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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* BGP Label Pool - Manage label chunk allocations from zebra asynchronously
*
* Copyright (C) 2018 LabN Consulting, L.L.C.
*/
#include <zebra.h>
#include "log.h"
#include "memory.h"
#include "stream.h"
#include "mpls.h"
#include "vty.h"
#include "linklist.h"
#include "skiplist.h"
#include "workqueue.h"
#include "mpls.h"
#include "bgpd/bgpd.h"
#include "bgpd/bgp_labelpool.h"
#include "bgpd/bgp_debug.h"
#include "bgpd/bgp_errors.h"
#include "bgpd/bgp_route.h"
#include "bgpd/bgp_zebra.h"
#include "bgpd/bgp_vty.h"
#include "bgpd/bgp_rd.h"
#define BGP_LABELPOOL_ENABLE_TESTS 0
#include "bgpd/bgp_labelpool_clippy.c"
#if BGP_LABELPOOL_ENABLE_TESTS
static void lptest_init(void);
static void lptest_finish(void);
#endif
static void bgp_sync_label_manager(struct event *e);
/*
* Remember where pool data are kept
*/
static struct labelpool *lp;
/*
* Number of labels requested at a time from the zebra label manager.
* We start small but double the request size each time up to a
* maximum size.
*
* The label space is 20 bits which is shared with other FRR processes
* on this host, so to avoid greedily requesting a mostly wasted chunk,
* we limit the chunk size to 1/16 of the label space (that's the -4 bits
* in the definition below). This limit slightly increases our cost of
* finding free labels in our allocated chunks.
*/
#define LP_CHUNK_SIZE_MIN 128
#define LP_CHUNK_SIZE_MAX (1 << (20 - 4))
DEFINE_MTYPE_STATIC(BGPD, BGP_LABEL_CHUNK, "BGP Label Chunk");
DEFINE_MTYPE_STATIC(BGPD, BGP_LABEL_FIFO, "BGP Label FIFO item");
DEFINE_MTYPE_STATIC(BGPD, BGP_LABEL_CB, "BGP Dynamic Label Assignment");
DEFINE_MTYPE_STATIC(BGPD, BGP_LABEL_CBQ, "BGP Dynamic Label Callback");
struct lp_chunk {
uint32_t first;
uint32_t last;
uint32_t nfree; /* un-allocated count */
uint32_t idx_last_allocated; /* start looking here */
bitfield_t allocated_map;
};
/*
* label control block
*/
struct lp_lcb {
mpls_label_t label; /* MPLS_LABEL_NONE = not allocated */
int type;
void *labelid; /* unique ID */
/*
* callback for label allocation and loss
*
* allocated: false = lost
*/
int (*cbfunc)(mpls_label_t label, void *lblid, bool alloc);
};
struct lp_fifo {
struct lp_fifo_item fifo;
struct lp_lcb lcb;
};
DECLARE_LIST(lp_fifo, struct lp_fifo, fifo);
struct lp_cbq_item {
int (*cbfunc)(mpls_label_t label, void *lblid, bool alloc);
int type;
mpls_label_t label;
void *labelid;
bool allocated; /* false = lost */
};
static wq_item_status lp_cbq_docallback(struct work_queue *wq, void *data)
{
struct lp_cbq_item *lcbq = data;
int rc;
int debug = BGP_DEBUG(labelpool, LABELPOOL);
if (debug)
zlog_debug("%s: calling callback with labelid=%p label=%u allocated=%d",
__func__, lcbq->labelid, lcbq->label, lcbq->allocated);
if (lcbq->label == MPLS_LABEL_NONE) {
/* shouldn't happen */
flog_err(EC_BGP_LABEL, "%s: error: label==MPLS_LABEL_NONE",
__func__);
return WQ_SUCCESS;
}
rc = (*(lcbq->cbfunc))(lcbq->label, lcbq->labelid, lcbq->allocated);
if (lcbq->allocated && rc) {
/*
* Callback rejected allocation. This situation could arise
* if there was a label request followed by the requestor
* deciding it didn't need the assignment (e.g., config
* change) while the reply to the original request (with
* label) was in the work queue.
*/
if (debug)
zlog_debug("%s: callback rejected allocation, releasing labelid=%p label=%u",
__func__, lcbq->labelid, lcbq->label);
uintptr_t lbl = lcbq->label;
void *labelid;
struct lp_lcb *lcb;
/*
* If the rejected label was marked inuse by this labelid,
* release the label back to the pool.
*
* Further, if the rejected label was still assigned to
* this labelid in the LCB, delete the LCB.
*/
if (!skiplist_search(lp->inuse, (void *)lbl, &labelid)) {
if (labelid == lcbq->labelid) {
if (!skiplist_search(lp->ledger, labelid,
(void **)&lcb)) {
if (lcbq->label == lcb->label)
skiplist_delete(lp->ledger,
labelid, NULL);
}
skiplist_delete(lp->inuse, (void *)lbl, NULL);
}
}
}
return WQ_SUCCESS;
}
static void lp_cbq_item_free(struct work_queue *wq, void *data)
{
XFREE(MTYPE_BGP_LABEL_CBQ, data);
}
static void lp_lcb_free(void *goner)
{
XFREE(MTYPE_BGP_LABEL_CB, goner);
}
static void lp_chunk_free(void *goner)
{
struct lp_chunk *chunk = (struct lp_chunk *)goner;
bf_free(chunk->allocated_map);
XFREE(MTYPE_BGP_LABEL_CHUNK, goner);
}
void bgp_lp_init(struct event_loop *master, struct labelpool *pool)
{
if (BGP_DEBUG(labelpool, LABELPOOL))
zlog_debug("%s: entry", __func__);
lp = pool; /* Set module pointer to pool data */
lp->ledger = skiplist_new(0, NULL, lp_lcb_free);
lp->inuse = skiplist_new(0, NULL, NULL);
lp->chunks = list_new();
lp->chunks->del = lp_chunk_free;
lp_fifo_init(&lp->requests);
lp->callback_q = work_queue_new(master, "label callbacks");
lp->callback_q->spec.workfunc = lp_cbq_docallback;
lp->callback_q->spec.del_item_data = lp_cbq_item_free;
lp->callback_q->spec.max_retries = 0;
lp->next_chunksize = LP_CHUNK_SIZE_MIN;
#if BGP_LABELPOOL_ENABLE_TESTS
lptest_init();
#endif
}
/* check if a label callback was for a BGP LU node, and if so, unlock it */
static void check_bgp_lu_cb_unlock(struct lp_lcb *lcb)
{
if (lcb->type == LP_TYPE_BGP_LU)
bgp_dest_unlock_node(lcb->labelid);
}
/* check if a label callback was for a BGP LU node, and if so, lock it */
static void check_bgp_lu_cb_lock(struct lp_lcb *lcb)
{
if (lcb->type == LP_TYPE_BGP_LU)
bgp_dest_lock_node(lcb->labelid);
}
void bgp_lp_finish(void)
{
struct lp_fifo *lf;
struct work_queue_item *item, *titem;
struct listnode *node;
struct lp_chunk *chunk;
#if BGP_LABELPOOL_ENABLE_TESTS
lptest_finish();
#endif
if (!lp)
return;
skiplist_free(lp->ledger);
lp->ledger = NULL;
skiplist_free(lp->inuse);
lp->inuse = NULL;
for (ALL_LIST_ELEMENTS_RO(lp->chunks, node, chunk))
bgp_zebra_release_label_range(chunk->first, chunk->last);
list_delete(&lp->chunks);
while ((lf = lp_fifo_pop(&lp->requests))) {
check_bgp_lu_cb_unlock(&lf->lcb);
XFREE(MTYPE_BGP_LABEL_FIFO, lf);
}
lp_fifo_fini(&lp->requests);
/* we must unlock path infos for LU callbacks; but we cannot do that
* in the deletion callback of the workqueue, as that is also called
* to remove an element from the queue after it has been run, resulting
* in a double unlock. Hence we need to iterate over our queues and
* lists and manually perform the unlocking (ugh)
*/
STAILQ_FOREACH_SAFE (item, &lp->callback_q->items, wq, titem)
check_bgp_lu_cb_unlock(item->data);
work_queue_free_and_null(&lp->callback_q);
lp = NULL;
}
static mpls_label_t get_label_from_pool(void *labelid)
{
struct listnode *node;
struct lp_chunk *chunk;
int debug = BGP_DEBUG(labelpool, LABELPOOL);
/*
* Find a free label
*/
for (ALL_LIST_ELEMENTS_RO(lp->chunks, node, chunk)) {
uintptr_t lbl;
unsigned int index;
if (debug)
zlog_debug("%s: chunk first=%u last=%u",
__func__, chunk->first, chunk->last);
/*
* don't look in chunks with no available labels
*/
if (!chunk->nfree)
continue;
/*
* roll through bitfield starting where we stopped
* last time
*/
index = bf_find_next_clear_bit_wrap(
&chunk->allocated_map, chunk->idx_last_allocated + 1,
0);
/*
* since chunk->nfree is non-zero, we should always get
* a valid index
*/
assert(index != WORD_MAX);
lbl = chunk->first + index;
if (skiplist_insert(lp->inuse, (void *)lbl, labelid)) {
/* something is very wrong */
zlog_err("%s: unable to insert inuse label %u (id %p)",
__func__, (uint32_t)lbl, labelid);
return MPLS_LABEL_NONE;
}
/*
* Success
*/
bf_set_bit(chunk->allocated_map, index);
chunk->idx_last_allocated = index;
chunk->nfree -= 1;
return lbl;
}
return MPLS_LABEL_NONE;
}
/*
* Success indicated by value of "label" field in returned LCB
*/
static struct lp_lcb *lcb_alloc(
int type,
void *labelid,
int (*cbfunc)(mpls_label_t label, void *labelid, bool allocated))
{
/*
* Set up label control block
*/
struct lp_lcb *new = XCALLOC(MTYPE_BGP_LABEL_CB,
sizeof(struct lp_lcb));
new->label = get_label_from_pool(labelid);
new->type = type;
new->labelid = labelid;
new->cbfunc = cbfunc;
return new;
}
/*
* Callers who need labels must supply a type, labelid, and callback.
* The type is a value defined in bgp_labelpool.h (add types as needed).
* The callback is for asynchronous notification of label allocation.
* The labelid is passed as an argument to the callback. It should be unique
* to the requested label instance.
*
* If zebra is not connected, callbacks with labels will be delayed
* until connection is established. If zebra connection is lost after
* labels have been assigned, existing assignments via this labelpool
* module will continue until reconnection.
*
* When connection to zebra is reestablished, previous label assignments
* will be invalidated (via callbacks having the "allocated" parameter unset)
* and new labels will be automatically reassigned by this labelpool module
* (that is, a requestor does not need to call bgp_lp_get() again if it is
* notified via callback that its label has been lost: it will eventually
* get another callback with a new label assignment).
*
* The callback function should return 0 to accept the allocation
* and non-zero to refuse it. The callback function return value is
* ignored for invalidations (i.e., when the "allocated" parameter is false)
*
* Prior requests for a given labelid are detected so that requests and
* assignments are not duplicated.
*/
void bgp_lp_get(
int type,
void *labelid,
int (*cbfunc)(mpls_label_t label, void *labelid, bool allocated))
{
struct lp_lcb *lcb;
int requested = 0;
int debug = BGP_DEBUG(labelpool, LABELPOOL);
if (debug)
zlog_debug("%s: labelid=%p", __func__, labelid);
/*
* Have we seen this request before?
*/
if (!skiplist_search(lp->ledger, labelid, (void **)&lcb)) {
requested = 1;
} else {
lcb = lcb_alloc(type, labelid, cbfunc);
if (debug)
zlog_debug("%s: inserting lcb=%p label=%u",
__func__, lcb, lcb->label);
int rc = skiplist_insert(lp->ledger, labelid, lcb);
if (rc) {
/* shouldn't happen */
flog_err(EC_BGP_LABEL,
"%s: can't insert new LCB into ledger list",
__func__);
XFREE(MTYPE_BGP_LABEL_CB, lcb);
return;
}
}
if (lcb->label != MPLS_LABEL_NONE) {
/*
* Fast path: we filled the request from local pool (or
* this is a duplicate request that we filled already).
* Enqueue response work item with new label.
*/
struct lp_cbq_item *q;
q = XCALLOC(MTYPE_BGP_LABEL_CBQ, sizeof(struct lp_cbq_item));
q->cbfunc = lcb->cbfunc;
q->type = lcb->type;
q->label = lcb->label;
q->labelid = lcb->labelid;
q->allocated = true;
/* if this is a LU request, lock node before queueing */
check_bgp_lu_cb_lock(lcb);
work_queue_add(lp->callback_q, q);
return;
}
if (requested)
return;
if (debug)
zlog_debug("%s: slow path. lcb=%p label=%u",
__func__, lcb, lcb->label);
/*
* Slow path: we are out of labels in the local pool,
* so remember the request and also get another chunk from
* the label manager.
*
* We track number of outstanding label requests: don't
* need to get a chunk for each one.
*/
struct lp_fifo *lf = XCALLOC(MTYPE_BGP_LABEL_FIFO,
sizeof(struct lp_fifo));
lf->lcb = *lcb;
/* if this is a LU request, lock node before queueing */
check_bgp_lu_cb_lock(lcb);
lp_fifo_add_tail(&lp->requests, lf);
if (lp_fifo_count(&lp->requests) > lp->pending_count) {
if (!bgp_zebra_request_label_range(MPLS_LABEL_BASE_ANY,
lp->next_chunksize, true))
return;
lp->pending_count += lp->next_chunksize;
if ((lp->next_chunksize << 1) <= LP_CHUNK_SIZE_MAX)
lp->next_chunksize <<= 1;
}
event_add_timer(bm->master, bgp_sync_label_manager, NULL, 1,
&bm->t_bgp_sync_label_manager);
}
void bgp_lp_release(
int type,
void *labelid,
mpls_label_t label)
{
struct lp_lcb *lcb;
if (!skiplist_search(lp->ledger, labelid, (void **)&lcb)) {
if (label == lcb->label && type == lcb->type) {
struct listnode *node;
struct lp_chunk *chunk;
uintptr_t lbl = label;
bool deallocated = false;
/* no longer in use */
skiplist_delete(lp->inuse, (void *)lbl, NULL);
/* no longer requested */
skiplist_delete(lp->ledger, labelid, NULL);
/*
* Find the chunk this label belongs to and
* deallocate the label
*/
for (ALL_LIST_ELEMENTS_RO(lp->chunks, node, chunk)) {
uint32_t index;
if ((label < chunk->first) ||
(label > chunk->last))
continue;
index = label - chunk->first;
assert(bf_test_index(chunk->allocated_map,
index));
bf_release_index(chunk->allocated_map, index);
chunk->nfree += 1;
deallocated = true;
break;
}
assert(deallocated);
if (deallocated &&
chunk->nfree == chunk->last - chunk->first + 1 &&
lp_fifo_count(&lp->requests) == 0) {
bgp_zebra_release_label_range(chunk->first,
chunk->last);
list_delete_node(lp->chunks, node);
lp_chunk_free(chunk);
lp->next_chunksize = LP_CHUNK_SIZE_MIN;
}
}
}
}
static void bgp_sync_label_manager(struct event *e)
{
int debug = BGP_DEBUG(labelpool, LABELPOOL);
struct lp_fifo *lf;
while ((lf = lp_fifo_pop(&lp->requests))) {
struct lp_lcb *lcb;
void *labelid = lf->lcb.labelid;
if (skiplist_search(lp->ledger, labelid, (void **)&lcb)) {
/* request no longer in effect */
if (debug) {
zlog_debug("%s: labelid %p: request no longer in effect",
__func__, labelid);
}
/* if this was a BGP_LU request, unlock node
*/
check_bgp_lu_cb_unlock(lcb);
goto finishedrequest;
}
/* have LCB */
if (lcb->label != MPLS_LABEL_NONE) {
/* request already has a label */
if (debug) {
zlog_debug("%s: labelid %p: request already has a label: %u=0x%x, lcb=%p",
__func__, labelid, lcb->label,
lcb->label, lcb);
}
/* if this was a BGP_LU request, unlock node
*/
check_bgp_lu_cb_unlock(lcb);
goto finishedrequest;
}
lcb->label = get_label_from_pool(lcb->labelid);
if (lcb->label == MPLS_LABEL_NONE) {
/*
* Out of labels in local pool, await next chunk
*/
if (debug) {
zlog_debug("%s: out of labels, await more",
__func__);
}
lp_fifo_add_tail(&lp->requests, lf);
event_add_timer(bm->master, bgp_sync_label_manager,
NULL, 1, &bm->t_bgp_sync_label_manager);
break;
}
/*
* we filled the request from local pool.
* Enqueue response work item with new label.
*/
struct lp_cbq_item *q = XCALLOC(MTYPE_BGP_LABEL_CBQ,
sizeof(struct lp_cbq_item));
q->cbfunc = lcb->cbfunc;
q->type = lcb->type;
q->label = lcb->label;
q->labelid = lcb->labelid;
q->allocated = true;
if (debug)
zlog_debug("%s: assigning label %u to labelid %p",
__func__, q->label, q->labelid);
work_queue_add(lp->callback_q, q);
finishedrequest:
XFREE(MTYPE_BGP_LABEL_FIFO, lf);
}
}
void bgp_lp_event_chunk(uint32_t first, uint32_t last)
{
struct lp_chunk *chunk;
uint32_t labelcount;
if (last < first) {
flog_err(EC_BGP_LABEL,
"%s: zebra label chunk invalid: first=%u, last=%u",
__func__, first, last);
return;
}
chunk = XCALLOC(MTYPE_BGP_LABEL_CHUNK, sizeof(struct lp_chunk));
labelcount = last - first + 1;
chunk->first = first;
chunk->last = last;
chunk->nfree = labelcount;
bf_init(chunk->allocated_map, labelcount);
/*
* Optimize for allocation by adding the new (presumably larger)
* chunk at the head of the list so it is examined first.
*/
listnode_add_head(lp->chunks, chunk);
lp->pending_count -= labelcount;
}
/*
* continue using allocated labels until zebra returns
*/
void bgp_lp_event_zebra_down(void)
{
/* rats. */
}
/*
* Inform owners of previously-allocated labels that their labels
* are not valid. Request chunk from zebra large enough to satisfy
* previously-allocated labels plus any outstanding requests.
*/
void bgp_lp_event_zebra_up(void)
{
unsigned int labels_needed;
unsigned int chunks_needed;
void *labelid;
struct lp_lcb *lcb;
lp->reconnect_count++;
/*
* Get label chunk allocation request dispatched to zebra
*/
labels_needed = lp_fifo_count(&lp->requests) +
skiplist_count(lp->inuse);
if (labels_needed > lp->next_chunksize) {
while ((lp->next_chunksize < labels_needed) &&
(lp->next_chunksize << 1 <= LP_CHUNK_SIZE_MAX))
lp->next_chunksize <<= 1;
}
/* round up */
chunks_needed = (labels_needed + lp->next_chunksize - 1) / lp->next_chunksize;
labels_needed = chunks_needed * lp->next_chunksize;
/*
* Invalidate current list of chunks
*/
list_delete_all_node(lp->chunks);
if (labels_needed && !bgp_zebra_request_label_range(MPLS_LABEL_BASE_ANY,
labels_needed, true))
return;
lp->pending_count += labels_needed;
/*
* Invalidate any existing labels and requeue them as requests
*/
while (!skiplist_first(lp->inuse, NULL, &labelid)) {
/*
* Get LCB
*/
if (!skiplist_search(lp->ledger, labelid, (void **)&lcb)) {
if (lcb->label != MPLS_LABEL_NONE) {
/*
* invalidate
*/
struct lp_cbq_item *q;
q = XCALLOC(MTYPE_BGP_LABEL_CBQ,
sizeof(struct lp_cbq_item));
q->cbfunc = lcb->cbfunc;
q->type = lcb->type;
q->label = lcb->label;
q->labelid = lcb->labelid;
q->allocated = false;
check_bgp_lu_cb_lock(lcb);
work_queue_add(lp->callback_q, q);
lcb->label = MPLS_LABEL_NONE;
}
/*
* request queue
*/
struct lp_fifo *lf = XCALLOC(MTYPE_BGP_LABEL_FIFO,
sizeof(struct lp_fifo));
lf->lcb = *lcb;
check_bgp_lu_cb_lock(lcb);
lp_fifo_add_tail(&lp->requests, lf);
}
skiplist_delete_first(lp->inuse);
}
event_add_timer(bm->master, bgp_sync_label_manager, NULL, 1,
&bm->t_bgp_sync_label_manager);
}
DEFUN(show_bgp_labelpool_summary, show_bgp_labelpool_summary_cmd,
"show bgp labelpool summary [json]",
SHOW_STR BGP_STR
"BGP Labelpool information\n"
"BGP Labelpool summary\n" JSON_STR)
{
bool uj = use_json(argc, argv);
json_object *json = NULL;
if (!lp) {
if (uj)
vty_out(vty, "{}\n");
else
vty_out(vty, "No existing BGP labelpool\n");
return (CMD_WARNING);
}
if (uj) {
json = json_object_new_object();
json_object_int_add(json, "ledger", skiplist_count(lp->ledger));
json_object_int_add(json, "inUse", skiplist_count(lp->inuse));
json_object_int_add(json, "requests",
lp_fifo_count(&lp->requests));
json_object_int_add(json, "labelChunks", listcount(lp->chunks));
json_object_int_add(json, "pending", lp->pending_count);
json_object_int_add(json, "reconnects", lp->reconnect_count);
vty_json(vty, json);
} else {
vty_out(vty, "Labelpool Summary\n");
vty_out(vty, "-----------------\n");
vty_out(vty, "%-13s %d\n",
"Ledger:", skiplist_count(lp->ledger));
vty_out(vty, "%-13s %d\n", "InUse:", skiplist_count(lp->inuse));
vty_out(vty, "%-13s %zu\n",
"Requests:", lp_fifo_count(&lp->requests));
vty_out(vty, "%-13s %d\n",
"LabelChunks:", listcount(lp->chunks));
vty_out(vty, "%-13s %d\n", "Pending:", lp->pending_count);
vty_out(vty, "%-13s %d\n", "Reconnects:", lp->reconnect_count);
}
return CMD_SUCCESS;
}
DEFUN(show_bgp_labelpool_ledger, show_bgp_labelpool_ledger_cmd,
"show bgp labelpool ledger [json]",
SHOW_STR BGP_STR
"BGP Labelpool information\n"
"BGP Labelpool ledger\n" JSON_STR)
{
bool uj = use_json(argc, argv);
json_object *json = NULL, *json_elem = NULL;
struct lp_lcb *lcb = NULL;
struct bgp_dest *dest;
void *cursor = NULL;
const struct prefix *p;
int rc, count;
if (!lp) {
if (uj)
vty_out(vty, "{}\n");
else
vty_out(vty, "No existing BGP labelpool\n");
return (CMD_WARNING);
}
if (uj) {
count = skiplist_count(lp->ledger);
if (!count) {
vty_out(vty, "{}\n");
return CMD_SUCCESS;
}
json = json_object_new_array();
} else {
vty_out(vty, "Prefix Label\n");
vty_out(vty, "---------------------------\n");
}
for (rc = skiplist_next(lp->ledger, (void **)&dest, (void **)&lcb,
&cursor);
!rc; rc = skiplist_next(lp->ledger, (void **)&dest, (void **)&lcb,
&cursor)) {
if (uj) {
json_elem = json_object_new_object();
json_object_array_add(json, json_elem);
}
switch (lcb->type) {
case LP_TYPE_BGP_LU:
if (!CHECK_FLAG(dest->flags, BGP_NODE_LABEL_REQUESTED))
if (uj) {
json_object_string_add(
json_elem, "prefix", "INVALID");
json_object_int_add(json_elem, "label",
lcb->label);
} else
vty_out(vty, "%-18s %u\n",
"INVALID", lcb->label);
else {
p = bgp_dest_get_prefix(dest);
if (uj) {
json_object_string_addf(
json_elem, "prefix", "%pFX", p);
json_object_int_add(json_elem, "label",
lcb->label);
} else
vty_out(vty, "%-18pFX %u\n", p,
lcb->label);
}
break;
case LP_TYPE_VRF:
if (uj) {
json_object_string_add(json_elem, "prefix",
"VRF");
json_object_int_add(json_elem, "label",
lcb->label);
} else
vty_out(vty, "%-18s %u\n", "VRF",
lcb->label);
break;
case LP_TYPE_NEXTHOP:
if (uj) {
json_object_string_add(json_elem, "prefix",
"nexthop");
json_object_int_add(json_elem, "label",
lcb->label);
} else
vty_out(vty, "%-18s %u\n", "nexthop",
lcb->label);
break;
case LP_TYPE_BGP_L3VPN_BIND:
if (uj) {
json_object_string_add(json_elem, "prefix",
"l3vpn-bind");
json_object_int_add(json_elem, "label",
lcb->label);
} else
vty_out(vty, "%-18s %u\n", "l3vpn-bind",
lcb->label);
break;
}
}
if (uj)
vty_json(vty, json);
return CMD_SUCCESS;
}
DEFUN(show_bgp_labelpool_inuse, show_bgp_labelpool_inuse_cmd,
"show bgp labelpool inuse [json]",
SHOW_STR BGP_STR
"BGP Labelpool information\n"
"BGP Labelpool inuse\n" JSON_STR)
{
bool uj = use_json(argc, argv);
json_object *json = NULL, *json_elem = NULL;
struct bgp_dest *dest;
mpls_label_t label;
struct lp_lcb *lcb;
void *cursor = NULL;
const struct prefix *p;
int rc, count;
if (!lp) {
vty_out(vty, "No existing BGP labelpool\n");
return (CMD_WARNING);
}
if (!lp) {
if (uj)
vty_out(vty, "{}\n");
else
vty_out(vty, "No existing BGP labelpool\n");
return (CMD_WARNING);
}
if (uj) {
count = skiplist_count(lp->inuse);
if (!count) {
vty_out(vty, "{}\n");
return CMD_SUCCESS;
}
json = json_object_new_array();
} else {
vty_out(vty, "Prefix Label\n");
vty_out(vty, "---------------------------\n");
}
for (rc = skiplist_next(lp->inuse, (void **)&label, (void **)&dest,
&cursor);
!rc; rc = skiplist_next(lp->ledger, (void **)&label,
(void **)&dest, &cursor)) {
if (skiplist_search(lp->ledger, dest, (void **)&lcb))
continue;
if (uj) {
json_elem = json_object_new_object();
json_object_array_add(json, json_elem);
}
switch (lcb->type) {
case LP_TYPE_BGP_LU:
if (!CHECK_FLAG(dest->flags, BGP_NODE_LABEL_REQUESTED))
if (uj) {
json_object_string_add(
json_elem, "prefix", "INVALID");
json_object_int_add(json_elem, "label",
label);
} else
vty_out(vty, "INVALID %u\n",
label);
else {
p = bgp_dest_get_prefix(dest);
if (uj) {
json_object_string_addf(
json_elem, "prefix", "%pFX", p);
json_object_int_add(json_elem, "label",
label);
} else
vty_out(vty, "%-18pFX %u\n", p,
label);
}
break;
case LP_TYPE_VRF:
if (uj) {
json_object_string_add(json_elem, "prefix",
"VRF");
json_object_int_add(json_elem, "label", label);
} else
vty_out(vty, "%-18s %u\n", "VRF",
label);
break;
case LP_TYPE_NEXTHOP:
if (uj) {
json_object_string_add(json_elem, "prefix",
"nexthop");
json_object_int_add(json_elem, "label", label);
} else
vty_out(vty, "%-18s %u\n", "nexthop",
label);
break;
case LP_TYPE_BGP_L3VPN_BIND:
if (uj) {
json_object_string_add(json_elem, "prefix",
"l3vpn-bind");
json_object_int_add(json_elem, "label", label);
} else
vty_out(vty, "%-18s %u\n", "l3vpn-bind",
label);
break;
}
}
if (uj)
vty_json(vty, json);
return CMD_SUCCESS;
}
DEFUN(show_bgp_labelpool_requests, show_bgp_labelpool_requests_cmd,
"show bgp labelpool requests [json]",
SHOW_STR BGP_STR
"BGP Labelpool information\n"
"BGP Labelpool requests\n" JSON_STR)
{
bool uj = use_json(argc, argv);
json_object *json = NULL, *json_elem = NULL;
struct bgp_dest *dest;
const struct prefix *p;
struct lp_fifo *item, *next;
int count;
if (!lp) {
if (uj)
vty_out(vty, "{}\n");
else
vty_out(vty, "No existing BGP labelpool\n");
return (CMD_WARNING);
}
if (uj) {
count = lp_fifo_count(&lp->requests);
if (!count) {
vty_out(vty, "{}\n");
return CMD_SUCCESS;
}
json = json_object_new_array();
} else {
vty_out(vty, "Prefix \n");
vty_out(vty, "----------------\n");
}
for (item = lp_fifo_first(&lp->requests); item; item = next) {
next = lp_fifo_next_safe(&lp->requests, item);
dest = item->lcb.labelid;
if (uj) {
json_elem = json_object_new_object();
json_object_array_add(json, json_elem);
}
switch (item->lcb.type) {
case LP_TYPE_BGP_LU:
if (!CHECK_FLAG(dest->flags,
BGP_NODE_LABEL_REQUESTED)) {
if (uj)
json_object_string_add(
json_elem, "prefix", "INVALID");
else
vty_out(vty, "INVALID\n");
} else {
p = bgp_dest_get_prefix(dest);
if (uj)
json_object_string_addf(
json_elem, "prefix", "%pFX", p);
else
vty_out(vty, "%-18pFX\n", p);
}
break;
case LP_TYPE_VRF:
if (uj)
json_object_string_add(json_elem, "prefix",
"VRF");
else
vty_out(vty, "VRF\n");
break;
case LP_TYPE_NEXTHOP:
if (uj)
json_object_string_add(json_elem, "prefix",
"nexthop");
else
vty_out(vty, "Nexthop\n");
break;
case LP_TYPE_BGP_L3VPN_BIND:
if (uj)
json_object_string_add(json_elem, "prefix",
"l3vpn-bind");
else
vty_out(vty, "L3VPN-BIND\n");
break;
}
}
if (uj)
vty_json(vty, json);
return CMD_SUCCESS;
}
DEFUN(show_bgp_labelpool_chunks, show_bgp_labelpool_chunks_cmd,
"show bgp labelpool chunks [json]",
SHOW_STR BGP_STR
"BGP Labelpool information\n"
"BGP Labelpool chunks\n" JSON_STR)
{
bool uj = use_json(argc, argv);
json_object *json = NULL, *json_elem;
struct listnode *node;
struct lp_chunk *chunk;
int count;
if (!lp) {
if (uj)
vty_out(vty, "{}\n");
else
vty_out(vty, "No existing BGP labelpool\n");
return (CMD_WARNING);
}
if (uj) {
count = listcount(lp->chunks);
if (!count) {
vty_out(vty, "{}\n");
return CMD_SUCCESS;
}
json = json_object_new_array();
} else {
vty_out(vty, "%10s %10s %10s %10s\n", "First", "Last", "Size",
"nfree");
vty_out(vty, "-------------------------------------------\n");
}
for (ALL_LIST_ELEMENTS_RO(lp->chunks, node, chunk)) {
uint32_t size;
size = chunk->last - chunk->first + 1;
if (uj) {
json_elem = json_object_new_object();
json_object_array_add(json, json_elem);
json_object_int_add(json_elem, "first", chunk->first);
json_object_int_add(json_elem, "last", chunk->last);
json_object_int_add(json_elem, "size", size);
json_object_int_add(json_elem, "numberFree",
chunk->nfree);
} else
vty_out(vty, "%10u %10u %10u %10u\n", chunk->first,
chunk->last, size, chunk->nfree);
}
if (uj)
vty_json(vty, json);
return CMD_SUCCESS;
}
static void show_bgp_nexthop_label_afi(struct vty *vty, afi_t afi,
struct bgp *bgp, bool detail)
{
struct bgp_label_per_nexthop_cache_head *tree;
struct bgp_label_per_nexthop_cache *iter;
safi_t safi;
void *src;
char buf[PREFIX2STR_BUFFER];
char labelstr[MPLS_LABEL_STRLEN];
struct bgp_dest *dest;
struct bgp_path_info *path;
struct bgp *bgp_path;
struct bgp_table *table;
time_t tbuf;
vty_out(vty, "Current BGP label nexthop cache for %s, VRF %s\n",
afi2str(afi), bgp->name_pretty);
tree = &bgp->mpls_labels_per_nexthop[afi];
frr_each (bgp_label_per_nexthop_cache, tree, iter) {
if (afi2family(afi) == AF_INET)
src = (void *)&iter->nexthop.u.prefix4;
else
src = (void *)&iter->nexthop.u.prefix6;
vty_out(vty, " %s, label %s #paths %u\n",
inet_ntop(afi2family(afi), src, buf, sizeof(buf)),
mpls_label2str(1, &iter->label, labelstr,
sizeof(labelstr), 0, true),
iter->path_count);
if (iter->nh)
vty_out(vty, " if %s\n",
ifindex2ifname(iter->nh->ifindex,
iter->nh->vrf_id));
tbuf = time(NULL) - (monotime(NULL) - iter->last_update);
vty_out(vty, " Last update: %s", ctime_r(&tbuf, buf));
if (!detail)
continue;
vty_out(vty, " Paths:\n");
LIST_FOREACH (path, &(iter->paths),
mplsvpn.blnc.label_nh_thread) {
dest = path->net;
table = bgp_dest_table(dest);
assert(dest && table);
afi = family2afi(bgp_dest_get_prefix(dest)->family);
safi = table->safi;
bgp_path = table->bgp;
if (dest->pdest) {
vty_out(vty, " %d/%d %pBD RD ", afi, safi,
dest);
vty_out(vty, BGP_RD_AS_FORMAT(bgp->asnotation),
(struct prefix_rd *)bgp_dest_get_prefix(
dest->pdest));
vty_out(vty, " %s flags 0x%x\n",
bgp_path->name_pretty, path->flags);
} else
vty_out(vty, " %d/%d %pBD %s flags 0x%x\n",
afi, safi, dest, bgp_path->name_pretty,
path->flags);
}
}
}
DEFPY(show_bgp_nexthop_label, show_bgp_nexthop_label_cmd,
"show bgp [<view|vrf> VIEWVRFNAME] label-nexthop [detail]",
SHOW_STR BGP_STR BGP_INSTANCE_HELP_STR
"BGP label per-nexthop table\n"
"Show detailed information\n")
{
int idx = 0;
char *vrf = NULL;
struct bgp *bgp;
bool detail = false;
int afi;
if (argv_find(argv, argc, "vrf", &idx)) {
vrf = argv[++idx]->arg;
bgp = bgp_lookup_by_name(vrf);
} else
bgp = bgp_get_default();
if (!bgp)
return CMD_SUCCESS;
if (argv_find(argv, argc, "detail", &idx))
detail = true;
for (afi = AFI_IP; afi <= AFI_IP6; afi++)
show_bgp_nexthop_label_afi(vty, afi, bgp, detail);
return CMD_SUCCESS;
}
#if BGP_LABELPOOL_ENABLE_TESTS
/*------------------------------------------------------------------------
* Testing code start
*------------------------------------------------------------------------*/
DEFINE_MTYPE_STATIC(BGPD, LABELPOOL_TEST, "Label pool test");
#define LPT_STAT_INSERT_FAIL 0
#define LPT_STAT_DELETE_FAIL 1
#define LPT_STAT_ALLOCATED 2
#define LPT_STAT_DEALLOCATED 3
#define LPT_STAT_MAX 4
const char *lpt_counter_names[] = {
"sl insert failures",
"sl delete failures",
"labels allocated",
"labels deallocated",
};
static uint8_t lpt_generation;
static bool lpt_inprogress;
static struct skiplist *lp_tests;
static unsigned int lpt_test_cb_tcb_lookup_fails;
static unsigned int lpt_release_tcb_lookup_fails;
static unsigned int lpt_test_event_tcb_lookup_fails;
static unsigned int lpt_stop_tcb_lookup_fails;
struct lp_test {
uint8_t generation;
unsigned int request_maximum;
unsigned int request_blocksize;
uintptr_t request_count; /* match type of labelid */
int label_type;
struct skiplist *labels;
struct timeval starttime;
struct skiplist *timestamps_alloc;
struct skiplist *timestamps_dealloc;
struct event *event_thread;
unsigned int counter[LPT_STAT_MAX];
};
/* test parameters */
#define LPT_MAX_COUNT 500000 /* get this many labels in all */
#define LPT_BLKSIZE 10000 /* this many at a time, then yield */
#define LPT_TS_INTERVAL 10000 /* timestamp every this many labels */
static int test_cb(mpls_label_t label, void *labelid, bool allocated)
{
uintptr_t generation;
struct lp_test *tcb;
generation = ((uintptr_t)labelid >> 24) & 0xff;
if (skiplist_search(lp_tests, (void *)generation, (void **)&tcb)) {
/* couldn't find current test in progress */
++lpt_test_cb_tcb_lookup_fails;
return -1; /* reject allocation */
}
if (allocated) {
++tcb->counter[LPT_STAT_ALLOCATED];
if (!(tcb->counter[LPT_STAT_ALLOCATED] % LPT_TS_INTERVAL)) {
uintptr_t time_ms;
time_ms = monotime_since(&tcb->starttime, NULL) / 1000;
skiplist_insert(tcb->timestamps_alloc,
(void *)(uintptr_t)tcb
->counter[LPT_STAT_ALLOCATED],
(void *)time_ms);
}
if (skiplist_insert(tcb->labels, labelid,
(void *)(uintptr_t)label)) {
++tcb->counter[LPT_STAT_INSERT_FAIL];
return -1;
}
} else {
++tcb->counter[LPT_STAT_DEALLOCATED];
if (!(tcb->counter[LPT_STAT_DEALLOCATED] % LPT_TS_INTERVAL)) {
uintptr_t time_ms;
time_ms = monotime_since(&tcb->starttime, NULL) / 1000;
skiplist_insert(tcb->timestamps_dealloc,
(void *)(uintptr_t)tcb
->counter[LPT_STAT_ALLOCATED],
(void *)time_ms);
}
if (skiplist_delete(tcb->labels, labelid, 0)) {
++tcb->counter[LPT_STAT_DELETE_FAIL];
return -1;
}
}
return 0;
}
static void labelpool_test_event_handler(struct event *thread)
{
struct lp_test *tcb;
if (skiplist_search(lp_tests, (void *)(uintptr_t)(lpt_generation),
(void **)&tcb)) {
/* couldn't find current test in progress */
++lpt_test_event_tcb_lookup_fails;
return;
}
/*
* request a bunch of labels
*/
for (unsigned int i = 0; (i < tcb->request_blocksize) &&
(tcb->request_count < tcb->request_maximum);
++i) {
uintptr_t id;
++tcb->request_count;
/*
* construct 32-bit id from request_count and generation
*/
id = ((uintptr_t)tcb->generation << 24) |
(tcb->request_count & 0x00ffffff);
bgp_lp_get(LP_TYPE_VRF, (void *)id, test_cb);
}
if (tcb->request_count < tcb->request_maximum)
thread_add_event(bm->master, labelpool_test_event_handler, NULL,
0, &tcb->event_thread);
}
static void lptest_stop(void)
{
struct lp_test *tcb;
if (!lpt_inprogress)
return;
if (skiplist_search(lp_tests, (void *)(uintptr_t)(lpt_generation),
(void **)&tcb)) {
/* couldn't find current test in progress */
++lpt_stop_tcb_lookup_fails;
return;
}
if (tcb->event_thread)
event_cancel(&tcb->event_thread);
lpt_inprogress = false;
}
static int lptest_start(struct vty *vty)
{
struct lp_test *tcb;
if (lpt_inprogress) {
vty_out(vty, "test already in progress\n");
return -1;
}
if (skiplist_count(lp_tests) >=
(1 << (8 * sizeof(lpt_generation))) - 1) {
/*
* Too many test runs
*/
vty_out(vty, "too many tests: clear first\n");
return -1;
}
/*
* We pack the generation and request number into the labelid;
* make sure they fit.
*/
unsigned int n1 = LPT_MAX_COUNT;
unsigned int sh = 0;
unsigned int label_bits;
label_bits = 8 * (sizeof(tcb->request_count) - sizeof(lpt_generation));
/* n1 should be same type as tcb->request_maximum */
assert(sizeof(n1) == sizeof(tcb->request_maximum));
while (n1 >>= 1)
++sh;
sh += 1; /* number of bits needed to hold LPT_MAX_COUNT */
if (sh > label_bits) {
vty_out(vty,
"Sorry, test iteration count too big on this platform (LPT_MAX_COUNT %u, need %u bits, but label_bits is only %u)\n",
LPT_MAX_COUNT, sh, label_bits);
return -1;
}
lpt_inprogress = true;
++lpt_generation;
tcb = XCALLOC(MTYPE_LABELPOOL_TEST, sizeof(*tcb));
tcb->generation = lpt_generation;
tcb->label_type = LP_TYPE_VRF;
tcb->request_maximum = LPT_MAX_COUNT;
tcb->request_blocksize = LPT_BLKSIZE;
tcb->labels = skiplist_new(0, NULL, NULL);
tcb->timestamps_alloc = skiplist_new(0, NULL, NULL);
tcb->timestamps_dealloc = skiplist_new(0, NULL, NULL);
thread_add_event(bm->master, labelpool_test_event_handler, NULL, 0,
&tcb->event_thread);
monotime(&tcb->starttime);
skiplist_insert(lp_tests, (void *)(uintptr_t)tcb->generation, tcb);
return 0;
}
DEFPY(start_labelpool_perf_test, start_labelpool_perf_test_cmd,
"debug bgp lptest start",
DEBUG_STR BGP_STR
"label pool test\n"
"start\n")
{
lptest_start(vty);
return CMD_SUCCESS;
}
static void lptest_print_stats(struct vty *vty, struct lp_test *tcb)
{
unsigned int i;
vty_out(vty, "Global Lookup Failures in test_cb: %5u\n",
lpt_test_cb_tcb_lookup_fails);
vty_out(vty, "Global Lookup Failures in release: %5u\n",
lpt_release_tcb_lookup_fails);
vty_out(vty, "Global Lookup Failures in event: %5u\n",
lpt_test_event_tcb_lookup_fails);
vty_out(vty, "Global Lookup Failures in stop: %5u\n",
lpt_stop_tcb_lookup_fails);
vty_out(vty, "\n");
if (!tcb) {
if (skiplist_search(lp_tests, (void *)(uintptr_t)lpt_generation,
(void **)&tcb)) {
vty_out(vty, "Error: can't find test %u\n",
lpt_generation);
return;
}
}
vty_out(vty, "Test Generation %u:\n", tcb->generation);
vty_out(vty, "Counter Value\n");
for (i = 0; i < LPT_STAT_MAX; ++i) {
vty_out(vty, "%20s: %10u\n", lpt_counter_names[i],
tcb->counter[i]);
}
vty_out(vty, "\n");
if (tcb->timestamps_alloc) {
void *Key;
void *Value;
void *cursor;
float elapsed;
vty_out(vty, "%10s %10s\n", "Count", "Seconds");
cursor = NULL;
while (!skiplist_next(tcb->timestamps_alloc, &Key, &Value,
&cursor)) {
elapsed = ((float)(uintptr_t)Value) / 1000;
vty_out(vty, "%10llu %10.3f\n",
(unsigned long long)(uintptr_t)Key, elapsed);
}
vty_out(vty, "\n");
}
}
DEFPY(show_labelpool_perf_test, show_labelpool_perf_test_cmd,
"debug bgp lptest show",
DEBUG_STR BGP_STR
"label pool test\n"
"show\n")
{
if (lp_tests) {
void *Key;
void *Value;
void *cursor;
cursor = NULL;
while (!skiplist_next(lp_tests, &Key, &Value, &cursor)) {
lptest_print_stats(vty, (struct lp_test *)Value);
}
} else {
vty_out(vty, "no test results\n");
}
return CMD_SUCCESS;
}
DEFPY(stop_labelpool_perf_test, stop_labelpool_perf_test_cmd,
"debug bgp lptest stop",
DEBUG_STR BGP_STR
"label pool test\n"
"stop\n")
{
if (lpt_inprogress) {
lptest_stop();
lptest_print_stats(vty, NULL);
} else {
vty_out(vty, "no test in progress\n");
}
return CMD_SUCCESS;
}
DEFPY(clear_labelpool_perf_test, clear_labelpool_perf_test_cmd,
"debug bgp lptest clear",
DEBUG_STR BGP_STR
"label pool test\n"
"clear\n")
{
if (lpt_inprogress) {
lptest_stop();
}
if (lp_tests) {
while (!skiplist_first(lp_tests, NULL, NULL))
/* del function of skiplist cleans up tcbs */
skiplist_delete_first(lp_tests);
}
return CMD_SUCCESS;
}
/*
* With the "release" command, we can release labels at intervals through
* the ID space. Thus we can to exercise the bitfield-wrapping behavior
* of the allocator in a subsequent test.
*/
/* clang-format off */
DEFPY(release_labelpool_perf_test, release_labelpool_perf_test_cmd,
"debug bgp lptest release test GENERATION$generation every (1-5)$every_nth",
DEBUG_STR
BGP_STR
"label pool test\n"
"release labels\n"
"\"test\"\n"
"test number\n"
"\"every\"\n"
"label fraction denominator\n")
{
/* clang-format on */
unsigned long testnum;
char *end;
struct lp_test *tcb;
testnum = strtoul(generation, &end, 0);
if (*end) {
vty_out(vty, "Invalid test number: \"%s\"\n", generation);
return CMD_SUCCESS;
}
if (lpt_inprogress && (testnum == lpt_generation)) {
vty_out(vty,
"Error: Test %lu is still in progress (stop first)\n",
testnum);
return CMD_SUCCESS;
}
if (skiplist_search(lp_tests, (void *)(uintptr_t)testnum,
(void **)&tcb)) {
/* couldn't find current test in progress */
vty_out(vty, "Error: Can't look up test number: \"%lu\"\n",
testnum);
++lpt_release_tcb_lookup_fails;
return CMD_SUCCESS;
}
void *Key, *cKey;
void *Value, *cValue;
void *cursor;
unsigned int iteration;
int rc;
cursor = NULL;
iteration = 0;
rc = skiplist_next(tcb->labels, &Key, &Value, &cursor);
while (!rc) {
cKey = Key;
cValue = Value;
/* find next item before we delete this one */
rc = skiplist_next(tcb->labels, &Key, &Value, &cursor);
if (!(iteration % every_nth)) {
bgp_lp_release(tcb->label_type, cKey,
(mpls_label_t)(uintptr_t)cValue);
skiplist_delete(tcb->labels, cKey, NULL);
++tcb->counter[LPT_STAT_DEALLOCATED];
}
++iteration;
}
return CMD_SUCCESS;
}
static void lptest_delete(void *val)
{
struct lp_test *tcb = (struct lp_test *)val;
void *Key;
void *Value;
void *cursor;
if (tcb->labels) {
cursor = NULL;
while (!skiplist_next(tcb->labels, &Key, &Value, &cursor))
bgp_lp_release(tcb->label_type, Key,
(mpls_label_t)(uintptr_t)Value);
skiplist_free(tcb->labels);
tcb->labels = NULL;
}
if (tcb->timestamps_alloc) {
cursor = NULL;
skiplist_free(tcb->timestamps_alloc);
tcb->timestamps_alloc = NULL;
}
if (tcb->timestamps_dealloc) {
cursor = NULL;
skiplist_free(tcb->timestamps_dealloc);
tcb->timestamps_dealloc = NULL;
}
if (tcb->event_thread)
event_cancel(&tcb->event_thread);
memset(tcb, 0, sizeof(*tcb));
XFREE(MTYPE_LABELPOOL_TEST, tcb);
}
static void lptest_init(void)
{
lp_tests = skiplist_new(0, NULL, lptest_delete);
}
static void lptest_finish(void)
{
if (lp_tests) {
skiplist_free(lp_tests);
lp_tests = NULL;
}
}
/*------------------------------------------------------------------------
* Testing code end
*------------------------------------------------------------------------*/
#endif /* BGP_LABELPOOL_ENABLE_TESTS */
void bgp_lp_vty_init(void)
{
install_element(VIEW_NODE, &show_bgp_labelpool_summary_cmd);
install_element(VIEW_NODE, &show_bgp_labelpool_ledger_cmd);
install_element(VIEW_NODE, &show_bgp_labelpool_inuse_cmd);
install_element(VIEW_NODE, &show_bgp_labelpool_requests_cmd);
install_element(VIEW_NODE, &show_bgp_labelpool_chunks_cmd);
#if BGP_LABELPOOL_ENABLE_TESTS
install_element(ENABLE_NODE, &start_labelpool_perf_test_cmd);
install_element(ENABLE_NODE, &show_labelpool_perf_test_cmd);
install_element(ENABLE_NODE, &stop_labelpool_perf_test_cmd);
install_element(ENABLE_NODE, &release_labelpool_perf_test_cmd);
install_element(ENABLE_NODE, &clear_labelpool_perf_test_cmd);
#endif /* BGP_LABELPOOL_ENABLE_TESTS */
}
DEFINE_MTYPE_STATIC(BGPD, LABEL_PER_NEXTHOP_CACHE,
"BGP Label Per Nexthop entry");
/* The nexthops values are compared to
* find in the tree the appropriate cache entry
*/
int bgp_label_per_nexthop_cache_cmp(const struct bgp_label_per_nexthop_cache *a,
const struct bgp_label_per_nexthop_cache *b)
{
return prefix_cmp(&a->nexthop, &b->nexthop);
}
struct bgp_label_per_nexthop_cache *
bgp_label_per_nexthop_new(struct bgp_label_per_nexthop_cache_head *tree,
struct prefix *nexthop)
{
struct bgp_label_per_nexthop_cache *blnc;
blnc = XCALLOC(MTYPE_LABEL_PER_NEXTHOP_CACHE,
sizeof(struct bgp_label_per_nexthop_cache));
blnc->tree = tree;
blnc->label = MPLS_INVALID_LABEL;
prefix_copy(&blnc->nexthop, nexthop);
LIST_INIT(&(blnc->paths));
bgp_label_per_nexthop_cache_add(tree, blnc);
return blnc;
}
struct bgp_label_per_nexthop_cache *
bgp_label_per_nexthop_find(struct bgp_label_per_nexthop_cache_head *tree,
struct prefix *nexthop)
{
struct bgp_label_per_nexthop_cache blnc = {};
if (!tree)
return NULL;
memcpy(&blnc.nexthop, nexthop, sizeof(struct prefix));
return bgp_label_per_nexthop_cache_find(tree, &blnc);
}
void bgp_label_per_nexthop_free(struct bgp_label_per_nexthop_cache *blnc)
{
if (blnc->label != MPLS_INVALID_LABEL) {
bgp_zebra_send_nexthop_label(ZEBRA_MPLS_LABELS_DELETE,
blnc->label, blnc->nh->ifindex,
blnc->nh->vrf_id, ZEBRA_LSP_BGP,
&blnc->nexthop, 0, NULL);
bgp_lp_release(LP_TYPE_NEXTHOP, blnc, blnc->label);
}
bgp_label_per_nexthop_cache_del(blnc->tree, blnc);
if (blnc->nh)
nexthop_free(blnc->nh);
blnc->nh = NULL;
XFREE(MTYPE_LABEL_PER_NEXTHOP_CACHE, blnc);
}
void bgp_label_per_nexthop_init(void)
{
install_element(VIEW_NODE, &show_bgp_nexthop_label_cmd);
}
|