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|
/*
* Copyright (c) 2017 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.
*/
/*
* cuckoo hash implementation based on paper
* 'Algorithmic Improvements for Fast Concurrent Cuckoo Hashing'
* by Xiaozhou Li, David G. Andersen, Michael Kaminsky, Michael J. Freedman
* and their libcuckoo implementation (https://github.com/efficient/libcuckoo)
*/
#include <vppinfra/vec.h>
int CV (clib_cuckoo_search) (CVT (clib_cuckoo) * h,
CVT (clib_cuckoo_kv) * search_v,
CVT (clib_cuckoo_kv) * return_v)
{
CVT (clib_cuckoo_kv) tmp = *search_v;
int rv = CV (clib_cuckoo_search_inline) (h, &tmp);
if (CLIB_CUCKOO_ERROR_SUCCESS == rv)
{
*return_v = tmp;
}
return rv;
}
static
CVT (clib_cuckoo_bucket) *
CV (clib_cuckoo_bucket_at_index) (CVT (clib_cuckoo) * h, uword bucket)
{
return vec_elt_at_index (h->buckets, bucket);
}
static uword CV (clib_cuckoo_get_nbuckets) (CVT (clib_cuckoo) * h)
{
return vec_len (h->buckets);
}
static inline uword
CV (clib_cuckoo_elt_in_bucket_to_offset) (CVT (clib_cuckoo_bucket) * b,
CVT (clib_cuckoo_kv) * e)
{
ASSERT (e >= b->elts);
ASSERT (e <= &b->elts[sizeof (b->elts) / sizeof (b->elts[0]) - 1]);
return e - b->elts;
}
u8 *CV (format_cuckoo_elt) (u8 * s, va_list * args)
{
CVT (clib_cuckoo_kv) * elt = va_arg (*args, CVT (clib_cuckoo_kv) *);
unsigned reduced_hash = va_arg (*args, unsigned);
if (CV (clib_cuckoo_kv_is_free) (elt))
{
s = format (s, "[ -- empty -- ]");
}
else
{
s = format (s, "[%U, reduced hash: %u]", CV (format_cuckoo_kvp), elt,
reduced_hash);
}
return s;
}
u8 *CV (format_cuckoo_bucket) (u8 * s, va_list * args)
{
CVT (clib_cuckoo_bucket) * bucket =
va_arg (*args, CVT (clib_cuckoo_bucket) *);
int i = 0;
/* *INDENT-OFF* */
clib_cuckoo_bucket_foreach_idx (i)
{
CVT (clib_cuckoo_kv) *elt = bucket->elts + i;
s = format (s, "bucket %p, offset %d: %U\n", bucket, i,
CV (format_cuckoo_elt), elt, bucket->reduced_hashes[i]);
}
/* *INDENT-ON* */
clib_cuckoo_bucket_aux_t aux = bucket->aux;
s = format (s, "version: %lld, use count: %d\n",
clib_cuckoo_bucket_aux_get_version (aux),
clib_cuckoo_bucket_aux_get_use_count (aux));
return s;
}
#if CLIB_CUCKOO_DEBUG
static void CV (clib_cuckoo_deep_self_check) (CVT (clib_cuckoo) * h)
{
CVT (clib_cuckoo_bucket) * bucket;
uword bucket_idx = 0;
/* *INDENT-OFF* */
clib_cuckoo_foreach_bucket (bucket, h, {
int i = 0;
int used = 0;
clib_cuckoo_bucket_foreach_idx (i)
{
CVT (clib_cuckoo_kv) *elt = bucket->elts + i;
if (!CV (clib_cuckoo_kv_is_free) (elt))
{
u64 hash = CV (clib_cuckoo_hash) (elt);
clib_cuckoo_lookup_info_t lookup =
CV (clib_cuckoo_calc_lookup) (h->buckets, hash);
CVT (clib_cuckoo_kv) kv = *elt;
int rv = CV (clib_cuckoo_search) (h, &kv, &kv);
if (CLIB_CUCKOO_ERROR_SUCCESS != rv)
{
CLIB_CUCKOO_DBG ("Search for elt `%U' failed!",
CV (format_cuckoo_elt), elt,
bucket->reduced_hashes[i]);
CLIB_CUCKOO_DBG ("%U", CV (format_cuckoo), h, 1);
}
ASSERT (lookup.bucket1 == bucket_idx || lookup.bucket2 == bucket_idx);
ASSERT (CLIB_CUCKOO_ERROR_SUCCESS == rv);
++used;
}
}
clib_cuckoo_bucket_aux_t aux = bucket->aux;
ASSERT (used == clib_cuckoo_bucket_aux_get_use_count (aux));
++bucket_idx;
});
/* *INDENT-ON* */
// CLIB_CUCKOO_DBG ("Deep self check passed: %U", CV (format_cuckoo), h);
}
#define CLIB_CUCKOO_DEEP_SELF_CHECK(h) CV (clib_cuckoo_deep_self_check) (h)
#define CLIB_CUCKOO_ASSERT_BUCKET_SORTED(b) \
do \
{ \
int i; \
int min_free = CLIB_CUCKOO_KVP_PER_BUCKET; \
int max_used = 0; \
clib_cuckoo_bucket_foreach_idx (i) \
{ \
if (!CV (clib_cuckoo_kv_is_free) (b->elts + i)) \
{ \
max_used = i; \
} \
if (CV (clib_cuckoo_kv_is_free) (b->elts + \
(CLIB_CUCKOO_KVP_PER_BUCKET - i))) \
{ \
min_free = i; \
} \
} \
ASSERT (min_free > max_used); \
} \
while (0)
#else
#define CLIB_CUCKOO_DEEP_SELF_CHECK(h)
#define CLIB_CUCKOO_ASSERT_BUCKET_SORTED(b)
#endif
void CV (clib_cuckoo_init) (CVT (clib_cuckoo) * h, const char *name,
uword nbuckets,
void (*garbage_callback) (CVT (clib_cuckoo) *,
void *),
void *garbage_ctx)
{
uword log2_nbuckets = max_log2 (nbuckets);
nbuckets = 1ULL << (log2_nbuckets);
CLIB_CUCKOO_DBG ("New cuckoo, adjusted nbuckets %wu", nbuckets);
CVT (clib_cuckoo_bucket) * buckets = NULL;
vec_validate_aligned (buckets, nbuckets - 1, CLIB_CACHE_LINE_BYTES);
ASSERT (nbuckets == vec_len (buckets));
h->buckets = buckets;
clib_spinlock_init (&h->writer_lock);
/* mark all elements free ... */
CVT (clib_cuckoo_bucket) * bucket;
/* *INDENT-OFF* */
clib_cuckoo_foreach_bucket (
bucket, h, { clib_memset (bucket->elts, 0xff, sizeof (bucket->elts)); });
/* *INDENT-ON* */
h->name = name;
h->garbage_callback = garbage_callback;
h->garbage_ctx = garbage_ctx;
}
void CV (clib_cuckoo_free) (CVT (clib_cuckoo) * h)
{
clib_memset (h, 0, sizeof (*h));
}
static clib_cuckoo_bucket_aux_t
CV (clib_cuckoo_bucket_version_bump_and_lock) (CVT (clib_cuckoo_bucket) * b)
{
clib_cuckoo_bucket_aux_t aux = b->aux;
u64 version = clib_cuckoo_bucket_aux_get_version (aux);
u8 use_count = clib_cuckoo_bucket_aux_get_use_count (aux);
u8 writer_flag = clib_cuckoo_bucket_aux_get_writer_flag (aux);
ASSERT (0 == writer_flag);
aux = clib_cuckoo_bucket_aux_pack (version + 1, use_count, 1);
b->aux = aux;
return aux;
}
static void CV (clib_cuckoo_bucket_unlock) (CVT (clib_cuckoo_bucket) * b,
clib_cuckoo_bucket_aux_t aux)
{
u64 version = clib_cuckoo_bucket_aux_get_version (aux);
u8 use_count = clib_cuckoo_bucket_aux_get_use_count (aux);
u8 writer_flag = clib_cuckoo_bucket_aux_get_writer_flag (aux);
ASSERT (1 == writer_flag);
aux = clib_cuckoo_bucket_aux_pack (version, use_count, 0);
b->aux = aux;
}
#define CLIB_CUCKOO_DEBUG_PATH (1)
#define CLIB_CUCKOO_DEBUG_PATH_DETAIL (0)
#if CLIB_CUCKOO_DEBUG && CLIB_CUCKOO_DEBUG_PATH
static u8 *CV (format_cuckoo_path) (u8 * s, va_list * args);
#endif
static clib_cuckoo_path_t *CV (clib_cuckoo_path_get) (CVT (clib_cuckoo) * h)
{
clib_cuckoo_path_t *path;
pool_get (h->paths, path);
clib_memset (path, 0, sizeof (*path));
#if CLIB_CUCKOO_DEBUG_PATH_DETAIL
CLIB_CUCKOO_DBG ("Get path @%lu", (long unsigned) (path - h->paths));
#endif
return path;
}
static void CV (clib_cuckoo_path_put) (CVT (clib_cuckoo) * h, uword path_idx)
{
clib_cuckoo_path_t *path = pool_elt_at_index (h->paths, path_idx);
#if CLIB_CUCKOO_DEBUG_PATH_DETAIL
CLIB_CUCKOO_DBG ("Put path @%lu", (long unsigned) (path - h->paths));
#endif
pool_put (h->paths, path);
}
static clib_cuckoo_path_t *CV (clib_cuckoo_path_begin) (CVT (clib_cuckoo) * h,
uword bucket,
uword next_offset)
{
ASSERT (next_offset < CLIB_CUCKOO_KVP_PER_BUCKET);
clib_cuckoo_path_t *new_path = CV (clib_cuckoo_path_get) (h);
new_path->length = 1;
new_path->data = next_offset;
new_path->start = bucket;
new_path->bucket = bucket;
#if CLIB_CUCKOO_DEBUG_PATH
CLIB_CUCKOO_DBG ("Create new path @%wu, length: %u data: %llu bucket: %wu "
"next-offset: %wu",
new_path - h->paths, new_path->length,
(long long unsigned) new_path->data, new_path->bucket,
next_offset);
#endif
return new_path;
}
/**
* create a new path based on existing path extended by adding a bucket
* and offset
*/
static uword CV (clib_cuckoo_path_extend) (CVT (clib_cuckoo) * h,
uword path_idx, uword bucket,
unsigned offset)
{
ASSERT (offset < CLIB_CUCKOO_KVP_PER_BUCKET);
clib_cuckoo_path_t *new_path = CV (clib_cuckoo_path_get) (h);
uword new_path_idx = new_path - h->paths;
clib_cuckoo_path_t *path = pool_elt_at_index (h->paths, path_idx);
new_path->start = path->start;
new_path->length = path->length + 1;
new_path->data = (path->data << CLIB_CUCKOO_LOG2_KVP_PER_BUCKET) + offset;
new_path->bucket = bucket;
#if CLIB_CUCKOO_DEBUG_PATH
CLIB_CUCKOO_DBG ("Extend path @%wu, new path @%wu, %U", path_idx,
new_path_idx, CV (format_cuckoo_path), h, new_path_idx);
#endif
return new_path_idx;
}
/** return the offset of the last element in the path */
static uword CV (clib_cuckoo_path_peek_offset) (const clib_cuckoo_path_t *
path)
{
ASSERT (path->length > 0);
uword mask = (1 << CLIB_CUCKOO_LOG2_KVP_PER_BUCKET) - 1;
uword offset = path->data & mask;
return offset;
}
static
CVT (clib_cuckoo_kv) *
CV (clib_cuckoo_bucket_find_empty) (CVT (clib_cuckoo_bucket) * bucket)
{
clib_cuckoo_bucket_aux_t aux = bucket->aux;
u8 use_count = clib_cuckoo_bucket_aux_get_use_count (aux);
if (use_count < CLIB_CUCKOO_KVP_PER_BUCKET)
{
return bucket->elts + use_count;
}
return NULL;
}
/**
* walk the cuckoo path two ways,
* first backwards, extracting offsets,
* then forward, extracting buckets
*
* buckets and offsets are arrays filled with elements extracted from path
* the arrays must be able to contain CLIB_CUCKOO_BFS_MAX_PATH_LENGTH elements
*/
static void
clib_cuckoo_path_walk (CVT (clib_cuckoo) * h, uword path_idx,
uword * buckets, uword * offsets)
{
clib_cuckoo_path_t *path = pool_elt_at_index (h->paths, path_idx);
ASSERT (path->length > 0);
u64 data = path->data;
uword mask = (1 << CLIB_CUCKOO_LOG2_KVP_PER_BUCKET) - 1;
uword i;
for (i = path->length; i > 0; --i)
{
uword offset = data & mask;
offsets[i - 1] = offset;
data >>= CLIB_CUCKOO_LOG2_KVP_PER_BUCKET;
}
buckets[0] = path->start;
for (i = 1; i < path->length; ++i)
{
CVT (clib_cuckoo_bucket) * b =
CV (clib_cuckoo_bucket_at_index) (h, buckets[i - 1]);
buckets[i] =
clib_cuckoo_get_other_bucket (CV (clib_cuckoo_get_nbuckets) (h),
buckets[i - 1],
b->reduced_hashes[offsets[i - 1]]);
}
}
#if CLIB_CUCKOO_DEBUG && CLIB_CUCKOO_DEBUG_PATH
static u8 *CV (format_cuckoo_path) (u8 * s, va_list * args)
{
CVT (clib_cuckoo) * h = va_arg (*args, CVT (clib_cuckoo) *);
uword path_idx = va_arg (*args, uword);
clib_cuckoo_path_t *p = pool_elt_at_index (h->paths, path_idx);
uword buckets[CLIB_CUCKOO_BFS_MAX_PATH_LENGTH];
uword offsets[CLIB_CUCKOO_BFS_MAX_PATH_LENGTH];
clib_cuckoo_path_walk (h, path_idx, buckets, offsets);
s = format (s, "length %u: ", p->length);
for (uword i = p->length - 1; i > 0; --i)
{
s = format (s, "%wu[%wu]->", buckets[i], offsets[i]);
}
if (p->length)
{
s = format (s, "%wu[%wu]", buckets[0], offsets[0]);
}
return s;
}
#endif
/*
* perform breadth-first search in the cuckoo hash, finding the closest
* empty slot, i.e. one which requires minimum swaps to move it
* to one of the buckets provided
*/
static int CV (clib_cuckoo_find_empty_slot_bfs) (CVT (clib_cuckoo) * h,
clib_cuckoo_lookup_info_t *
lookup, uword * path_idx_out,
uword * found_bucket,
CVT (clib_cuckoo_kv) *
*found_elt)
{
uword *tail;
ASSERT (!vec_len (h->bfs_search_queue));
clib_cuckoo_path_t *tmp;
pool_flush (tmp, h->paths,);
int rv = CLIB_CUCKOO_ERROR_AGAIN;
int counter = 0;
/* start by creating paths starting in each of the buckets ... */
vec_add2 (h->bfs_search_queue, tail, CLIB_CUCKOO_KVP_PER_BUCKET);
int i;
for (i = 0; i < CLIB_CUCKOO_KVP_PER_BUCKET; ++i)
{
clib_cuckoo_path_t *path =
CV (clib_cuckoo_path_begin) (h, lookup->bucket1, i);
tail[i] = path - h->paths;
}
if (lookup->bucket1 != lookup->bucket2)
{
vec_add2 (h->bfs_search_queue, tail, CLIB_CUCKOO_KVP_PER_BUCKET);
for (i = 0; i < CLIB_CUCKOO_KVP_PER_BUCKET; ++i)
{
clib_cuckoo_path_t *path =
CV (clib_cuckoo_path_begin) (h, lookup->bucket2, i);
tail[i] = path - h->paths;
}
}
while (1)
{
if (counter >= CLIB_CUCKOO_BFS_MAX_STEPS)
{
#if CLIB_CUCKOO_DEBUG_COUNTERS
++h->steps_exceeded;
#endif
break;
}
if (counter >= vec_len (h->bfs_search_queue))
{
#if CLIB_CUCKOO_DEBUG_COUNTERS
++h->bfs_queue_emptied;
#endif
break;
}
const uword path_idx = vec_elt (h->bfs_search_queue, counter);
const clib_cuckoo_path_t *path = pool_elt_at_index (h->paths, path_idx);
#if CLIB_CUCKOO_DEBUG_PATH
CLIB_CUCKOO_DBG ("Examine path @%wu: %U", path_idx,
CV (format_cuckoo_path), h, path_idx);
#endif
/* TODO prefetch ? */
/* search the alternative bucket for free space */
int offset = CV (clib_cuckoo_path_peek_offset) (path);
CVT (clib_cuckoo_bucket) * bucket =
CV (clib_cuckoo_bucket_at_index) (h, path->bucket);
uword other_bucket =
clib_cuckoo_get_other_bucket (CV (clib_cuckoo_get_nbuckets) (h),
path->bucket,
bucket->reduced_hashes[offset]);
CLIB_CUCKOO_DBG
("Path ends in bucket %wu, offset #%wu, other bucket is %wu",
path->bucket, CV (clib_cuckoo_path_peek_offset) (path),
other_bucket);
if (path->bucket != other_bucket)
{
if ((*found_elt =
CV (clib_cuckoo_bucket_find_empty) (CV
(clib_cuckoo_bucket_at_index)
(h, other_bucket))))
{
/* found empty element */
*found_bucket = other_bucket;
*path_idx_out = path_idx;
rv = CLIB_CUCKOO_ERROR_SUCCESS;
#if CLIB_CUCKOO_DEBUG_PATH
CLIB_CUCKOO_DBG ("Bucket with empty slot:\n%U",
CV (format_cuckoo_bucket),
CV (clib_cuckoo_bucket_at_index) (h,
other_bucket));
#endif
goto out;
}
/* extend the current path with possible next buckets and add to
* queue */
if (path->length < CLIB_CUCKOO_BFS_MAX_PATH_LENGTH &&
vec_len (h->bfs_search_queue) < CLIB_CUCKOO_BFS_MAX_STEPS)
{
uword *tail;
vec_add2 (h->bfs_search_queue, tail,
CLIB_CUCKOO_KVP_PER_BUCKET);
for (i = 0; i < CLIB_CUCKOO_KVP_PER_BUCKET; ++i)
{
uword new_path_idx =
CV (clib_cuckoo_path_extend) (h, path_idx, other_bucket,
i);
tail[i] = new_path_idx;
}
}
}
else
{
CLIB_CUCKOO_DBG ("Discard path @%wu, loop detected", path_idx);
}
/* done with this path - put back to pool for later reuse */
CV (clib_cuckoo_path_put) (h, path_idx);
++counter;
}
out:
vec_reset_length (h->bfs_search_queue);
return rv;
}
static void CV (clib_cuckoo_swap_elts_in_bucket) (CVT (clib_cuckoo_bucket) *
b, uword e1, uword e2)
{
CVT (clib_cuckoo_kv) kv;
clib_memcpy (&kv, b->elts + e1, sizeof (kv));
clib_memcpy (b->elts + e1, b->elts + e2, sizeof (kv));
clib_memcpy (b->elts + e2, &kv, sizeof (kv));
u8 reduced_hash = b->reduced_hashes[e1];
b->reduced_hashes[e1] = b->reduced_hashes[e2];
b->reduced_hashes[e2] = reduced_hash;
}
static void CV (clib_cuckoo_bucket_tidy) (CVT (clib_cuckoo_bucket) * b)
{
int i = 0;
int j = CLIB_CUCKOO_KVP_PER_BUCKET - 1;
while (i != j)
{
int min_free = i;
int max_used = j;
while (!CV (clib_cuckoo_kv_is_free) (&b->elts[min_free]))
{
++min_free;
}
while (CV (clib_cuckoo_kv_is_free) (&b->elts[max_used]))
{
--max_used;
}
if (min_free < max_used)
{
CV (clib_cuckoo_swap_elts_in_bucket) (b, min_free, max_used);
i = min_free + 1;
j = max_used - 1;
}
else
{
break;
}
}
}
static void CV (clib_cuckoo_free_locked_elt) (CVT (clib_cuckoo_kv) * elt)
{
/*
* FIXME - improve performance by getting rid of this clib_memset - make all
* functions in this file not rely on clib_cuckoo_kv_is_free but instead
* take use_count into account */
clib_memset (elt, 0xff, sizeof (*elt));
}
static void CV (clib_cuckoo_free_elt_in_bucket) (CVT (clib_cuckoo_bucket) * b,
CVT (clib_cuckoo_kv) * elt)
{
clib_cuckoo_bucket_aux_t aux =
CV (clib_cuckoo_bucket_version_bump_and_lock) (b);
int use_count = clib_cuckoo_bucket_aux_get_use_count (aux);
int offset = elt - b->elts;
ASSERT (offset < use_count);
CV (clib_cuckoo_free_locked_elt) (elt);
if (offset != use_count - 1)
{
CV (clib_cuckoo_bucket_tidy) (b);
}
aux = clib_cuckoo_bucket_aux_set_use_count (aux, use_count - 1);
CV (clib_cuckoo_bucket_unlock) (b, aux);
}
static void CV (clib_cuckoo_set_locked_elt) (CVT (clib_cuckoo_bucket) * b,
CVT (clib_cuckoo_kv) * elt,
CVT (clib_cuckoo_kv) * kvp,
u8 reduced_hash)
{
int offset = CV (clib_cuckoo_elt_in_bucket_to_offset) (b, elt);
clib_memcpy (elt, kvp, sizeof (*elt));
b->reduced_hashes[offset] = reduced_hash;
CLIB_CUCKOO_DBG ("Set bucket %p, offset %d, %U", b, offset,
CV (format_cuckoo_elt), elt, b->reduced_hashes[offset]);
}
static void CV (clib_cuckoo_set_elt) (CVT (clib_cuckoo_bucket) * b,
CVT (clib_cuckoo_kv) * elt,
CVT (clib_cuckoo_kv) * kvp,
u8 reduced_hash)
{
clib_cuckoo_bucket_aux_t aux =
CV (clib_cuckoo_bucket_version_bump_and_lock) (b);
CV (clib_cuckoo_set_locked_elt) (b, elt, kvp, reduced_hash);
CV (clib_cuckoo_bucket_unlock) (b, aux);
}
static int CV (clib_cuckoo_add_slow) (CVT (clib_cuckoo) * h,
CVT (clib_cuckoo_kv) * kvp,
clib_cuckoo_lookup_info_t * lookup,
u8 reduced_hash)
{
uword path_idx;
uword empty_bucket_idx;
CVT (clib_cuckoo_kv) * empty_elt;
int rv = CV (clib_cuckoo_find_empty_slot_bfs) (h, lookup, &path_idx,
&empty_bucket_idx,
&empty_elt);
if (CLIB_CUCKOO_ERROR_SUCCESS == rv)
{
uword buckets[CLIB_CUCKOO_BFS_MAX_PATH_LENGTH];
uword offsets[CLIB_CUCKOO_BFS_MAX_PATH_LENGTH];
clib_cuckoo_path_walk (h, path_idx, buckets, offsets);
/*
* walk back the path, moving the free element forward to one of our
* buckets ...
*/
clib_cuckoo_path_t *path = pool_elt_at_index (h->paths, path_idx);
CVT (clib_cuckoo_bucket) * empty_bucket =
CV (clib_cuckoo_bucket_at_index) (h, empty_bucket_idx);
int i;
for (i = path->length - 1; i >= 0; --i)
{
/* copy the key-value in path to the bucket with empty element */
CVT (clib_cuckoo_bucket) * b =
CV (clib_cuckoo_bucket_at_index) (h, buckets[i]);
CVT (clib_cuckoo_kv) * elt = b->elts + offsets[i];
clib_cuckoo_bucket_aux_t empty_aux =
CV (clib_cuckoo_bucket_version_bump_and_lock) (empty_bucket);
CV (clib_cuckoo_set_locked_elt)
(empty_bucket, empty_elt, elt, b->reduced_hashes[elt - b->elts]);
if (i == path->length - 1)
{
/* we only need to increase the use count for the bucket with
* free element - all other buckets' use counts won't change */
empty_aux = clib_cuckoo_bucket_aux_set_use_count (empty_aux,
clib_cuckoo_bucket_aux_get_use_count
(empty_aux) +
1);
}
CV (clib_cuckoo_bucket_unlock) (empty_bucket, empty_aux);
/*
* the element now exists in both places - in the previously empty
* element and in its original bucket - we can now safely overwrite
* the element in the original bucket with previous element in path
* without loosing data (and we don't need to modify the use count)
*/
empty_bucket = b;
empty_elt = elt;
}
/* now we have a place to put the kvp in ... */
CV (clib_cuckoo_set_elt) (empty_bucket, empty_elt, kvp, reduced_hash);
CLIB_CUCKOO_DBG ("Slow insert success, bucket: %p\n%U", empty_bucket,
CV (format_cuckoo_bucket), empty_bucket);
#if CLIB_CUCKOO_DEBUG_COUNTERS
++h->slow_adds;
#endif
}
return rv;
}
static int CV (clib_cuckoo_add_fast) (CVT (clib_cuckoo) * h,
clib_cuckoo_lookup_info_t * lookup,
CVT (clib_cuckoo_kv) * kvp,
u8 reduced_hash)
{
CVT (clib_cuckoo_kv) * elt;
CVT (clib_cuckoo_bucket) * bucket1 =
CV (clib_cuckoo_bucket_at_index) (h, lookup->bucket1);
if ((elt = CV (clib_cuckoo_bucket_find_empty) (bucket1)))
{
clib_cuckoo_bucket_aux_t aux =
CV (clib_cuckoo_bucket_version_bump_and_lock) (bucket1);
CV (clib_cuckoo_set_locked_elt) (bucket1, elt, kvp, reduced_hash);
aux =
clib_cuckoo_bucket_aux_set_use_count (aux,
clib_cuckoo_bucket_aux_get_use_count
(aux) + 1);
CV (clib_cuckoo_bucket_unlock) (bucket1, aux);
#if CLIB_CUCKOO_DEBUG_COUNTERS
++h->fast_adds;
#endif
return CLIB_CUCKOO_ERROR_SUCCESS;
}
CVT (clib_cuckoo_bucket) * bucket2 =
CV (clib_cuckoo_bucket_at_index) (h, lookup->bucket2);
if ((elt =
CV (clib_cuckoo_bucket_find_empty) (CV (clib_cuckoo_bucket_at_index)
(h, lookup->bucket2))))
{
clib_cuckoo_bucket_aux_t aux =
CV (clib_cuckoo_bucket_version_bump_and_lock) (bucket2);
CV (clib_cuckoo_set_locked_elt) (bucket2, elt, kvp, reduced_hash);
aux =
clib_cuckoo_bucket_aux_set_use_count (aux,
clib_cuckoo_bucket_aux_get_use_count
(aux) + 1);
CV (clib_cuckoo_bucket_unlock) (bucket2, aux);
#if CLIB_CUCKOO_DEBUG_COUNTERS
++h->fast_adds;
#endif
return CLIB_CUCKOO_ERROR_SUCCESS;
}
return CLIB_CUCKOO_ERROR_AGAIN;
}
/**
* perform garbage collection
*
* this function assumes there is no other thread touching the cuckoo hash,
* not even a reader, it's meant to be called from main thread
* in a stop-the-world situation
*/
void CV (clib_cuckoo_garbage_collect) (CVT (clib_cuckoo) * h)
{
CLIB_MEMORY_BARRIER ();
CVT (clib_cuckoo_bucket) * *b;
/* *INDENT-OFF* */
vec_foreach (b, h->to_be_freed)
{
if (*b == h->buckets)
{
continue;
}
#if CLIB_CUCKOO_DEBUG_GC
fformat (stdout, "gc: free %p\n", *b);
#endif
vec_free (*b);
}
/* *INDENT-ON* */
vec_free (h->to_be_freed);
CLIB_MEMORY_BARRIER ();
}
/**
* expand and rehash a cuckoo hash
*
* 1. double the size of the hash table
* 2. move items to new locations derived from the new size
*/
static void CV (clib_cuckoo_rehash) (CVT (clib_cuckoo) * h)
{
CVT (clib_cuckoo_bucket) * old = h->buckets;
uword old_nbuckets = vec_len (old);
uword new_nbuckets = 2 * old_nbuckets;
CVT (clib_cuckoo_bucket) * new =
vec_dup_aligned (old, CLIB_CACHE_LINE_BYTES);
/* allocate space */
vec_validate_aligned (new, new_nbuckets - 1, CLIB_CACHE_LINE_BYTES);
ASSERT (new_nbuckets == vec_len (new));
/* store old pointer in to-be-freed list */
vec_add1 (h->to_be_freed, old);
/* mark new elements as free */
CVT (clib_cuckoo_bucket) * bucket;
for (bucket = new + old_nbuckets; bucket < vec_end (new); ++bucket)
{
clib_memset (bucket->elts, 0xff, sizeof (bucket->elts));
}
/*
* this for loop manipulates the new (unseen) memory, so no locks
* are required here
*/
uword old_bucket_idx;
for (old_bucket_idx = 0; old_bucket_idx < old_nbuckets; ++old_bucket_idx)
{
/* items in old bucket might be moved to new bucket */
uword new_bucket_idx = old_bucket_idx + old_nbuckets;
CVT (clib_cuckoo_bucket) * old_bucket = new + old_bucket_idx;
CVT (clib_cuckoo_bucket) * new_bucket = new + new_bucket_idx;
int i = 0;
int moved = 0;
clib_cuckoo_bucket_aux_t aux = old_bucket->aux;
for (i = 0; i < clib_cuckoo_bucket_aux_get_use_count (aux); ++i)
{
CVT (clib_cuckoo_kv) * elt = old_bucket->elts + i;
u64 hash = CV (clib_cuckoo_hash) (elt);
clib_cuckoo_lookup_info_t old_lookup =
CV (clib_cuckoo_calc_lookup) (old, hash);
clib_cuckoo_lookup_info_t new_lookup =
CV (clib_cuckoo_calc_lookup) (new, hash);
if ((old_bucket_idx == old_lookup.bucket1 &&
new_bucket_idx == new_lookup.bucket1) ||
(old_bucket_idx == old_lookup.bucket2 &&
new_bucket_idx == new_lookup.bucket2))
{
/* move the item to new bucket */
CVT (clib_cuckoo_kv) * empty_elt = new_bucket->elts + moved;
ASSERT (empty_elt);
CV (clib_cuckoo_set_locked_elt)
(new_bucket, empty_elt, elt, old_bucket->reduced_hashes[i]);
CV (clib_cuckoo_free_locked_elt) (elt);
++moved;
}
}
if (moved)
{
CV (clib_cuckoo_bucket_tidy) (old_bucket);
aux =
clib_cuckoo_bucket_aux_set_use_count (aux,
clib_cuckoo_bucket_aux_get_use_count
(aux) - moved);
old_bucket->aux = aux;
aux = new_bucket->aux;
aux =
clib_cuckoo_bucket_aux_set_use_count (aux,
clib_cuckoo_bucket_aux_get_use_count
(aux) + moved);
new_bucket->aux = aux;
}
}
h->buckets = new;
#if CLIB_CUCKOO_DEBUG_COUNTERS
++h->rehashes;
#endif
h->garbage_callback (h, h->garbage_ctx);
}
static int CV (clib_cuckoo_bucket_search_internal) (CVT (clib_cuckoo) * h,
uword bucket,
CVT (clib_cuckoo_kv) *
kvp,
CVT (clib_cuckoo_kv) *
*found)
{
CVT (clib_cuckoo_bucket) * b = CV (clib_cuckoo_bucket_at_index) (h, bucket);
int i;
/* *INDENT-OFF* */
clib_cuckoo_bucket_foreach_idx_unrolled (i, {
CVT (clib_cuckoo_kv) *elt = &b->elts[i];
if (CV (clib_cuckoo_key_compare) (elt->key, kvp->key))
{
*found = elt;
return CLIB_CUCKOO_ERROR_SUCCESS;
}
});
/* *INDENT-ON* */
return CLIB_CUCKOO_ERROR_NOT_FOUND;
}
int CV (clib_cuckoo_add_del) (CVT (clib_cuckoo) * h,
CVT (clib_cuckoo_kv) * kvp, int is_add,
int dont_overwrite)
{
CLIB_CUCKOO_DBG ("%s %U", is_add ? "Add" : "Del", CV (format_cuckoo_kvp),
kvp);
clib_cuckoo_lookup_info_t lookup;
u64 hash = CV (clib_cuckoo_hash) (kvp);
u8 reduced_hash = clib_cuckoo_reduce_hash (hash);
clib_spinlock_lock (&h->writer_lock);
restart:
lookup = CV (clib_cuckoo_calc_lookup) (h->buckets, hash);
CVT (clib_cuckoo_bucket) * b =
CV (clib_cuckoo_bucket_at_index) (h, lookup.bucket1);
CVT (clib_cuckoo_kv) * found;
int rv =
CV (clib_cuckoo_bucket_search_internal) (h, lookup.bucket1, kvp, &found);
if (CLIB_CUCKOO_ERROR_SUCCESS != rv)
{
ASSERT (CLIB_CUCKOO_ERROR_NOT_FOUND == rv);
b = CV (clib_cuckoo_bucket_at_index) (h, lookup.bucket2);
rv = CV (clib_cuckoo_bucket_search_internal) (h, lookup.bucket2, kvp,
&found);
}
if (CLIB_CUCKOO_ERROR_SUCCESS == rv)
{
if (is_add)
{
if (dont_overwrite)
{
CLIB_CUCKOO_DBG ("Refused replacing existing %U",
CV (format_cuckoo_elt), found,
b->reduced_hashes[found - b->elts]);
rv = CLIB_CUCKOO_ERROR_AGAIN;
}
else
{
/* prevent readers reading this bucket while we switch the values */
clib_cuckoo_bucket_aux_t aux =
CV (clib_cuckoo_bucket_version_bump_and_lock) (b);
clib_memcpy (&found->value, &kvp->value, sizeof (found->value));
CLIB_CUCKOO_DBG ("Replaced existing %U", CV (format_cuckoo_elt),
found, b->reduced_hashes[found - b->elts]);
CV (clib_cuckoo_bucket_unlock) (b, aux);
rv = CLIB_CUCKOO_ERROR_SUCCESS;
}
}
else
{
CV (clib_cuckoo_free_elt_in_bucket) (b, found);
rv = CLIB_CUCKOO_ERROR_SUCCESS;
}
CLIB_CUCKOO_DEEP_SELF_CHECK (h);
goto unlock;
}
if (!is_add)
{
CLIB_CUCKOO_DBG ("%U not present in table", CV (format_cuckoo_kvp),
kvp);
rv = CLIB_CUCKOO_ERROR_NOT_FOUND;
goto unlock;
}
/* from this point on, it's add code only */
ASSERT (CLIB_CUCKOO_ERROR_NOT_FOUND == rv);
/* fast path: try to search for unoccupied slot in one of the buckets */
rv = CV (clib_cuckoo_add_fast) (h, &lookup, kvp, reduced_hash);
CLIB_CUCKOO_DEEP_SELF_CHECK (h);
if (CLIB_CUCKOO_ERROR_SUCCESS != rv)
{
CLIB_CUCKOO_DBG
("Fast insert failed, bucket 1: %wu, bucket 2: %wu\n%U%U",
lookup.bucket1, lookup.bucket2, CV (format_cuckoo_bucket),
CV (clib_cuckoo_bucket_at_index) (h, lookup.bucket1),
CV (format_cuckoo_bucket),
CV (clib_cuckoo_bucket_at_index) (h, lookup.bucket2));
/* slow path */
rv = CV (clib_cuckoo_add_slow) (h, kvp, &lookup, reduced_hash);
CLIB_CUCKOO_DEEP_SELF_CHECK (h);
if (CLIB_CUCKOO_ERROR_SUCCESS != rv)
{
CLIB_CUCKOO_DBG ("Slow insert failed, rehash required:\n%U",
CV (format_cuckoo), h, 1);
/* ultra slow path */
CV (clib_cuckoo_rehash) (h);
CLIB_CUCKOO_DEEP_SELF_CHECK (h);
CLIB_CUCKOO_DBG ("Restarting add after rehash...");
goto restart;
}
}
unlock:
clib_spinlock_unlock (&h->writer_lock);
return rv;
}
u8 *CV (format_cuckoo) (u8 * s, va_list * args)
{
CVT (clib_cuckoo) * h = va_arg (*args, CVT (clib_cuckoo) *);
int verbose = va_arg (*args, int);
s = format (s, "Hash table %s\n", h->name ? h->name : "(unnamed)");
uword free = 0;
uword used = 0;
uword use_count_total = 0;
float load_factor;
CVT (clib_cuckoo_bucket) * b;
/* *INDENT-OFF* */
clib_cuckoo_foreach_bucket (b, h, {
if (verbose)
{
s = format (s, "%U", CV (format_cuckoo_bucket), b);
}
int i;
clib_cuckoo_bucket_foreach_idx (i)
{
CVT (clib_cuckoo_kv) *elt = &b->elts[i];
if (CV (clib_cuckoo_kv_is_free) (elt))
{
++free;
}
else
{
++used;
}
}
clib_cuckoo_bucket_aux_t aux = b->aux;
use_count_total += clib_cuckoo_bucket_aux_get_use_count (aux);
});
/* *INDENT-ON* */
s = format (s, "Used slots: %wu\n", used);
s = format (s, "Use count total: %wu\n", use_count_total);
s = format (s, "Free slots: %wu\n", free);
if (free + used != 0)
load_factor = ((float) used) / ((float) (free + used));
else
load_factor = 0.0;
s = format (s, "Load factor: %.2f\n", load_factor);
#if CLIB_CUCKOO_DEBUG_COUNTERS
s = format (s, "BFS attempts limited by max steps: %lld\n",
h->steps_exceeded);
s = format (s, "BFS cutoffs due to empty queue: %lld\n",
h->bfs_queue_emptied);
s = format (s, "Fast adds: %lld\n", h->fast_adds);
s = format (s, "Slow adds: %lld\n", h->slow_adds);
s = format (s, "Rehashes: %lld\n", h->rehashes);
#endif
return s;
}
float CV (clib_cuckoo_calculate_load_factor) (CVT (clib_cuckoo) * h)
{
uword nonfree = 0;
uword all = 0;
CVT (clib_cuckoo_bucket) * bucket;
/* *INDENT-OFF* */
clib_cuckoo_foreach_bucket (bucket, h, {
int i;
clib_cuckoo_bucket_foreach_idx (i)
{
CVT (clib_cuckoo_kv) *elt = bucket->elts + i;
++all;
if (!CV (clib_cuckoo_kv_is_free) (elt))
{
++nonfree;
}
}
});
/* *INDENT-ON* */
if (all)
return (float) nonfree / (float) all;
else
return 0.0;
}
/** @endcond */
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
|
