/* OSPFv2 SNMP support * Copyright (C) 2000 IP Infusion Inc. * * Written by Kunihiro Ishiguro * * This file is part of GNU Zebra. * * GNU Zebra is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2, or (at your option) any * later version. * * GNU Zebra is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNU Zebra; see the file COPYING. If not, write to the Free * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA * 02111-1307, USA. */ #include #ifdef HAVE_SNMP #include #include #include #include "if.h" #include "log.h" #include "prefix.h" #include "table.h" #include "command.h" #include "memory.h" #include "smux.h" #include "ospfd/ospfd.h" #include "ospfd/ospf_interface.h" #include "ospfd/ospf_asbr.h" #include "ospfd/ospf_lsa.h" #include "ospfd/ospf_lsdb.h" #include "ospfd/ospf_abr.h" #include "ospfd/ospf_neighbor.h" #include "ospfd/ospf_nsm.h" #include "ospfd/ospf_flood.h" /* OSPF2-MIB. */ #define OSPF2MIB 1,3,6,1,2,1,14 /* Zebra enterprise OSPF MIB. This variable is used for register OSPF MIB to SNMP agent under SMUX protocol. */ #define OSPFDOID 1,3,6,1,4,1,3317,1,2,5 /* OSPF MIB General Group values. */ #define OSPFROUTERID 1 #define OSPFADMINSTAT 2 #define OSPFVERSIONNUMBER 3 #define OSPFAREABDRRTRSTATUS 4 #define OSPFASBDRRTRSTATUS 5 #define OSPFEXTERNLSACOUNT 6 #define OSPFEXTERNLSACKSUMSUM 7 #define OSPFTOSSUPPORT 8 #define OSPFORIGINATENEWLSAS 9 #define OSPFRXNEWLSAS 10 #define OSPFEXTLSDBLIMIT 11 #define OSPFMULTICASTEXTENSIONS 12 #define OSPFEXITOVERFLOWINTERVAL 13 #define OSPFDEMANDEXTENSIONS 14 /* OSPF MIB ospfAreaTable. */ #define OSPFAREAID 1 #define OSPFAUTHTYPE 2 #define OSPFIMPORTASEXTERN 3 #define OSPFSPFRUNS 4 #define OSPFAREABDRRTRCOUNT 5 #define OSPFASBDRRTRCOUNT 6 #define OSPFAREALSACOUNT 7 #define OSPFAREALSACKSUMSUM 8 #define OSPFAREASUMMARY 9 #define OSPFAREASTATUS 10 /* OSPF MIB ospfStubAreaTable. */ #define OSPFSTUBAREAID 1 #define OSPFSTUBTOS 2 #define OSPFSTUBMETRIC 3 #define OSPFSTUBSTATUS 4 #define OSPFSTUBMETRICTYPE 5 /* OSPF MIB ospfLsdbTable. */ #define OSPFLSDBAREAID 1 #define OSPFLSDBTYPE 2 #define OSPFLSDBLSID 3 #define OSPFLSDBROUTERID 4 #define OSPFLSDBSEQUENCE 5 #define OSPFLSDBAGE 6 #define OSPFLSDBCHECKSUM 7 #define OSPFLSDBADVERTISEMENT 8 /* OSPF MIB ospfAreaRangeTable. */ #define OSPFAREARANGEAREAID 1 #define OSPFAREARANGENET 2 #define OSPFAREARANGEMASK 3 #define OSPFAREARANGESTATUS 4 #define OSPFAREARANGEEFFECT 5 /* OSPF MIB ospfHostTable. */ #define OSPFHOSTIPADDRESS 1 #define OSPFHOSTTOS 2 #define OSPFHOSTMETRIC 3 #define OSPFHOSTSTATUS 4 #define OSPFHOSTAREAID 5 /* OSPF MIB ospfIfTable. */ #define OSPFIFIPADDRESS 1 #define OSPFADDRESSLESSIF 2 #define OSPFIFAREAID 3 #define OSPFIFTYPE 4 #define OSPFIFADMINSTAT 5 #define OSPFIFRTRPRIORITY 6 #define OSPFIFTRANSITDELAY 7 #define OSPFIFRETRANSINTERVAL 8 #define OSPFIFHELLOINTERVAL 9 #define OSPFIFRTRDEADINTERVAL 10 #define OSPFIFPOLLINTERVAL 11 #define OSPFIFSTATE 12 #define OSPFIFDESIGNATEDROUTER 13 #define OSPFIFBACKUPDESIGNATEDROUTER 14 #define OSPFIFEVENTS 15 #define OSPFIFAUTHKEY 16 #define OSPFIFSTATUS 17 #define OSPFIFMULTICASTFORWARDING 18 #define OSPFIFDEMAND 19 #define OSPFIFAUTHTYPE 20 /* OSPF MIB ospfIfMetricTable. */ #define OSPFIFMETRICIPADDRESS 1 #define OSPFIFMETRICADDRESSLESSIF 2 #define OSPFIFMETRICTOS 3 #define OSPFIFMETRICVALUE 4 #define OSPFIFMETRICSTATUS 5 /* OSPF MIB ospfVirtIfTable. */ #define OSPFVIRTIFAREAID 1 #define OSPFVIRTIFNEIGHBOR 2 #define OSPFVIRTIFTRANSITDELAY 3 #define OSPFVIRTIFRETRANSINTERVAL 4 #define OSPFVIRTIFHELLOINTERVAL 5 #define OSPFVIRTIFRTRDEADINTERVAL 6 #define OSPFVIRTIFSTATE 7 #define OSPFVIRTIFEVENTS 8 #define OSPFVIRTIFAUTHKEY 9 #define OSPFVIRTIFSTATUS 10 #define OSPFVIRTIFAUTHTYPE 11 /* OSPF MIB ospfNbrTable. */ #define OSPFNBRIPADDR 1 #define OSPFNBRADDRESSLESSINDEX 2 #define OSPFNBRRTRID 3 #define OSPFNBROPTIONS 4 #define OSPFNBRPRIORITY 5 #define OSPFNBRSTATE 6 #define OSPFNBREVENTS 7 #define OSPFNBRLSRETRANSQLEN 8 #define OSPFNBMANBRSTATUS 9 #define OSPFNBMANBRPERMANENCE 10 #define OSPFNBRHELLOSUPPRESSED 11 /* OSPF MIB ospfVirtNbrTable. */ #define OSPFVIRTNBRAREA 1 #define OSPFVIRTNBRRTRID 2 #define OSPFVIRTNBRIPADDR 3 #define OSPFVIRTNBROPTIONS 4 #define OSPFVIRTNBRSTATE 5 #define OSPFVIRTNBREVENTS 6 #define OSPFVIRTNBRLSRETRANSQLEN 7 #define OSPFVIRTNBRHELLOSUPPRESSED 8 /* OSPF MIB ospfExtLsdbTable. */ #define OSPFEXTLSDBTYPE 1 #define OSPFEXTLSDBLSID 2 #define OSPFEXTLSDBROUTERID 3 #define OSPFEXTLSDBSEQUENCE 4 #define OSPFEXTLSDBAGE 5 #define OSPFEXTLSDBCHECKSUM 6 #define OSPFEXTLSDBADVERTISEMENT 7 /* OSPF MIB ospfAreaAggregateTable. */ #define OSPFAREAAGGREGATEAREAID 1 #define OSPFAREAAGGREGATELSDBTYPE 2 #define OSPFAREAAGGREGATENET 3 #define OSPFAREAAGGREGATEMASK 4 #define OSPFAREAAGGREGATESTATUS 5 #define OSPFAREAAGGREGATEEFFECT 6 /* SYNTAX Status from OSPF-MIB. */ #define OSPF_STATUS_ENABLED 1 #define OSPF_STATUS_DISABLED 2 /* SNMP value hack. */ #define COUNTER ASN_COUNTER #define INTEGER ASN_INTEGER #define GAUGE ASN_GAUGE #define TIMETICKS ASN_TIMETICKS #define IPADDRESS ASN_IPADDRESS #define STRING ASN_OCTET_STR /* Declare static local variables for convenience. */ SNMP_LOCAL_VARIABLES /* OSPF-MIB instances. */ oid ospf_oid [] = { OSPF2MIB }; oid ospfd_oid [] = { OSPFDOID }; /* IP address 0.0.0.0. */ static struct in_addr ospf_empty_addr = {0}; /* Hook functions. */ static u_char *ospfGeneralGroup (); static u_char *ospfAreaEntry (); static u_char *ospfStubAreaEntry (); static u_char *ospfLsdbEntry (); static u_char *ospfAreaRangeEntry (); static u_char *ospfHostEntry (); static u_char *ospfIfEntry (); static u_char *ospfIfMetricEntry (); static u_char *ospfVirtIfEntry (); static u_char *ospfNbrEntry (); static u_char *ospfVirtNbrEntry (); static u_char *ospfExtLsdbEntry (); static u_char *ospfAreaAggregateEntry (); struct variable ospf_variables[] = { /* OSPF general variables */ {OSPFROUTERID, IPADDRESS, RWRITE, ospfGeneralGroup, 2, {1, 1}}, {OSPFADMINSTAT, INTEGER, RWRITE, ospfGeneralGroup, 2, {1, 2}}, {OSPFVERSIONNUMBER, INTEGER, RONLY, ospfGeneralGroup, 2, {1, 3}}, {OSPFAREABDRRTRSTATUS, INTEGER, RONLY, ospfGeneralGroup, 2, {1, 4}}, {OSPFASBDRRTRSTATUS, INTEGER, RWRITE, ospfGeneralGroup, 2, {1, 5}}, {OSPFEXTERNLSACOUNT, GAUGE, RONLY, ospfGeneralGroup, 2, {1, 6}}, {OSPFEXTERNLSACKSUMSUM, INTEGER, RONLY, ospfGeneralGroup, 2, {1, 7}}, {OSPFTOSSUPPORT, INTEGER, RWRITE, ospfGeneralGroup, 2, {1, 8}}, {OSPFORIGINATENEWLSAS, COUNTER, RONLY, ospfGeneralGroup, 2, {1, 9}}, {OSPFRXNEWLSAS, COUNTER, RONLY, ospfGeneralGroup, 2, {1, 10}}, {OSPFEXTLSDBLIMIT, INTEGER, RWRITE, ospfGeneralGroup, 2, {1, 11}}, {OSPFMULTICASTEXTENSIONS, INTEGER, RWRITE, ospfGeneralGroup, 2, {1, 12}}, {OSPFEXITOVERFLOWINTERVAL, INTEGER, RWRITE, ospfGeneralGroup, 2, {1, 13}}, {OSPFDEMANDEXTENSIONS, INTEGER, RWRITE, ospfGeneralGroup, 2, {1, 14}}, /* OSPF area data structure. */ {OSPFAREAID, IPADDRESS, RONLY, ospfAreaEntry, 3, {2, 1, 1}}, {OSPFAUTHTYPE, INTEGER, RWRITE, ospfAreaEntry, 3, {2, 1, 2}}, {OSPFIMPORTASEXTERN, INTEGER, RWRITE, ospfAreaEntry, 3, {2, 1, 3}}, {OSPFSPFRUNS, COUNTER, RONLY, ospfAreaEntry, 3, {2, 1, 4}}, {OSPFAREABDRRTRCOUNT, GAUGE, RONLY, ospfAreaEntry, 3, {2, 1, 5}}, {OSPFASBDRRTRCOUNT, GAUGE, RONLY, ospfAreaEntry, 3, {2, 1, 6}}, {OSPFAREALSACOUNT, GAUGE, RONLY, ospfAreaEntry, 3, {2, 1, 7}}, {OSPFAREALSACKSUMSUM, INTEGER, RONLY, ospfAreaEntry, 3, {2, 1, 8}}, {OSPFAREASUMMARY, INTEGER, RWRITE, ospfAreaEntry, 3, {2, 1, 9}}, {OSPFAREASTATUS, INTEGER, RWRITE, ospfAreaEntry, 3, {2, 1, 10}}, /* OSPF stub area information. */ {OSPFSTUBAREAID, IPADDRESS, RONLY, ospfStubAreaEntry, 3, {3, 1, 1}}, {OSPFSTUBTOS, INTEGER, RONLY, ospfStubAreaEntry, 3, {3, 1, 2}}, {OSPFSTUBMETRIC, INTEGER, RWRITE, ospfStubAreaEntry, 3, {3, 1, 3}}, {OSPFSTUBSTATUS, INTEGER, RWRITE, ospfStubAreaEntry, 3, {3, 1, 4}}, {OSPFSTUBMETRICTYPE, INTEGER, RWRITE, ospfStubAreaEntry, 3, {3, 1, 5}}, /* OSPF link state database. */ {OSPFLSDBAREAID, IPADDRESS, RONLY, ospfLsdbEntry, 3, {4, 1, 1}}, {OSPFLSDBTYPE, INTEGER, RONLY, ospfLsdbEntry, 3, {4, 1, 2}}, {OSPFLSDBLSID, IPADDRESS, RONLY, ospfLsdbEntry, 3, {4, 1, 3}}, {OSPFLSDBROUTERID, IPADDRESS, RONLY, ospfLsdbEntry, 3, {4, 1, 4}}, {OSPFLSDBSEQUENCE, INTEGER, RONLY, ospfLsdbEntry, 3, {4, 1, 5}}, {OSPFLSDBAGE, INTEGER, RONLY, ospfLsdbEntry, 3, {4, 1, 6}}, {OSPFLSDBCHECKSUM, INTEGER, RONLY, ospfLsdbEntry, 3, {4, 1, 7}}, {OSPFLSDBADVERTISEMENT, STRING, RONLY, ospfLsdbEntry, 3, {4, 1, 8}}, /* Area range table. */ {OSPFAREARANGEAREAID, IPADDRESS, RONLY, ospfAreaRangeEntry, 3, {5, 1, 1}}, {OSPFAREARANGENET, IPADDRESS, RONLY, ospfAreaRangeEntry, 3, {5, 1, 2}}, {OSPFAREARANGEMASK, IPADDRESS, RWRITE, ospfAreaRangeEntry, 3, {5, 1, 3}}, {OSPFAREARANGESTATUS, INTEGER, RWRITE, ospfAreaRangeEntry, 3, {5, 1, 4}}, {OSPFAREARANGEEFFECT, INTEGER, RWRITE, ospfAreaRangeEntry, 3, {5, 1, 5}}, /* OSPF host table. */ {OSPFHOSTIPADDRESS, IPADDRESS, RONLY, ospfHostEntry, 3, {6, 1, 1}}, {OSPFHOSTTOS, INTEGER, RONLY, ospfHostEntry, 3, {6, 1, 2}}, {OSPFHOSTMETRIC, INTEGER, RWRITE, ospfHostEntry, 3, {6, 1, 3}}, {OSPFHOSTSTATUS, INTEGER, RWRITE, ospfHostEntry, 3, {6, 1, 4}}, {OSPFHOSTAREAID, IPADDRESS, RONLY, ospfHostEntry, 3, {6, 1, 5}}, /* OSPF interface table. */ {OSPFIFIPADDRESS, IPADDRESS, RONLY, ospfIfEntry, 3, {7, 1, 1}}, {OSPFADDRESSLESSIF, INTEGER, RONLY, ospfIfEntry, 3, {7, 1, 2}}, {OSPFIFAREAID, IPADDRESS, RWRITE, ospfIfEntry, 3, {7, 1, 3}}, {OSPFIFTYPE, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 4}}, {OSPFIFADMINSTAT, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 5}}, {OSPFIFRTRPRIORITY, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 6}}, {OSPFIFTRANSITDELAY, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 7}}, {OSPFIFRETRANSINTERVAL, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 8}}, {OSPFIFHELLOINTERVAL, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 9}}, {OSPFIFRTRDEADINTERVAL, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 10}}, {OSPFIFPOLLINTERVAL, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 11}}, {OSPFIFSTATE, INTEGER, RONLY, ospfIfEntry, 3, {7, 1, 12}}, {OSPFIFDESIGNATEDROUTER, IPADDRESS, RONLY, ospfIfEntry, 3, {7, 1, 13}}, {OSPFIFBACKUPDESIGNATEDROUTER, IPADDRESS, RONLY, ospfIfEntry, 3, {7, 1, 14}}, {OSPFIFEVENTS, COUNTER, RONLY, ospfIfEntry, 3, {7, 1, 15}}, {OSPFIFAUTHKEY, STRING, RWRITE, ospfIfEntry, 3, {7, 1, 16}}, {OSPFIFSTATUS, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 17}}, {OSPFIFMULTICASTFORWARDING, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 18}}, {OSPFIFDEMAND, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 19}}, {OSPFIFAUTHTYPE, INTEGER, RWRITE, ospfIfEntry, 3, {7, 1, 20}}, /* OSPF interface metric table. */ {OSPFIFMETRICIPADDRESS, IPADDRESS, RONLY, ospfIfMetricEntry, 3, {8, 1, 1}}, {OSPFIFMETRICADDRESSLESSIF, INTEGER, RONLY, ospfIfMetricEntry, 3, {8, 1, 2}}, {OSPFIFMETRICTOS, INTEGER, RONLY, ospfIfMetricEntry, 3, {8, 1, 3}}, {OSPFIFMETRICVALUE, INTEGER, RWRITE, ospfIfMetricEntry, 3, {8, 1, 4}}, {OSPFIFMETRICSTATUS, INTEGER, RWRITE, ospfIfMetricEntry, 3, {8, 1, 5}}, /* OSPF virtual interface table. */ {OSPFVIRTIFAREAID, IPADDRESS, RONLY, ospfVirtIfEntry, 3, {9, 1, 1}}, {OSPFVIRTIFNEIGHBOR, IPADDRESS, RONLY, ospfVirtIfEntry, 3, {9, 1, 2}}, {OSPFVIRTIFTRANSITDELAY, INTEGER, RWRITE, ospfVirtIfEntry, 3, {9, 1, 3}}, {OSPFVIRTIFRETRANSINTERVAL, INTEGER, RWRITE, ospfVirtIfEntry, 3, {9, 1, 4}}, {OSPFVIRTIFHELLOINTERVAL, INTEGER, RWRITE, ospfVirtIfEntry, 3, {9, 1, 5}}, {OSPFVIRTIFRTRDEADINTERVAL, INTEGER, RWRITE, ospfVirtIfEntry, 3, {9, 1, 6}}, {OSPFVIRTIFSTATE, INTEGER, RONLY, ospfVirtIfEntry, 3, {9, 1, 7}}, {OSPFVIRTIFEVENTS, COUNTER, RONLY, ospfVirtIfEntry, 3, {9, 1, 8}}, {OSPFVIRTIFAUTHKEY, STRING, RWRITE, ospfVirtIfEntry, 3, {9, 1, 9}}, {OSPFVIRTIFSTATUS, INTEGER, RWRITE, ospfVirtIfEntry, 3, {9, 1, 10}}, {OSPFVIRTIFAUTHTYPE, INTEGER, RWRITE, ospfVirtIfEntry, 3, {9, 1, 11}}, /* OSPF neighbor table. */ {OSPFNBRIPADDR, IPADDRESS, RONLY, ospfNbrEntry, 3, {10, 1, 1}}, {OSPFNBRADDRESSLESSINDEX, INTEGER, RONLY, ospfNbrEntry, 3, {10, 1, 2}}, {OSPFNBRRTRID, IPADDRESS, RONLY, ospfNbrEntry, 3, {10, 1, 3}}, {OSPFNBROPTIONS, INTEGER, RONLY, ospfNbrEntry, 3, {10, 1, 4}}, {OSPFNBRPRIORITY, INTEGER, RWRITE, ospfNbrEntry, 3, {10, 1, 5}}, {OSPFNBRSTATE, INTEGER, RONLY, ospfNbrEntry, 3, {10, 1, 6}}, {OSPFNBREVENTS, COUNTER, RONLY, ospfNbrEntry, 3, {10, 1, 7}}, {OSPFNBRLSRETRANSQLEN, GAUGE, RONLY, ospfNbrEntry, 3, {10, 1, 8}}, {OSPFNBMANBRSTATUS, INTEGER, RWRITE, ospfNbrEntry, 3, {10, 1, 9}}, {OSPFNBMANBRPERMANENCE, INTEGER, RONLY, ospfNbrEntry, 3, {10, 1, 10}}, {OSPFNBRHELLOSUPPRESSED, INTEGER, RONLY, ospfNbrEntry, 3, {10, 1, 11}}, /* OSPF virtual neighbor table. */ {OSPFVIRTNBRAREA, IPADDRESS, RONLY, ospfVirtNbrEntry, 3, {11, 1, 1}}, {OSPFVIRTNBRRTRID, IPADDRESS, RONLY, ospfVirtNbrEntry, 3, {11, 1, 2}}, {OSPFVIRTNBRIPADDR, IPADDRESS, RONLY, ospfVirtNbrEntry, 3, {11, 1, 3}}, {OSPFVIRTNBROPTIONS, INTEGER, RONLY, ospfVirtNbrEntry, 3, {11, 1, 4}}, {OSPFVIRTNBRSTATE, INTEGER, RONLY, ospfVirtNbrEntry, 3, {11, 1, 5}}, {OSPFVIRTNBREVENTS, COUNTER, RONLY, ospfVirtNbrEntry, 3, {11, 1, 6}}, {OSPFVIRTNBRLSRETRANSQLEN, INTEGER, RONLY, ospfVirtNbrEntry, 3, {11, 1, 7}}, {OSPFVIRTNBRHELLOSUPPRESSED, INTEGER, RONLY, ospfVirtNbrEntry, 3, {11, 1, 8}}, /* OSPF link state database, external. */ {OSPFEXTLSDBTYPE, INTEGER, RONLY, ospfExtLsdbEntry, 3, {12, 1, 1}}, {OSPFEXTLSDBLSID, IPADDRESS, RONLY, ospfExtLsdbEntry, 3, {12, 1, 2}}, {OSPFEXTLSDBROUTERID, IPADDRESS, RONLY, ospfExtLsdbEntry, 3, {12, 1, 3}}, {OSPFEXTLSDBSEQUENCE, INTEGER, RONLY, ospfExtLsdbEntry, 3, {12, 1, 4}}, {OSPFEXTLSDBAGE, INTEGER, RONLY, ospfExtLsdbEntry, 3, {12, 1, 5}}, {OSPFEXTLSDBCHECKSUM, INTEGER, RONLY, ospfExtLsdbEntry, 3, {12, 1, 6}}, {OSPFEXTLSDBADVERTISEMENT, STRING, RONLY, ospfExtLsdbEntry, 3, {12, 1, 7}}, /* OSPF area aggregate table. */ {OSPFAREAAGGREGATEAREAID, IPADDRESS, RONLY, ospfAreaAggregateEntry, 3, {14, 1, 1}}, {OSPFAREAAGGREGATELSDBTYPE, INTEGER, RONLY, ospfAreaAggregateEntry, 3, {14, 1, 2}}, {OSPFAREAAGGREGATENET, IPADDRESS, RONLY, ospfAreaAggregateEntry, 3, {14, 1, 3}}, {OSPFAREAAGGREGATEMASK, IPADDRESS, RONLY, ospfAreaAggregateEntry, 3, {14, 1, 4}}, {OSPFAREAAGGREGATESTATUS, INTEGER, RWRITE, ospfAreaAggregateEntry, 3, {14, 1, 5}}, {OSPFAREAAGGREGATEEFFECT, INTEGER, RWRITE, ospfAreaAggregateEntry, 3, {14, 1, 6}} }; /* The administrative status of OSPF. When OSPF is enbled on at least one interface return 1. */ int ospf_admin_stat () { listnode node; struct ospf_interface *oi; if (! ospf_top) return 0; for (node = listhead (ospf_top->oiflist); node; nextnode (node)) { oi = getdata (node); if (oi && oi->address) return 1; } return 0; } static u_char * ospfGeneralGroup (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { /* Check whether the instance identifier is valid */ if (smux_header_generic (v, name, length, exact, var_len, write_method) == MATCH_FAILED) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFROUTERID: /* 1 */ /* Router-ID of this OSPF instance. */ if (ospf_top) return SNMP_IPADDRESS (ospf_top->router_id); else return SNMP_IPADDRESS (ospf_empty_addr); break; case OSPFADMINSTAT: /* 2 */ /* The administrative status of OSPF in the router. */ if (ospf_admin_stat ()) return SNMP_INTEGER (OSPF_STATUS_ENABLED); else return SNMP_INTEGER (OSPF_STATUS_DISABLED); break; case OSPFVERSIONNUMBER: /* 3 */ /* OSPF version 2. */ return SNMP_INTEGER (OSPF_VERSION); break; case OSPFAREABDRRTRSTATUS: /* 4 */ /* Area Border router status. */ if (ospf_top && CHECK_FLAG (ospf_top->flags, OSPF_FLAG_ABR)) return SNMP_INTEGER (SNMP_TRUE); else return SNMP_INTEGER (SNMP_FALSE); break; case OSPFASBDRRTRSTATUS: /* 5 */ /* AS Border router status. */ if (ospf_top && CHECK_FLAG (ospf_top->flags, OSPF_FLAG_ASBR)) return SNMP_INTEGER (SNMP_TRUE); else return SNMP_INTEGER (SNMP_FALSE); break; case OSPFEXTERNLSACOUNT: /* 6 */ /* External LSA counts. */ if (ospf_top) return SNMP_INTEGER (ospf_lsdb_count_all (ospf_top->lsdb)); else return SNMP_INTEGER (0); break; case OSPFEXTERNLSACKSUMSUM: /* 7 */ /* External LSA checksum. */ return SNMP_INTEGER (0); break; case OSPFTOSSUPPORT: /* 8 */ /* TOS is not supported. */ return SNMP_INTEGER (SNMP_FALSE); break; case OSPFORIGINATENEWLSAS: /* 9 */ /* The number of new link-state advertisements. */ if (ospf_top) return SNMP_INTEGER (ospf_top->lsa_originate_count); else return SNMP_INTEGER (0); break; case OSPFRXNEWLSAS: /* 10 */ /* The number of link-state advertisements received determined to be new instantiations. */ if (ospf_top) return SNMP_INTEGER (ospf_top->rx_lsa_count); else return SNMP_INTEGER (0); break; case OSPFEXTLSDBLIMIT: /* 11 */ /* There is no limit for the number of non-default AS-external-LSAs. */ return SNMP_INTEGER (-1); break; case OSPFMULTICASTEXTENSIONS: /* 12 */ /* Multicast Extensions to OSPF is not supported. */ return SNMP_INTEGER (0); break; case OSPFEXITOVERFLOWINTERVAL: /* 13 */ /* Overflow is not supported. */ return SNMP_INTEGER (0); break; case OSPFDEMANDEXTENSIONS: /* 14 */ /* Demand routing is not supported. */ return SNMP_INTEGER (SNMP_FALSE); break; default: return NULL; } return NULL; } struct ospf_area * ospf_area_lookup_next (struct in_addr *area_id, int first) { struct ospf_area *area; listnode node; if (! ospf_top) return NULL; if (first) { node = listhead (ospf_top->areas); if (node) { area = getdata (node); *area_id = area->area_id; return area; } return NULL; } for (node = listhead (ospf_top->areas); node; nextnode (node)) { area = getdata (node); if (ntohl (area->area_id.s_addr) > ntohl (area_id->s_addr)) { *area_id = area->area_id; return area; } } return NULL; } struct ospf_area * ospfAreaLookup (struct variable *v, oid name[], size_t *length, struct in_addr *addr, int exact) { int len; struct ospf_area *area; if (! ospf_top) return NULL; if (exact) { /* Length is insufficient to lookup OSPF area. */ if (*length - v->namelen != sizeof (struct in_addr)) return NULL; oid2in_addr (name + v->namelen, sizeof (struct in_addr), addr); area = ospf_area_lookup_by_area_id (*addr); return area; } else { len = *length - v->namelen; if (len > 4) len = 4; oid2in_addr (name + v->namelen, len, addr); area = ospf_area_lookup_next (addr, len == 0 ? 1 : 0); if (area == NULL) return NULL; oid_copy_addr (name + v->namelen, addr, sizeof (struct in_addr)); *length = sizeof (struct in_addr) + v->namelen; return area; } return NULL; } static u_char * ospfAreaEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_area *area; struct in_addr addr; memset (&addr, 0, sizeof (struct in_addr)); area = ospfAreaLookup (v, name, length, &addr, exact); if (! area) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFAREAID: /* 1 */ return SNMP_IPADDRESS (area->area_id); break; case OSPFAUTHTYPE: /* 2 */ return SNMP_INTEGER (area->auth_type); break; case OSPFIMPORTASEXTERN: /* 3 */ return SNMP_INTEGER (area->external_routing + 1); break; case OSPFSPFRUNS: /* 4 */ return SNMP_INTEGER (area->spf_calculation); break; case OSPFAREABDRRTRCOUNT: /* 5 */ return SNMP_INTEGER (area->abr_count); break; case OSPFASBDRRTRCOUNT: /* 6 */ return SNMP_INTEGER (area->asbr_count); break; case OSPFAREALSACOUNT: /* 7 */ return SNMP_INTEGER (area->lsdb->total); break; case OSPFAREALSACKSUMSUM: /* 8 */ return SNMP_INTEGER (0); break; case OSPFAREASUMMARY: /* 9 */ #define OSPF_noAreaSummary 1 #define OSPF_sendAreaSummary 2 if (area->no_summary) return SNMP_INTEGER (OSPF_noAreaSummary); else return SNMP_INTEGER (OSPF_sendAreaSummary); break; case OSPFAREASTATUS: /* 10 */ return SNMP_INTEGER (SNMP_VALID); break; default: return NULL; break; } return NULL; } struct ospf_area * ospf_stub_area_lookup_next (struct in_addr *area_id, int first) { struct ospf_area *area; listnode node; if (! ospf_top) return NULL; for (node = listhead (ospf_top->areas); node; nextnode (node)) { area = getdata (node); if (area->external_routing == OSPF_AREA_STUB) { if (first) { *area_id = area->area_id; return area; } else if (ntohl (area->area_id.s_addr) > ntohl (area_id->s_addr)) { *area_id = area->area_id; return area; } } } return NULL; } struct ospf_area * ospfStubAreaLookup (struct variable *v, oid name[], size_t *length, struct in_addr *addr, int exact) { int len; struct ospf_area *area; if (! ospf_top) return NULL; /* Exact lookup. */ if (exact) { /* ospfStubAreaID + ospfStubTOS. */ if (*length != v->namelen + sizeof (struct in_addr) + 1) return NULL; /* Check ospfStubTOS is zero. */ if (name[*length - 1] != 0) return NULL; oid2in_addr (name + v->namelen, sizeof (struct in_addr), addr); area = ospf_area_lookup_by_area_id (*addr); if (area->external_routing == OSPF_AREA_STUB) return area; else return NULL; } else { len = *length - v->namelen; if (len > 4) len = 4; oid2in_addr (name + v->namelen, len, addr); area = ospf_stub_area_lookup_next (addr, len == 0 ? 1 : 0); if (area == NULL) return NULL; oid_copy_addr (name + v->namelen, addr, sizeof (struct in_addr)); /* Set TOS 0. */ name[v->namelen + sizeof (struct in_addr)] = 0; *length = v->namelen + sizeof (struct in_addr) + 1; return area; } return NULL; } static u_char * ospfStubAreaEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_area *area; struct in_addr addr; memset (&addr, 0, sizeof (struct in_addr)); area = ospfStubAreaLookup (v, name, length, &addr, exact); if (! area) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFSTUBAREAID: /* 1 */ /* OSPF stub area id. */ return SNMP_IPADDRESS (area->area_id); break; case OSPFSTUBTOS: /* 2 */ /* TOS value is not supported. */ return SNMP_INTEGER (0); break; case OSPFSTUBMETRIC: /* 3 */ /* Default cost to stub area. */ return SNMP_INTEGER (area->default_cost); break; case OSPFSTUBSTATUS: /* 4 */ /* Status of the stub area. */ return SNMP_INTEGER (SNMP_VALID); break; case OSPFSTUBMETRICTYPE: /* 5 */ /* OSPF Metric type. */ #define OSPF_ospfMetric 1 #define OSPF_comparableCost 2 #define OSPF_nonComparable 3 return SNMP_INTEGER (OSPF_ospfMetric); break; default: return NULL; break; } return NULL; } struct ospf_lsa * lsdb_lookup_next (struct ospf_area *area, u_char *type, int type_next, struct in_addr *ls_id, int ls_id_next, struct in_addr *router_id, int router_id_next) { struct ospf_lsa *lsa; int i; if (type_next) i = OSPF_MIN_LSA; else i = *type; for (; i < OSPF_MAX_LSA; i++) { *type = i; lsa = ospf_lsdb_lookup_by_id_next (area->lsdb, *type, *ls_id, *router_id, ls_id_next); if (lsa) return lsa; ls_id_next = 1; } return NULL; } struct ospf_lsa * ospfLsdbLookup (struct variable *v, oid *name, size_t *length, struct in_addr *area_id, u_char *type, struct in_addr *ls_id, struct in_addr *router_id, int exact) { struct ospf_area *area; struct ospf_lsa *lsa; int len; int type_next; int ls_id_next; int router_id_next; oid *offset; int offsetlen; #define OSPF_LSDB_ENTRY_OFFSET \ (IN_ADDR_SIZE + 1 + IN_ADDR_SIZE + IN_ADDR_SIZE) if (exact) { /* Area ID + Type + LS ID + Router ID. */ if (*length - v->namelen != OSPF_LSDB_ENTRY_OFFSET) return NULL; /* Set OID offset for Area ID. */ offset = name + v->namelen; /* Lookup area first. */ oid2in_addr (offset, IN_ADDR_SIZE, area_id); area = ospf_area_lookup_by_area_id (*area_id); if (! area) return NULL; offset += IN_ADDR_SIZE; /* Type. */ *type = *offset; offset++; /* LS ID. */ oid2in_addr (offset, IN_ADDR_SIZE, ls_id); offset += IN_ADDR_SIZE; /* Router ID. */ oid2in_addr (offset, IN_ADDR_SIZE, router_id); /* Lookup LSDB. */ return ospf_lsdb_lookup_by_id (area->lsdb, *type, *ls_id, *router_id); } else { /* Get variable length. */ offset = name + v->namelen; offsetlen = *length - v->namelen; len = offsetlen; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (offset, len, area_id); /* First we search area. */ if (len == IN_ADDR_SIZE) area = ospf_area_lookup_by_area_id (*area_id); else area = ospf_area_lookup_next (area_id, len == 0 ? 1 : 0); if (area == NULL) return NULL; do { /* Next we lookup type. */ offset += IN_ADDR_SIZE; offsetlen -= IN_ADDR_SIZE; len = offsetlen; if (len <= 0) type_next = 1; else { len = 1; type_next = 0; *type = *offset; } /* LS ID. */ offset++; offsetlen--; len = offsetlen; if (len <= 0) ls_id_next = 1; else { ls_id_next = 0; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (offset, len, ls_id); } /* Router ID. */ offset += IN_ADDR_SIZE; offsetlen -= IN_ADDR_SIZE; len = offsetlen; if (len <= 0) router_id_next = 1; else { router_id_next = 0; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (offset, len, router_id); } lsa = lsdb_lookup_next (area, type, type_next, ls_id, ls_id_next, router_id, router_id_next); if (lsa) { /* Fill in length. */ *length = v->namelen + OSPF_LSDB_ENTRY_OFFSET; /* Fill in value. */ offset = name + v->namelen; oid_copy_addr (offset, area_id, IN_ADDR_SIZE); offset += IN_ADDR_SIZE; *offset = lsa->data->type; offset++; oid_copy_addr (offset, &lsa->data->id, IN_ADDR_SIZE); offset += IN_ADDR_SIZE; oid_copy_addr (offset, &lsa->data->adv_router, IN_ADDR_SIZE); return lsa; } } while ((area = ospf_area_lookup_next (area_id, 0)) != NULL); } return NULL; } static u_char * ospfLsdbEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_lsa *lsa; struct lsa_header *lsah; struct in_addr area_id; u_char type; struct in_addr ls_id; struct in_addr router_id; /* INDEX { ospfLsdbAreaId, ospfLsdbType, ospfLsdbLsid, ospfLsdbRouterId } */ memset (&area_id, 0, sizeof (struct in_addr)); type = 0; memset (&ls_id, 0, sizeof (struct in_addr)); memset (&router_id, 0, sizeof (struct in_addr)); /* Check OSPF instance. */ if (! ospf_top) return NULL; lsa = ospfLsdbLookup (v, name, length, &area_id, &type, &ls_id, &router_id, exact); if (! lsa) return NULL; lsah = lsa->data; /* Return the current value of the variable */ switch (v->magic) { case OSPFLSDBAREAID: /* 1 */ return SNMP_IPADDRESS (lsa->area->area_id); break; case OSPFLSDBTYPE: /* 2 */ return SNMP_INTEGER (lsah->type); break; case OSPFLSDBLSID: /* 3 */ return SNMP_IPADDRESS (lsah->id); break; case OSPFLSDBROUTERID: /* 4 */ return SNMP_IPADDRESS (lsah->adv_router); break; case OSPFLSDBSEQUENCE: /* 5 */ return SNMP_INTEGER (lsah->ls_seqnum); break; case OSPFLSDBAGE: /* 6 */ return SNMP_INTEGER (lsah->ls_age); break; case OSPFLSDBCHECKSUM: /* 7 */ return SNMP_INTEGER (lsah->checksum); break; case OSPFLSDBADVERTISEMENT: /* 8 */ *var_len = ntohs (lsah->length); return (u_char *) lsah; break; default: return NULL; break; } return NULL; } struct ospf_area_range * ospfAreaRangeLookup (struct variable *v, oid *name, size_t *length, struct in_addr *area_id, struct in_addr *range_net, int exact) { oid *offset; int offsetlen; int len; struct ospf_area *area; struct ospf_area_range *range; struct prefix_ipv4 p; p.family = AF_INET; p.prefixlen = IPV4_MAX_BITLEN; if (exact) { /* Area ID + Range Network. */ if (v->namelen + IN_ADDR_SIZE + IN_ADDR_SIZE != *length) return NULL; /* Set OID offset for Area ID. */ offset = name + v->namelen; /* Lookup area first. */ oid2in_addr (offset, IN_ADDR_SIZE, area_id); area = ospf_area_lookup_by_area_id (*area_id); if (! area) return NULL; offset += IN_ADDR_SIZE; /* Lookup area range. */ oid2in_addr (offset, IN_ADDR_SIZE, range_net); p.prefix = *range_net; return ospf_area_range_lookup (area, &p); } else { /* Set OID offset for Area ID. */ offset = name + v->namelen; offsetlen = *length - v->namelen; len = offsetlen; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (offset, len, area_id); /* First we search area. */ if (len == IN_ADDR_SIZE) area = ospf_area_lookup_by_area_id (*area_id); else area = ospf_area_lookup_next (area_id, len == 0 ? 1 : 0); if (area == NULL) return NULL; do { offset += IN_ADDR_SIZE; offsetlen -= IN_ADDR_SIZE; len = offsetlen; if (len < 0) len = 0; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (offset, len, range_net); range = ospf_area_range_lookup_next (area, range_net, len == 0 ? 1 : 0); if (range) { /* Fill in length. */ *length = v->namelen + IN_ADDR_SIZE + IN_ADDR_SIZE; /* Fill in value. */ offset = name + v->namelen; oid_copy_addr (offset, area_id, IN_ADDR_SIZE); offset += IN_ADDR_SIZE; oid_copy_addr (offset, range_net, IN_ADDR_SIZE); return range; } } while ((area = ospf_area_lookup_next (area_id, 0)) != NULL); } return NULL; } static u_char * ospfAreaRangeEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_area_range *range; struct in_addr area_id; struct in_addr range_net; struct in_addr mask; /* Check OSPF instance. */ if (! ospf_top) return NULL; memset (&area_id, 0, IN_ADDR_SIZE); memset (&range_net, 0, IN_ADDR_SIZE); range = ospfAreaRangeLookup (v, name, length, &area_id, &range_net, exact); if (! range) return NULL; /* Convert prefixlen to network mask format. */ masklen2ip (range->subst_masklen, &mask); /* Return the current value of the variable */ switch (v->magic) { case OSPFAREARANGEAREAID: /* 1 */ return SNMP_IPADDRESS (area_id); break; case OSPFAREARANGENET: /* 2 */ return SNMP_IPADDRESS (range_net); break; case OSPFAREARANGEMASK: /* 3 */ return SNMP_IPADDRESS (mask); break; case OSPFAREARANGESTATUS: /* 4 */ return SNMP_INTEGER (SNMP_VALID); break; case OSPFAREARANGEEFFECT: /* 5 */ #define OSPF_advertiseMatching 1 #define OSPF_doNotAdvertiseMatching 2 return SNMP_INTEGER (OSPF_advertiseMatching); break; default: return NULL; break; } return NULL; } struct ospf_nbr_nbma * ospfHostLookup (struct variable *v, oid *name, size_t *length, struct in_addr *addr, int exact) { int len; struct ospf_nbr_nbma *nbr_nbma; if (! ospf_top) return NULL; if (exact) { /* INDEX { ospfHostIpAddress, ospfHostTOS } */ if (*length != v->namelen + IN_ADDR_SIZE + 1) return NULL; /* Check ospfHostTOS. */ if (name[*length - 1] != 0) return NULL; oid2in_addr (name + v->namelen, IN_ADDR_SIZE, addr); nbr_nbma = ospf_nbr_nbma_lookup (ospf_top, *addr); return nbr_nbma; } else { len = *length - v->namelen; if (len > 4) len = 4; oid2in_addr (name + v->namelen, len, addr); nbr_nbma = ospf_nbr_nbma_lookup_next (addr, len == 0 ? 1 : 0); if (nbr_nbma == NULL) return NULL; oid_copy_addr (name + v->namelen, addr, IN_ADDR_SIZE); /* Set TOS 0. */ name[v->namelen + IN_ADDR_SIZE] = 0; *length = v->namelen + IN_ADDR_SIZE + 1; return nbr_nbma; } return NULL; } static u_char * ospfHostEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_nbr_nbma *nbr_nbma; struct ospf_interface *oi; struct in_addr addr; /* Check OSPF instance. */ if (! ospf_top) return NULL; memset (&addr, 0, sizeof (struct in_addr)); nbr_nbma = ospfHostLookup (v, name, length, &addr, exact); if (nbr_nbma == NULL) return NULL; oi = nbr_nbma->oi; /* Return the current value of the variable */ switch (v->magic) { case OSPFHOSTIPADDRESS: /* 1 */ return SNMP_IPADDRESS (nbr_nbma->addr); break; case OSPFHOSTTOS: /* 2 */ return SNMP_INTEGER (0); break; case OSPFHOSTMETRIC: /* 3 */ if (oi) return SNMP_INTEGER (oi->output_cost); else return SNMP_INTEGER (1); break; case OSPFHOSTSTATUS: /* 4 */ return SNMP_INTEGER (SNMP_VALID); break; case OSPFHOSTAREAID: /* 5 */ if (oi && oi->area) return SNMP_IPADDRESS (oi->area->area_id); else return SNMP_IPADDRESS (ospf_empty_addr); break; default: return NULL; break; } return NULL; } struct list *ospf_snmp_iflist; struct ospf_snmp_if { struct in_addr addr; unsigned int ifindex; struct interface *ifp; }; struct ospf_snmp_if * ospf_snmp_if_new () { struct ospf_snmp_if *osif; osif = XMALLOC (0, sizeof (struct ospf_snmp_if)); memset (osif, 0, sizeof (struct ospf_snmp_if)); return osif; } void ospf_snmp_if_free (struct ospf_snmp_if *osif) { XFREE (0, osif); } void ospf_snmp_if_delete (struct interface *ifp) { struct listnode *nn; struct ospf_snmp_if *osif; LIST_LOOP (ospf_snmp_iflist, osif, nn) { if (osif->ifp == ifp) { list_delete_node (ospf_snmp_iflist, nn); ospf_snmp_if_free (osif); return; } } } void ospf_snmp_if_update (struct interface *ifp) { struct listnode *nn; struct listnode *pn; struct connected *ifc; struct prefix *p; struct ospf_snmp_if *osif; struct in_addr *addr; unsigned int ifindex; ospf_snmp_if_delete (ifp); p = NULL; addr = NULL; ifindex = 0; /* Lookup first IPv4 address entry. */ LIST_LOOP (ifp->connected, ifc, nn) { if (if_is_pointopoint (ifp)) p = ifc->destination; else p = ifc->address; if (p->family == AF_INET) { addr = &p->u.prefix4; break; } } if (! addr) ifindex = ifp->ifindex; /* Add interface to the list. */ pn = NULL; LIST_LOOP (ospf_snmp_iflist, osif, nn) { if (addr) { if (ntohl (osif->addr.s_addr) > ntohl (addr->s_addr)) break; } else { /* Unnumbered interface. */ if (osif->addr.s_addr != 0 || osif->ifindex > ifindex) break; } pn = nn; } osif = ospf_snmp_if_new (); if (addr) osif->addr = *addr; else osif->ifindex = ifindex; osif->ifp = ifp; listnode_add_after (ospf_snmp_iflist, pn, osif); } struct interface * ospf_snmp_if_lookup (struct in_addr *ifaddr, unsigned int *ifindex) { struct listnode *nn; struct ospf_snmp_if *osif; LIST_LOOP (ospf_snmp_iflist, osif, nn) { if (ifaddr->s_addr) { if (IPV4_ADDR_SAME (&osif->addr, ifaddr)) return osif->ifp; } else { if (osif->ifindex == *ifindex) return osif->ifp; } } return NULL; } struct interface * ospf_snmp_if_lookup_next (struct in_addr *ifaddr, unsigned int *ifindex, int ifaddr_next, int ifindex_next) { struct ospf_snmp_if *osif; struct listnode *nn; if (ifaddr_next) { nn = listhead (ospf_snmp_iflist); if (nn) { osif = getdata (nn); *ifaddr = osif->addr; *ifindex = osif->ifindex; return osif->ifp; } return NULL; } LIST_LOOP (ospf_snmp_iflist, osif, nn) { if (ifaddr->s_addr) { if (ntohl (osif->addr.s_addr) > ntohl (ifaddr->s_addr)) { *ifaddr = osif->addr; *ifindex = osif->ifindex; return osif->ifp; } } else { if (osif->ifindex > *ifindex || osif->addr.s_addr) { *ifaddr = osif->addr; *ifindex = osif->ifindex; return osif->ifp; } } } return NULL; } int ospf_snmp_iftype (struct interface *ifp) { #define ospf_snmp_iftype_broadcast 1 #define ospf_snmp_iftype_nbma 2 #define ospf_snmp_iftype_pointToPoint 3 #define ospf_snmp_iftype_pointToMultipoint 5 if (if_is_broadcast (ifp)) return ospf_snmp_iftype_broadcast; if (if_is_pointopoint (ifp)) return ospf_snmp_iftype_pointToPoint; return ospf_snmp_iftype_broadcast; } struct interface * ospfIfLookup (struct variable *v, oid *name, size_t *length, struct in_addr *ifaddr, unsigned int *ifindex, int exact) { int len; int ifaddr_next = 0; int ifindex_next = 0; struct interface *ifp; oid *offset; if (exact) { if (*length != v->namelen + IN_ADDR_SIZE + 1) return NULL; oid2in_addr (name + v->namelen, IN_ADDR_SIZE, ifaddr); *ifindex = name[v->namelen + IN_ADDR_SIZE]; return ospf_snmp_if_lookup (ifaddr, ifindex); } else { len = *length - v->namelen; if (len >= IN_ADDR_SIZE) len = IN_ADDR_SIZE; if (len <= 0) ifaddr_next = 1; oid2in_addr (name + v->namelen, len, ifaddr); len = *length - v->namelen - IN_ADDR_SIZE; if (len >= 1) len = 1; else ifindex_next = 1; if (len == 1) *ifindex = name[v->namelen + IN_ADDR_SIZE]; ifp = ospf_snmp_if_lookup_next (ifaddr, ifindex, ifaddr_next, ifindex_next); if (ifp) { *length = v->namelen + IN_ADDR_SIZE + 1; offset = name + v->namelen; oid_copy_addr (offset, ifaddr, IN_ADDR_SIZE); offset += IN_ADDR_SIZE; *offset = *ifindex; return ifp; } } return NULL; } static u_char * ospfIfEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct interface *ifp; unsigned int ifindex; struct in_addr ifaddr; struct ospf_interface *oi; ifindex = 0; memset (&ifaddr, 0, sizeof (struct in_addr)); /* Check OSPF instance. */ if (! ospf_top) return NULL; ifp = ospfIfLookup (v, name, length, &ifaddr, &ifindex, exact); if (ifp == NULL) return NULL; oi = ospf_if_lookup_by_local_addr (ifp, ifaddr); if (oi == NULL) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFIFIPADDRESS: /* 1 */ return SNMP_IPADDRESS (ifaddr); break; case OSPFADDRESSLESSIF: /* 2 */ return SNMP_INTEGER (ifindex); break; case OSPFIFAREAID: /* 3 */ if (oi->area) return SNMP_IPADDRESS (oi->area->area_id); else return SNMP_IPADDRESS (ospf_empty_addr); break; case OSPFIFTYPE: /* 4 */ return SNMP_INTEGER (ospf_snmp_iftype (ifp)); break; case OSPFIFADMINSTAT: /* 5 */ if (oi) return SNMP_INTEGER (OSPF_STATUS_ENABLED); else return SNMP_INTEGER (OSPF_STATUS_DISABLED); break; case OSPFIFRTRPRIORITY: /* 6 */ return SNMP_INTEGER (PRIORITY (oi)); break; case OSPFIFTRANSITDELAY: /* 7 */ return SNMP_INTEGER (OSPF_IF_PARAM (oi, transmit_delay)); break; case OSPFIFRETRANSINTERVAL: /* 8 */ return SNMP_INTEGER (OSPF_IF_PARAM (oi, retransmit_interval)); break; case OSPFIFHELLOINTERVAL: /* 9 */ return SNMP_INTEGER (OSPF_IF_PARAM (oi, v_hello)); break; case OSPFIFRTRDEADINTERVAL: /* 10 */ return SNMP_INTEGER (OSPF_IF_PARAM (oi, v_wait)); break; case OSPFIFPOLLINTERVAL: /* 11 */ return SNMP_INTEGER (OSPF_POLL_INTERVAL_DEFAULT); break; case OSPFIFSTATE: /* 12 */ return SNMP_INTEGER (oi->state); break; case OSPFIFDESIGNATEDROUTER: /* 13 */ return SNMP_IPADDRESS (DR (oi)); break; case OSPFIFBACKUPDESIGNATEDROUTER: /* 14 */ return SNMP_IPADDRESS (BDR (oi)); break; case OSPFIFEVENTS: /* 15 */ return SNMP_INTEGER (oi->state_change); break; case OSPFIFAUTHKEY: /* 16 */ *var_len = 0; return (u_char *) OSPF_IF_PARAM (oi, auth_simple); break; case OSPFIFSTATUS: /* 17 */ return SNMP_INTEGER (SNMP_VALID); break; case OSPFIFMULTICASTFORWARDING: /* 18 */ #define ospf_snmp_multiforward_blocked 1 #define ospf_snmp_multiforward_multicast 2 #define ospf_snmp_multiforward_unicast 3 return SNMP_INTEGER (ospf_snmp_multiforward_blocked); break; case OSPFIFDEMAND: /* 19 */ return SNMP_INTEGER (SNMP_FALSE); break; case OSPFIFAUTHTYPE: /* 20 */ if (oi->area) return SNMP_INTEGER (oi->area->auth_type); else return SNMP_INTEGER (0); break; default: return NULL; break; } return NULL; } #define OSPF_SNMP_METRIC_VALUE 1 struct interface * ospfIfMetricLookup (struct variable *v, oid *name, size_t *length, struct in_addr *ifaddr, unsigned int *ifindex, int exact) { int len; int ifaddr_next = 0; int ifindex_next = 0; struct interface *ifp; oid *offset; int metric; if (exact) { if (*length != v->namelen + IN_ADDR_SIZE + 1 + 1) return NULL; oid2in_addr (name + v->namelen, IN_ADDR_SIZE, ifaddr); *ifindex = name[v->namelen + IN_ADDR_SIZE]; metric = name[v->namelen + IN_ADDR_SIZE + 1]; if (metric != OSPF_SNMP_METRIC_VALUE) return NULL; return ospf_snmp_if_lookup (ifaddr, ifindex); } else { len = *length - v->namelen; if (len >= IN_ADDR_SIZE) len = IN_ADDR_SIZE; else ifaddr_next = 1; oid2in_addr (name + v->namelen, len, ifaddr); len = *length - v->namelen - IN_ADDR_SIZE; if (len >= 1) len = 1; else ifindex_next = 1; if (len == 1) *ifindex = name[v->namelen + IN_ADDR_SIZE]; ifp = ospf_snmp_if_lookup_next (ifaddr, ifindex, ifaddr_next, ifindex_next); if (ifp) { *length = v->namelen + IN_ADDR_SIZE + 1 + 1; offset = name + v->namelen; oid_copy_addr (offset, ifaddr, IN_ADDR_SIZE); offset += IN_ADDR_SIZE; *offset = *ifindex; offset++; *offset = OSPF_SNMP_METRIC_VALUE; return ifp; } } return NULL; } static u_char * ospfIfMetricEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { /* Currently we support metric 1 only. */ struct interface *ifp; unsigned int ifindex; struct in_addr ifaddr; struct ospf_interface *oi; ifindex = 0; memset (&ifaddr, 0, sizeof (struct in_addr)); /* Check OSPF instance. */ if (! ospf_top) return NULL; ifp = ospfIfMetricLookup (v, name, length, &ifaddr, &ifindex, exact); if (ifp == NULL) return NULL; oi = ospf_if_lookup_by_local_addr (ifp, ifaddr); if (oi == NULL) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFIFMETRICIPADDRESS: return SNMP_IPADDRESS (ifaddr); break; case OSPFIFMETRICADDRESSLESSIF: return SNMP_INTEGER (ifindex); break; case OSPFIFMETRICTOS: return SNMP_INTEGER (0); break; case OSPFIFMETRICVALUE: return SNMP_INTEGER (OSPF_SNMP_METRIC_VALUE); break; case OSPFIFMETRICSTATUS: return SNMP_INTEGER (1); break; default: return NULL; break; } return NULL; } struct route_table *ospf_snmp_vl_table; void ospf_snmp_vl_add (struct ospf_vl_data *vl_data) { struct prefix_ls lp; struct route_node *rn; memset (&lp, 0, sizeof (struct prefix_ls)); lp.family = 0; lp.prefixlen = 64; lp.id = vl_data->vl_area_id; lp.adv_router = vl_data->vl_peer; rn = route_node_get (ospf_snmp_vl_table, (struct prefix *) &lp); rn->info = vl_data; } void ospf_snmp_vl_delete (struct ospf_vl_data *vl_data) { struct prefix_ls lp; struct route_node *rn; memset (&lp, 0, sizeof (struct prefix_ls)); lp.family = 0; lp.prefixlen = 64; lp.id = vl_data->vl_area_id; lp.adv_router = vl_data->vl_peer; rn = route_node_lookup (ospf_snmp_vl_table, (struct prefix *) &lp); if (! rn) return; rn->info = NULL; route_unlock_node (rn); route_unlock_node (rn); } struct ospf_vl_data * ospf_snmp_vl_lookup (struct in_addr *area_id, struct in_addr *neighbor) { struct prefix_ls lp; struct route_node *rn; struct ospf_vl_data *vl_data; memset (&lp, 0, sizeof (struct prefix_ls)); lp.family = 0; lp.prefixlen = 64; lp.id = *area_id; lp.adv_router = *neighbor; rn = route_node_lookup (ospf_snmp_vl_table, (struct prefix *) &lp); if (rn) { vl_data = rn->info; route_unlock_node (rn); return vl_data; } return NULL; } struct ospf_vl_data * ospf_snmp_vl_lookup_next (struct in_addr *area_id, struct in_addr *neighbor, int first) { struct prefix_ls lp; struct route_node *rn; struct ospf_vl_data *vl_data; memset (&lp, 0, sizeof (struct prefix_ls)); lp.family = 0; lp.prefixlen = 64; lp.id = *area_id; lp.adv_router = *neighbor; if (first) rn = route_top (ospf_snmp_vl_table); else { rn = route_node_get (ospf_snmp_vl_table, (struct prefix *) &lp); rn = route_next (rn); } for (; rn; rn = route_next (rn)) if (rn->info) break; if (rn && rn->info) { vl_data = rn->info; *area_id = vl_data->vl_area_id; *neighbor = vl_data->vl_peer; route_unlock_node (rn); return vl_data; } return NULL; } struct ospf_vl_data * ospfVirtIfLookup (struct variable *v, oid *name, size_t *length, struct in_addr *area_id, struct in_addr *neighbor, int exact) { int first; int len; struct ospf_vl_data *vl_data; if (exact) { if (*length != v->namelen + IN_ADDR_SIZE + IN_ADDR_SIZE) return NULL; oid2in_addr (name + v->namelen, IN_ADDR_SIZE, area_id); oid2in_addr (name + v->namelen + IN_ADDR_SIZE, IN_ADDR_SIZE, neighbor); return ospf_snmp_vl_lookup (area_id, neighbor); } else { first = 0; len = *length - v->namelen; if (len <= 0) first = 1; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (name + v->namelen, len, area_id); len = *length - v->namelen - IN_ADDR_SIZE; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (name + v->namelen + IN_ADDR_SIZE, len, neighbor); vl_data = ospf_snmp_vl_lookup_next (area_id, neighbor, first); if (vl_data) { *length = v->namelen + IN_ADDR_SIZE + IN_ADDR_SIZE; oid_copy_addr (name + v->namelen, area_id, IN_ADDR_SIZE); oid_copy_addr (name + v->namelen + IN_ADDR_SIZE, neighbor, IN_ADDR_SIZE); return vl_data; } } return NULL; } static u_char * ospfVirtIfEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_vl_data *vl_data; struct ospf_interface *oi; struct in_addr area_id; struct in_addr neighbor; memset (&area_id, 0, sizeof (struct in_addr)); memset (&neighbor, 0, sizeof (struct in_addr)); vl_data = ospfVirtIfLookup (v, name, length, &area_id, &neighbor, exact); if (! vl_data) return NULL; oi = vl_data->vl_oi; if (! oi) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFVIRTIFAREAID: return SNMP_IPADDRESS (area_id); break; case OSPFVIRTIFNEIGHBOR: return SNMP_IPADDRESS (neighbor); break; case OSPFVIRTIFTRANSITDELAY: return SNMP_INTEGER (OSPF_IF_PARAM (oi, transmit_delay)); break; case OSPFVIRTIFRETRANSINTERVAL: return SNMP_INTEGER (OSPF_IF_PARAM (oi, retransmit_interval)); break; case OSPFVIRTIFHELLOINTERVAL: return SNMP_INTEGER (OSPF_IF_PARAM (oi, v_hello)); break; case OSPFVIRTIFRTRDEADINTERVAL: return SNMP_INTEGER (OSPF_IF_PARAM (oi, v_wait)); break; case OSPFVIRTIFSTATE: return SNMP_INTEGER (oi->state); break; case OSPFVIRTIFEVENTS: return SNMP_INTEGER (oi->state_change); break; case OSPFVIRTIFAUTHKEY: *var_len = 0; return (u_char *) OSPF_IF_PARAM (oi, auth_simple); break; case OSPFVIRTIFSTATUS: return SNMP_INTEGER (SNMP_VALID); break; case OSPFVIRTIFAUTHTYPE: if (oi->area) return SNMP_INTEGER (oi->area->auth_type); else return SNMP_INTEGER (0); break; default: return NULL; break; } return NULL; } struct ospf_neighbor * ospf_snmp_nbr_lookup (struct in_addr *nbr_addr, unsigned int *ifindex) { struct listnode *nn; struct ospf_interface *oi; struct ospf_neighbor *nbr; struct route_node *rn; LIST_LOOP (ospf_top->oiflist, oi, nn) { for (rn = route_top (oi->nbrs); rn; rn = route_next (rn)) if ((nbr = rn->info) != NULL && nbr != oi->nbr_self && nbr->state != NSM_Down && nbr->src.s_addr != 0) { if (IPV4_ADDR_SAME (&nbr->src, nbr_addr)) { route_unlock_node (rn); return nbr; } } } return NULL; } struct ospf_neighbor * ospf_snmp_nbr_lookup_next (struct in_addr *nbr_addr, unsigned int *ifindex, int first) { struct listnode *nn; struct ospf_interface *oi; struct ospf_neighbor *nbr; struct route_node *rn; struct ospf_neighbor *min = NULL; LIST_LOOP (ospf_top->oiflist, oi, nn) { for (rn = route_top (oi->nbrs); rn; rn = route_next (rn)) if ((nbr = rn->info) != NULL && nbr != oi->nbr_self && nbr->state != NSM_Down && nbr->src.s_addr != 0) { if (first) { if (! min) min = nbr; else if (ntohl (nbr->src.s_addr) < ntohl (min->src.s_addr)) min = nbr; } else if (ntohl (nbr->src.s_addr) > ntohl (nbr_addr->s_addr)) { if (! min) min = nbr; else if (ntohl (nbr->src.s_addr) < ntohl (min->src.s_addr)) min = nbr; } } } if (min) { *nbr_addr = min->src; *ifindex = 0; return min; } return NULL; } struct ospf_neighbor * ospfNbrLookup (struct variable *v, oid *name, size_t *length, struct in_addr *nbr_addr, unsigned int *ifindex, int exact) { int len; int first; struct ospf_neighbor *nbr; if (exact) { if (*length != v->namelen + IN_ADDR_SIZE + 1) return NULL; oid2in_addr (name + v->namelen, IN_ADDR_SIZE, nbr_addr); *ifindex = name[v->namelen + IN_ADDR_SIZE]; return ospf_snmp_nbr_lookup (nbr_addr, ifindex); } else { first = 0; len = *length - v->namelen; if (len <= 0) first = 1; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (name + v->namelen, len, nbr_addr); len = *length - v->namelen - IN_ADDR_SIZE; if (len >= 1) *ifindex = name[v->namelen + IN_ADDR_SIZE]; nbr = ospf_snmp_nbr_lookup_next (nbr_addr, ifindex, first); if (nbr) { *length = v->namelen + IN_ADDR_SIZE + 1; oid_copy_addr (name + v->namelen, nbr_addr, IN_ADDR_SIZE); name[v->namelen + IN_ADDR_SIZE] = *ifindex; return nbr; } } return NULL; } static u_char * ospfNbrEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct in_addr nbr_addr; unsigned int ifindex; struct ospf_neighbor *nbr; struct ospf_interface *oi; memset (&nbr_addr, 0, sizeof (struct in_addr)); ifindex = 0; nbr = ospfNbrLookup (v, name, length, &nbr_addr, &ifindex, exact); if (! nbr) return NULL; oi = nbr->oi; if (! oi) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFNBRIPADDR: return SNMP_IPADDRESS (nbr_addr); break; case OSPFNBRADDRESSLESSINDEX: return SNMP_INTEGER (ifindex); break; case OSPFNBRRTRID: return SNMP_IPADDRESS (nbr->router_id); break; case OSPFNBROPTIONS: return SNMP_INTEGER (oi->nbr_self->options); break; case OSPFNBRPRIORITY: return SNMP_INTEGER (nbr->priority); break; case OSPFNBRSTATE: return SNMP_INTEGER (nbr->state); break; case OSPFNBREVENTS: return SNMP_INTEGER (nbr->state_change); break; case OSPFNBRLSRETRANSQLEN: return SNMP_INTEGER (ospf_ls_retransmit_count (nbr)); break; case OSPFNBMANBRSTATUS: return SNMP_INTEGER (SNMP_VALID); break; case OSPFNBMANBRPERMANENCE: return SNMP_INTEGER (2); break; case OSPFNBRHELLOSUPPRESSED: return SNMP_INTEGER (SNMP_FALSE); break; default: return NULL; break; } return NULL; } static u_char * ospfVirtNbrEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_vl_data *vl_data; struct in_addr area_id; struct in_addr neighbor; memset (&area_id, 0, sizeof (struct in_addr)); memset (&neighbor, 0, sizeof (struct in_addr)); /* Check OSPF instance. */ if (! ospf_top) return NULL; vl_data = ospfVirtIfLookup (v, name, length, &area_id, &neighbor, exact); if (! vl_data) return NULL; /* Return the current value of the variable */ switch (v->magic) { case OSPFVIRTNBRAREA: return (u_char *) NULL; break; case OSPFVIRTNBRRTRID: return (u_char *) NULL; break; case OSPFVIRTNBRIPADDR: return (u_char *) NULL; break; case OSPFVIRTNBROPTIONS: return (u_char *) NULL; break; case OSPFVIRTNBRSTATE: return (u_char *) NULL; break; case OSPFVIRTNBREVENTS: return (u_char *) NULL; break; case OSPFVIRTNBRLSRETRANSQLEN: return (u_char *) NULL; break; case OSPFVIRTNBRHELLOSUPPRESSED: return (u_char *) NULL; break; default: return NULL; break; } return NULL; } struct ospf_lsa * ospfExtLsdbLookup (struct variable *v, oid *name, size_t *length, u_char *type, struct in_addr *ls_id, struct in_addr *router_id, int exact) { int first; oid *offset; int offsetlen; u_char lsa_type; int len; struct ospf_lsa *lsa; if (exact) { if (*length != v->namelen + 1 + IN_ADDR_SIZE + IN_ADDR_SIZE) return NULL; offset = name + v->namelen; /* Make it sure given value match to type. */ lsa_type = *offset; offset++; if (lsa_type != *type) return NULL; /* LS ID. */ oid2in_addr (offset, IN_ADDR_SIZE, ls_id); offset += IN_ADDR_SIZE; /* Router ID. */ oid2in_addr (offset, IN_ADDR_SIZE, router_id); return ospf_lsdb_lookup_by_id (ospf_top->lsdb, *type, *ls_id, *router_id); } else { /* Get variable length. */ first = 0; offset = name + v->namelen; offsetlen = *length - v->namelen; /* LSA type value. */ lsa_type = *offset; offset++; offsetlen--; if (offsetlen <= 0 || lsa_type < OSPF_AS_EXTERNAL_LSA) first = 1; /* LS ID. */ len = offsetlen; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (offset, len, ls_id); offset += IN_ADDR_SIZE; offsetlen -= IN_ADDR_SIZE; /* Router ID. */ len = offsetlen; if (len > IN_ADDR_SIZE) len = IN_ADDR_SIZE; oid2in_addr (offset, len, router_id); lsa = ospf_lsdb_lookup_by_id_next (ospf_top->lsdb, *type, *ls_id, *router_id, first); if (lsa) { /* Fill in length. */ *length = v->namelen + 1 + IN_ADDR_SIZE + IN_ADDR_SIZE; /* Fill in value. */ offset = name + v->namelen; *offset = OSPF_AS_EXTERNAL_LSA; offset++; oid_copy_addr (offset, &lsa->data->id, IN_ADDR_SIZE); offset += IN_ADDR_SIZE; oid_copy_addr (offset, &lsa->data->adv_router, IN_ADDR_SIZE); return lsa; } } return NULL; } static u_char * ospfExtLsdbEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { struct ospf_lsa *lsa; struct lsa_header *lsah; u_char type; struct in_addr ls_id; struct in_addr router_id; type = OSPF_AS_EXTERNAL_LSA; memset (&ls_id, 0, sizeof (struct in_addr)); memset (&router_id, 0, sizeof (struct in_addr)); /* Check OSPF instance. */ if (! ospf_top) return NULL; lsa = ospfExtLsdbLookup (v, name, length, &type, &ls_id, &router_id, exact); if (! lsa) return NULL; lsah = lsa->data; /* Return the current value of the variable */ switch (v->magic) { case OSPFEXTLSDBTYPE: return SNMP_INTEGER (OSPF_AS_EXTERNAL_LSA); break; case OSPFEXTLSDBLSID: return SNMP_IPADDRESS (lsah->id); break; case OSPFEXTLSDBROUTERID: return SNMP_IPADDRESS (lsah->adv_router); break; case OSPFEXTLSDBSEQUENCE: return SNMP_INTEGER (lsah->ls_seqnum); break; case OSPFEXTLSDBAGE: return SNMP_INTEGER (lsah->ls_age); break; case OSPFEXTLSDBCHECKSUM: return SNMP_INTEGER (lsah->checksum); break; case OSPFEXTLSDBADVERTISEMENT: *var_len = ntohs (lsah->length); return (u_char *) lsah; break; default: return NULL; break; } return NULL; } static u_char * ospfAreaAggregateEntry (struct variable *v, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { /* Return the current value of the variable */ switch (v->magic) { case OSPFAREAAGGREGATEAREAID: return (u_char *) NULL; break; case OSPFAREAAGGREGATELSDBTYPE: return (u_char *) NULL; break; case OSPFAREAAGGREGATENET: return (u_char *) NULL; break; case OSPFAREAAGGREGATEMASK: return (u_char *) NULL; break; case OSPFAREAAGGREGATESTATUS: return (u_char *) NULL; break; case OSPFAREAAGGREGATEEFFECT: return (u_char *) NULL; break; default: return NULL; break; } return NULL; } /* Register OSPF2-MIB. */ void ospf_snmp_init () { ospf_snmp_iflist = list_new (); ospf_snmp_vl_table = route_table_init (); smux_init (ospfd_oid, sizeof (ospfd_oid) / sizeof (oid)); REGISTER_MIB("mibII/ospf", ospf_variables, variable, ospf_oid); smux_start (); } #endif /* HAVE_SNMP */