/* * Copyright (c) 2003 Bruce M. Simpson * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Bruce M. Simpson. * 4. Neither the name of Bruce M. Simpson nor the names of co- * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY Bruce M. Simpson 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 Bruce M. Simpson 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. */ /* \summary: Ad hoc On-Demand Distance Vector (AODV) Routing printer */ #ifdef HAVE_CONFIG_H #include #endif #include "netdissect-stdinc.h" #include "netdissect.h" #include "addrtoname.h" #include "extract.h" /* * RFC 3561 */ struct aodv_rreq { nd_uint8_t rreq_type; /* AODV message type (1) */ nd_uint8_t rreq_flags; /* various flags */ nd_uint8_t rreq_zero0; /* reserved, set to zero */ nd_uint8_t rreq_hops; /* number of hops from originator */ nd_uint32_t rreq_id; /* request ID */ nd_ipv4 rreq_da; /* destination IPv4 address */ nd_uint32_t rreq_ds; /* destination sequence number */ nd_ipv4 rreq_oa; /* originator IPv4 address */ nd_uint32_t rreq_os; /* originator sequence number */ }; struct aodv_rreq6 { nd_uint8_t rreq_type; /* AODV message type (1) */ nd_uint8_t rreq_flags; /* various flags */ nd_uint8_t rreq_zero0; /* reserved, set to zero */ nd_uint8_t rreq_hops; /* number of hops from originator */ nd_uint32_t rreq_id; /* request ID */ nd_ipv6 rreq_da; /* destination IPv6 address */ nd_uint32_t rreq_ds; /* destination sequence number */ nd_ipv6 rreq_oa; /* originator IPv6 address */ nd_uint32_t rreq_os; /* originator sequence number */ }; struct aodv_rreq6_draft_01 { nd_uint8_t rreq_type; /* AODV message type (16) */ nd_uint8_t rreq_flags; /* various flags */ nd_uint8_t rreq_zero0; /* reserved, set to zero */ nd_uint8_t rreq_hops; /* number of hops from originator */ nd_uint32_t rreq_id; /* request ID */ nd_uint32_t rreq_ds; /* destination sequence number */ nd_uint32_t rreq_os; /* originator sequence number */ nd_ipv6 rreq_da; /* destination IPv6 address */ nd_ipv6 rreq_oa; /* originator IPv6 address */ }; #define RREQ_JOIN 0x80 /* join (reserved for multicast */ #define RREQ_REPAIR 0x40 /* repair (reserved for multicast */ #define RREQ_GRAT 0x20 /* gratuitous RREP */ #define RREQ_DEST 0x10 /* destination only */ #define RREQ_UNKNOWN 0x08 /* unknown destination sequence num */ #define RREQ_FLAGS_MASK 0xF8 /* mask for rreq_flags */ struct aodv_rrep { nd_uint8_t rrep_type; /* AODV message type (2) */ nd_uint8_t rrep_flags; /* various flags */ nd_uint8_t rrep_ps; /* prefix size */ nd_uint8_t rrep_hops; /* number of hops from o to d */ nd_ipv4 rrep_da; /* destination IPv4 address */ nd_uint32_t rrep_ds; /* destination sequence number */ nd_ipv4 rrep_oa; /* originator IPv4 address */ nd_uint32_t rrep_life; /* lifetime of this route */ }; struct aodv_rrep6 { nd_uint8_t rrep_type; /* AODV message type (2) */ nd_uint8_t rrep_flags; /* various flags */ nd_uint8_t rrep_ps; /* prefix size */ nd_uint8_t rrep_hops; /* number of hops from o to d */ nd_ipv6 rrep_da; /* destination IPv6 address */ nd_uint32_t rrep_ds; /* destination sequence number */ nd_ipv6 rrep_oa; /* originator IPv6 address */ nd_uint32_t rrep_life; /* lifetime of this route */ }; struct aodv_rrep6_draft_01 { nd_uint8_t rrep_type; /* AODV message type (17) */ nd_uint8_t rrep_flags; /* various flags */ nd_uint8_t rrep_ps; /* prefix size */ nd_uint8_t rrep_hops; /* number of hops from o to d */ nd_uint32_t rrep_ds; /* destination sequence number */ nd_ipv6 rrep_da; /* destination IPv6 address */ nd_ipv6 rrep_oa; /* originator IPv6 address */ nd_uint32_t rrep_life; /* lifetime of this route */ }; #define RREP_REPAIR 0x80 /* repair (reserved for multicast */ #define RREP_ACK 0x40 /* acknowledgement required */ #define RREP_FLAGS_MASK 0xC0 /* mask for rrep_flags */ #define RREP_PREFIX_MASK 0x1F /* mask for prefix size */ struct rerr_unreach { nd_ipv4 u_da; /* IPv4 address */ nd_uint32_t u_ds; /* sequence number */ }; struct rerr_unreach6 { nd_ipv6 u_da; /* IPv6 address */ nd_uint32_t u_ds; /* sequence number */ }; struct rerr_unreach6_draft_01 { nd_ipv6 u_da; /* IPv6 address */ nd_uint32_t u_ds; /* sequence number */ }; struct aodv_rerr { nd_uint8_t rerr_type; /* AODV message type (3 or 18) */ nd_uint8_t rerr_flags; /* various flags */ nd_uint8_t rerr_zero0; /* reserved, set to zero */ nd_uint8_t rerr_dc; /* destination count */ }; #define RERR_NODELETE 0x80 /* don't delete the link */ #define RERR_FLAGS_MASK 0x80 /* mask for rerr_flags */ struct aodv_rrep_ack { nd_uint8_t ra_type; nd_uint8_t ra_zero0; }; #define AODV_RREQ 1 /* route request */ #define AODV_RREP 2 /* route response */ #define AODV_RERR 3 /* error report */ #define AODV_RREP_ACK 4 /* route response acknowledgement */ #define AODV_V6_DRAFT_01_RREQ 16 /* IPv6 route request */ #define AODV_V6_DRAFT_01_RREP 17 /* IPv6 route response */ #define AODV_V6_DRAFT_01_RERR 18 /* IPv6 error report */ #define AODV_V6_DRAFT_01_RREP_ACK 19 /* IPV6 route response acknowledgment */ struct aodv_ext { nd_uint8_t type; /* extension type */ nd_uint8_t length; /* extension length */ }; struct aodv_hello { struct aodv_ext eh; /* extension header */ nd_uint32_t interval; /* expect my next hello in * (n) ms * NOTE: this is not aligned */ }; #define AODV_EXT_HELLO 1 static void aodv_extension(netdissect_options *ndo, const struct aodv_ext *ep, u_int length) { const struct aodv_hello *ah; ND_TCHECK_SIZE(ep); switch (GET_U_1(ep->type)) { case AODV_EXT_HELLO: ah = (const struct aodv_hello *)(const void *)ep; ND_TCHECK_SIZE(ah); if (length < sizeof(struct aodv_hello)) goto trunc; if (GET_U_1(ep->length) < 4) { ND_PRINT("\n\text HELLO - bad length %u", GET_U_1(ep->length)); break; } ND_PRINT("\n\text HELLO %u ms", GET_BE_U_4(ah->interval)); break; default: ND_PRINT("\n\text %u %u", GET_U_1(ep->type), GET_U_1(ep->length)); break; } return; trunc: nd_print_trunc(ndo); } static void aodv_rreq(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i; const struct aodv_rreq *ap = (const struct aodv_rreq *)dat; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rreq %u %s%s%s%s%shops %u id 0x%08x\n" "\tdst %s seq %u src %s seq %u", length, GET_U_1(ap->rreq_type) & RREQ_JOIN ? "[J]" : "", GET_U_1(ap->rreq_type) & RREQ_REPAIR ? "[R]" : "", GET_U_1(ap->rreq_type) & RREQ_GRAT ? "[G]" : "", GET_U_1(ap->rreq_type) & RREQ_DEST ? "[D]" : "", GET_U_1(ap->rreq_type) & RREQ_UNKNOWN ? "[U] " : " ", GET_U_1(ap->rreq_hops), GET_BE_U_4(ap->rreq_id), GET_IPADDR_STRING(ap->rreq_da), GET_BE_U_4(ap->rreq_ds), GET_IPADDR_STRING(ap->rreq_oa), GET_BE_U_4(ap->rreq_os)); i = length - sizeof(*ap); if (i >= sizeof(struct aodv_ext)) aodv_extension(ndo, (const struct aodv_ext *)(dat + sizeof(*ap)), i); return; trunc: nd_print_trunc(ndo); } static void aodv_rrep(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i; const struct aodv_rrep *ap = (const struct aodv_rrep *)dat; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rrep %u %s%sprefix %u hops %u\n" "\tdst %s dseq %u src %s %u ms", length, GET_U_1(ap->rrep_type) & RREP_REPAIR ? "[R]" : "", GET_U_1(ap->rrep_type) & RREP_ACK ? "[A] " : " ", GET_U_1(ap->rrep_ps) & RREP_PREFIX_MASK, GET_U_1(ap->rrep_hops), GET_IPADDR_STRING(ap->rrep_da), GET_BE_U_4(ap->rrep_ds), GET_IPADDR_STRING(ap->rrep_oa), GET_BE_U_4(ap->rrep_life)); i = length - sizeof(*ap); if (i >= sizeof(struct aodv_ext)) aodv_extension(ndo, (const struct aodv_ext *)(dat + sizeof(*ap)), i); return; trunc: nd_print_trunc(ndo); } static void aodv_rerr(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i, dc; const struct aodv_rerr *ap = (const struct aodv_rerr *)dat; const struct rerr_unreach *dp; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rerr %s [items %u] [%u]:", GET_U_1(ap->rerr_flags) & RERR_NODELETE ? "[D]" : "", GET_U_1(ap->rerr_dc), length); dp = (const struct rerr_unreach *)(dat + sizeof(*ap)); i = length - sizeof(*ap); for (dc = GET_U_1(ap->rerr_dc); dc != 0; dc--) { ND_TCHECK_SIZE(dp); if (i < sizeof(*dp)) goto trunc; ND_PRINT(" {%s}(%u)", GET_IPADDR_STRING(dp->u_da), GET_BE_U_4(dp->u_ds)); dp++; i -= sizeof(*dp); } return; trunc: nd_print_trunc(ndo); } static void aodv_v6_rreq(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i; const struct aodv_rreq6 *ap = (const struct aodv_rreq6 *)dat; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" v6 rreq %u %s%s%s%s%shops %u id 0x%08x\n" "\tdst %s seq %u src %s seq %u", length, GET_U_1(ap->rreq_type) & RREQ_JOIN ? "[J]" : "", GET_U_1(ap->rreq_type) & RREQ_REPAIR ? "[R]" : "", GET_U_1(ap->rreq_type) & RREQ_GRAT ? "[G]" : "", GET_U_1(ap->rreq_type) & RREQ_DEST ? "[D]" : "", GET_U_1(ap->rreq_type) & RREQ_UNKNOWN ? "[U] " : " ", GET_U_1(ap->rreq_hops), GET_BE_U_4(ap->rreq_id), GET_IP6ADDR_STRING(ap->rreq_da), GET_BE_U_4(ap->rreq_ds), GET_IP6ADDR_STRING(ap->rreq_oa), GET_BE_U_4(ap->rreq_os)); i = length - sizeof(*ap); if (i >= sizeof(struct aodv_ext)) aodv_extension(ndo, (const struct aodv_ext *)(dat + sizeof(*ap)), i); return; trunc: nd_print_trunc(ndo); } static void aodv_v6_rrep(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i; const struct aodv_rrep6 *ap = (const struct aodv_rrep6 *)dat; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rrep %u %s%sprefix %u hops %u\n" "\tdst %s dseq %u src %s %u ms", length, GET_U_1(ap->rrep_type) & RREP_REPAIR ? "[R]" : "", GET_U_1(ap->rrep_type) & RREP_ACK ? "[A] " : " ", GET_U_1(ap->rrep_ps) & RREP_PREFIX_MASK, GET_U_1(ap->rrep_hops), GET_IP6ADDR_STRING(ap->rrep_da), GET_BE_U_4(ap->rrep_ds), GET_IP6ADDR_STRING(ap->rrep_oa), GET_BE_U_4(ap->rrep_life)); i = length - sizeof(*ap); if (i >= sizeof(struct aodv_ext)) aodv_extension(ndo, (const struct aodv_ext *)(dat + sizeof(*ap)), i); return; trunc: nd_print_trunc(ndo); } static void aodv_v6_rerr(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i, dc; const struct aodv_rerr *ap = (const struct aodv_rerr *)dat; const struct rerr_unreach6 *dp6; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rerr %s [items %u] [%u]:", GET_U_1(ap->rerr_flags) & RERR_NODELETE ? "[D]" : "", GET_U_1(ap->rerr_dc), length); dp6 = (const struct rerr_unreach6 *)(const void *)(ap + 1); i = length - sizeof(*ap); for (dc = GET_U_1(ap->rerr_dc); dc != 0; dc--) { ND_TCHECK_SIZE(dp6); if (i < sizeof(*dp6)) goto trunc; ND_PRINT(" {%s}(%u)", GET_IP6ADDR_STRING(dp6->u_da), GET_BE_U_4(dp6->u_ds)); dp6++; i -= sizeof(*dp6); } return; trunc: nd_print_trunc(ndo); } static void aodv_v6_draft_01_rreq(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i; const struct aodv_rreq6_draft_01 *ap = (const struct aodv_rreq6_draft_01 *)dat; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rreq %u %s%s%s%s%shops %u id 0x%08x\n" "\tdst %s seq %u src %s seq %u", length, GET_U_1(ap->rreq_type) & RREQ_JOIN ? "[J]" : "", GET_U_1(ap->rreq_type) & RREQ_REPAIR ? "[R]" : "", GET_U_1(ap->rreq_type) & RREQ_GRAT ? "[G]" : "", GET_U_1(ap->rreq_type) & RREQ_DEST ? "[D]" : "", GET_U_1(ap->rreq_type) & RREQ_UNKNOWN ? "[U] " : " ", GET_U_1(ap->rreq_hops), GET_BE_U_4(ap->rreq_id), GET_IP6ADDR_STRING(ap->rreq_da), GET_BE_U_4(ap->rreq_ds), GET_IP6ADDR_STRING(ap->rreq_oa), GET_BE_U_4(ap->rreq_os)); i = length - sizeof(*ap); if (i >= sizeof(struct aodv_ext)) aodv_extension(ndo, (const struct aodv_ext *)(dat + sizeof(*ap)), i); return; trunc: nd_print_trunc(ndo); } static void aodv_v6_draft_01_rrep(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i; const struct aodv_rrep6_draft_01 *ap = (const struct aodv_rrep6_draft_01 *)dat; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rrep %u %s%sprefix %u hops %u\n" "\tdst %s dseq %u src %s %u ms", length, GET_U_1(ap->rrep_type) & RREP_REPAIR ? "[R]" : "", GET_U_1(ap->rrep_type) & RREP_ACK ? "[A] " : " ", GET_U_1(ap->rrep_ps) & RREP_PREFIX_MASK, GET_U_1(ap->rrep_hops), GET_IP6ADDR_STRING(ap->rrep_da), GET_BE_U_4(ap->rrep_ds), GET_IP6ADDR_STRING(ap->rrep_oa), GET_BE_U_4(ap->rrep_life)); i = length - sizeof(*ap); if (i >= sizeof(struct aodv_ext)) aodv_extension(ndo, (const struct aodv_ext *)(dat + sizeof(*ap)), i); return; trunc: nd_print_trunc(ndo); } static void aodv_v6_draft_01_rerr(netdissect_options *ndo, const u_char *dat, u_int length) { u_int i, dc; const struct aodv_rerr *ap = (const struct aodv_rerr *)dat; const struct rerr_unreach6_draft_01 *dp6; ND_TCHECK_SIZE(ap); if (length < sizeof(*ap)) goto trunc; ND_PRINT(" rerr %s [items %u] [%u]:", GET_U_1(ap->rerr_flags) & RERR_NODELETE ? "[D]" : "", GET_U_1(ap->rerr_dc), length); dp6 = (const struct rerr_unreach6_draft_01 *)(const void *)(ap + 1); i = length - sizeof(*ap); for (dc = GET_U_1(ap->rerr_dc); dc != 0; dc--) { ND_TCHECK_SIZE(dp6); if (i < sizeof(*dp6)) goto trunc; ND_PRINT(" {%s}(%u)", GET_IP6ADDR_STRING(dp6->u_da), GET_BE_U_4(dp6->u_ds)); dp6++; i -= sizeof(*dp6); } return; trunc: nd_print_trunc(ndo); } void aodv_print(netdissect_options *ndo, const u_char *dat, u_int length, int is_ip6) { uint8_t msg_type; ndo->ndo_protocol = "aodv"; /* * The message type is the first byte; make sure we have it * and then fetch it. */ msg_type = GET_U_1(dat); ND_PRINT(" aodv"); switch (msg_type) { case AODV_RREQ: if (is_ip6) aodv_v6_rreq(ndo, dat, length); else aodv_rreq(ndo, dat, length); break; case AODV_RREP: if (is_ip6) aodv_v6_rrep(ndo, dat, length); else aodv_rrep(ndo, dat, length); break; case AODV_RERR: if (is_ip6) aodv_v6_rerr(ndo, dat, length); else aodv_rerr(ndo, dat, length); break; case AODV_RREP_ACK: ND_PRINT(" rrep-ack %u", length); break; case AODV_V6_DRAFT_01_RREQ: aodv_v6_draft_01_rreq(ndo, dat, length); break; case AODV_V6_DRAFT_01_RREP: aodv_v6_draft_01_rrep(ndo, dat, length); break; case AODV_V6_DRAFT_01_RERR: aodv_v6_draft_01_rerr(ndo, dat, length); break; case AODV_V6_DRAFT_01_RREP_ACK: ND_PRINT(" rrep-ack %u", length); break; default: ND_PRINT(" type %u %u", msg_type, length); } }