/* * $Id: libnet_internal.c,v 1.1.1.1 2012/02/21 22:14:23 misho Exp $ * * libnet * libnet_internal.c - secret routines! * * Copyright (c) 1998 - 2004 Mike D. Schiffman * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #if (HAVE_CONFIG_H) #include "../include/config.h" #endif #if (!(_WIN32) || (__CYGWIN__)) #include "../include/libnet.h" #else #include "../include/win32/libnet.h" #endif void libnet_diag_dump_hex(u_int8_t *packet, u_int32_t len, int swap, FILE *stream) { int i, s_cnt; u_int16_t *p; p = (u_int16_t *)packet; s_cnt = len / sizeof(u_int16_t); fprintf(stream, "\t"); for (i = 0; --s_cnt >= 0; i++) { if ((!(i % 8))) { fprintf(stream, "\n%02x\t", (i * 2)); } fprintf(stream, "%04x ", swap ? ntohs(*(p++)) : *(p++)); } /* * Mop up an odd byte. */ if (len & 1) { if ((!(i % 8))) { fprintf(stream, "\n%02x\t", (i * 2)); } fprintf(stream, "%02x ", *(u_int8_t *)p); } fprintf(stream, "\n"); } void libnet_diag_dump_context(libnet_t *l) { if (l == NULL) { return; } fprintf(stderr, "fd:\t\t%d\n", l->fd); switch (l->injection_type) { case LIBNET_LINK: fprintf(stderr, "injection type:\tLIBNET_LINK\n"); break; case LIBNET_RAW4: fprintf(stderr, "injection type:\tLIBNET_RAW4\n"); break; case LIBNET_RAW6: fprintf(stderr, "injection type:\tLIBNET_RAW6\n"); break; case LIBNET_LINK_ADV: fprintf(stderr, "injection type:\tLIBNET_LINK_ADV\n"); break; case LIBNET_RAW4_ADV: fprintf(stderr, "injection type:\tLIBNET_RAW4_ADV\n"); break; case LIBNET_RAW6_ADV: fprintf(stderr, "injection type:\tLIBNET_RAW6_ADV\n"); break; default: fprintf(stderr, "injection type:\tinvalid injection type %d\n", l->injection_type); break; } fprintf(stderr, "pblock start:\t%p\n", l->protocol_blocks); fprintf(stderr, "pblock end:\t%p\n", l->pblock_end); fprintf(stderr, "link type:\t%d\n", l->link_type); fprintf(stderr, "link offset:\t%d\n", l->link_offset); fprintf(stderr, "aligner:\t%d\n", l->aligner); fprintf(stderr, "device:\t\t%s\n", l->device); fprintf(stderr, "packets sent:\t%lld\n", l->stats.packets_sent); fprintf(stderr, "packet errors:\t%lld\n", l->stats.packet_errors); fprintf(stderr, "bytes written:\t%lld\n", l->stats.bytes_written); fprintf(stderr, "ptag state:\t%d\n", l->ptag_state); fprintf(stderr, "context label:\t%s\n", l->label); fprintf(stderr, "last errbuf:\t%s\n", l->err_buf); fprintf(stderr, "total size:\t%d\n", l->total_size); } void libnet_diag_dump_pblock(libnet_t *l) { u_int32_t n; libnet_pblock_t *p; for (p = l->protocol_blocks; p; p = p->next) { fprintf(stderr, "pblock type:\t%s\n", libnet_diag_dump_pblock_type(p->type)); fprintf(stderr, "ptag number:\t%d\n", p->ptag); fprintf(stderr, "IP offset:\t%d\n", p->ip_offset); fprintf(stderr, "pblock address:\t%p\n", p); fprintf(stderr, "next pblock\t%p ", p->next); if (p->next) { fprintf(stderr, "(%s)", libnet_diag_dump_pblock_type(p->next->type)); } fprintf(stderr, "\n"); fprintf(stderr, "prev pblock\t%p ", p->prev); if (p->prev) { fprintf(stderr, "(%s)", libnet_diag_dump_pblock_type(p->prev->type)); } fprintf(stderr, "\n"); fprintf(stderr, "buf:\t\t"); for (n = 0; n < p->b_len; n++) { fprintf(stderr, "%02x", p->buf[n]); } fprintf(stderr, "\nbuffer length:\t%d\n", p->b_len); if ((p->flags) & LIBNET_PBLOCK_DO_CHECKSUM) { fprintf(stderr, "checksum flag:\tYes\n"); fprintf(stderr, "chksum length:\t%d\n", p->h_len); } else { fprintf(stderr, "checksum flag:\tNo\n"); } fprintf(stderr, "bytes copied:\t%d\n\n", p->copied); } } char * libnet_diag_dump_pblock_type(u_int8_t type) { static int8_t buf[50]; switch (type) { case LIBNET_PBLOCK_ARP_H: return ("arp header"); case LIBNET_PBLOCK_DHCPV4_H: return ("dhcpv4 header"); case LIBNET_PBLOCK_DNSV4_H: return ("dnsv4 header"); case LIBNET_PBLOCK_ETH_H: return ("ethernet header"); case LIBNET_PBLOCK_ICMPV4_H: return ("icmpv4 header"); case LIBNET_PBLOCK_ICMPV4_ECHO_H: return ("icmpv4 echo header"); case LIBNET_PBLOCK_ICMPV4_MASK_H: return ("icmpv4 mask header"); case LIBNET_PBLOCK_ICMPV4_UNREACH_H: return ("icmpv4 unreachable header"); case LIBNET_PBLOCK_ICMPV4_TIMXCEED_H: return ("icmpv4 time exceeded header"); case LIBNET_PBLOCK_ICMPV4_REDIRECT_H: return ("icmpv4 redirect header"); case LIBNET_PBLOCK_ICMPV4_TS_H: return ("icmpv4 timestamp header"); case LIBNET_PBLOCK_IGMP_H: return ("igmp header"); case LIBNET_PBLOCK_IPV4_H: return ("ipv4 header"); case LIBNET_PBLOCK_IPO_H: return ("ip options header"); case LIBNET_PBLOCK_IPDATA: return ("ip data"); case LIBNET_PBLOCK_OSPF_H: return ("ospf header"); case LIBNET_PBLOCK_OSPF_HELLO_H: return ("ospf hello header"); case LIBNET_PBLOCK_OSPF_DBD_H: return ("ospf dbd header"); case LIBNET_PBLOCK_OSPF_LSR_H: return ("ospf lsr header"); case LIBNET_PBLOCK_OSPF_LSU_H: return ("ospf lsu header"); case LIBNET_PBLOCK_OSPF_LSA_H: return ("ospf lsa header"); case LIBNET_PBLOCK_OSPF_AUTH_H: return ("ospf authentication header"); case LIBNET_PBLOCK_OSPF_CKSUM: return ("ospf checksum"); case LIBNET_PBLOCK_LS_RTR_H: return ("ospf ls rtr header"); case LIBNET_PBLOCK_LS_NET_H: return ("ospf ls net header"); case LIBNET_PBLOCK_LS_SUM_H: return ("ospf ls sum header"); case LIBNET_PBLOCK_LS_AS_EXT_H: return ("ospf ls as extension header"); case LIBNET_PBLOCK_NTP_H: return ("ntp header"); case LIBNET_PBLOCK_RIP_H: return ("rip header"); case LIBNET_PBLOCK_TCP_H: return ("tcp header"); case LIBNET_PBLOCK_TCPO_H: return ("tcp options header"); case LIBNET_PBLOCK_TCPDATA: return ("tcp data"); case LIBNET_PBLOCK_UDP_H: return ("udp header"); case LIBNET_PBLOCK_VRRP_H: return ("vrrp header"); case LIBNET_PBLOCK_DATA_H: return ("data"); case LIBNET_PBLOCK_CDP_H: return ("cdp header"); case LIBNET_PBLOCK_IPSEC_ESP_HDR_H: return ("ipsec esp header"); case LIBNET_PBLOCK_IPSEC_ESP_FTR_H: return ("ipsec esp footer"); case LIBNET_PBLOCK_IPSEC_AH_H: return ("ipsec authentication header"); case LIBNET_PBLOCK_802_1Q_H: return ("802.1q header"); case LIBNET_PBLOCK_802_2_H: return ("802.2 header"); case LIBNET_PBLOCK_802_2SNAP_H: return ("802.2SNAP header"); case LIBNET_PBLOCK_802_3_H: return ("802.3 header"); case LIBNET_PBLOCK_STP_CONF_H: return ("stp configuration header"); case LIBNET_PBLOCK_STP_TCN_H: return ("stp tcn header"); case LIBNET_PBLOCK_ISL_H: return ("isl header"); case LIBNET_PBLOCK_IPV6_H: return ("ipv6 header"); case LIBNET_PBLOCK_802_1X_H: return ("802.1x header"); case LIBNET_PBLOCK_RPC_CALL_H: return ("rpc call header"); case LIBNET_PBLOCK_MPLS_H: return ("mlps header"); case LIBNET_PBLOCK_FDDI_H: return ("fddi header"); case LIBNET_PBLOCK_TOKEN_RING_H: return ("token ring header"); case LIBNET_PBLOCK_BGP4_HEADER_H: return ("bgp header"); case LIBNET_PBLOCK_BGP4_OPEN_H: return ("bgp open header"); case LIBNET_PBLOCK_BGP4_UPDATE_H: return ("bgp update header"); case LIBNET_PBLOCK_BGP4_NOTIFICATION_H: return ("bgp notification header"); case LIBNET_PBLOCK_GRE_H: return ("gre header"); case LIBNET_PBLOCK_GRE_SRE_H: return ("gre sre header"); case LIBNET_PBLOCK_IPV6_FRAG_H: return ("ipv6 fragmentation header"); case LIBNET_PBLOCK_IPV6_ROUTING_H: return ("ipv6 routing header"); case LIBNET_PBLOCK_IPV6_DESTOPTS_H: return ("ipv6 destination options header"); case LIBNET_PBLOCK_IPV6_HBHOPTS_H: return ("ipv6 hop by hop options header"); default: snprintf(buf, sizeof(buf), "%s(): unknown pblock type: %d", __func__, type); return (buf); } return ("unreachable code"); } /* EOF */