_t poll, u_int8_t precision, u_int16_t delay_int, u_int16_t delay_frac, u_int16_t dispersion_int, u_int16_t dispersion_frac, u_int32_t reference_id, u_int32_t ref_ts_int, u_int32_t ref_ts_frac, u_int32_t orig_ts_int, u_int32_t orig_ts_frac, u_int32_t rec_ts_int, u_int32_t rec_ts_frac, u_int32_t xmt_ts_int, u_int32_t xmt_ts_frac, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2 (u_int16_t len, u_int8_t type, u_int32_t rtr_id, u_int32_t area_id, u_int16_t sum, u_int16_t autype, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_hello (u_int32_t netmask, u_int16_t interval, u_int8_t opts, u_int8_t priority, u_int dead_int, u_int32_t des_rtr, u_int32_t bkup_rtr, u_int32_t neighbor, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_dbd (u_int16_t dgram_len, u_int8_t opts, u_int8_t type, u_int seqnum, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_lsr (u_int type, u_int lsid, u_int32_t advrtr, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_lsu (u_int num, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_lsa (u_int16_t age, u_int8_t opts, u_int8_t type, u_int lsid, u_int32_t advrtr, u_int seqnum, u_int16_t sum, u_int16_t len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_lsa_rtr (u_int16_t flags, u_int16_t num, u_int id, u_int data, u_int8_t type, u_int8_t tos, u_int16_t metric, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_lsa_net (u_int32_t nmask, u_int rtrid, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_lsa_sum (u_int32_t nmask, u_int metric, u_int tos, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_ospfv2_lsa_as (u_int32_t nmask, u_int metric, u_int32_t fwdaddr, u_int tag, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_data (u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_dhcpv4 (u_int8_t opcode, u_int8_t htype, u_int8_t hlen, u_int8_t hopcount, u_int32_t xid, u_int16_t secs, u_int16_t flags, u_int32_t cip, u_int32_t yip, u_int32_t sip, u_int32_t gip, u_int8_t *chaddr, u_int8_t *sname, u_int8_t *file, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_bootpv4 (u_int8_t opcode, u_int8_t htype, u_int8_t hlen, u_int8_t hopcount, u_int32_t xid, u_int16_t secs, u_int16_t flags, u_int32_t cip, u_int32_t yip, u_int32_t sip, u_int32_t gip, u_int8_t *chaddr, u_int8_t *sname, u_int8_t *file, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

u_int32_t libnet_getgre_length (u_int16_t fv)

libnet_ptag_t libnet_build_gre (u_int16_t fv, u_int16_t type, u_int16_t sum, u_int16_t offset, u_int32_t key, u_int32_t seq, u_int16_t len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_egre (u_int16_t fv, u_int16_t type, u_int16_t sum, u_int16_t offset, u_int32_t key, u_int32_t seq, u_int16_t len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_gre_sre (u_int16_t af, u_int8_t offset, u_int8_t length, u_int8_t *routing, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_gre_last_sre (libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_bgp4_header (u_int8_t marker[LIBNET_BGP4_MARKER_SIZE], u_int16_t len, u_int8_t type, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_bgp4_open (u_int8_t version, u_int16_t src_as, u_int16_t hold_time, u_int32_t bgp_id, u_int8_t opt_len, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_bgp4_update (u_int16_t unfeasible_rt_len, u_int8_t *withdrawn_rt, u_int16_t total_path_attr_len, u_int8_t *path_attributes, u_int16_t info_len, u_int8_t *reachability_info, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_bgp4_notification (u_int8_t err_code, u_int8_t err_subcode, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_sebek (u_int32_t magic, u_int16_t version, u_int16_t type, u_int32_t counter, u_int32_t time_sec, u_int32_t time_usec, u_int32_t pid, u_int32_t uid, u_int32_t fd, u_int8_t cmd[SEBEK_CMD_LENGTH], u_int32_t length, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_build_link (u_int8_t *dst, u_int8_t *src, u_int8_t *oui, u_int16_t type, u_int8_t *payload, u_int32_t payload_s, libnet_t *l, libnet_ptag_t ptag)

libnet_ptag_t libnet_autobuild_link (u_int8_t *dst, u_int8_t *oui, u_int16_t type, libnet_t *l)

int libnet_write (libnet_t *l)

u_int32_t libnet_get_ipaddr4 (libnet_t *l)

libnet_in6_addr libnet_get_ipaddr6 (libnet_t *l)

libnet_ether_addr * libnet_get_hwaddr (libnet_t *l)

u_int8_t * libnet_hex_aton (int8_t *s, int *len)

int libnet_adv_cull_packet (libnet_t *l, u_int8_t **packet, u_int32_t *packet_s)

int libnet_adv_cull_header (libnet_t *l, libnet_ptag_t ptag, u_int8_t **header, u_int32_t *header_s)

int libnet_adv_write_link (libnet_t *l, u_int8_t *packet, u_int32_t packet_s)

void libnet_adv_free_packet (libnet_t *l, u_int8_t *packet)

int libnet_cq_add (libnet_t *l, char *label)

libnet_t * libnet_cq_remove (libnet_t *l)

libnet_t * libnet_cq_remove_by_label (char *label)

int8_t * libnet_cq_getlabel (libnet_t *l)

libnet_t * libnet_cq_find_by_label (char *label)

void libnet_cq_destroy ()

libnet_t * libnet_cq_head ()

int libnet_cq_last ()

libnet_t * libnet_cq_next ()

u_int32_t libnet_cq_size ()

void libnet_diag_dump_context (libnet_t *l)

void libnet_diag_dump_pblock (libnet_t *l)

char * libnet_diag_dump_pblock_type (u_int8_t type)

void libnet_diag_dump_hex (u_int8_t *packet, u_int32_t len, int swap, FILE *stream)

int libnet_write_raw_ipv4 (libnet_t *l, u_int8_t *packet, u_int32_t size)

int libnet_write_raw_ipv6 (libnet_t *l, u_int8_t *packet, u_int32_t size)

int libnet_write_link (libnet_t *l, u_int8_t *packet, u_int32_t size)

int libnet_open_raw4 (libnet_t *l)

int libnet_close_raw4 (libnet_t *l)

int libnet_open_raw6 (libnet_t *l)

int libnet_close_raw6 (libnet_t *l)

int libnet_select_device (libnet_t *l)

int libnet_open_link (libnet_t *l)

int libnet_close_link (libnet_t *l)

int libnet_do_checksum (libnet_t *l, u_int8_t *packet, int protocol, int len)

u_int32_t libnet_compute_crc (u_int8_t *buf, u_int32_t len)

u_int16_t libnet_ip_check (u_int16_t *addr, int len)

int libnet_in_cksum (u_int16_t *addr, int len)

libnet_pblock_t * libnet_pblock_probe (libnet_t *l, libnet_ptag_t ptag, u_int32_t n, u_int8_t type)

libnet_pblock_t * libnet_pblock_new (libnet_t *l, u_int32_t size)

int libnet_pblock_swap (libnet_t *l, libnet_ptag_t ptag1, libnet_ptag_t ptag2)

int libnet_pblock_insert_before (libnet_t *l, libnet_ptag_t ptag1, libnet_ptag_t ptag2)

void libnet_pblock_delete (libnet_t *l, libnet_pblock_t *p)

libnet_ptag_t libnet_pblock_update (libnet_t *l, libnet_pblock_t *p, u_int32_t h, u_int8_t type)

libnet_pblock_t * libnet_pblock_find (libnet_t *l, libnet_ptag_t ptag)

int libnet_pblock_append (libnet_t *l, libnet_pblock_t *p, u_int8_t *buf, u_int32_t len)

void libnet_pblock_setflags (libnet_pblock_t *p, u_int8_t flags)

int libnet_pblock_p2p (u_int8_t type)

int libnet_pblock_coalesce (libnet_t *l, u_int8_t **packet, u_int32_t *size)

int libnet_check_iface (libnet_t *l)

const struct libnet_in6_addr in6addr_error

Takes a network byte ordered IPv4 address and returns a pointer to either a canonical DNS name (if it has one) or a string of dotted decimals. This may incur a DNS lookup if the hostname and mode is set to LIBNET_RESOLVE. If mode is set to LIBNET_DONT_RESOLVE, no DNS lookup will be performed and the function will return a pointer to a dotted decimal string. The function cannot fail -- if no canonical name exists, it will fall back on returning a dotted decimal string. This function is non-reentrant.

Parameters: in network byte ordered IPv4 address

use_name LIBNET_RESOLVE or LIBNET_DONT_RESOLVE

Returns: a pointer to presentation format string

Should document this baby right here.

[Advanced Interface] Pulls the header from the specified ptag from the given libnet context. This function is part of the advanced interface and is only available when libnet is initialized in advanced mode. If the function fails libnet_geterror() can tell you why.

Parameters: l pointer to a libnet context

ptag the ptag referencing the header to pull

header will contain the header

header_s will contain the header size

Returns: 1 on success, -1 on failure

[Advanced Interface] Yanks a prebuilt, wire-ready packet from the given libnet context. If libnet was configured to do so (which it is by default) the packet will have all checksums written in. This function is part of the advanced interface and is only available when libnet is initialized in advanced mode. It is important to note that the function performs an implicit malloc() and a corresponding call to libnet_adv_free_packet() should be made to free the memory packet occupies. If the function fails libnet_geterror() can tell you why.

Parameters: l pointer to a libnet context

packet will contain the wire-ready packet

packet_s will contain the packet size

Returns: 1 on success, -1 on failure

[Advanced Interface] Frees the memory allocated when libnet_adv_cull_packet() is called.

Parameters: l pointer to a libnet context

packet a pointer to the packet to free

[Advanced Interface] Writes a packet the network at the link layer. This function is useful to write a packet that has been constructed by hand by the application programmer or, more commonly, to write a packet that has been returned by a call to libnet_adv_cull_packet(). This function is part of the advanced interface and is only available when libnet is initialized in advanced mode. If the function fails libnet_geterror() can tell you why.

Parameters: l pointer to a libnet context

packet a pointer to the packet to inject

packet_s the size of the packet

Returns: the number of bytes written, or -1 on failure

Autouilds an Address Resolution Protocol (ARP) header. Depending on the op value, the function builds one of several different types of RFC 826 or RFC 903 RARP packets.

Parameters: op ARP operation type

sha sender's hardware address

spa sender's protocol address

tha target hardware address

tpa targer protocol address

l pointer to a libnet context

Returns: protocol tag value on success, -1 on error

Autobuilds an Ethernet header. The RFC 894 Ethernet II header is almost identical to the IEEE 802.3 header, with the exception that the field immediately following the source address holds the layer 3 protocol (as opposed to frame's length). You should only use this function when libnet is initialized with the LIBNET_LINK interface.

Parameters: dst destination ethernet address

type upper layer protocol type

l pointer to a libnet context

Returns: protocol tag value on success, -1 on error

Autobuilds a Fiber Distributed Data Interface (FDDI) header.

Parameters: fc class format and priority dst destination fddi address

dsap destination service access point

ssap source service access point

cf cf

org IEEE organizational code

type upper layer protocol

l pointer to a libnet context

Returns: protocol tag value on success, -1 on error

Autobuilds a version 4 Internet Protocol (IP) header. The function is useful * to build an IP header quickly when you do not need a granular level of control. The function takes the same len, prot, and dst arguments as libnet_build_ipv4(). The function does not accept a ptag argument, but it does return a ptag. In other words, you can use it to build a new IP header but not to modify an existing one.

Parameters: len total length of the IP packet including all subsequent data

prot upper layer protocol

dst destination IPv4 address (little endian)

l pointer to a libnet context

Returns: protocol tag value on success, -1 on error

This function is not yet implement and is a NONOP.

Parameters: len length

nh next header

dst destination IPv6 address

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Automatically builds a link layer header for an initialized l. The function determines the proper link layer header format from how l was initialized. The function current supports Ethernet and Token Ring link layers.

Parameters: dst the destination MAC address

oui Organizationally Unique Identifier (unused for Ethernet)

type the upper layer protocol type

l pointer to a libnet context

Returns: protocol tag value on success, -1 on error

Auto-builds a token ring header.

Parameters: ac access control

fc frame control

dst destination address

dsap destination service access point

ssap source service access point

cf control field

oui Organizationally Unique Identifier

type upper layer protocol type

l pointer to a libnet context

Returns: protocol tag value on success, -1 on error

Builds an IEEE 802.1q VLAN tagging header. Depending on the value of len_proto, the function wraps the 802.1q header inside either an IEEE 802.3 header or an RFC 894 Ethernet II (DIX) header (both resulting in an 18-byte frame). If len is 1500 or less, most receiving protocol stacks parse the frame as an IEEE 802.3 encapsulated frame. If len is one of the Ethernet type values, most protocol stacks parse the frame as an RFC 894 Ethernet II encapsulated frame. Note the length value is calculated without the 802.1q header of 18 bytes.

Parameters: dst pointer to a six byte source ethernet address

src pointer to a six byte destination ethernet address

tpi tag protocol identifier

priority priority

cfi canonical format indicator

vlan_id vlan identifier

len_proto length (802.3) protocol (Ethernet II)

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IEEE 802.1x extended authentication protocol header.

Parameters: eap_ver the EAP version

eap_type the EAP type

length frame length

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IEEE 802.2 LLC header.

Parameters: dsap destination service access point

ssap source service access point

control control field

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IEEE 802.2 LLC SNAP header.

Parameters: dsap destination service access point

ssap source service access point

control control field

oui Organizationally Unique Identifier

type upper layer protocol

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IEEE 802.3 header. The 802.3 header is almost identical to the RFC 894 Ethernet II header, the exception being that the field immediately following the source address holds the frame's length (as opposed to the layer 3 protocol). You should only use this function when libnet is initialized with the LIBNET_LINK interface.

Parameters: dst destination ethernet address

src source ethernet address

len frame length sans header

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an Address Resolution Protocol (ARP) header. Depending on the op value, the function builds one of several different types of RFC 826 or RFC 903 RARP packets.

Parameters: hrd hardware address format

pro protocol address format

hln hardware address length

pln protocol address length

op ARP operation type

sha sender's hardware address

spa sender's protocol address

tha target hardware address

tpa targer protocol address

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 1771 Border Gateway Protocol 4 (BGP-4) header. The primary function of a BGP speaking system is to exchange network reachability information with other BGP systems. This network reachability information includes information on the list of Autonomous Systems (ASs) that reachability information traverses. This information is sufficient to construct a graph of AS connectivity from which routing loops may be pruned and some policy decisions at the AS level may be enforced. This function builds the base BGP header which is used as a preamble before any other BGP header. For example, a BGP KEEPALIVE message may be built with only this function, while an error notification requires a subsequent call to libnet_build_bgp4_notification.

Parameters: marker a value the receiver can predict (if the message type is not BGP OPEN, or no authentication is used, these 16 bytes are normally set as all ones)

len total length of the BGP message, including the header

type type code of the message (OPEN, UPDATE, NOTIFICATION or KEEPALIVE)

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 1771 Border Gateway Protocol 4 (BGP-4) notification header. A NOTIFICATION message is sent when an error condition is detected. Specific error information may be passed through the payload interface.

Parameters: err_code type of notification

err_subcode more specific information about the reported error.

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 1771 Border Gateway Protocol 4 (BGP-4) OPEN header. This is the first message sent by each side of a BGP connection. The optional parameters options should be constructed using the payload interface (see RFC 1771 for the options structures).

Parameters: version protocol version (should be set to 4)

src_as Autonomous System of the sender

hold_time used to compute the maximum allowed time between the receipt of KEEPALIVE, and/or UPDATE messages by the sender

bgp_id BGP identifier of the sender

opt_len total length of the optional parameters field in bytes

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 1771 Border Gateway Protocol 4 (BGP-4) update header. Update messages are used to transfer routing information between BGP peers.

Parameters: unfeasible_rt_len indicates the length of the (next) 'withdrawn routes' field in bytes

withdrawn_rt list of IP addresses prefixes for the routes that are being withdrawn; each IP address prefix is built as a 2-tuple <length (1 byte), prefix (variable)>

total_path_attr_len indicates the length of the (next) 'path attributes' field in bytes

path_attributes each attribute is a 3-tuple <type (2 bytes), length, value>

info_len indicates the length of the (next) 'network layer reachability information' field in bytes (needed for internal memory size calculation)

reachability_info 2-tuples <length (1 byte), prefix (variable)>.

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a Cisco Discovery Protocol (CDP) header. Cisco Systems designed CDP to aid in the network management of adjacent Cisco devices. The CDP protocol specifies data by using a type/length/value (TLV) setup. The first TLV can specified by using the functions type, length, and value arguments. To specify additional TLVs, the programmer could either use the payload interface or libnet_build_data() to construct them.

Parameters: version CDP version

ttl time to live (time information should be cached by recipient)

sum checksum (0 for libnet to autofill)

type type of data contained in value

len length of value arugment

value the CDP information string

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a generic libnet protocol header. This is useful for including an optional payload to a packet that might need to change repeatedly inside of a loop.

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 1035 version 4 DNS header. Additional DNS payload information should be specified using the payload interface.

Parameters: id DNS packet id

flags control flags

num_q number of questions

num_anws_rr number of answer resource records

num_auth_rr number of authority resource records

num_addi_rr number of additional resource records

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Generic Routing Encapsulation (GRE - RFC 1701) is used to encapsulate any protocol. Hence, the IP part of the packet is usually referred as 'delivery header'. It is then followed by the GRE header and finally the encapsulated packet (IP or whatever). As GRE is very modular, the first GRE header describes the structure of the header, using bits and flag to specify which fields will be present in the header.

Parameters: fv the 16 0 to 7: which fields are included in the header (checksum, seq. number, key, ...), bits 8 to 12: flag, bits 13 to 15: version.

payload optional payload or NULL

type which protocol is encapsulated (PPP, IP, ...)

sum checksum (0 for libnet to autofill).

offset byte offset from the start of the routing field to the first byte of the SRE

key inserted by the encapsulator to authenticate the source

seq sequence number used by the receiver to sort the packets

len size of the GRE packet

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an Ethernet header. The RFC 894 Ethernet II header is almost identical to the IEEE 802.3 header, with the exception that the field immediately following the source address holds the layer 3 protocol (as opposed to frame's length). You should only use this function when libnet is initialized with the LIBNET_LINK interface.

Parameters: dst destination ethernet address

src source ethernet address

type upper layer protocol type

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a Fiber Distributed Data Interface (FDDI) header.

Parameters: fc class format and priority dst destination fddi address src source fddi address

dsap destination service access point

ssap source service access point

cf cf

org 3 byte IEEE organizational code

type upper layer protocol

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Generic Routing Encapsulation (GRE - RFC 1701) is used to encapsulate any protocol. Hence, the IP part of the packet is usually referred as 'delivery header'. It is then followed by the GRE header and finally the encapsulated packet (IP or whatever). As GRE is very modular, the first GRE header describes the structure of the header, using bits and flag to specify which fields will be present in the header.

Parameters: fv the 16 0 to 7: which fields are included in the header (checksum, seq. number, key, ...), bits 8 to 12: flag, bits 13 to 15: version.

payload optional payload or NULL

type which protocol is encapsulated (PPP, IP, ...)

sum checksum (0 for libnet to autofill).

offset byte offset from the start of the routing field to the first byte of the SRE

key inserted by the encapsulator to authenticate the source

seq sequence number used by the receiver to sort the packets

len size of the GRE packet

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IP version 4 RFC 792 Internet Control Message Protocol (ICMP) echo request/reply header

Parameters: type type of ICMP packet (should be ICMP_ECHOREPLY or ICMP_ECHO)

code code of ICMP packet (should be 0)

sum checksum (0 for libnet to autofill)

id identification number

seq packet sequence number

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IP version 4 RFC 792 Internet Control Message Protocol (ICMP) IP netmask request/reply header.

Parameters: type type of ICMP packet (should be ICMP_MASKREQ or ICMP_MASKREPLY)

code code of ICMP packet (should be 0)

sum checksum (0 for libnet to autofill)

id identification number

seq packet sequence number

mask subnet mask

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IP version 4 RFC 792 Internet Message Control Protocol (ICMP) redirect header. The additional arguments enable the application programmer to easily specify the original IP header values (the IP header of the packet that supposedly caused the ICMP redirect message in the first place).

Parameters: type type of ICMP packet (should be ICMP_REDIRECT)

code code of ICMP packet (should be one of the four redirect codes)

sum checksum (0 for libnet to autofill)

orig_id original IP header identification

orig_frag original IP header fragmentation information

orig_ttl orginal IP header time to live

orig_prot original IP header protocol

orig_check original IP header checksum

orig_src original IP header source address

orig_dst original IP header destination address

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IP version 4 RFC 792 Internet Control Message Protocol (ICMP) time exceeded header. The additional arguments enable the application programmer to easily specify the original IPv4 header values (the IP header of the packet that supposedly caused the ICMP time exceeded message in the first place).

Parameters: type type of ICMP packet (should be ICMP_TIMXCEED)

code code of ICMP packet (ICMP_TIMXCEED_INTRANS / ICMP_TIMXCEED_REASS)

sum checksum (0 for libnet to autofill)

orig_id original IP header identification

orig_frag original IP header fragmentation information

orig_ttl orginal IP header time to live

orig_prot original IP header protocol

orig_check original IP header checksum

orig_src original IP header source address

orig_dst original IP header destination address

payload optional payload or NULL

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IP version 4 RFC 792 Internet Control Message Protocol (ICMP) timestamp request/reply header.

Parameters: type type of ICMP packet (should be ICMP_TSTAMP or ICMP_TSTAMPREPLY)

code code of ICMP packet (should be 0)

sum checksum (0 for libnet to autofill)

id identification number

seq sequence number

otime originate timestamp

rtime receive timestamp

ttime transmit timestamp

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IP version 4 RFC 792 Internet Control Message Protocol (ICMP) unreachable header. The additional arguments enable the application programmer to easily specify the original IPv4 header values (the IP header of the packet that supposedly caused the ICMP unreachable message in the first place).

Parameters: type type of ICMP packet (should be ICMP_UNREACH)

code code of ICMP packet (should be one of the 16 unreachable codes)

sum checksum (0 for libnet to autofill)

orig_id original IP header identification

orig_frag original IP header fragmentation information

orig_ttl orginal IP header time to live

orig_prot original IP header protocol

orig_check original IP header checksum

orig_src original IP header source address

orig_dst original IP header destination address

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 1112 Internet Group Memebership Protocol (IGMP) header.

Parameters: type packet type

code packet code (should be 0)

sum checksum (0 for libnet to autofill)

ip IPv4 address

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an Internet Protocol Security Authentication header.

Parameters: nh next header

len payload length

res reserved

spi security parameter index

seq sequence number

auth authentication data

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an Internet Protocol Security Encapsulating Security Payload footer.

Parameters: len padding length

nh next header

auth authentication data

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an Internet Protocol Security Encapsulating Security Payload header.

Parameters: spi security parameter index

seq ESP sequence number

iv initialization vector

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a version 4 RFC 791 Internet Protocol (IP) header.

Parameters: len total length of the IP packet including all subsequent data

tos type of service bits

id IP identification number

frag fragmentation bits and offset

ttl time to live in the network

prot upper layer protocol

sum checksum (0 for libnet to autofill)

src source IPv4 address (little endian)

dst destination IPv4 address (little endian)

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an version 4 Internet Protocol (IP) options header. The function expects options to be a valid IP options string of size options_s, no larger than 40 bytes (the maximum size of an options string). The function checks to make sure that the preceding header is an IPv4 header and that the options string would not result in a packet larger than 65,535 bytes (IPMAXPACKET). The function counts up the number of 32-bit words in the options string and adjusts the IP header length value as necessary.

Parameters: options byte string of IP options

options_s length of options string

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a version 6 RFC 2460 Internet Protocol (IP) header.

Parameters: tc traffic class

fl flow label

len total length of the IP packet

nh next header

hl hop limit

src source IPv6 address

dst destination IPv6 address

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a version 6 RFC 2460 Internet Protocol (IP) destination options header. This function is special in that it uses the payload interface to include the options data. The application programmer will build an IPv6 options byte string and pass it to the function using the payload interface.

Parameters: nh next header

len length of the header in 8-byte octets not including the first 8 octets

payload options payload

payload_s payload length

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a version 6 RFC 2460 Internet Protocol (IP) fragmentation header.

Parameters: nh next header

reserved unused value... OR IS IT!

frag fragmentation bits (ala ipv4)

id packet identification

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a version 6 RFC 2460 Internet Protocol (IP) hop by hop options header. This function is special in that it uses the payload interface to include the options data. The application programmer will build an IPv6 hop by hop options byte string and pass it to the function using the payload interface.

Parameters: nh next header

len length of the header in 8-byte octets not including the first 8 octets

payload options payload

payload_s payload length

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a version 6 RFC 2460 Internet Protocol (IP) routing header. This function is special in that it uses the payload interface to include the 'type-specific data'; that is the routing information. Most often this will be a number of 128-bit IPv6 addresses. The application programmer will build a byte string of IPv6 address and pass them to the function using the payload interface.

Parameters: nh next header

len length of the header in 8-byte octets not including the first 8 octets routing header type

segments number of routing segments that follow

payload optional payload of routing information

payload_s payload length

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a Cisco Inter-Switch Link (ISL) header.

Parameters: dhost destination address (should be 01:00:0c:00:00)

type type of frame

user user defined data

shost source mac address

len total length of the encapuslated packet less 18 bytes

snap SNAP information (0xaaaa03 + vendor code)

vid 15 bit VLAN ID, 1 bit BPDU or CDP indicator

index port index

reserved used for FDDI and token ring

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a link layer header for an initialized l. The function determines the proper link layer header format from how l was initialized. The function current supports Ethernet and Token Ring link layers.

Parameters: dst the destination MAC address

src the source MAC address

oui Organizationally Unique Identifier (unused for Ethernet)

type the upper layer protocol type

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 3032 Multi-Protocol Label Switching (MPLS) header.

Parameters: label 20-bit label value

experimental 3-bit reserved field

bos 1-bit bottom of stack identifier

ttl time to live

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 958 Network Time Protocol (NTP) header.

Parameters: leap_indicator the leap indicator

version NTP protocol version

mode NTP mode

stratum stratum

poll polling interval

precision precision

delay_interval delay interval

delay_frac delay fraction

dispersion_int dispersion interval

dispersion_frac dispersion fraction

reference_id reference id

ref_ts_int reference timestamp integer

ref_ts_frac reference timestamp fraction

orig_ts_int original timestamp integer

orig_ts_frac original timestamp fraction

rec_ts_int receiver timestamp integer

rec_ts_frac reciever timestamp fraction

xmt_ts_int transmit timestamp integer

xmt_ts_frac transmit timestamp integer

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a Routing Information Protocol header (RFCs 1058 and 2453).

Parameters: cmd command

version protocol version

rd version one: 0, version two: routing domain

af address family

rt version one: 0, version two: route tag

addr IPv4 address

mask version one: 0, version two: subnet mask

next_hop version one: 0, version two: next hop address

metric routing metric

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an Remote Procedure Call (Version 2) Call message header as specified in RFC 1831. This builder provides the option for specifying the record marking which is required when used with streaming protocols (TCP).

Parameters: rm record marking indicating the position in a stream, 0 otherwise

xid transaction identifier used to link calls and replies

prog_num remote program specification typically between 0 - 1fffffff

prog_vers remote program version specification

procedure procedure to be performed by remote program

cflavor authentication credential type

clength credential length (should be 0)

cdata opaque credential data (currently unused)

vflavor authentication verifier type

vlength verifier length (should be 0)

vdata opaque verifier data (currently unused)

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a Sebek header. The Sebek protocol was designed by the Honeynet Project as a transport mechanism for post-intrusion forensic data. More information may be found here: http://www.honeynet.org/papers/sebek.pdf.

Parameters: magic identify packets that should be hidden

version protocol version, currently 1

type type of record (read data is type 0, write data is type 1)

counter PDU counter used to identify when packet are lost

time_sec seconds since EPOCH according to the honeypot

time_usec residual microseconds

pid PID

uid UID

fd FD

cmd[SEBEK_CMD_LENGTH] 12 first characters of the command

length length in bytes of the PDU's body

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IEEE 802.1d Spanning Tree Protocol (STP) configuration header. STP frames are usually encapsulated inside of an 802.2 + 802.3 frame combination.

Parameters: id protocol id

version protocol version

bpdu_type bridge protocol data unit type

flags flags

root_id root id

root_pc root path cost

bridge_id bridge id

port_id port id

message_age message age

max_age max age

hello_time hello time

f_delay forward delay

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an IEEE 802.1d Spanning Tree Protocol (STP) topology change notification header. STP frames are usually encapsulated inside of an 802.2 + 802.3 frame combination.

Parameters: id protocol id

version protocol version

bpdu_type bridge protocol data unit type

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 793 Transmission Control Protocol (TCP) header.

Parameters: sp source port

dp destination port

seq sequence number

ack acknowledgement number

control control flags

win window size

sum checksum (0 for libnet to autofill)

urg urgent pointer len total length of the TCP packet (for checksum calculation)

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 793 Transmission Control Protocol (TCP) options header. The function expects options to be a valid TCP options string of size options_s, which is no larger than 40 bytes (the maximum size of an options string). The function checks to ensure that the packet consists of a TCP header preceded by an IPv4 header, and that the addition of the options string would not result in a packet larger than 65,535 bytes (IPMAXPACKET). The function counts up the number of 32-bit words in the options string and adjusts the TCP header length value as necessary.

Parameters: options byte string of TCP options

options_s length of options string

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds a token ring header.

Parameters: ac access control

fc frame control

dst destination address

src source address

dsap destination service access point

ssap source service access point

cf control field

oui Organizationally Unique Identifier

type upper layer protocol type

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 768 User Datagram Protocol (UDP) header.

Parameters: sp source port

dp destination port

len total length of the UDP packet

sum checksum (0 for libnet to autofill)

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Builds an RFC 2338 Virtual Router Redundacy Protool (VRRP) header. Use the payload interface to specify address and autthentication information. To build a 'legal' packet, the destination IPv4 address should be the multicast * address 224.0.0.18, the IP TTL should be set to 255, and the IP protocol should be set to 112.

Parameters: version VRRP version (should be 2)

type VRRP packet type (should be 1 -- ADVERTISEMENT)

vrouter_id virtual router identification

priority priority (higher numbers indicate higher priority)

ip_count number of IPv4 addresses contained in this advertisement

auth_type type of authentication (0, 1, 2 -- see RFC)

advert_int interval between advertisements

sum checksum (0 for libnet to autofill)

payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Clears the current packet referenced and frees all pblocks. Should be called when the programmer want to send a completely new packet of a different type using the same context.

Parameters: l pointer to a libnet context

[Context Queue] Adds a new context to the libnet context queue. If no queue exists, this function will create the queue and add the specified libnet context as the first entry on the list. The functions checks to ensure niether l nor label are NULL, and that label doesn't refer to an existing context already in the queue. Additionally, l should refer to a libnet context previously initialized with a call to libnet_init(). If the context queue in write locked, this function will fail.

Parameters: l pointer to a libnet context

label a canonical name given to recognize the new context, no longer than LIBNET_LABEL_SIZE

Returns: 1 on success, -1 on failure

[Context Queue] Destroys the entire context queue, calling libnet_destroy() on each member context.

[Context Queue] Locates a libnet context from the queue, indexed by a canonical label.

Parameters: label canonical label of the libnet context to retrieve

Returns: the expected libnet context, NULL on failure

[Context Queue] Returns the canonical label associated with the context.

Parameters: l pointer to a libnet context

Returns: pointer to the libnet context's label

[Context Queue] Intiailizes the interator interface and set a write lock on the entire queue. This function is intended to be called just prior to interating through the entire list of contexts (with the probable intent of inject a series of packets in rapid succession). This function is often used as per the following:

for (l = libnet_cq_head(); libnet_cq_last(); l = libnet_cq_next()) { ... }

Much of the time, the application programmer will use the iterator as it is written above; as such, libnet provides a macro to do exactly that, for_each_context_in_cq(l). Warning: do not call the iterator more than once in a single loop.

Returns: the head of the context queue

[Context Queue] Check whether the iterator is at the last context in the queue.

Returns: 1 if at the end of the context queue, 0 otherwise

[Context Queue] Get next context from the context queue. the next context from the context queue

[Context Queue] Removes a specified context from the libnet context queue by specifying the libnet context pointer. Note the function will remove the specified context from the context queue and cleanup internal memory from the queue, it is up to the application programmer to free the returned libnet context with a call to libnet_destroy(). Also, as it is not necessary to keep the libnet context pointer when initially adding it to the context queue, most application programmers will prefer to refer to entries on the context queue by canonical name and would use libnet_cq_remove_by_label(). If the context queue is write locked, this function will fail.

Parameters: l pointer to a libnet context

Returns: the pointer to the removed libnet context, NULL on failure

[Context Queue] Removes a specified context from the libnet context queue by specifying the canonical name. Note the function will remove the specified context from the context queue and cleanup internal memory from the queue, it is up to the application programmer to free the returned libnet context with a call to libnet_destroy(). If the context queue is write locked, this function will fail.

Parameters: label canonical name of the context to remove

Returns: the pointer to the removed libnet context, NULL on failure

[Context Queue] Function returns the number of libnet contexts that are in the queue.

Returns: the number of libnet contexts currently in the queue

Shuts down the libnet session referenced by l. It closes the network interface and frees all internal memory structures associated with l.

Parameters: l pointer to a libnet context

[Diagnostic] Prints the contents of the given context.

Parameters: l pointer to a libnet context

[Diagnostic] Function prints the contents of the supplied buffer to the supplied stream pointer. Will swap endianness based disposition of mode variable. Useful to be used in conjunction with the advanced interface and a culled packet.

Parameters: packet the packet to print

len length of the packet in bytes

swap 1 to swap byte order, 0 to not

stream a stream pointer to print to

[Diagnostic] Prints the contents of every pblock.

Parameters: l pointer to a libnet context

[Diagnostic] Returns the canonical name of the pblock type.

Parameters: type pblock type

Returns: a string representing the pblock type type or 'unknown' for an unknown value

Returns the MAC address for the device libnet was initialized with. If libnet was initialized without a device the function will attempt to find one. If the function fails and returns NULL a call to libnet_geterror() will tell you why.

Parameters: l pointer to a libnet context

Returns: a pointer to the MAC address or NULL

Returns the IP address for the device libnet was initialized with. If libnet was initialized without a device (in raw socket mode) the function will attempt to find one. If the function fails and returns -1 a call to libnet_geterrror() will tell you why.

Parameters: l pointer to a libnet context

Returns: a big endian IP address suitable for use in a libnet_build function or -1

This function is not yet implemented under IPv6.

Parameters: l pointer to a libnet context

Returns: well, nothing yet

Generates an unsigned psuedo-random value within the range specified by mod. LIBNET_PR2 0 - 1 LIBNET_PR8 0 - 255 LIBNET_PR16 0 - 32767 LIBNET_PRu16 0 - 65535 LIBNET_PR32 0 - 2147483647 LIBNET_PRu32 0 - 4294967295

Parameters: mod one the of LIBNET_PR* constants

Returns: 1 on success, -1 on failure

Returns the canonical name of the device used for packet injection.

Parameters: l pointer to a libnet context

Returns: the canonical name of the device used for packet injection. Note it can be NULL without being an error.

Returns the last error set inside of the referenced libnet context. This function should be called anytime a function fails or an error condition is detected inside of libnet.

Parameters: l pointer to a libnet context

Returns: an error string or NULL if no error has occured

Returns the FILENO of the file descriptor used for packet injection.

Parameters: l pointer to a libnet context

Returns: the file number of the file descriptor used for packet injection

Parameters: payload optional payload or NULL

payload_s payload length or 0

l pointer to a libnet context

ptag protocol tag to modify an existing header, 0 to build a new one

Returns: protocol tag value on success, -1 on error

Returns the sum of the size of all of the pblocks inside of l (this should be the resuling packet size).

Parameters: l pointer to a libnet context

Returns: the size of the packet in l

Returns the pblock buffer contents for the specified ptag; a subsequent call to libnet_getpbuf_size() should be made to determine the size of the buffer.

Parameters: l pointer to a libnet context

ptag the ptag reference number

Returns: a pointer to the pblock buffer or NULL on error

Returns the pblock buffer size for the specified ptag; a previous call to libnet_getpbuf() should be made to pull the actual buffer contents.

Parameters: l pointer to a libnet context

ptag the ptag reference number

Returns: the size of the pblock buffer

Takes a colon separated hexidecimal address (from the command line) and returns a bytestring suitable for use in a libnet_build function. Note this function performs an implicit malloc and the return value should be freed after its use.

Parameters: s the string to be parsed

len the resulting size of the returned byte string

Returns: a byte string or NULL on failure

Creates the libnet environment. It initializes the library and returns a libnet context. If the injection_type is LIBNET_LINK or LIBNET_LINK_ADV, the function initializes the injection primitives for the link-layer interface enabling the application programmer to build packets starting at the data-link layer (which also provides more granular control over the IP layer). If libnet uses the link-layer and the device argument is non-NULL, the function attempts to use the specified network device for packet injection. This is either a canonical string that references the device (such as 'eth0' for a 100MB Ethernet card on Linux or 'fxp0' for a 100MB Ethernet card on OpenBSD) or the dots and decimals representation of the device's IP address (192.168.0.1). If device is NULL, libnet attempts to find a suitable device to use. If the injection_type is LIBNET_RAW4 or LIBNET_RAW4_ADV, the function initializes the injection primitives for the IPv4 raw socket interface. The final argument, err_buf, should be a buffer of size LIBNET_ERRBUF_SIZE and holds an error message if the function fails. This function requires root privileges to execute successfully. Upon success, the function returns a valid libnet context for use in later function calls; upon failure, the function returns NULL.

Parameters: injection_type packet injection type (LIBNET_LINK, LIBNET_LINK_ADV, LIBNET_RAW4, LIBNET_RAW4_ADV, LIBNET_RAW6, LIBNET_RAW6_ADV)

device the interface to use (NULL and libnet will choose one)

err_buf will contain an error message on failure

Returns: libnet context ready for use or NULL on error.

Takes a dotted decimal string or a canonical DNS name and returns a network byte ordered IPv4 address. This may incur a DNS lookup if mode is set to LIBNET_RESOLVE and host_name refers to a canonical DNS name. If mode is set to LIBNET_DONT_RESOLVE no DNS lookup will occur. The function can fail if DNS lookup fails or if mode is set to LIBNET_DONT_RESOLVE and host_name refers to a canonical DNS name.

Parameters: l pointer to a libnet context

host_name pointer to a string containing a presentation format host name

use_name LIBNET_RESOLVE or LIBNET_DONT_RESOLVE

Returns: network byte ordered IPv4 address or -1 (2^32 - 1) on error

Takes a dotted decimal string or a canonical DNS name and returns a network byte ordered IPv6 address. This may incur a DNS lookup if mode is set to LIBNET_RESOLVE and host_name refers to a canonical DNS name. If mode is set to LIBNET_DONT_RESOLVE no DNS lookup will occur. The function can fail if DNS lookup fails or if mode is set to LIBNET_DONT_RESOLVE and host_name refers to a canonical DNS name.

Parameters: l pointer to a libnet context

host_name pointer to a string containing a presentation format host name

use_name LIBNET_RESOLVE or LIBNET_DONT_RESOLVE

Returns: network byte ordered IPv6 address structure

Runs through the port list and prints the contents of the port list chain list to stdout.

Parameters: plist previously created portlist

Returns: 1 on success, -1 on failure

Runs through the port list and prints the contents of the port list chain list to string. This function uses strdup and is not re-entrant. It also has a memory leak and should not really be used.

Parameters: plist previously created portlist

Returns: a printable string containing the port list contents on success NULL on error

Frees all memory associated with port list chain.

Parameters: plist previously created portlist

Returns: 1 on success, -1 on failure

Creates a new port list. Port list chains are useful for TCP and UDP-based applications that need to send packets to a range of ports (contiguous or otherwise). The port list chain, which token_list points to, should contain a series of int8_tacters from the following list: '0123456789,-' of the general format 'x - y, z', where 'xyz' are port numbers between 0 and 65,535. plist points to the front of the port list chain list for use in further libnet_plist_chain() functions. Upon success, the function returns 1. Upon failure, the function returns -1 and libnet_geterror() can tell you why.

Parameters: l pointer to a libnet context

plist if successful, will refer to the portlist, if not, NULL

token_list string containing the port list primitive

Returns: 1 on success, -1 on failure

Returns the next port list chain pair from the port list chain plist. bport and eport contain the starting port number and ending port number, respectively. Upon success, the function returns 1 and fills in the port variables; however, if the list is empty, the function returns 0 and sets both port variables to 0. Upon failure, the function returns -1.

Parameters: plist previously created portlist

bport will contain the beginning port number or 0

eport will contain the ending port number or 0

Returns: 1 on success, 0 if empty, -1 on failure

Seeds the psuedo-random number generator.

Parameters: l pointer to a libnet context

Returns: 1 on success, -1 on failure

Fills in a libnet_stats structure with packet injection statistics (packets written, bytes written, packet sending errors).

Parameters: l pointer to a libnet context

ls pointer to a libnet statistics structure

If a given protocol header is built with the checksum field set to '0', by default libnet will calculate the header checksum prior to injection. If the header is set to any other value, by default libnet will not calculate the header checksum. To over-ride this behavior, use libnet_toggle_checksum(). Switches auto-checksumming on or off for the specified ptag. If mode is set to LIBNET_ON, libnet will mark the specificed ptag to calculate a checksum for the ptag prior to injection. This assumes that the ptag refers to a protocol that has a checksum field. If mode is set to LIBNET_OFF, libnet will clear the checksum flag and no checksum will be computed prior to injection. This assumes that the programmer will assign a value (zero or otherwise) to the checksum field. Often times this is useful if a precomputed checksum or some other predefined value is going to be used. Note that when libnet is initialized with LIBNET_RAW4, the IPv4 header checksum will always be computed by the kernel prior to injection, regardless of what the programmer sets.

Parameters: l pointer to a libnet context

ptag the ptag reference number

mode LIBNET_ON or LIBNET_OFF

Returns: 1 on success, -1 on failure

Writes a prebuilt packet to the network. The function assumes that l was previously initialized (via a call to libnet_init()) and that a previously constructed packet has been built inside this context (via one or more calls to the libnet_build* family of functions) and is ready to go. Depending on how libnet was initialized, the function will write the packet to the wire either via the raw or link layer interface. The function will also bump up the internal libnet stat counters which are retrievable via libnet_stats().

Parameters: l pointer to a libnet context

Returns: the number of bytes written, -1 on error