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/*
* Copyright (c) 2021 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "../hashtb.h"
#include "../strategy_dpo_manager.h"
#include "../error.h"
#include "cs_lru.h"
#include "cs_policy.h"
hicn_cs_policy_vft_t hicn_cs_lru = {
.hicn_cs_insert = &hicn_cs_lru_insert,
.hicn_cs_update = &hicn_cs_lru_update_head,
.hicn_cs_dequeue = &hicn_cs_lru_dequeue,
.hicn_cs_delete_get = &hicn_cs_lru_delete_get,
.hicn_cs_trim = &hicn_cs_lru_trim,
.hicn_cs_flush = &hicn_cs_lru_flush,
};
/*
* Insert a new CS element at the head of the CS LRU
*/
void
hicn_cs_lru_insert (hicn_pit_cs_t *p, hicn_hash_node_t *node,
hicn_pcs_entry_t *pcs, hicn_cs_policy_t *policy_state)
{
hicn_hash_node_t *lrunode;
hicn_pcs_entry_t *lrupcs;
u32 idx;
idx = hicn_hashtb_node_idx_from_node (p->pcs_table, node);
if (policy_state->head != 0)
{
lrunode = hicn_hashtb_node_from_idx (p->pcs_table, policy_state->head);
lrupcs = hicn_pit_get_data (lrunode);
ASSERT (lrupcs->u.cs.cs_lru_prev == 0);
lrupcs->u.cs.cs_lru_prev = idx;
pcs->u.cs.cs_lru_prev = 0;
pcs->u.cs.cs_lru_next = policy_state->head;
policy_state->head = idx;
}
else
{
ASSERT (policy_state->tail == 0); /* We think the list is
* empty */
policy_state->head = policy_state->tail = idx;
pcs->u.cs.cs_lru_next = pcs->u.cs.cs_lru_prev = 0;
}
policy_state->count++;
}
void
hicn_cs_lru_delete_get (hicn_pit_cs_t *p, hicn_cs_policy_t *policy_state,
hicn_hash_node_t **nodep, hicn_pcs_entry_t **pcs_entry,
hicn_hash_entry_t **hash_entry)
{
*nodep = hicn_hashtb_node_from_idx (p->pcs_table, policy_state->tail);
*pcs_entry = hicn_pit_get_data (*nodep);
*hash_entry = hicn_hashtb_get_entry (
p->pcs_table, (*nodep)->entry_idx, (*nodep)->bucket_id,
(*nodep)->hn_flags & HICN_HASH_NODE_OVERFLOW_BUCKET);
}
/*
* Dequeue an LRU element, for example when it has expired.
*/
void
hicn_cs_lru_dequeue (hicn_pit_cs_t *pit, hicn_hash_node_t *pnode,
hicn_pcs_entry_t *pcs, hicn_cs_policy_t *lru)
{
hicn_hash_node_t *lrunode;
hicn_pcs_entry_t *lrupcs;
if (pcs->u.cs.cs_lru_prev != 0)
{
/* Not already on the head of the LRU */
lrunode =
hicn_hashtb_node_from_idx (pit->pcs_table, pcs->u.cs.cs_lru_prev);
lrupcs = hicn_pit_get_data (lrunode);
lrupcs->u.cs.cs_lru_next = pcs->u.cs.cs_lru_next;
}
else
{
ASSERT (lru->head ==
hicn_hashtb_node_idx_from_node (pit->pcs_table, pnode));
lru->head = pcs->u.cs.cs_lru_next;
}
if (pcs->u.cs.cs_lru_next != 0)
{
/* Not already the end of the LRU */
lrunode =
hicn_hashtb_node_from_idx (pit->pcs_table, pcs->u.cs.cs_lru_next);
lrupcs = hicn_pit_get_data (lrunode);
lrupcs->u.cs.cs_lru_prev = pcs->u.cs.cs_lru_prev;
}
else
{
/* This was the last LRU element */
ASSERT (lru->tail ==
hicn_hashtb_node_idx_from_node (pit->pcs_table, pnode));
lru->tail = pcs->u.cs.cs_lru_prev;
}
pcs->u.cs.cs_lru_next = pcs->u.cs.cs_lru_prev = 0;
lru->count--;
}
/*
* Move a CS LRU element to the head, probably after it's been used.
*/
void
hicn_cs_lru_update_head (hicn_pit_cs_t *pit, hicn_hash_node_t *pnode,
hicn_pcs_entry_t *pcs, hicn_cs_policy_t *lru)
{
if (pcs->u.cs.cs_lru_prev != 0)
{
/*
* Not already on the head of the LRU, detach it from its
* current position
*/
hicn_cs_lru_dequeue (pit, pnode, pcs, lru);
/* Now detached from the list; attach at head */
hicn_cs_lru_insert (pit, pnode, pcs, lru);
}
else
{
/* The element is already dequeue */
if (pcs->u.cs.cs_lru_next == 0)
{
/* Now detached from the list; attach at head */
hicn_cs_lru_insert (pit, pnode, pcs, lru);
}
ASSERT (lru->head ==
hicn_hashtb_node_idx_from_node (pit->pcs_table, pnode));
}
}
/*
* Remove a batch of nodes from the CS LRU, copying their node indexes into
* the caller's array. We expect this is done when the LRU size exceeds the
* CS's limit. Return the number of removed nodes.
*/
int
hicn_cs_lru_trim (hicn_pit_cs_t *pit, u32 *node_list, int sz,
hicn_cs_policy_t *lru)
{
hicn_hash_node_t *lrunode;
hicn_pcs_entry_t *lrupcs;
u32 idx;
int i;
idx = lru->tail;
for (i = 0; i < sz; i++)
{
if (idx == 0)
{
break;
}
lrunode = hicn_hashtb_node_from_idx (pit->pcs_table, idx);
lrupcs = hicn_pit_get_data (lrunode);
node_list[i] = idx;
idx = lrupcs->u.cs.cs_lru_prev;
lrupcs->u.cs.cs_lru_prev = 0;
lrupcs->u.cs.cs_lru_next = 0;
}
lru->count -= i;
lru->tail = idx;
if (idx != 0)
{
lrunode = hicn_hashtb_node_from_idx (pit->pcs_table, idx);
lrupcs = hicn_pit_get_data (lrunode);
lrupcs->u.cs.cs_lru_next = 0;
}
else
{
/* If the tail is empty, the whole lru is empty */
lru->head = 0;
}
return (i);
}
int
hicn_cs_lru_flush (vlib_main_t *vm, struct hicn_pit_cs_s *pitcs,
hicn_cs_policy_t *state)
{
if (state->head == 0 && state->tail == 0)
return 0;
hicn_hash_node_t *lrunode;
hicn_pcs_entry_t *lrupcs;
u32 idx;
int i = 0;
idx = state->tail;
while (idx != 0)
{
lrunode = hicn_hashtb_node_from_idx (pitcs->pcs_table, idx);
lrupcs = hicn_pit_get_data (lrunode);
u64 hashval = 0;
hicn_hashtb_fullhash ((u8 *) &(lrunode->hn_key.ks.key),
lrunode->hn_keysize, &hashval);
hicn_hash_bucket_t *bucket = NULL;
if ((hashval & (pitcs->pcs_table->ht_bucket_count - 1)) ==
lrunode->bucket_id)
{
// The bucket is in the non overflown
bucket = pitcs->pcs_table->ht_buckets + lrunode->bucket_id;
}
else
{
bucket = pool_elt_at_index (pitcs->pcs_table->ht_overflow_buckets,
lrunode->bucket_id);
}
hicn_hash_entry_t *hash_entry =
&(bucket->hb_entries[lrunode->entry_idx]);
hash_entry->locks++;
hicn_pcs_cs_delete (vm, pitcs, &lrupcs, &lrunode, hash_entry, NULL,
NULL);
idx = state->tail;
i++;
}
return (i);
}
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables: eval: (c-set-style "gnu") End:
*/
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