/* * Copyright (c) 1991, 1992, 1993, 1994, 1995, 1996 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by the University of California, Lawrence Berkeley Laboratory, * Berkeley, CA. The name of the University may not 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. * * Initial contribution from Jeff Honig (jch@MITCHELL.CIT.CORNELL.EDU). */ /* \summary: Exterior Gateway Protocol (EGP) printer */ /* specification: RFC 827 */ #ifdef HAVE_CONFIG_H #include #endif #include #include "netdissect-stdinc.h" #include "netdissect.h" #include "addrtoname.h" #include "extract.h" struct egp_packet { nd_uint8_t egp_version; #define EGP_VERSION 2 nd_uint8_t egp_type; #define EGPT_ACQUIRE 3 #define EGPT_REACH 5 #define EGPT_POLL 2 #define EGPT_UPDATE 1 #define EGPT_ERROR 8 nd_uint8_t egp_code; #define EGPC_REQUEST 0 #define EGPC_CONFIRM 1 #define EGPC_REFUSE 2 #define EGPC_CEASE 3 #define EGPC_CEASEACK 4 #define EGPC_HELLO 0 #define EGPC_HEARDU 1 nd_uint8_t egp_status; #define EGPS_UNSPEC 0 #define EGPS_ACTIVE 1 #define EGPS_PASSIVE 2 #define EGPS_NORES 3 #define EGPS_ADMIN 4 #define EGPS_GODOWN 5 #define EGPS_PARAM 6 #define EGPS_PROTO 7 #define EGPS_INDET 0 #define EGPS_UP 1 #define EGPS_DOWN 2 #define EGPS_UNSOL 0x80 nd_uint16_t egp_checksum; nd_uint16_t egp_as; nd_uint16_t egp_sequence; union { nd_uint16_t egpu_hello; nd_uint8_t egpu_gws[2]; nd_uint16_t egpu_reason; #define EGPR_UNSPEC 0 #define EGPR_BADHEAD 1 #define EGPR_BADDATA 2 #define EGPR_NOREACH 3 #define EGPR_XSPOLL 4 #define EGPR_NORESP 5 #define EGPR_UVERSION 6 } egp_handg; #define egp_hello egp_handg.egpu_hello #define egp_intgw egp_handg.egpu_gws[0] #define egp_extgw egp_handg.egpu_gws[1] #define egp_reason egp_handg.egpu_reason union { nd_uint16_t egpu_poll; nd_ipv4 egpu_sourcenet; } egp_pands; #define egp_poll egp_pands.egpu_poll #define egp_sourcenet egp_pands.egpu_sourcenet }; static const char *egp_acquire_codes[] = { "request", "confirm", "refuse", "cease", "cease_ack" }; static const char *egp_acquire_status[] = { "unspecified", "active_mode", "passive_mode", "insufficient_resources", "administratively_prohibited", "going_down", "parameter_violation", "protocol_violation" }; static const char *egp_reach_codes[] = { "hello", "i-h-u" }; static const char *egp_status_updown[] = { "indeterminate", "up", "down" }; static const char *egp_reasons[] = { "unspecified", "bad_EGP_header_format", "bad_EGP_data_field_format", "reachability_info_unavailable", "excessive_polling_rate", "no_response", "unsupported_version" }; static void egpnr_print(netdissect_options *ndo, const struct egp_packet *egp, u_int length) { const uint8_t *cp; uint32_t addr; uint32_t net; u_int netlen; u_int gateways, distances, networks; u_int intgw, extgw, t_gateways; const char *comma; addr = GET_IPV4_TO_NETWORK_ORDER(egp->egp_sourcenet); if (IN_CLASSA(addr)) { net = addr & IN_CLASSA_NET; netlen = 1; } else if (IN_CLASSB(addr)) { net = addr & IN_CLASSB_NET; netlen = 2; } else if (IN_CLASSC(addr)) { net = addr & IN_CLASSC_NET; netlen = 3; } else { net = 0; netlen = 0; } cp = (const uint8_t *)(egp + 1); length -= sizeof(*egp); intgw = GET_U_1(egp->egp_intgw); extgw = GET_U_1(egp->egp_extgw); t_gateways = intgw + extgw; for (gateways = 0; gateways < t_gateways; ++gateways) { /* Pickup host part of gateway address */ addr = 0; if (length < 4 - netlen) goto trunc; ND_TCHECK_LEN(cp, 4 - netlen); switch (netlen) { case 1: addr = GET_U_1(cp); cp++; /* fall through */ case 2: addr = (addr << 8) | GET_U_1(cp); cp++; /* fall through */ case 3: addr = (addr << 8) | GET_U_1(cp); cp++; break; } addr |= net; length -= 4 - netlen; if (length < 1) goto trunc; distances = GET_U_1(cp); cp++; length--; ND_PRINT(" %s %s ", gateways < intgw ? "int" : "ext", ipaddr_string(ndo, (const u_char *)&addr)); comma = ""; ND_PRINT("("); while (distances != 0) { if (length < 2) goto trunc; ND_PRINT("%sd%u:", comma, GET_U_1(cp)); cp++; comma = ", "; networks = GET_U_1(cp); cp++; length -= 2; while (networks != 0) { /* Pickup network number */ if (length < 1) goto trunc; addr = ((uint32_t) GET_U_1(cp)) << 24; cp++; length--; if (IN_CLASSB(addr)) { if (length < 1) goto trunc; addr |= ((uint32_t) GET_U_1(cp)) << 16; cp++; length--; } else if (!IN_CLASSA(addr)) { if (length < 2) goto trunc; addr |= ((uint32_t) GET_U_1(cp)) << 16; cp++; addr |= ((uint32_t) GET_U_1(cp)) << 8; cp++; length -= 2; } ND_PRINT(" %s", ipaddr_string(ndo, (const u_char *)&addr)); networks--; } distances--; } ND_PRINT(")"); } return; trunc: nd_print_trunc(ndo); } void egp_print(netdissect_options *ndo, const uint8_t *bp, u_int length) { const struct egp_packet *egp; u_int version; u_int type; u_int code; u_int status; ndo->ndo_protocol = "egp"; egp = (const struct egp_packet *)bp; if (length < sizeof(*egp) || !ND_TTEST_SIZE(egp)) { nd_print_trunc(ndo); return; } version = GET_U_1(egp->egp_version); if (!ndo->ndo_vflag) { ND_PRINT("EGPv%u, AS %u, seq %u, length %u", version, GET_BE_U_2(egp->egp_as), GET_BE_U_2(egp->egp_sequence), length); return; } else ND_PRINT("EGPv%u, length %u", version, length); if (version != EGP_VERSION) { ND_PRINT("[version %u]", version); return; } type = GET_U_1(egp->egp_type); code = GET_U_1(egp->egp_code); status = GET_U_1(egp->egp_status); switch (type) { case EGPT_ACQUIRE: ND_PRINT(" acquire"); switch (code) { case EGPC_REQUEST: case EGPC_CONFIRM: ND_PRINT(" %s", egp_acquire_codes[code]); switch (status) { case EGPS_UNSPEC: case EGPS_ACTIVE: case EGPS_PASSIVE: ND_PRINT(" %s", egp_acquire_status[status]); break; default: ND_PRINT(" [status %u]", status); break; } ND_PRINT(" hello:%u poll:%u", GET_BE_U_2(egp->egp_hello), GET_BE_U_2(egp->egp_poll)); break; case EGPC_REFUSE: case EGPC_CEASE: case EGPC_CEASEACK: ND_PRINT(" %s", egp_acquire_codes[code]); switch (status ) { case EGPS_UNSPEC: case EGPS_NORES: case EGPS_ADMIN: case EGPS_GODOWN: case EGPS_PARAM: case EGPS_PROTO: ND_PRINT(" %s", egp_acquire_status[status]); break; default: ND_PRINT("[status %u]", status); break; } break; default: ND_PRINT("[code %u]", code); break; } break; case EGPT_REACH: switch (code) { case EGPC_HELLO: case EGPC_HEARDU: ND_PRINT(" %s", egp_reach_codes[code]); if (status <= EGPS_DOWN) ND_PRINT(" state:%s", egp_status_updown[status]); else ND_PRINT(" [status %u]", status); break; default: ND_PRINT("[reach code %u]", code); break; } break; case EGPT_POLL: ND_PRINT(" poll"); if (status <= EGPS_DOWN) ND_PRINT(" state:%s", egp_status_updown[status]); else ND_PRINT(" [status %u]", status); ND_PRINT(" net:%s", GET_IPADDR_STRING(egp->egp_sourcenet)); break; case EGPT_UPDATE: ND_PRINT(" update"); if (status & EGPS_UNSOL) { status &= ~EGPS_UNSOL; ND_PRINT(" unsolicited"); } if (status <= EGPS_DOWN) ND_PRINT(" state:%s", egp_status_updown[status]); else ND_PRINT(" [status %u]", status); ND_PRINT(" %s int %u ext %u", GET_IPADDR_STRING(egp->egp_sourcenet), GET_U_1(egp->egp_intgw), GET_U_1(egp->egp_extgw)); if (ndo->ndo_vflag) egpnr_print(ndo, egp, length); break; case EGPT_ERROR: ND_PRINT(" error"); if (status <= EGPS_DOWN) ND_PRINT(" state:%s", egp_status_updown[status]); else ND_PRINT(" [status %u]", status); if (GET_BE_U_2(egp->egp_reason) <= EGPR_UVERSION) ND_PRINT(" %s", egp_reasons[GET_BE_U_2(egp->egp_reason)]); else ND_PRINT(" [reason %u]", GET_BE_U_2(egp->egp_reason)); break; default: ND_PRINT("[type %u]", type); break; } }