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bird/proto/snmp/bgp_mib.c
Vojtech Vilimek 8d4926b0f5 snmp_log() wrapper
2022-12-10 13:22:37 +01:00

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/*
* BIRD -- Simple Network Management Protocol (SNMP)
* BGP4-MIB bgpPeerTable
*
* (c) 2022 Vojtech Vilimek <vojtech.vilimek@nic.cz>
* (c) 2022 CZ.NIC z.s.p.o
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
/* BGP_MIB states see enum BGP_INTERNAL_STATES */
#include "snmp.h"
#include "snmp_utils.h"
#include "subagent.h"
#include "bgp_mib.h"
static const char * const debug_bgp_states[] = {
[BGP_INTERNAL_INVALID] = "BGP_INTERNAL_INVALID",
[BGP_INTERNAL_BGP] = "BGP_INTERNAL_BGP",
[BGP_INTERNAL_VERSION] = "BGP_INTERNAL_VERSION",
[BGP_INTERNAL_LOCAL_AS] = "BGP_INTERNAL_LOCAL_AS",
[BGP_INTERNAL_PEER_TABLE] = "BGP_INTERNAL_PEER_TABLE",
[BGP_INTERNAL_PEER_ENTRY] = "BGP_INTERNAL_PEER_ENTRY",
[BGP_INTERNAL_IDENTIFIER] = "BGP_INTERNAL_IDENTIFIER",
[BGP_INTERNAL_STATE] = "BGP_INTERNAL_STATE",
[BGP_INTERNAL_ADMIN_STATUS] = "BGP_INTERNAL_ADMIN_STATUS",
[BGP_INTERNAL_NEGOTIATED_VERSION] = "BGP_INTERNAL_NEGOTIATED_VERSION",
[BGP_INTERNAL_LOCAL_ADDR] = "BGP_INTERNAL_LOCAL_ADDR",
[BGP_INTERNAL_LOCAL_PORT] = "BGP_INTERNAL_LOCAL_PORT",
[BGP_INTERNAL_REMOTE_ADDR] = "BGP_INTERNAL_REMOTE_ADDR",
[BGP_INTERNAL_REMOTE_PORT] = "BGP_INTERNAL_REMOTE_PORT",
[BGP_INTERNAL_REMOTE_AS] = "BGP_INTERNAL_REMOTE_AS",
[BGP_INTERNAL_RX_UPDATES] = "BGP_INTERNAL_RX_UPDATES",
[BGP_INTERNAL_TX_UPDATES] = "BGP_INTERNAL_TX_UPDATES",
[BGP_INTERNAL_RX_MESSAGES] = "BGP_INTERNAL_RX_MESSAGES",
[BGP_INTERNAL_TX_MESSAGES] = "BGP_INTERNAL_TX_MESSAGES",
[BGP_INTERNAL_LAST_ERROR] = "BGP_INTERNAL_LAST_ERROR",
[BGP_INTERNAL_FSM_TRANSITIONS] = "BGP_INTERNAL_FSM_TRANSITIONS",
[BGP_INTERNAL_FSM_ESTABLISHED_TIME] = "BGP_INTERNAL_FSM_ESTABLISHED_TIME",
[BGP_INTERNAL_RETRY_INTERVAL] = "BGP_INTERNAL_RETRY_INTERVAL",
[BGP_INTERNAL_HOLD_TIME] = "BGP_INTERNAL_HOLD_TIME",
[BGP_INTERNAL_KEEPALIVE] = "BGP_INTERNAL_KEEPALIVE",
[BGP_INTERNAL_HOLD_TIME_CONFIGURED] = "BGP_INTERNAL_HOLD_TIME_CONFIGURED",
[BGP_INTERNAL_KEEPALIVE_CONFIGURED] = "BGP_INTERNAL_KEEPALIVE_CONFIGURED",
[BGP_INTERNAL_ORIGINATION_INTERVAL] = "BGP_INTERNAL_ORIGINATION_INTERVAL",
[BGP_INTERNAL_MIN_ROUTE_ADVERTISEMENT] = "BGP_INTERNAL_MIN_ROUTE_ADVERTISEMENT",
[BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME] = "BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME",
[BGP_INTERNAL_END] = "BGP_INTERNAL_END",
[BGP_INTERNAL_NO_VALUE] = "BGP_INTERNAL_NO_VALUE",
};
void
snmp_bgp_register()
{}
int
snmp_bgp_valid_ip4(struct oid *o)
{
return snmp_valid_ip4_index(o, 5);
}
static u8
bgp_get_candidate(u32 field)
{
const u8 translation_table[] = {
[SNMP_BGP_IDENTIFIER] = BGP_INTERNAL_IDENTIFIER,
[SNMP_BGP_STATE] = BGP_INTERNAL_STATE,
[SNMP_BGP_ADMIN_STATUS] = BGP_INTERNAL_ADMIN_STATUS,
[SNMP_BGP_NEGOTIATED_VERSION] = BGP_INTERNAL_NEGOTIATED_VERSION,
[SNMP_BGP_LOCAL_ADDR] = BGP_INTERNAL_LOCAL_ADDR,
[SNMP_BGP_LOCAL_PORT] = BGP_INTERNAL_LOCAL_PORT,
[SNMP_BGP_REMOTE_ADDR] = BGP_INTERNAL_REMOTE_ADDR,
[SNMP_BGP_REMOTE_PORT] = BGP_INTERNAL_REMOTE_PORT,
[SNMP_BGP_REMOTE_AS] = BGP_INTERNAL_REMOTE_AS,
[SNMP_BGP_RX_UPDATES] = BGP_INTERNAL_RX_UPDATES,
[SNMP_BGP_TX_UPDATES] = BGP_INTERNAL_TX_UPDATES,
[SNMP_BGP_RX_MESSAGES] = BGP_INTERNAL_RX_MESSAGES,
[SNMP_BGP_TX_MESSAGES] = BGP_INTERNAL_TX_MESSAGES,
[SNMP_BGP_LAST_ERROR] = BGP_INTERNAL_LAST_ERROR,
[SNMP_BGP_FSM_TRANSITIONS] = BGP_INTERNAL_FSM_TRANSITIONS,
[SNMP_BGP_FSM_ESTABLISHED_TIME] = BGP_INTERNAL_FSM_ESTABLISHED_TIME,
[SNMP_BGP_RETRY_INTERVAL] = BGP_INTERNAL_RETRY_INTERVAL,
[SNMP_BGP_HOLD_TIME] = BGP_INTERNAL_HOLD_TIME,
[SNMP_BGP_KEEPALIVE] = BGP_INTERNAL_KEEPALIVE,
[SNMP_BGP_HOLD_TIME_CONFIGURED] = BGP_INTERNAL_HOLD_TIME_CONFIGURED,
[SNMP_BGP_KEEPALIVE_CONFIGURED] = BGP_INTERNAL_KEEPALIVE_CONFIGURED,
[SNMP_BGP_ORIGINATION_INTERVAL] = BGP_INTERNAL_ORIGINATION_INTERVAL,
[SNMP_BGP_MIN_ROUTE_ADVERTISEMENT] = BGP_INTERNAL_MIN_ROUTE_ADVERTISEMENT,
[SNMP_BGP_IN_UPDATE_ELAPSED_TIME] = BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME,
};
/* first value is in secord cell of array translation_table (as the
* SNMP_BPG_IDENTIFIER == 1
*/
if (field > 0 && field < sizeof(translation_table) / sizeof(translation_table[0]))
return translation_table[field];
else
return BGP_INTERNAL_NO_VALUE;
}
static inline struct ip4_addr
ip4_from_oid(const struct oid *o)
{
return (o->n_subid == 9) ? ip4_build(o->ids[5], o->ids[6], o->ids[7],
o->ids[8]) : IP4_NONE;
}
static void
print_bgp_record(struct bgp_config *config)
{
struct proto_config *cf = (struct proto_config *) config;
struct proto *P = cf->proto;
struct bgp_proto *bgp_proto = (struct bgp_proto *) cf->proto;
struct bgp_conn *conn = bgp_proto->conn;
snmp_log(" name: %s", cf->name);
snmp_log("");
snmp_log(" rem. identifier: %u", bgp_proto->remote_id);
snmp_log(" local ip: %I", config->local_ip);
snmp_log(" remote ip: %I", config->remote_ip);
snmp_log(" local port: %u", config->local_port);
snmp_log(" remote port: %u", config->remote_port);
// crashes ?
if (conn) {
snmp_log(" state: %u", conn->state);
snmp_log(" remote as: %u", conn->remote_caps->as4_number);
}
snmp_log(" in updates: %u", bgp_proto->stats.rx_updates);
snmp_log(" out updates: %u", bgp_proto->stats.tx_updates);
snmp_log(" in total: %u", bgp_proto->stats.rx_messages);
snmp_log(" out total: %u", bgp_proto->stats.tx_messages);
snmp_log(" fsm transitions: %u",
bgp_proto->stats.fsm_established_transitions);
// not supported yet
snmp_log(" fsm total time: --");
snmp_log(" retry interval: %u", config->connect_retry_time);
snmp_log(" hold configurated: %u", config->hold_time );
snmp_log(" keep alive config: %u", config->keepalive_time );
// unknown
snmp_log(" min AS origin. int.: --");
snmp_log(" min route advertisement: %u", 0 );
snmp_log(" in update elapsed time: %u", 0 );
if (!conn)
snmp_log(" no connection established");
snmp_log(" outgoinin_conn state %u", bgp_proto->outgoing_conn.state + 1);
snmp_log(" incoming_conn state: %u", bgp_proto->incoming_conn.state + 1);
}
static void
print_bgp_record_all(struct snmp_proto *p)
{
snmp_log("dumping watched bgp status");
HASH_WALK(p->bgp_hash, next, peer)
{
print_bgp_record(peer->config);
}
HASH_WALK_END;
}
/**
* snmp_bgp_state - linearize oid from BGP4-MIB
* @oid: prefixed object identifier from BGP4-MIB::bgp subtree
*
* Returns linearized state for Get-PDU, GetNext-PDU and GetBulk-PDU packets.
*/
u8
snmp_bgp_state(struct oid *oid)
{
/* already checked:
xxxxxxxx p
* (*oid): .1.3.6.1.2.1.15
* -> BGP4-MIB::bgp (root)
*/
u8 state = BGP_INTERNAL_NO_VALUE;
u8 candidate;
switch (oid->n_subid)
{
default:
if (oid->n_subid < 2)
{
state = BGP_INTERNAL_INVALID;
break;
}
/* else oid->n_subid >= 2 */
/* fall through */
/* between ids[5] and ids[8] (n_subid == 9) should be IP address
* validity is checked later in execution because
* this field also could mean a query boundry (upper or lower)
*/
case 9:
case 8:
case 7:
case 6:
case 5:
state = bgp_get_candidate(oid->ids[4]);
/* fall through */
case 4:
if (oid->ids[3] == BGP4_PEER_ENTRY)
state = (state == BGP_INTERNAL_NO_VALUE) ?
BGP_INTERNAL_PEER_ENTRY : state;
else
state = BGP_INTERNAL_NO_VALUE;
/* fall through */
case 3:
/* u8 candidate; */
switch (oid->ids[2])
{
case SNMP_BGP_VERSION:
state = BGP_INTERNAL_VERSION;
break;
case SNMP_BGP_LOCAL_AS:
state = BGP_INTERNAL_LOCAL_AS;
break;
case SNMP_BGP_PEER_TABLE:
/* candidate avoid overriding more specific state */
candidate = BGP_INTERNAL_PEER_TABLE;
break;
default: /* test fails */
/* invalidate the state forcefully */
if (oid->ids[2] < SNMP_BGP_VERSION)
{
state = BGP_INTERNAL_NO_VALUE;
candidate = BGP_INTERNAL_NO_VALUE;
}
else /* oid->ids[2] > SNMP_BGP_PEER_TABLE */
state = BGP_INTERNAL_END;
}
state = (state == BGP_INTERNAL_NO_VALUE) ?
candidate : state;
/* fall through */
case 2: /* bare BGP4-MIB::bgp */
if (state == BGP_INTERNAL_NO_VALUE ||
state == BGP_INTERNAL_INVALID)
state = BGP_INTERNAL_BGP;
}
return state;
}
static inline int
is_dynamic(u8 state)
{
return (state >= BGP_INTERNAL_IDENTIFIER &&
state <= BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME);
}
static inline int
snmp_bgp_has_value(u8 state)
{
if (state <= BGP_INTERNAL_BGP ||
state == BGP_INTERNAL_PEER_TABLE ||
state == BGP_INTERNAL_PEER_ENTRY ||
/* unsupported fields */
state == BGP_INTERNAL_FSM_ESTABLISHED_TIME ||
state == BGP_INTERNAL_ORIGINATION_INTERVAL ||
state == BGP_INTERNAL_MIN_ROUTE_ADVERTISEMENT ||
state == BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME)
return 0; /* hasn't value */
else
return 1; /* has value */
}
/**
* snmp_bgp_get_valid - only states with valid value
* @state: BGP linearized state
*
* Returns @state if has value in BGP4-MIB, zero otherwise. Used for Get-PDU
* packets.
*/
u8
snmp_bgp_get_valid(u8 state)
{
/* invalid
* SNMP_BGP SNMP_BGP_PEER_TABLE SNMP_BGP_PEER_ENTRY
* SNMP_BGP_FSM_ESTABLISHED_TIME SNMP_BGP_IN_UPDATE_ELAPSED_TIME
*/
if (state == 1 || state == 4 || state == 5 ||
state == 21 || state == 29)
return 0;
else
return state;
}
/**
* snmp_bgp_next_state - next state that has value
* @state: BGP linearized state
*
* Returns successor state of @state with valid value in BG4-MIB. Used for
* GetNext-PDU and GetBulk-PDU packets.
*/
u8
snmp_bgp_next_state(u8 state)
{
switch (state)
{
case BGP_INTERNAL_LOCAL_AS:
case BGP_INTERNAL_PEER_TABLE:
case BGP_INTERNAL_PEER_ENTRY:
return BGP_INTERNAL_IDENTIFIER;
case BGP_INTERNAL_FSM_TRANSITIONS:
case BGP_INTERNAL_FSM_ESTABLISHED_TIME:
return BGP_INTERNAL_RETRY_INTERVAL;
case BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME:
case BGP_INTERNAL_END:
return BGP_INTERNAL_END;
default:
return state + 1;
}
}
int
snmp_bgp_is_supported(struct oid *o)
{
/* most likely not functioning */
if (o->prefix == 2 && o->n_subid > 0 && o->ids[0] == 1)
{
if (o->n_subid == 2 && o->ids[1] == BGP4_MIB_VERSION ||
o->ids[1] == BGP4_MIB_LOCAL_AS)
return 1;
else if (o->n_subid > 2 && o->ids[1] == BGP4_PEER_TABLE &&
o->ids[2] == BGP4_PEER_ENTRY)
{
if (o->n_subid == 3)
return 1;
if (o->n_subid == 8 &&
o->ids[3] > 0 &&
/* do not include bgpPeerInUpdatesElapsedTime
and bgpPeerFsmEstablishedTime */
o->ids[3] < SNMP_BGP_IN_UPDATE_ELAPSED_TIME &&
o->ids[3] != SNMP_BGP_FSM_ESTABLISHED_TIME)
return 1;
}
else
return 0;
}
return 0;
}
static struct oid *
update_bgp_oid(struct oid *oid, u8 state)
{
ASSERT (state != BGP_INTERNAL_INVALID);
ASSERT (state != BGP_INTERNAL_NO_VALUE);
ASSERT (state != BGP_INTERNAL_END);
/* if same state, no need to realloc anything */
if (snmp_bgp_state(oid) == state)
return oid;
switch (state)
{
case BGP_INTERNAL_BGP:
/* could destroy same old data */
oid = mb_realloc(oid, sizeof(struct oid) + 2 * sizeof(u32));
oid->n_subid = 2;
oid->ids[0] = 1;
oid->ids[1] = SNMP_BGP4_MIB;
break;
case BGP_INTERNAL_VERSION:
oid = mb_realloc(oid, sizeof(struct oid) + 3 * sizeof(u32));
oid->n_subid = 3;
oid->ids[2] = SNMP_BGP_VERSION;
break;
case BGP_INTERNAL_LOCAL_AS:
oid->ids[2] = 2;
break;
case BGP_INTERNAL_IDENTIFIER:
oid = mb_realloc(oid, sizeof(struct oid) + 9 * sizeof(u32));
oid->n_subid = 9;
oid->ids[2] = SNMP_BGP_PEER_TABLE;
oid->ids[3] = SNMP_BGP_PEER_ENTRY;
oid->ids[4] = SNMP_BGP_IDENTIFIER;
/* zero the ip */
oid->ids[5] = oid->ids[6] = oid->ids[7] = oid->ids[8] = 0;
break;
#define SNMP_UPDATE_CASE(num, update) \
case num: \
oid->ids[4] = update; \
break;
SNMP_UPDATE_CASE(BGP_INTERNAL_STATE, SNMP_BGP_STATE)
SNMP_UPDATE_CASE(BGP_INTERNAL_ADMIN_STATUS, SNMP_BGP_ADMIN_STATUS)
SNMP_UPDATE_CASE(BGP_INTERNAL_NEGOTIATED_VERSION, SNMP_BGP_NEGOTIATED_VERSION)
SNMP_UPDATE_CASE(BGP_INTERNAL_LOCAL_ADDR, SNMP_BGP_LOCAL_ADDR)
SNMP_UPDATE_CASE(BGP_INTERNAL_LOCAL_PORT, SNMP_BGP_LOCAL_PORT)
SNMP_UPDATE_CASE(BGP_INTERNAL_REMOTE_ADDR, SNMP_BGP_REMOTE_ADDR)
SNMP_UPDATE_CASE(BGP_INTERNAL_REMOTE_PORT, SNMP_BGP_REMOTE_PORT)
SNMP_UPDATE_CASE(BGP_INTERNAL_REMOTE_AS, SNMP_BGP_REMOTE_AS)
SNMP_UPDATE_CASE(BGP_INTERNAL_RX_UPDATES, SNMP_BGP_RX_UPDATES)
SNMP_UPDATE_CASE(BGP_INTERNAL_TX_UPDATES, SNMP_BGP_TX_UPDATES)
SNMP_UPDATE_CASE(BGP_INTERNAL_RX_MESSAGES, SNMP_BGP_RX_MESSAGES)
SNMP_UPDATE_CASE(BGP_INTERNAL_TX_MESSAGES, SNMP_BGP_TX_MESSAGES)
SNMP_UPDATE_CASE(BGP_INTERNAL_LAST_ERROR, SNMP_BGP_LAST_ERROR)
SNMP_UPDATE_CASE(BGP_INTERNAL_FSM_TRANSITIONS, SNMP_BGP_FSM_TRANSITIONS)
SNMP_UPDATE_CASE(BGP_INTERNAL_FSM_ESTABLISHED_TIME, SNMP_BGP_FSM_ESTABLISHED_TIME)
SNMP_UPDATE_CASE(BGP_INTERNAL_RETRY_INTERVAL, SNMP_BGP_RETRY_INTERVAL)
SNMP_UPDATE_CASE(BGP_INTERNAL_HOLD_TIME, SNMP_BGP_HOLD_TIME)
SNMP_UPDATE_CASE(BGP_INTERNAL_KEEPALIVE, SNMP_BGP_KEEPALIVE)
SNMP_UPDATE_CASE(BGP_INTERNAL_HOLD_TIME_CONFIGURED, SNMP_BGP_HOLD_TIME_CONFIGURED)
SNMP_UPDATE_CASE(BGP_INTERNAL_KEEPALIVE_CONFIGURED, SNMP_BGP_KEEPALIVE_CONFIGURED)
SNMP_UPDATE_CASE(BGP_INTERNAL_ORIGINATION_INTERVAL, SNMP_BGP_ORIGINATION_INTERVAL)
SNMP_UPDATE_CASE(BGP_INTERNAL_MIN_ROUTE_ADVERTISEMENT, SNMP_BGP_MIN_ROUTE_ADVERTISEMENT)
SNMP_UPDATE_CASE(BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME, SNMP_BGP_IN_UPDATE_ELAPSED_TIME)
}
return oid;
#undef SNMP_UPDATE_CASE
}
// TODO test bgp_find_dynamic_oid
static struct oid *
bgp_find_dynamic_oid(struct snmp_proto *p, struct oid *o_start, struct oid *o_end, u8 state UNUSED)
{
snmp_log("bgp_find_dynamic_oid()");
ip4_addr ip4 = ip4_from_oid(o_start);
ip4_addr dest = ip4_from_oid(o_end);
snmp_log("ip addresses build");
net_addr *net = mb_allocz(p->p.pool, sizeof(struct net_addr));
net_fill_ip4(net, ip4, IP4_MAX_PREFIX_LENGTH);
snmp_log("dynamic part of BGP mib");
struct f_trie_walk_state *ws = mb_allocz(p->p.pool,
sizeof(struct f_trie_walk_state));
trie_walk_init(ws, p->bgp_trie, NULL);
if (trie_walk_next(ws, net) && ip4_less(net4_prefix(net), dest))
{
struct oid *o = mb_allocz(p->p.pool, sizeof(struct oid) + 9 * sizeof(u32));
o->n_subid = 9;
memcpy(o, o_start, snmp_oid_size(o_start));
snmp_oid_ip4_index(o, 5, net4_prefix(net));
mb_free(net);
mb_free(ws);
return o;
}
else
{
mb_free(net);
mb_free(ws);
}
return NULL;
}
static struct oid *
search_bgp_dynamic(struct snmp_proto *p, struct oid *o_start, struct oid *o_end, uint contid
UNUSED, u8 next_state)
{
/* TODO can be remove after implementing all BGP4-MIB::bgpPeerTable columns */
struct oid *copy = o_start;
do {
o_start = copy = update_bgp_oid(copy, next_state);
o_start = bgp_find_dynamic_oid(p, o_start, o_end, next_state);
next_state = snmp_bgp_next_state(next_state);
} while (o_start == NULL && next_state < BGP_INTERNAL_END);
return o_start;
}
/* o_start could be o_curr, but has basically same meaning for searching */
struct oid *
search_bgp_mib(struct snmp_proto *p, struct oid *o_start, struct oid *o_end, uint contid UNUSED)
{
u8 start_state = snmp_bgp_state(o_start);
//u8 state_curr = snmp_bgp_state(o_start);
//u8 state_end = (o_end) ? snmp_bgp_state(o_end) : 0;
// print debugging information
print_bgp_record_all(p);
if (o_start->include && snmp_bgp_has_value(start_state) &&
!is_dynamic(start_state) && o_start->n_subid == 3)
{
o_start->include = 0; /* disable including for next time */
return o_start;
}
/* if state is_dynamic() then has more value and need find the right one */
else if (!is_dynamic(start_state))
{
u8 next_state = snmp_bgp_next_state(start_state);
o_start = update_bgp_oid(o_start, next_state);
if (!is_dynamic(next_state))
return o_start;
else
/* no need to check that retval < o_end -- done by bgp_find_dynamic_oid() */
return search_bgp_dynamic(p, o_start, o_end, 0, next_state);
}
/* no need to check that retval < o_end -- done by bgp_find_dynamic_oid() */
return search_bgp_dynamic(p, o_start, o_end, 0, start_state);
}
static byte *
bgp_fill_dynamic(struct snmp_proto *p, struct agentx_varbind *vb, byte *pkt, uint size
UNUSED, uint contid UNUSED, int byte_ord UNUSED, u8 state)
{
//snmp_log("bgp_fill_dynamic() valid ip %s", snmp_bgp_valid_ip4(oid) ? "true" : "false");
struct oid *oid = &vb->name;
ip_addr addr;
if (snmp_bgp_valid_ip4(oid))
addr = ipa_from_ip4(ip4_from_oid(oid));
else
{
vb->type = AGENTX_NO_SUCH_OBJECT;
return pkt;
}
snmp_log(" -> ip addr %I", addr);
// TODO XXX deal with possible change of (remote) ip
struct snmp_bgp_peer *pe = HASH_FIND(p->bgp_hash, SNMP_HASH, addr);
struct bgp_proto *bgp_proto = NULL;
struct proto *proto = NULL;
if (pe)
{
proto = ((struct proto_config *) pe->config)->proto;
if (proto->proto == &proto_bgp &&
ipa_equal(addr, ((struct bgp_proto *) proto)->remote_ip))
{
bgp_proto = (struct bgp_proto *) proto;
}
/* binded bgp protocol not found */
else
{
die("Binded bgp protocol not found!");
vb->type = AGENTX_NO_SUCH_OBJECT;
return pkt;
}
}
else
{
vb->type = AGENTX_NO_SUCH_OBJECT;
return pkt;
}
struct bgp_conn *bgp_conn = bgp_proto->conn;
struct bgp_conn *bgp_in = &bgp_proto->incoming_conn;
struct bgp_conn *bgp_out = &bgp_proto->outgoing_conn;
struct bgp_stats *bgp_stats = &bgp_proto->stats;
const struct bgp_config *bgp_conf = bgp_proto->cf;
uint bgp_state;
if (bgp_conn)
bgp_state = bgp_conn->state;
else if (MAX(bgp_in->state, bgp_out->state) == BS_CLOSE &&
MIN(bgp_in->state, bgp_out->state) != BS_CLOSE)
bgp_state = MIN(bgp_in->state, bgp_out->state);
else if (MIN(bgp_in->state, bgp_out->state) == BS_CLOSE)
bgp_state = BS_IDLE;
else
bgp_state = MAX(bgp_in->state, bgp_out->state);
switch (state)
{
case BGP_INTERNAL_IDENTIFIER:
if (bgp_state == BS_OPENCONFIRM || bgp_state == BS_ESTABLISHED)
{
STORE_PTR(pkt, ipa_to_u32(bgp_proto->remote_ip));
BGP_DATA(vb, AGENTX_IP_ADDRESS, pkt);
}
else
{
snmp_put_blank(pkt); /* stores 4B of zeroes */
BGP_DATA(vb, AGENTX_IP_ADDRESS, pkt);
}
break;
case BGP_INTERNAL_STATE:
STORE_PTR(pkt, bgp_state);
BGP_DATA(vb, AGENTX_INTEGER, pkt);
break;
case BGP_INTERNAL_ADMIN_STATUS:
/* struct proto ~ (struct proto *) bgp_proto */
if (proto->disabled)
STORE_PTR(pkt, AGENTX_ADMIN_STOP);
else
STORE_PTR(pkt, AGENTX_ADMIN_START);
BGP_DATA(vb, AGENTX_INTEGER, pkt);
break;
case BGP_INTERNAL_NEGOTIATED_VERSION:
if (bgp_state == BS_OPENCONFIRM || bgp_state == BS_ESTABLISHED)
STORE_PTR(pkt, 4); // TODO replace with MACRO
else
STORE_PTR(pkt, 0); /* zero dictated by rfc */
BGP_DATA(vb, AGENTX_INTEGER, pkt);
break;
case BGP_INTERNAL_LOCAL_ADDR:
// TODO XXX bgp_proto->link_addr & zero local_ip
STORE_PTR(pkt, ipa_to_u32(bgp_proto->local_ip));
BGP_DATA(vb, AGENTX_IP_ADDRESS, pkt);
break;
case BGP_INTERNAL_LOCAL_PORT:
STORE_PTR(pkt, bgp_conf->local_port);
BGP_DATA(vb, AGENTX_INTEGER, pkt);
break;
case BGP_INTERNAL_REMOTE_ADDR:
STORE_PTR(pkt, ipa_to_u32(bgp_proto->remote_ip));
BGP_DATA(vb, AGENTX_IP_ADDRESS, pkt);
break;
case BGP_INTERNAL_REMOTE_PORT:
STORE_PTR(pkt, bgp_conf->remote_port);
BGP_DATA(vb, AGENTX_INTEGER, pkt);
break;
case BGP_INTERNAL_REMOTE_AS:
STORE_PTR(pkt, bgp_proto->remote_as);
BGP_DATA(vb, AGENTX_INTEGER, pkt);
break;
/* IN UPDATES */
case BGP_INTERNAL_RX_UPDATES:
STORE_PTR(pkt, bgp_stats->rx_updates);
BGP_DATA(vb, AGENTX_COUNTER_32, pkt);
break;
/* OUT UPDATES */
case BGP_INTERNAL_TX_UPDATES:
STORE_PTR(pkt, bgp_stats->tx_updates);
BGP_DATA(vb, AGENTX_COUNTER_32, pkt);
break;
/* IN MESSAGES */
case BGP_INTERNAL_RX_MESSAGES:
STORE_PTR(pkt, bgp_stats->rx_messages);
BGP_DATA(vb, AGENTX_COUNTER_32, pkt);
break;
/* OUT MESSAGES */
case BGP_INTERNAL_TX_MESSAGES:
STORE_PTR(pkt, bgp_stats->tx_messages);
BGP_DATA(vb, AGENTX_COUNTER_32, pkt);
break;
case BGP_INTERNAL_LAST_ERROR:
STORE_PTR(pkt, 2);
pkt += 4;
if (bgp_proto->last_error_code)
{
/* force network order */
put_u32(pkt, bgp_proto->last_error_code & 0x00FF0000 << 8 |
bgp_proto->last_error_code & 0x000000FF << 24);
}
else
snmp_put_blank(pkt);
BGP_DATA(vb, AGENTX_OCTET_STRING, pkt);
break;
case BGP_INTERNAL_FSM_TRANSITIONS:
break;
case BGP_INTERNAL_FSM_ESTABLISHED_TIME:
break;
case BGP_INTERNAL_RETRY_INTERVAL:
break;
case BGP_INTERNAL_HOLD_TIME:
break;
case BGP_INTERNAL_KEEPALIVE:
break;
case BGP_INTERNAL_HOLD_TIME_CONFIGURED:
break;
case BGP_INTERNAL_KEEPALIVE_CONFIGURED:
break;
case BGP_INTERNAL_ORIGINATION_INTERVAL:
break;
case BGP_INTERNAL_MIN_ROUTE_ADVERTISEMENT:
break;
case BGP_INTERNAL_IN_UPDATE_ELAPSED_TIME:
break;
case BGP_INTERNAL_END:
break;
case BGP_INTERNAL_INVALID:
break;
case BGP_INTERNAL_BGP:
break;
case BGP_INTERNAL_PEER_TABLE:
break;
case BGP_INTERNAL_PEER_ENTRY:
break;
case BGP_INTERNAL_NO_VALUE:
break;
}
return pkt;
}
static byte *
bgp_fill_static(struct snmp_proto *p, struct agentx_varbind *vb, byte *pkt, uint size
UNUSED, uint contid UNUSED, int byte_ord UNUSED, u8 state)
{
snmp_log("snmp bgp_fill_static ()\n");
struct oid *oid = &vb->name;
/* snmp_bgp_state() check only prefix. To be sure on oid equivalence we need to
* compare the oid->n_subid length. All BGP static fields have same n_subid.
*/
if (oid->n_subid != 3)
{
vb->type = AGENTX_NO_SUCH_OBJECT;
return pkt;
}
switch (state)
{
case BGP_INTERNAL_VERSION:
STORE_PTR(pkt, 1); /* store string len */
pkt += 4;
STORE_PTR(pkt, BGP4_VERSIONS);
/* real size is 8 but we already shifted the pkt by 4 */
BGP_DATA(vb, AGENTX_OCTET_STRING, pkt);
break;
case BGP_INTERNAL_LOCAL_AS:
// XXX local as to use
STORE_PTR(pkt, p->local_as);
BGP_DATA(vb, AGENTX_INTEGER, pkt);
break;
case BGP_INTERNAL_BGP:
vb->type = AGENTX_NO_SUCH_OBJECT;
}
snmp_log("snmp ended with non empty pkt\n");
return pkt;
}
byte *
snmp_bgp_fill(struct snmp_proto *p, struct agentx_varbind *vb, byte *buf UNUSED,
uint size UNUSED, uint contid UNUSED, int byte_ord UNUSED)
{
u8 state = snmp_bgp_state(&vb->name);
//snmp_log("snmp_bgp_fill() state %u is dynamic %s has value %s", state, is_dynamic(state) ? "true" : "false", snmp_bgp_has_value(state) ? "true" : "false");
if (!is_dynamic(state))
return bgp_fill_static(p, vb, buf, size, contid, byte_ord, state);
if (is_dynamic(state) && snmp_bgp_has_value(state))
return bgp_fill_dynamic(p, vb, buf, size, contid, byte_ord, state);
else
{
return buf;
}
/*
{
snmp_log("has no value");
struct agentx_varbind *vb = snmp_create_varbind(buf, oid);
buf += snmp_varbind_size(vb);
vb->type = AGENTX_NO_SUCH_OBJECT;
return buf;
}
*/
}
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