/* * Copyright (c) 1988-1990 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that: (1) source code distributions * retain the above copyright notice and this paragraph in its entirety, (2) * distributions including binary code include the above copyright notice and * this paragraph in its entirety in the documentation or other materials * provided with the distribution, and (3) all advertising materials mentioning * features or use of this software display the following acknowledgement: * ``This product includes software developed by the University of California, * Lawrence Berkeley Laboratory and its contributors.'' Neither the name of * the University nor the names of its contributors may be used to endorse * or promote products derived from this software without specific prior * written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. * * Format and print bootp packets. * * This file was copied from tcpdump-2.1.1 and modified. * There is an e-mail list for tcpdump: */ #ifndef lint static char rcsid[] = "$Id: print-bootp.c,v 1.1 1995/10/18 08:47:27 deraadt Exp $"; /* 93/10/10 New data-driven option print routine. */ #endif #include #include #include #include #include #include #include #include #include "bootp.h" #include "bootptest.h" /* These decode the vendor data. */ static void rfc1048_print(); static void cmu_print(); static void other_print(); static void dump_hex(); /* * Print bootp requests */ void bootp_print(bp, length, sport, dport) struct bootp *bp; int length; u_short sport, dport; { static char tstr[] = " [|bootp]"; static unsigned char vm_cmu[4] = VM_CMU; static unsigned char vm_rfc1048[4] = VM_RFC1048; u_char *ep; int vdlen; #define TCHECK(var, l) if ((u_char *)&(var) > ep - l) goto trunc /* Note funny sized packets */ if (length != sizeof(struct bootp)) (void) printf(" [len=%d]", length); /* 'ep' points to the end of avaible data. */ ep = (u_char *) snapend; switch (bp->bp_op) { case BOOTREQUEST: /* Usually, a request goes from a client to a server */ if (sport != IPPORT_BOOTPC || dport != IPPORT_BOOTPS) printf(" (request)"); break; case BOOTREPLY: /* Usually, a reply goes from a server to a client */ if (sport != IPPORT_BOOTPS || dport != IPPORT_BOOTPC) printf(" (reply)"); break; default: printf(" bootp-#%d", bp->bp_op); } /* The usual hardware address type is 1 (10Mb Ethernet) */ if (bp->bp_htype != 1) printf(" htype:%d", bp->bp_htype); /* The usual length for 10Mb Ethernet address is 6 bytes */ if (bp->bp_hlen != 6) printf(" hlen:%d", bp->bp_hlen); /* Client's Hardware address */ if (bp->bp_hlen) { register struct ether_header *eh; register char *e; TCHECK(bp->bp_chaddr[0], 6); eh = (struct ether_header *) packetp; if (bp->bp_op == BOOTREQUEST) e = (char *) ESRC(eh); else if (bp->bp_op == BOOTREPLY) e = (char *) EDST(eh); else e = 0; if (e == 0 || bcmp((char *) bp->bp_chaddr, e, 6)) dump_hex(bp->bp_chaddr, bp->bp_hlen); } /* Only print interesting fields */ if (bp->bp_hops) printf(" hops:%d", bp->bp_hops); if (bp->bp_xid) printf(" xid:%d", ntohl(bp->bp_xid)); if (bp->bp_secs) printf(" secs:%d", ntohs(bp->bp_secs)); /* Client's ip address */ TCHECK(bp->bp_ciaddr, sizeof(bp->bp_ciaddr)); if (bp->bp_ciaddr.s_addr) printf(" C:%s", ipaddr_string(&bp->bp_ciaddr)); /* 'your' ip address (bootp client) */ TCHECK(bp->bp_yiaddr, sizeof(bp->bp_yiaddr)); if (bp->bp_yiaddr.s_addr) printf(" Y:%s", ipaddr_string(&bp->bp_yiaddr)); /* Server's ip address */ TCHECK(bp->bp_siaddr, sizeof(bp->bp_siaddr)); if (bp->bp_siaddr.s_addr) printf(" S:%s", ipaddr_string(&bp->bp_siaddr)); /* Gateway's ip address */ TCHECK(bp->bp_giaddr, sizeof(bp->bp_giaddr)); if (bp->bp_giaddr.s_addr) printf(" G:%s", ipaddr_string(&bp->bp_giaddr)); TCHECK(bp->bp_sname[0], sizeof(bp->bp_sname)); if (*bp->bp_sname) { printf(" sname:"); if (printfn(bp->bp_sname, ep)) { fputs(tstr + 1, stdout); return; } } TCHECK(bp->bp_file[0], sizeof(bp->bp_file)); if (*bp->bp_file) { printf(" file:"); if (printfn(bp->bp_file, ep)) { fputs(tstr + 1, stdout); return; } } /* Don't try to decode the vendor buffer unless we're verbose */ if (vflag <= 0) return; vdlen = sizeof(bp->bp_vend); /* Vendor data can extend to the end of the packet. */ if (vdlen < (ep - bp->bp_vend)) vdlen = (ep - bp->bp_vend); TCHECK(bp->bp_vend[0], vdlen); printf(" vend"); if (!bcmp(bp->bp_vend, vm_rfc1048, sizeof(u_int32))) rfc1048_print(bp->bp_vend, vdlen); else if (!bcmp(bp->bp_vend, vm_cmu, sizeof(u_int32))) cmu_print(bp->bp_vend, vdlen); else other_print(bp->bp_vend, vdlen); return; trunc: fputs(tstr, stdout); #undef TCHECK } /* * Option description data follows. * These are decribed in: RFC-1048, RFC-1395, RFC-1497, RFC-1533 * * The first char of each option string encodes the data format: * ?: unknown * a: ASCII * b: byte (8-bit) * i: inet address * l: int32 * s: short (16-bit) */ char * rfc1048_opts[] = { /* Originally from RFC-1048: */ "?PAD", /* 0: Padding - special, no data. */ "iSM", /* 1: subnet mask (RFC950)*/ "lTZ", /* 2: time offset, seconds from UTC */ "iGW", /* 3: gateways (or routers) */ "iTS", /* 4: time servers (RFC868) */ "iINS", /* 5: IEN name servers (IEN116) */ "iDNS", /* 6: domain name servers (RFC1035)(1034?) */ "iLOG", /* 7: MIT log servers */ "iCS", /* 8: cookie servers (RFC865) */ "iLPR", /* 9: lpr server (RFC1179) */ "iIPS", /* 10: impress servers (Imagen) */ "iRLP", /* 11: resource location servers (RFC887) */ "aHN", /* 12: host name (ASCII) */ "sBFS", /* 13: boot file size (in 512 byte blocks) */ /* Added by RFC-1395: */ "aDUMP", /* 14: Merit Dump File */ "aDNAM", /* 15: Domain Name (for DNS) */ "iSWAP", /* 16: Swap Server */ "aROOT", /* 17: Root Path */ /* Added by RFC-1497: */ "aEXTF", /* 18: Extensions Path (more options) */ /* Added by RFC-1533: (many, many options...) */ #if 1 /* These might not be worth recognizing by name. */ /* IP Layer Parameters, per-host (RFC-1533, sect. 4) */ "bIP-forward", /* 19: IP Forwarding flag */ "bIP-srcroute", /* 20: IP Source Routing Enable flag */ "iIP-filters", /* 21: IP Policy Filter (addr pairs) */ "sIP-maxudp", /* 22: IP Max-UDP reassembly size */ "bIP-ttlive", /* 23: IP Time to Live */ "lIP-pmtuage", /* 24: IP Path MTU aging timeout */ "sIP-pmtutab", /* 25: IP Path MTU plateau table */ /* IP parameters, per-interface (RFC-1533, sect. 5) */ "sIP-mtu-sz", /* 26: IP MTU size */ "bIP-mtu-sl", /* 27: IP MTU all subnets local */ "bIP-bcast1", /* 28: IP Broadcast Addr ones flag */ "bIP-mask-d", /* 29: IP do mask discovery */ "bIP-mask-s", /* 30: IP do mask supplier */ "bIP-rt-dsc", /* 31: IP do router discovery */ "iIP-rt-sa", /* 32: IP router solicitation addr */ "iIP-routes", /* 33: IP static routes (dst,router) */ /* Link Layer parameters, per-interface (RFC-1533, sect. 6) */ "bLL-trailer", /* 34: do tralier encapsulation */ "lLL-arp-tmo", /* 35: ARP cache timeout */ "bLL-ether2", /* 36: Ethernet version 2 (IEEE 802.3) */ /* TCP parameters (RFC-1533, sect. 7) */ "bTCP-def-ttl", /* 37: default time to live */ "lTCP-KA-tmo", /* 38: keepalive time interval */ "bTCP-KA-junk", /* 39: keepalive sends extra junk */ /* Application and Service Parameters (RFC-1533, sect. 8) */ "aNISDOM", /* 40: NIS Domain (Sun YP) */ "iNISSRV", /* 41: NIS Servers */ "iNTPSRV", /* 42: NTP (time) Servers (RFC 1129) */ "?VSINFO", /* 43: Vendor Specific Info (encapsulated) */ "iNBiosNS", /* 44: NetBIOS Name Server (RFC-1001,1..2) */ "iNBiosDD", /* 45: NetBIOS Datagram Dist. Server. */ "bNBiosNT", /* 46: NetBIOS Note Type */ "?NBiosS", /* 47: NetBIOS Scope */ "iXW-FS", /* 48: X Window System Font Servers */ "iXW-DM", /* 49: X Window System Display Managers */ /* DHCP extensions (RFC-1533, sect. 9) */ #endif }; #define KNOWN_OPTIONS (sizeof(rfc1048_opts) / sizeof(rfc1048_opts[0])) static void print_string(); static void rfc1048_print(bp, length) register u_char *bp; int length; { u_char tag; u_char *ep; register int len, j; u_int32 ul; u_short us; struct in_addr ia; char *optstr; printf("-rfc1395"); /* Step over magic cookie */ bp += sizeof(int32); /* Setup end pointer */ ep = bp + length; while (bp < ep) { tag = *bp++; /* Check for tags with no data first. */ if (tag == TAG_PAD) continue; if (tag == TAG_END) return; if (tag < KNOWN_OPTIONS) { optstr = rfc1048_opts[tag]; printf(" %s:", optstr + 1); } else { printf(" T%d:", tag); optstr = "?"; } /* Now scan the length byte. */ len = *bp++; if (bp + len > ep) { /* truncated option */ printf(" |(%d>%d)", len, ep - bp); return; } /* Print the option value(s). */ switch (optstr[0]) { case 'a': /* ASCII string */ printfn(bp, bp + len); bp += len; len = 0; break; case 's': /* Word formats */ while (len >= 2) { bcopy((char *) bp, (char *) &us, 2); printf("%d", ntohs(us)); bp += 2; len -= 2; if (len) printf(","); } if (len) printf("(junk=%d)", len); break; case 'l': /* Long words */ while (len >= 4) { bcopy((char *) bp, (char *) &ul, 4); printf("%d", ntohl(ul)); bp += 4; len -= 4; if (len) printf(","); } if (len) printf("(junk=%d)", len); break; case 'i': /* INET addresses */ while (len >= 4) { bcopy((char *) bp, (char *) &ia, 4); printf("%s", ipaddr_string(&ia)); bp += 4; len -= 4; if (len) printf(","); } if (len) printf("(junk=%d)", len); break; case 'b': default: break; } /* switch */ /* Print as characters, if appropriate. */ if (len) { dump_hex(bp, len); if (isascii(*bp) && isprint(*bp)) { printf("("); printfn(bp, bp + len); printf(")"); } bp += len; len = 0; } } /* while bp < ep */ } static void cmu_print(bp, length) register u_char *bp; int length; { struct cmu_vend *v; u_char *ep; printf("-cmu"); v = (struct cmu_vend *) bp; if (length < sizeof(*v)) { printf(" |L=%d", length); return; } /* Setup end pointer */ ep = bp + length; /* Subnet mask */ if (v->v_flags & VF_SMASK) { printf(" SM:%s", ipaddr_string(&v->v_smask)); } /* Default gateway */ if (v->v_dgate.s_addr) printf(" GW:%s", ipaddr_string(&v->v_dgate)); /* Domain name servers */ if (v->v_dns1.s_addr) printf(" DNS1:%s", ipaddr_string(&v->v_dns1)); if (v->v_dns2.s_addr) printf(" DNS2:%s", ipaddr_string(&v->v_dns2)); /* IEN-116 name servers */ if (v->v_ins1.s_addr) printf(" INS1:%s", ipaddr_string(&v->v_ins1)); if (v->v_ins2.s_addr) printf(" INS2:%s", ipaddr_string(&v->v_ins2)); /* Time servers */ if (v->v_ts1.s_addr) printf(" TS1:%s", ipaddr_string(&v->v_ts1)); if (v->v_ts2.s_addr) printf(" TS2:%s", ipaddr_string(&v->v_ts2)); } /* * Print out arbitrary, unknown vendor data. */ static void other_print(bp, length) register u_char *bp; int length; { u_char *ep; /* end pointer */ u_char *zp; /* points one past last non-zero byte */ register int i, j; /* Setup end pointer */ ep = bp + length; /* Find the last non-zero byte. */ for (zp = ep; zp > bp; zp--) { if (zp[-1] != 0) break; } /* Print the all-zero case in a compact representation. */ if (zp == bp) { printf("-all-zero"); return; } printf("-unknown"); /* Are there enough trailing zeros to make "00..." worthwhile? */ if (zp + 2 > ep) zp = ep; /* print them all normally */ /* Now just print all the non-zero data. */ while (bp < zp) { printf(".%02X", *bp); bp++; } if (zp < ep) printf(".00..."); return; } static void dump_hex(bp, len) u_char *bp; int len; { while (len > 0) { printf("%02X", *bp); bp++; len--; if (len) printf("."); } } /* * Local Variables: * tab-width: 4 * c-indent-level: 4 * c-argdecl-indent: 4 * c-continued-statement-offset: 4 * c-continued-brace-offset: -4 * c-label-offset: -4 * c-brace-offset: 0 * End: */