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/*
* Copyright (c) 2016 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.
*/
/**
* @brief
*/
#include <vnet/fib/fib_path.h>
#include <vnet/fib/fib_node_list.h>
#include <vnet/dpo/load_balance_map.h>
#include <vnet/dpo/load_balance.h>
/**
* A hash-table of load-balance maps by path index.
* this provides the fast lookup of the LB map when a path goes down
*/
static uword *lb_maps_by_path_index;
/**
* A hash-table of load-balance maps by set of paths.
* This provides the LB map sharing.
* LB maps do not necessarily use all the paths in the list, since
* the entry that is requesting the map, may not have an out-going
* label for each of the paths.
*/
static uword *load_balance_map_db;
typedef enum load_balance_map_path_flags_t_
{
LOAD_BALANCE_MAP_PATH_UP = (1 << 0),
LOAD_BALANCE_MAP_PATH_USABLE = (1 << 1),
} __attribute__ ((packed)) load_balance_map_path_flags_t;
typedef struct load_balance_map_path_t_ {
/**
* Index of the path
*/
fib_node_index_t lbmp_index;
/**
* Sibling Index in the list of all maps with this path index
*/
fib_node_index_t lbmp_sibling;
/**
* the normalised wegiht of the path
*/
u32 lbmp_weight;
/**
* The sate of the path
*/
load_balance_map_path_flags_t lbmp_flags;
} load_balance_map_path_t;
/**
* The global pool of LB maps
*/
load_balance_map_t *load_balance_map_pool;
/**
* the logger
*/
vlib_log_class_t load_balance_map_logger;
/*
* Debug macro
*/
#define LOAD_BALANCE_MAP_DBG(_pl, _fmt, _args...) \
{ \
vlib_log_debug(load_balance_map_logger, \
"lbm:" _fmt, \
##_args); \
}
static index_t
load_balance_map_get_index (load_balance_map_t *lbm)
{
return (lbm - load_balance_map_pool);
}
u8*
format_load_balance_map (u8 *s, va_list * ap)
{
index_t lbmi = va_arg(*ap, index_t);
u32 indent = va_arg(*ap, u32);
load_balance_map_t *lbm;
u32 n_buckets, ii;
lbm = load_balance_map_get(lbmi);
n_buckets = vec_len(lbm->lbm_buckets);
s = format(s, "load-balance-map: index:%d buckets:%d", lbmi, n_buckets);
s = format(s, "\n%U index:", format_white_space, indent+2);
for (ii = 0; ii < n_buckets; ii++)
{
s = format(s, "%5d", ii);
}
s = format(s, "\n%U map:", format_white_space, indent+2);
for (ii = 0; ii < n_buckets; ii++)
{
s = format(s, "%5d", lbm->lbm_buckets[ii]);
}
return (s);
}
static uword
load_balance_map_hash (load_balance_map_t *lbm)
{
u32 old_lbm_hash, new_lbm_hash, hash;
load_balance_map_path_t *lb_path;
new_lbm_hash = old_lbm_hash = vec_len(lbm->lbm_paths);
vec_foreach (lb_path, lbm->lbm_paths)
{
hash = lb_path->lbmp_index;
hash_mix32(hash, old_lbm_hash, new_lbm_hash);
}
return (new_lbm_hash);
}
always_inline uword
load_balance_map_db_hash_key_from_index (uword index)
{
return 1 + 2*index;
}
always_inline uword
load_balance_map_db_hash_key_is_index (uword key)
{
return key & 1;
}
always_inline uword
load_balance_map_db_hash_key_2_index (uword key)
{
ASSERT (load_balance_map_db_hash_key_is_index (key));
return key / 2;
}
static load_balance_map_t*
load_balance_map_db_get_from_hash_key (uword key)
{
load_balance_map_t *lbm;
if (load_balance_map_db_hash_key_is_index (key))
{
index_t lbm_index;
lbm_index = load_balance_map_db_hash_key_2_index(key);
lbm = load_balance_map_get(lbm_index);
}
else
{
lbm = uword_to_pointer (key, load_balance_map_t *);
}
return (lbm);
}
static uword
load_balance_map_db_hash_key_sum (hash_t * h,
uword key)
{
load_balance_map_t *lbm;
lbm = load_balance_map_db_get_from_hash_key(key);
return (load_balance_map_hash(lbm));
}
static uword
load_balance_map_db_hash_key_equal (hash_t * h,
uword key1,
uword key2)
{
load_balance_map_t *lbm1, *lbm2;
lbm1 = load_balance_map_db_get_from_hash_key(key1);
lbm2 = load_balance_map_db_get_from_hash_key(key2);
return (load_balance_map_hash(lbm1) ==
load_balance_map_hash(lbm2));
}
static index_t
load_balance_map_db_find (load_balance_map_t *lbm)
{
uword *p;
p = hash_get(load_balance_map_db, lbm);
if (NULL != p)
{
return p[0];
}
return (FIB_NODE_INDEX_INVALID);
}
static void
load_balance_map_db_insert (load_balance_map_t *lbm)
{
load_balance_map_path_t *lbmp;
fib_node_list_t list;
uword *p;
ASSERT(FIB_NODE_INDEX_INVALID == load_balance_map_db_find(lbm));
/*
* insert into the DB based on the set of paths.
*/
hash_set (load_balance_map_db,
load_balance_map_db_hash_key_from_index(
load_balance_map_get_index(lbm)),
load_balance_map_get_index(lbm));
/*
* insert into each per-path list.
*/
vec_foreach(lbmp, lbm->lbm_paths)
{
p = hash_get(lb_maps_by_path_index, lbmp->lbmp_index);
if (NULL == p)
{
list = fib_node_list_create();
hash_set(lb_maps_by_path_index, lbmp->lbmp_index, list);
}
else
{
list = p[0];
}
lbmp->lbmp_sibling =
fib_node_list_push_front(list,
0, FIB_NODE_TYPE_FIRST,
load_balance_map_get_index(lbm));
}
LOAD_BALANCE_MAP_DBG(lbm, "DB-inserted");
}
static void
load_balance_map_db_remove (load_balance_map_t *lbm)
{
load_balance_map_path_t *lbmp;
uword *p;
ASSERT(FIB_NODE_INDEX_INVALID != load_balance_map_db_find(lbm));
hash_unset(load_balance_map_db,
load_balance_map_db_hash_key_from_index(
load_balance_map_get_index(lbm)));
/*
* remove from each per-path list.
*/
vec_foreach(lbmp, lbm->lbm_paths)
{
p = hash_get(lb_maps_by_path_index, lbmp->lbmp_index);
ALWAYS_ASSERT(NULL != p);
fib_node_list_remove(p[0], lbmp->lbmp_sibling);
}
LOAD_BALANCE_MAP_DBG(lbm, "DB-removed");
}
/**
* @brief from the paths that are usable, fill the Map.
*/
static void
load_balance_map_fill (load_balance_map_t *lbm)
{
load_balance_map_path_t *lbmp;
u32 n_buckets, bucket, ii, jj;
u16 *tmp_buckets;
tmp_buckets = NULL;
n_buckets = vec_len(lbm->lbm_buckets);
/*
* run throught the set of paths once, and build a vector of the
* indices that are usable. we do this is a scratch space, since we
* need to refer to it multiple times as we build the real buckets.
*/
vec_validate(tmp_buckets, n_buckets-1);
bucket = jj = 0;
vec_foreach (lbmp, lbm->lbm_paths)
{
if (fib_path_is_resolved(lbmp->lbmp_index))
{
for (ii = 0; ii < lbmp->lbmp_weight; ii++)
{
tmp_buckets[jj++] = bucket++;
}
}
else
{
bucket += lbmp->lbmp_weight;
}
}
_vec_len(tmp_buckets) = jj;
/*
* If the number of temporaries written is as many as we need, implying
* all paths were up, then we can simply copy the scratch area over the
* actual buckets' memory
*/
if (jj == n_buckets)
{
memcpy(lbm->lbm_buckets,
tmp_buckets,
sizeof(lbm->lbm_buckets[0]) * n_buckets);
}
else
{
/*
* one or more paths are down.
*/
if (0 == vec_len(tmp_buckets))
{
/*
* if the scratch area is empty, then no paths are usable.
* they will all drop. so use them all, lest we account drops
* against only one.
*/
for (bucket = 0; bucket < n_buckets; bucket++)
{
lbm->lbm_buckets[bucket] = bucket;
}
}
else
{
bucket = jj = 0;
vec_foreach (lbmp, lbm->lbm_paths)
{
if (fib_path_is_resolved(lbmp->lbmp_index))
{
for (ii = 0; ii < lbmp->lbmp_weight; ii++)
{
lbm->lbm_buckets[bucket] = bucket;
bucket++;
}
}
else
{
/*
* path is unusable
* cycle through the scratch space selecting a index.
* this means we load balance, in the intended ratio,
* over the paths that are still usable.
*/
for (ii = 0; ii < lbmp->lbmp_weight; ii++)
{
lbm->lbm_buckets[bucket] = tmp_buckets[jj];
jj = (jj + 1) % vec_len(tmp_buckets);
bucket++;
}
}
}
}
}
vec_free(tmp_buckets);
}
static load_balance_map_t*
load_balance_map_alloc (const load_balance_path_t *paths)
{
load_balance_map_t *lbm;
u32 ii;
vlib_main_t *vm;
u8 did_barrier_sync;
dpo_pool_barrier_sync (vm, load_balance_map_pool, did_barrier_sync);
pool_get_aligned(load_balance_map_pool, lbm, CLIB_CACHE_LINE_BYTES);
dpo_pool_barrier_release (vm, did_barrier_sync);
clib_memset(lbm, 0, sizeof(*lbm));
vec_validate(lbm->lbm_paths, vec_len(paths)-1);
vec_foreach_index(ii, paths)
{
lbm->lbm_paths[ii].lbmp_index = paths[ii].path_index;
lbm->lbm_paths[ii].lbmp_weight = paths[ii].path_weight;
}
return (lbm);
}
static load_balance_map_t *
load_balance_map_init (load_balance_map_t *lbm,
u32 n_buckets,
u32 sum_of_weights)
{
lbm->lbm_sum_of_norm_weights = sum_of_weights;
vec_validate(lbm->lbm_buckets, n_buckets-1);
load_balance_map_db_insert(lbm);
load_balance_map_fill(lbm);
load_balance_map_logger =
vlib_log_register_class ("dpo", "load-balance-map");
return (lbm);
}
static void
load_balance_map_destroy (load_balance_map_t *lbm)
{
vec_free(lbm->lbm_paths);
vec_free(lbm->lbm_buckets);
pool_put(load_balance_map_pool, lbm);
}
index_t
load_balance_map_add_or_lock (u32 n_buckets,
u32 sum_of_weights,
const load_balance_path_t *paths)
{
load_balance_map_t *tmp, *lbm;
index_t lbmi;
tmp = load_balance_map_alloc(paths);
lbmi = load_balance_map_db_find(tmp);
if (INDEX_INVALID == lbmi)
{
lbm = load_balance_map_init(tmp, n_buckets, sum_of_weights);
}
else
{
lbm = load_balance_map_get(lbmi);
load_balance_map_destroy(tmp);
}
lbm->lbm_locks++;
return (load_balance_map_get_index(lbm));
}
void
load_balance_map_lock (index_t lbmi)
{
load_balance_map_t *lbm;
lbm = load_balance_map_get(lbmi);
lbm->lbm_locks++;
}
void
load_balance_map_unlock (index_t lbmi)
{
load_balance_map_t *lbm;
if (INDEX_INVALID == lbmi)
{
return;
}
lbm = load_balance_map_get(lbmi);
lbm->lbm_locks--;
if (0 == lbm->lbm_locks)
{
load_balance_map_db_remove(lbm);
load_balance_map_destroy(lbm);
}
}
static walk_rc_t
load_balance_map_path_state_change_walk (fib_node_ptr_t *fptr,
void *ctx)
{
load_balance_map_t *lbm;
lbm = load_balance_map_get(fptr->fnp_index);
load_balance_map_fill(lbm);
return (WALK_CONTINUE);
}
/**
* @brief the state of a path has changed (it has no doubt gone down).
* This is the trigger to perform a PIC edge cutover and update the maps
* to exclude this path.
*/
void
load_balance_map_path_state_change (fib_node_index_t path_index)
{
uword *p;
/*
* re-stripe the buckets for each affect MAP
*/
p = hash_get(lb_maps_by_path_index, path_index);
if (NULL == p)
return;
fib_node_list_walk(p[0], load_balance_map_path_state_change_walk, NULL);
}
/**
* @brief Make/add a new or lock an existing Load-balance map
*/
void
load_balance_map_module_init (void)
{
load_balance_map_db =
hash_create2 (/* elts */ 0,
/* user */ 0,
/* value_bytes */ sizeof (index_t),
load_balance_map_db_hash_key_sum,
load_balance_map_db_hash_key_equal,
/* format pair/arg */
0, 0);
lb_maps_by_path_index = hash_create(0, sizeof(fib_node_list_t));
}
void
load_balance_map_show_mem (void)
{
fib_show_memory_usage("Load-Balance Map",
pool_elts(load_balance_map_pool),
pool_len(load_balance_map_pool),
sizeof(load_balance_map_t));
}
static clib_error_t *
load_balance_map_show (vlib_main_t * vm,
unformat_input_t * input,
vlib_cli_command_t * cmd)
{
index_t lbmi = INDEX_INVALID;
while (unformat_check_input (input) != UNFORMAT_END_OF_INPUT)
{
if (unformat (input, "%d", &lbmi))
;
else
break;
}
if (INDEX_INVALID != lbmi)
{
vlib_cli_output (vm, "%U", format_load_balance_map, lbmi, 0);
}
else
{
load_balance_map_t *lbm;
pool_foreach (lbm, load_balance_map_pool)
{
vlib_cli_output (vm, "%U", format_load_balance_map,
load_balance_map_get_index(lbm), 0);
}
}
return 0;
}
VLIB_CLI_COMMAND (load_balance_map_show_command, static) = {
.path = "show load-balance-map",
.short_help = "show load-balance-map [<index>]",
.function = load_balance_map_show,
};
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