/* * Copyright (C) 1998 and 1999 WIDE Project. * 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. * 3. Neither the name of the project 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 BY THE PROJECT 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 PROJECT 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. */ /* * RFC3315: DHCPv6 * supported DHCPv6 options: * RFC3319: Session Initiation Protocol (SIP) Servers options, * RFC3633: IPv6 Prefix options, * RFC3646: DNS Configuration options, * RFC3898: Network Information Service (NIS) Configuration options, * RFC4075: Simple Network Time Protocol (SNTP) Configuration option, * RFC4242: Information Refresh Time option, * RFC4280: Broadcast and Multicast Control Servers options, * RFC5908: Network Time Protocol (NTP) Server Option for DHCPv6 * RFC6334: Dual-Stack Lite option, */ #ifndef lint static const char rcsid[] _U_ = "@(#) $Header: /tcpdump/master/tcpdump/print-dhcp6.c,v 1.37 2008-02-06 10:26:09 guy Exp $"; #endif #ifdef HAVE_CONFIG_H #include "config.h" #endif #include <tcpdump-stdinc.h> #include <stdio.h> #include <string.h> #include "interface.h" #include "addrtoname.h" #include "extract.h" /* lease duration */ #define DHCP6_DURATITION_INFINITE 0xffffffff /* Error Values */ #define DH6ERR_FAILURE 16 #define DH6ERR_AUTHFAIL 17 #define DH6ERR_POORLYFORMED 18 #define DH6ERR_UNAVAIL 19 #define DH6ERR_OPTUNAVAIL 20 /* Message type */ #define DH6_SOLICIT 1 #define DH6_ADVERTISE 2 #define DH6_REQUEST 3 #define DH6_CONFIRM 4 #define DH6_RENEW 5 #define DH6_REBIND 6 #define DH6_REPLY 7 #define DH6_RELEASE 8 #define DH6_DECLINE 9 #define DH6_RECONFIGURE 10 #define DH6_INFORM_REQ 11 #define DH6_RELAY_FORW 12 #define DH6_RELAY_REPLY 13 #define DH6_LEASEQUERY 14 #define DH6_LQ_REPLY 15 /* DHCP6 base packet format */ struct dhcp6 { union { u_int8_t m; u_int32_t x; } dh6_msgtypexid; /* options follow */ }; #define dh6_msgtype dh6_msgtypexid.m #define dh6_xid dh6_msgtypexid.x #define DH6_XIDMASK 0x00ffffff /* DHCPv6 relay messages */ struct dhcp6_relay { u_int8_t dh6relay_msgtype; u_int8_t dh6relay_hcnt; u_int8_t dh6relay_linkaddr[16]; /* XXX: badly aligned */ u_int8_t dh6relay_peeraddr[16]; /* options follow */ }; /* options */ #define DH6OPT_CLIENTID 1 #define DH6OPT_SERVERID 2 #define DH6OPT_IA_NA 3 #define DH6OPT_IA_TA 4 #define DH6OPT_IA_ADDR 5 #define DH6OPT_ORO 6 #define DH6OPT_PREFERENCE 7 # define DH6OPT_PREF_MAX 255 #define DH6OPT_ELAPSED_TIME 8 #define DH6OPT_RELAY_MSG 9 /*#define DH6OPT_SERVER_MSG 10 deprecated */ #define DH6OPT_AUTH 11 # define DH6OPT_AUTHPROTO_DELAYED 2 # define DH6OPT_AUTHPROTO_RECONFIG 3 # define DH6OPT_AUTHALG_HMACMD5 1 # define DH6OPT_AUTHRDM_MONOCOUNTER 0 # define DH6OPT_AUTHRECONFIG_KEY 1 # define DH6OPT_AUTHRECONFIG_HMACMD5 2 #define DH6OPT_UNICAST 12 #define DH6OPT_STATUS_CODE 13 # define DH6OPT_STCODE_SUCCESS 0 # define DH6OPT_STCODE_UNSPECFAIL 1 # define DH6OPT_STCODE_NOADDRAVAIL 2 # define DH6OPT_STCODE_NOBINDING 3 # define DH6OPT_STCODE_NOTONLINK 4 # define DH6OPT_STCODE_USEMULTICAST 5 # define DH6OPT_STCODE_NOPREFIXAVAIL 6 # define DH6OPT_STCODE_UNKNOWNQUERYTYPE 7 # define DH6OPT_STCODE_MALFORMEDQUERY 8 # define DH6OPT_STCODE_NOTCONFIGURED 9 # define DH6OPT_STCODE_NOTALLOWED 10 #define DH6OPT_RAPID_COMMIT 14 #define DH6OPT_USER_CLASS 15 #define DH6OPT_VENDOR_CLASS 16 #define DH6OPT_VENDOR_OPTS 17 #define DH6OPT_INTERFACE_ID 18 #define DH6OPT_RECONF_MSG 19 #define DH6OPT_RECONF_ACCEPT 20 #define DH6OPT_SIP_SERVER_D 21 #define DH6OPT_SIP_SERVER_A 22 #define DH6OPT_DNS_SERVERS 23 #define DH6OPT_DOMAIN_LIST 24 #define DH6OPT_IA_PD 25 #define DH6OPT_IA_PD_PREFIX 26 #define DH6OPT_NIS_SERVERS 27 #define DH6OPT_NISP_SERVERS 28 #define DH6OPT_NIS_NAME 29 #define DH6OPT_NISP_NAME 30 #define DH6OPT_SNTP_SERVERS 31 #define DH6OPT_LIFETIME 32 #define DH6OPT_BCMCS_SERVER_D 33 #define DH6OPT_BCMCS_SERVER_A 34 #define DH6OPT_GEOCONF_CIVIC 36 #define DH6OPT_REMOTE_ID 37 #define DH6OPT_SUBSCRIBER_ID 38 #define DH6OPT_CLIENT_FQDN 39 #define DH6OPT_PANA_AGENT 40 #define DH6OPT_NEW_POSIX_TIMEZONE 41 #define DH6OPT_NEW_TZDB_TIMEZONE 42 #define DH6OPT_ERO 43 #define DH6OPT_LQ_QUERY 44 #define DH6OPT_CLIENT_DATA 45 #define DH6OPT_CLT_TIME 46 #define DH6OPT_LQ_RELAY_DATA 47 #define DH6OPT_LQ_CLIENT_LINK 48 #define DH6OPT_NTP_SERVER 56 # define DH6OPT_NTP_SUBOPTION_SRV_ADDR 1 # define DH6OPT_NTP_SUBOPTION_MC_ADDR 2 # define DH6OPT_NTP_SUBOPTION_SRV_FQDN 3 #define DH6OPT_AFTR_NAME 64 struct dhcp6opt { u_int16_t dh6opt_type; u_int16_t dh6opt_len; /* type-dependent data follows */ }; static const char * dhcp6opt_name(int type) { static char genstr[sizeof("opt_65535") + 1]; /* XXX thread unsafe */ if (type > 65535) return "INVALID-option"; switch(type) { case DH6OPT_CLIENTID: return "client-ID"; case DH6OPT_SERVERID: return "server-ID"; case DH6OPT_IA_NA: return "IA_NA"; case DH6OPT_IA_TA: return "IA_TA"; case DH6OPT_IA_ADDR: return "IA_ADDR"; case DH6OPT_ORO: return "option-request"; case DH6OPT_PREFERENCE: return "preference"; case DH6OPT_ELAPSED_TIME: return "elapsed-time"; case DH6OPT_RELAY_MSG: return "relay-message"; case DH6OPT_AUTH: return "authentication"; case DH6OPT_UNICAST: return "server-unicast"; case DH6OPT_STATUS_CODE: return "status-code"; case DH6OPT_RAPID_COMMIT: return "rapid-commit"; case DH6OPT_USER_CLASS: return "user-class"; case DH6OPT_VENDOR_CLASS: return "vendor-class"; case DH6OPT_VENDOR_OPTS: return "vendor-specific-info"; case DH6OPT_INTERFACE_ID: return "interface-ID"; case DH6OPT_RECONF_MSG: return "reconfigure-message"; case DH6OPT_RECONF_ACCEPT: return "reconfigure-accept"; case DH6OPT_SIP_SERVER_D: return "SIP-servers-domain"; case DH6OPT_SIP_SERVER_A: return "SIP-servers-address"; case DH6OPT_DNS_SERVERS: return "DNS-server"; case DH6OPT_DOMAIN_LIST: return "DNS-search-list"; case DH6OPT_IA_PD: return "IA_PD"; case DH6OPT_IA_PD_PREFIX: return "IA_PD-prefix"; case DH6OPT_SNTP_SERVERS: return "SNTP-servers"; case DH6OPT_LIFETIME: return "lifetime"; case DH6OPT_NIS_SERVERS: return "NIS-server"; case DH6OPT_NISP_SERVERS: return "NIS+-server"; case DH6OPT_NIS_NAME: return "NIS-domain-name"; case DH6OPT_NISP_NAME: return "NIS+-domain-name"; case DH6OPT_BCMCS_SERVER_D: return "BCMCS-domain-name"; case DH6OPT_BCMCS_SERVER_A: return "BCMCS-server"; case DH6OPT_GEOCONF_CIVIC: return "Geoconf-Civic"; case DH6OPT_REMOTE_ID: return "Remote-ID"; case DH6OPT_SUBSCRIBER_ID: return "Subscriber-ID"; case DH6OPT_CLIENT_FQDN: return "Client-FQDN"; case DH6OPT_PANA_AGENT: return "PANA-agent"; case DH6OPT_NEW_POSIX_TIMEZONE: return "POSIX-timezone"; case DH6OPT_NEW_TZDB_TIMEZONE: return "POSIX-tz-database"; case DH6OPT_ERO: return "Echo-request-option"; case DH6OPT_LQ_QUERY: return "Lease-query"; case DH6OPT_CLIENT_DATA: return "LQ-client-data"; case DH6OPT_CLT_TIME: return "Clt-time"; case DH6OPT_LQ_RELAY_DATA: return "LQ-relay-data"; case DH6OPT_LQ_CLIENT_LINK: return "LQ-client-link"; case DH6OPT_NTP_SERVER: return "NTP-server"; case DH6OPT_AFTR_NAME: return "AFTR-Name"; default: snprintf(genstr, sizeof(genstr), "opt_%d", type); return(genstr); } } static const char * dhcp6stcode(int code) { static char genstr[sizeof("code255") + 1]; /* XXX thread unsafe */ if (code > 255) return "INVALID code"; switch(code) { case DH6OPT_STCODE_SUCCESS: return "success"; case DH6OPT_STCODE_UNSPECFAIL: return "unspec failure"; case DH6OPT_STCODE_NOADDRAVAIL: return "no addresses"; case DH6OPT_STCODE_NOBINDING: return "no binding"; case DH6OPT_STCODE_NOTONLINK: return "not on-link"; case DH6OPT_STCODE_USEMULTICAST: return "use multicast"; case DH6OPT_STCODE_NOPREFIXAVAIL: return "no prefixes"; case DH6OPT_STCODE_UNKNOWNQUERYTYPE: return "unknown query type"; case DH6OPT_STCODE_MALFORMEDQUERY: return "malformed query"; case DH6OPT_STCODE_NOTCONFIGURED: return "not configured"; case DH6OPT_STCODE_NOTALLOWED: return "not allowed"; default: snprintf(genstr, sizeof(genstr), "code%d", code); return(genstr); } } static void dhcp6opt_print(const u_char *cp, const u_char *ep) { const struct dhcp6opt *dh6o; const u_char *tp; size_t i; u_int16_t opttype; size_t optlen; u_int8_t auth_proto; u_int authinfolen, authrealmlen; int remain_len; /* Length of remaining options */ int label_len; /* Label length */ u_int16_t subopt_code; u_int16_t subopt_len; if (cp == ep) return; while (cp < ep) { if (ep < cp + sizeof(*dh6o)) goto trunc; dh6o = (struct dhcp6opt *)cp; TCHECK(*dh6o); optlen = EXTRACT_16BITS(&dh6o->dh6opt_len); if (ep < cp + sizeof(*dh6o) + optlen) goto trunc; opttype = EXTRACT_16BITS(&dh6o->dh6opt_type); printf(" (%s", dhcp6opt_name(opttype)); switch (opttype) { case DH6OPT_CLIENTID: case DH6OPT_SERVERID: if (optlen < 2) { /*(*/ printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); switch (EXTRACT_16BITS(tp)) { case 1: if (optlen >= 2 + 6) { printf(" hwaddr/time type %u time %u ", EXTRACT_16BITS(&tp[2]), EXTRACT_32BITS(&tp[4])); for (i = 8; i < optlen; i++) printf("%02x", tp[i]); /*(*/ printf(")"); } else { /*(*/ printf(" ?)"); } break; case 2: if (optlen >= 2 + 8) { printf(" vid "); for (i = 2; i < 2 + 8; i++) printf("%02x", tp[i]); /*(*/ printf(")"); } else { /*(*/ printf(" ?)"); } break; case 3: if (optlen >= 2 + 2) { printf(" hwaddr type %u ", EXTRACT_16BITS(&tp[2])); for (i = 4; i < optlen; i++) printf("%02x", tp[i]); /*(*/ printf(")"); } else { /*(*/ printf(" ?)"); } break; default: printf(" type %d)", EXTRACT_16BITS(tp)); break; } break; case DH6OPT_IA_ADDR: if (optlen < 24) { /*(*/ printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %s", ip6addr_string(&tp[0])); printf(" pltime:%u vltime:%u", EXTRACT_32BITS(&tp[16]), EXTRACT_32BITS(&tp[20])); if (optlen > 24) { /* there are sub-options */ dhcp6opt_print(tp + 24, tp + optlen); } printf(")"); break; case DH6OPT_ORO: case DH6OPT_ERO: if (optlen % 2) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); for (i = 0; i < optlen; i += 2) { printf(" %s", dhcp6opt_name(EXTRACT_16BITS(&tp[i]))); } printf(")"); break; case DH6OPT_PREFERENCE: if (optlen != 1) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %d)", *tp); break; case DH6OPT_ELAPSED_TIME: if (optlen != 2) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %d)", EXTRACT_16BITS(tp)); break; case DH6OPT_RELAY_MSG: printf(" ("); tp = (u_char *)(dh6o + 1); dhcp6_print(tp, optlen); printf(")"); break; case DH6OPT_AUTH: if (optlen < 11) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); auth_proto = *tp; switch (auth_proto) { case DH6OPT_AUTHPROTO_DELAYED: printf(" proto: delayed"); break; case DH6OPT_AUTHPROTO_RECONFIG: printf(" proto: reconfigure"); break; default: printf(" proto: %d", auth_proto); break; } tp++; switch (*tp) { case DH6OPT_AUTHALG_HMACMD5: /* XXX: may depend on the protocol */ printf(", alg: HMAC-MD5"); break; default: printf(", alg: %d", *tp); break; } tp++; switch (*tp) { case DH6OPT_AUTHRDM_MONOCOUNTER: printf(", RDM: mono"); break; default: printf(", RDM: %d", *tp); break; } tp++; printf(", RD:"); for (i = 0; i < 4; i++, tp += 2) printf(" %04x", EXTRACT_16BITS(tp)); /* protocol dependent part */ authinfolen = optlen - 11; switch (auth_proto) { case DH6OPT_AUTHPROTO_DELAYED: if (authinfolen == 0) break; if (authinfolen < 20) { printf(" ??"); break; } authrealmlen = authinfolen - 20; if (authrealmlen > 0) { printf(", realm: "); } for (i = 0; i < authrealmlen; i++, tp++) printf("%02x", *tp); printf(", key ID: %08x", EXTRACT_32BITS(tp)); tp += 4; printf(", HMAC-MD5:"); for (i = 0; i < 4; i++, tp+= 4) printf(" %08x", EXTRACT_32BITS(tp)); break; case DH6OPT_AUTHPROTO_RECONFIG: if (authinfolen != 17) { printf(" ??"); break; } switch (*tp++) { case DH6OPT_AUTHRECONFIG_KEY: printf(" reconfig-key"); break; case DH6OPT_AUTHRECONFIG_HMACMD5: printf(" type: HMAC-MD5"); break; default: printf(" type: ??"); break; } printf(" value:"); for (i = 0; i < 4; i++, tp+= 4) printf(" %08x", EXTRACT_32BITS(tp)); break; default: printf(" ??"); break; } printf(")"); break; case DH6OPT_RAPID_COMMIT: /* nothing todo */ printf(")"); break; case DH6OPT_INTERFACE_ID: case DH6OPT_SUBSCRIBER_ID: /* * Since we cannot predict the encoding, print hex dump * at most 10 characters. */ tp = (u_char *)(dh6o + 1); printf(" "); for (i = 0; i < optlen && i < 10; i++) printf("%02x", tp[i]); printf("...)"); break; case DH6OPT_RECONF_MSG: tp = (u_char *)(dh6o + 1); switch (*tp) { case DH6_RENEW: printf(" for renew)"); break; case DH6_INFORM_REQ: printf(" for inf-req)"); break; default: printf(" for ?\?\?(%02x))", *tp); break; } break; case DH6OPT_RECONF_ACCEPT: /* nothing todo */ printf(")"); break; case DH6OPT_SIP_SERVER_A: case DH6OPT_DNS_SERVERS: case DH6OPT_SNTP_SERVERS: case DH6OPT_NIS_SERVERS: case DH6OPT_NISP_SERVERS: case DH6OPT_BCMCS_SERVER_A: case DH6OPT_PANA_AGENT: case DH6OPT_LQ_CLIENT_LINK: if (optlen % 16) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); for (i = 0; i < optlen; i += 16) printf(" %s", ip6addr_string(&tp[i])); printf(")"); break; case DH6OPT_SIP_SERVER_D: case DH6OPT_DOMAIN_LIST: tp = (u_char *)(dh6o + 1); while (tp < cp + sizeof(*dh6o) + optlen) { putchar(' '); if ((tp = ns_nprint(tp, cp + sizeof(*dh6o) + optlen)) == NULL) goto trunc; } printf(")"); break; case DH6OPT_STATUS_CODE: if (optlen < 2) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %s)", dhcp6stcode(EXTRACT_16BITS(&tp[0]))); break; case DH6OPT_IA_NA: case DH6OPT_IA_PD: if (optlen < 12) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" IAID:%u T1:%u T2:%u", EXTRACT_32BITS(&tp[0]), EXTRACT_32BITS(&tp[4]), EXTRACT_32BITS(&tp[8])); if (optlen > 12) { /* there are sub-options */ dhcp6opt_print(tp + 12, tp + optlen); } printf(")"); break; case DH6OPT_IA_TA: if (optlen < 4) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" IAID:%u", EXTRACT_32BITS(tp)); if (optlen > 4) { /* there are sub-options */ dhcp6opt_print(tp + 4, tp + optlen); } printf(")"); break; case DH6OPT_IA_PD_PREFIX: if (optlen < 25) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %s/%d", ip6addr_string(&tp[9]), tp[8]); printf(" pltime:%u vltime:%u", EXTRACT_32BITS(&tp[0]), EXTRACT_32BITS(&tp[4])); if (optlen > 25) { /* there are sub-options */ dhcp6opt_print(tp + 25, tp + optlen); } printf(")"); break; case DH6OPT_LIFETIME: case DH6OPT_CLT_TIME: if (optlen != 4) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %d)", EXTRACT_32BITS(tp)); break; case DH6OPT_REMOTE_ID: if (optlen < 4) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %d ", EXTRACT_32BITS(tp)); /* * Print hex dump first 10 characters. */ for (i = 4; i < optlen && i < 14; i++) printf("%02x", tp[i]); printf("...)"); break; case DH6OPT_LQ_QUERY: if (optlen < 17) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); switch (*tp) { case 1: printf(" by-address"); break; case 2: printf(" by-clientID"); break; default: printf(" type_%d", (int)*tp); break; } printf(" %s", ip6addr_string(&tp[1])); if (optlen > 17) { /* there are query-options */ dhcp6opt_print(tp + 17, tp + optlen); } printf(")"); break; case DH6OPT_CLIENT_DATA: tp = (u_char *)(dh6o + 1); if (optlen > 0) { /* there are encapsulated options */ dhcp6opt_print(tp, tp + optlen); } printf(")"); break; case DH6OPT_LQ_RELAY_DATA: if (optlen < 16) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); printf(" %s ", ip6addr_string(&tp[0])); /* * Print hex dump first 10 characters. */ for (i = 16; i < optlen && i < 26; i++) printf("%02x", tp[i]); printf("...)"); break; case DH6OPT_NTP_SERVER: if (optlen < 4) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); while (tp < cp + sizeof(*dh6o) + optlen - 4) { subopt_code = EXTRACT_16BITS(tp); tp += 2; subopt_len = EXTRACT_16BITS(tp); tp += 2; if (tp + subopt_len > cp + sizeof(*dh6o) + optlen) goto trunc; printf(" subopt:%d", subopt_code); switch (subopt_code) { case DH6OPT_NTP_SUBOPTION_SRV_ADDR: case DH6OPT_NTP_SUBOPTION_MC_ADDR: if (subopt_len != 16) { printf(" ?"); break; } printf(" %s", ip6addr_string(&tp[0])); break; case DH6OPT_NTP_SUBOPTION_SRV_FQDN: putchar(' '); if (ns_nprint(tp, tp + subopt_len) == NULL) goto trunc; break; default: printf(" ?"); break; } tp += subopt_len; } printf(")"); break; case DH6OPT_AFTR_NAME: if (optlen < 3) { printf(" ?)"); break; } tp = (u_char *)(dh6o + 1); remain_len = optlen; printf(" "); /* Encoding is described in section 3.1 of RFC 1035 */ while (remain_len && *tp) { label_len = *tp++; if (label_len < remain_len - 1) { printf("%.*s", label_len, tp); tp += label_len; remain_len -= (label_len + 1); if(*tp) printf("."); } else { printf(" ?"); break; } } printf(")"); break; default: printf(")"); break; } cp += sizeof(*dh6o) + optlen; } return; trunc: printf("[|dhcp6ext]"); } /* * Print dhcp6 packets */ void dhcp6_print(const u_char *cp, u_int length) { struct dhcp6 *dh6; struct dhcp6_relay *dh6relay; const u_char *ep; u_char *extp; const char *name; printf("dhcp6"); ep = (u_char *)snapend; if (cp + length < ep) ep = cp + length; dh6 = (struct dhcp6 *)cp; dh6relay = (struct dhcp6_relay *)cp; TCHECK(dh6->dh6_xid); switch (dh6->dh6_msgtype) { case DH6_SOLICIT: name = "solicit"; break; case DH6_ADVERTISE: name = "advertise"; break; case DH6_REQUEST: name = "request"; break; case DH6_CONFIRM: name = "confirm"; break; case DH6_RENEW: name = "renew"; break; case DH6_REBIND: name = "rebind"; break; case DH6_REPLY: name = "reply"; break; case DH6_RELEASE: name = "release"; break; case DH6_DECLINE: name = "decline"; break; case DH6_RECONFIGURE: name = "reconfigure"; break; case DH6_INFORM_REQ: name= "inf-req"; break; case DH6_RELAY_FORW: name= "relay-fwd"; break; case DH6_RELAY_REPLY: name= "relay-reply"; break; case DH6_LEASEQUERY: name= "leasequery"; break; case DH6_LQ_REPLY: name= "leasequery-reply"; break; default: name = NULL; break; } if (!vflag) { if (name) printf(" %s", name); else if (dh6->dh6_msgtype != DH6_RELAY_FORW && dh6->dh6_msgtype != DH6_RELAY_REPLY) { printf(" msgtype-%u", dh6->dh6_msgtype); } return; } /* XXX relay agent messages have to be handled differently */ if (name) printf(" %s (", name); /*)*/ else printf(" msgtype-%u (", dh6->dh6_msgtype); /*)*/ if (dh6->dh6_msgtype != DH6_RELAY_FORW && dh6->dh6_msgtype != DH6_RELAY_REPLY) { printf("xid=%x", EXTRACT_32BITS(&dh6->dh6_xid) & DH6_XIDMASK); extp = (u_char *)(dh6 + 1); dhcp6opt_print(extp, ep); } else { /* relay messages */ struct in6_addr addr6; TCHECK(dh6relay->dh6relay_peeraddr); memcpy(&addr6, dh6relay->dh6relay_linkaddr, sizeof (addr6)); printf("linkaddr=%s", ip6addr_string(&addr6)); memcpy(&addr6, dh6relay->dh6relay_peeraddr, sizeof (addr6)); printf(" peeraddr=%s", ip6addr_string(&addr6)); dhcp6opt_print((u_char *)(dh6relay + 1), ep); } /*(*/ printf(")"); return; trunc: printf("[|dhcp6]"); }