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// SPDX-License-Identifier: GPL-2.0-or-later
/*
*
* Copyright 2009-2016, LabN Consulting, L.L.C.
*
*/
#include "lib/zebra.h"
#include "lib/prefix.h"
#include "lib/agg_table.h"
#include "lib/vty.h"
#include "lib/memory.h"
#include "lib/routemap.h"
#include "lib/log.h"
#include "lib/linklist.h"
#include "lib/command.h"
#include "lib/stream.h"
#include "bgpd/bgpd.h"
#include "bgpd/bgp_ecommunity.h"
#include "bgpd/bgp_attr.h"
#include "bgpd/rfapi/bgp_rfapi_cfg.h"
#include "bgpd/rfapi/rfapi.h"
#include "bgpd/rfapi/rfapi_backend.h"
#include "bgpd/bgp_route.h"
#include "bgpd/bgp_mplsvpn.h"
#include "bgpd/bgp_aspath.h"
#include "bgpd/bgp_advertise.h"
#include "bgpd/rfapi/rfapi_import.h"
#include "bgpd/rfapi/rfapi_private.h"
#include "bgpd/rfapi/rfapi_monitor.h"
#include "bgpd/rfapi/rfapi_vty.h"
#include "bgpd/rfapi/vnc_export_bgp.h"
#include "bgpd/rfapi/vnc_export_bgp_p.h"
#include "bgpd/rfapi/vnc_zebra.h"
#include "bgpd/rfapi/vnc_import_bgp.h"
#include "bgpd/rfapi/rfapi_rib.h"
#include "bgpd/rfapi/rfapi_ap.h"
#include "bgpd/rfapi/vnc_debug.h"
/*
* Per-NVE Advertised prefixes
*
* We maintain a list of prefixes advertised by each NVE.
* There are two indices: by prefix and by lifetime.
*
* BY-PREFIX skiplist
*
* key: ptr to struct prefix (when storing, point to prefix that
* is part of rfapi_adb).
*
* value: ptr to struct rfapi_adb
*
* BY-LIFETIME skiplist
*
* key: ptr to struct rfapi_adb
* value: ptr to struct rfapi_adb
*
*/
/*
* Skiplist sort function that sorts first according to lifetime
* and then according to adb pointer value. The adb pointer
* is used to spread out the sort for adbs with the same lifetime
* and thereby make the skip list operations more efficient.
*/
static int sl_adb_lifetime_cmp(const void *adb1, const void *adb2)
{
const struct rfapi_adb *a1 = adb1;
const struct rfapi_adb *a2 = adb2;
if (a1->lifetime < a2->lifetime)
return -1;
if (a1->lifetime > a2->lifetime)
return 1;
if (a1 < a2)
return -1;
if (a1 > a2)
return 1;
return 0;
}
void rfapiApInit(struct rfapi_advertised_prefixes *ap)
{
ap->ipN_by_prefix = skiplist_new(0, rfapi_rib_key_cmp, NULL);
ap->ip0_by_ether = skiplist_new(0, rfapi_rib_key_cmp, NULL);
ap->by_lifetime = skiplist_new(0, sl_adb_lifetime_cmp, NULL);
}
void rfapiApRelease(struct rfapi_advertised_prefixes *ap)
{
struct rfapi_adb *adb;
/* Free ADBs and lifetime items */
while (0 == skiplist_first(ap->by_lifetime, NULL, (void **)&adb)) {
rfapiAdbFree(adb);
skiplist_delete_first(ap->by_lifetime);
}
while (0 == skiplist_delete_first(ap->ipN_by_prefix))
;
while (0 == skiplist_delete_first(ap->ip0_by_ether))
;
/* Free lists */
skiplist_free(ap->ipN_by_prefix);
skiplist_free(ap->ip0_by_ether);
skiplist_free(ap->by_lifetime);
ap->ipN_by_prefix = NULL;
ap->ip0_by_ether = NULL;
ap->by_lifetime = NULL;
}
int rfapiApCount(struct rfapi_descriptor *rfd)
{
if (!rfd->advertised.by_lifetime)
return 0;
return skiplist_count(rfd->advertised.by_lifetime);
}
int rfapiApCountAll(struct bgp *bgp)
{
struct rfapi *h;
struct listnode *node;
struct rfapi_descriptor *rfd;
int total = 0;
h = bgp->rfapi;
if (h) {
for (ALL_LIST_ELEMENTS_RO(&h->descriptors, node, rfd)) {
total += rfapiApCount(rfd);
}
}
return total;
}
void rfapiApReadvertiseAll(struct bgp *bgp, struct rfapi_descriptor *rfd)
{
struct rfapi_adb *adb;
void *cursor = NULL;
int rc;
for (rc = skiplist_next(rfd->advertised.by_lifetime, NULL,
(void **)&adb, &cursor);
rc == 0; rc = skiplist_next(rfd->advertised.by_lifetime, NULL,
(void **)&adb, &cursor)) {
struct prefix_rd prd;
uint32_t local_pref = rfp_cost_to_localpref(adb->cost);
prd = rfd->rd;
prd.family = AF_UNSPEC;
prd.prefixlen = 64;
/*
* TBD this is not quite right. When pfx_ip is 0/32 or 0/128,
* we need to substitute the VN address as the prefix
*/
add_vnc_route(rfd, bgp, SAFI_MPLS_VPN, &adb->u.s.prefix_ip,
&prd, /* RD to use (0 for ENCAP) */
&rfd->vn_addr, /* nexthop */
&local_pref, &adb->lifetime, NULL,
NULL, /* struct rfapi_un_option */
NULL, /* struct rfapi_vn_option */
rfd->rt_export_list, NULL, /* med */
NULL, ZEBRA_ROUTE_BGP, BGP_ROUTE_RFP, 0);
}
}
void rfapiApWithdrawAll(struct bgp *bgp, struct rfapi_descriptor *rfd)
{
struct rfapi_adb *adb;
void *cursor;
int rc;
cursor = NULL;
for (rc = skiplist_next(rfd->advertised.by_lifetime, NULL,
(void **)&adb, &cursor);
rc == 0; rc = skiplist_next(rfd->advertised.by_lifetime, NULL,
(void **)&adb, &cursor)) {
struct prefix pfx_vn_buf;
struct prefix *pfx_ip;
if (!(RFAPI_0_PREFIX(&adb->u.s.prefix_ip)
&& RFAPI_HOST_PREFIX(&adb->u.s.prefix_ip))) {
pfx_ip = &adb->u.s.prefix_ip;
} else {
pfx_ip = NULL;
/*
* 0/32 or 0/128 => mac advertisement
*/
if (rfapiRaddr2Qprefix(&rfd->vn_addr, &pfx_vn_buf)) {
/*
* Bad: it means we can't delete the route
*/
vnc_zlog_debug_verbose(
"%s: BAD: handle has bad vn_addr: skipping",
__func__);
continue;
}
}
del_vnc_route(rfd, rfd->peer, bgp, SAFI_MPLS_VPN,
pfx_ip ? pfx_ip : &pfx_vn_buf,
&adb->u.s.prd, /* RD to use (0 for ENCAP) */
ZEBRA_ROUTE_BGP, BGP_ROUTE_RFP, NULL, 0);
}
}
/*
* returns nonzero if tunnel readvertisement is needed, 0 otherwise
*/
static int rfapiApAdjustLifetimeStats(
struct rfapi_descriptor *rfd,
uint32_t *old_lifetime, /* set if removing/replacing */
uint32_t *new_lifetime) /* set if replacing/adding */
{
int advertise = 0;
int find_max = 0;
int find_min = 0;
vnc_zlog_debug_verbose("%s: rfd=%p, pOldLife=%p, pNewLife=%p", __func__,
rfd, old_lifetime, new_lifetime);
if (old_lifetime)
vnc_zlog_debug_verbose("%s: OldLife=%d", __func__,
*old_lifetime);
if (new_lifetime)
vnc_zlog_debug_verbose("%s: NewLife=%d", __func__,
*new_lifetime);
if (new_lifetime) {
/*
* Adding new lifetime
*/
if (old_lifetime) {
/*
* replacing existing lifetime
*/
/* old and new are same */
if (*old_lifetime == *new_lifetime)
return 0;
if (*old_lifetime == rfd->min_prefix_lifetime) {
find_min = 1;
}
if (*old_lifetime == rfd->max_prefix_lifetime) {
find_max = 1;
}
/* no need to search if new value is at or equals
* min|max */
if (*new_lifetime <= rfd->min_prefix_lifetime) {
rfd->min_prefix_lifetime = *new_lifetime;
find_min = 0;
}
if (*new_lifetime >= rfd->max_prefix_lifetime) {
rfd->max_prefix_lifetime = *new_lifetime;
advertise = 1;
find_max = 0;
}
} else {
/*
* Just adding new lifetime
*/
if (*new_lifetime < rfd->min_prefix_lifetime) {
rfd->min_prefix_lifetime = *new_lifetime;
}
if (*new_lifetime > rfd->max_prefix_lifetime) {
advertise = 1;
rfd->max_prefix_lifetime = *new_lifetime;
}
}
} else {
/*
* Deleting
*/
/*
* See if the max prefix lifetime for this NVE has decreased.
* The easy optimization: track min & max; walk the table only
* if they are different.
* The general optimization: index the advertised_prefixes
* table by lifetime.
*
* Note: for a given nve_descriptor, only one of the
* advertised_prefixes[] tables will be used: viz., the
* address family that matches the VN address.
*
*/
if (rfd->max_prefix_lifetime == rfd->min_prefix_lifetime) {
/*
* Common case: all lifetimes are the same. Only
* thing we need to do here is check if there are
* no exported routes left. In that case, reinitialize
* the max and min values.
*/
if (!rfapiApCount(rfd)) {
rfd->max_prefix_lifetime = 0;
rfd->min_prefix_lifetime = UINT32_MAX;
}
} else {
if (old_lifetime) {
if (*old_lifetime == rfd->min_prefix_lifetime) {
find_min = 1;
}
if (*old_lifetime == rfd->max_prefix_lifetime) {
find_max = 1;
}
}
}
}
if (find_min || find_max) {
uint32_t min = UINT32_MAX;
uint32_t max = 0;
struct rfapi_adb *adb_min;
struct rfapi_adb *adb_max;
if (!skiplist_first(rfd->advertised.by_lifetime,
(void **)&adb_min, NULL)
&& !skiplist_last(rfd->advertised.by_lifetime,
(void **)&adb_max, NULL)) {
/*
* This should always work
*/
min = adb_min->lifetime;
max = adb_max->lifetime;
} else {
void *cursor;
struct rfapi_rib_key rk;
struct rfapi_adb *adb;
int rc;
vnc_zlog_debug_verbose(
"%s: walking to find new min/max", __func__);
cursor = NULL;
for (rc = skiplist_next(rfd->advertised.ipN_by_prefix,
(void **)&rk, (void **)&adb,
&cursor);
!rc;
rc = skiplist_next(rfd->advertised.ipN_by_prefix,
(void **)&rk, (void **)&adb,
&cursor)) {
uint32_t lt = adb->lifetime;
if (lt > max)
max = lt;
if (lt < min)
min = lt;
}
cursor = NULL;
for (rc = skiplist_next(rfd->advertised.ip0_by_ether,
(void **)&rk, (void **)&adb,
&cursor);
!rc;
rc = skiplist_next(rfd->advertised.ip0_by_ether,
(void **)&rk, (void **)&adb,
&cursor)) {
uint32_t lt = adb->lifetime;
if (lt > max)
max = lt;
if (lt < min)
min = lt;
}
}
/*
* trigger tunnel route update
* but only if we found a VPN route and it had
* a lifetime greater than 0
*/
if (max && rfd->max_prefix_lifetime != max)
advertise = 1;
rfd->max_prefix_lifetime = max;
rfd->min_prefix_lifetime = min;
}
vnc_zlog_debug_verbose("%s: returning advertise=%d, min=%d, max=%d",
__func__, advertise, rfd->min_prefix_lifetime,
rfd->max_prefix_lifetime);
return (advertise != 0);
}
/*
* Return Value
*
* 0 No need to advertise tunnel route
* non-0 advertise tunnel route
*/
int rfapiApAdd(struct bgp *bgp, struct rfapi_descriptor *rfd,
struct prefix *pfx_ip, struct prefix *pfx_eth,
struct prefix_rd *prd, uint32_t lifetime, uint8_t cost,
struct rfapi_l2address_option *l2o) /* other options TBD */
{
int rc;
struct rfapi_adb *adb;
uint32_t old_lifetime = 0;
int use_ip0 = 0;
struct rfapi_rib_key rk;
rfapi_rib_key_init(pfx_ip, prd, pfx_eth, &rk);
if (RFAPI_0_PREFIX(pfx_ip) && RFAPI_HOST_PREFIX(pfx_ip)) {
use_ip0 = 1;
assert(pfx_eth);
rc = skiplist_search(rfd->advertised.ip0_by_ether, &rk,
(void **)&adb);
} else {
/* find prefix in advertised prefixes list */
rc = skiplist_search(rfd->advertised.ipN_by_prefix, &rk,
(void **)&adb);
}
if (rc) {
/* Not found */
adb = XCALLOC(MTYPE_RFAPI_ADB, sizeof(struct rfapi_adb));
adb->lifetime = lifetime;
adb->u.key = rk;
if (use_ip0) {
assert(pfx_eth);
skiplist_insert(rfd->advertised.ip0_by_ether,
&adb->u.key, adb);
} else {
skiplist_insert(rfd->advertised.ipN_by_prefix,
&adb->u.key, adb);
}
skiplist_insert(rfd->advertised.by_lifetime, adb, adb);
} else {
old_lifetime = adb->lifetime;
if (old_lifetime != lifetime) {
assert(!skiplist_delete(rfd->advertised.by_lifetime,
adb, NULL));
adb->lifetime = lifetime;
assert(!skiplist_insert(rfd->advertised.by_lifetime,
adb, adb));
}
}
adb->cost = cost;
if (l2o)
adb->l2o = *l2o;
else
memset(&adb->l2o, 0, sizeof(struct rfapi_l2address_option));
if (rfapiApAdjustLifetimeStats(rfd, (rc ? NULL : &old_lifetime),
&lifetime))
return 1;
return 0;
}
/*
* After this function returns successfully, caller should call
* rfapiAdjustLifetimeStats() and possibly rfapiTunnelRouteAnnounce()
*/
int rfapiApDelete(struct bgp *bgp, struct rfapi_descriptor *rfd,
struct prefix *pfx_ip, struct prefix *pfx_eth,
struct prefix_rd *prd, int *advertise_tunnel) /* out */
{
int rc;
struct rfapi_adb *adb;
uint32_t old_lifetime;
int use_ip0 = 0;
struct rfapi_rib_key rk;
if (advertise_tunnel)
*advertise_tunnel = 0;
rfapi_rib_key_init(pfx_ip, prd, pfx_eth, &rk);
/* find prefix in advertised prefixes list */
if (RFAPI_0_PREFIX(pfx_ip) && RFAPI_HOST_PREFIX(pfx_ip)) {
use_ip0 = 1;
assert(pfx_eth);
rc = skiplist_search(rfd->advertised.ip0_by_ether, &rk,
(void **)&adb);
} else {
/* find prefix in advertised prefixes list */
rc = skiplist_search(rfd->advertised.ipN_by_prefix, &rk,
(void **)&adb);
}
if (rc) {
return ENOENT;
}
old_lifetime = adb->lifetime;
if (use_ip0) {
rc = skiplist_delete(rfd->advertised.ip0_by_ether, &rk, NULL);
} else {
rc = skiplist_delete(rfd->advertised.ipN_by_prefix, &rk, NULL);
}
assert(!rc);
rc = skiplist_delete(rfd->advertised.by_lifetime, adb, NULL);
assert(!rc);
rfapiAdbFree(adb);
if (rfapiApAdjustLifetimeStats(rfd, &old_lifetime, NULL)) {
if (advertise_tunnel)
*advertise_tunnel = 1;
}
return 0;
}
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