return ret;
}
+/* Search one bucket to find the match key - uses rw lock */
+static inline int32_t
+search_one_bucket_l(const struct rte_hash *h, const void *key,
+ uint16_t sig, void **data,
+ const struct rte_hash_bucket *bkt)
+{
+ int i;
+ struct rte_hash_key *k, *keys = h->key_store;
+
+ for (i = 0; i < RTE_HASH_BUCKET_ENTRIES; i++) {
+ if (bkt->sig_current[i] == sig &&
+ bkt->key_idx[i] != EMPTY_SLOT) {
+ k = (struct rte_hash_key *) ((char *)keys +
+ bkt->key_idx[i] * h->key_entry_size);
+
+ if (rte_hash_cmp_eq(key, k->key, h) == 0) {
+ if (data != NULL)
+ *data = k->pdata;
+ /*
+ * Return index where key is stored,
+ * subtracting the first dummy index
+ */
+ return bkt->key_idx[i] - 1;
+ }
+ }
+ }
+ return -1;
+}
+
/* Search one bucket to find the match key */
static inline int32_t
-search_one_bucket(const struct rte_hash *h, const void *key, uint16_t sig,
+search_one_bucket_lf(const struct rte_hash *h, const void *key, uint16_t sig,
void **data, const struct rte_hash_bucket *bkt)
{
int i;
}
static inline int32_t
-__rte_hash_lookup_with_hash(const struct rte_hash *h, const void *key,
- hash_sig_t sig, void **data)
+__rte_hash_lookup_with_hash_l(const struct rte_hash *h, const void *key,
+ hash_sig_t sig, void **data)
{
uint32_t prim_bucket_idx, sec_bucket_idx;
struct rte_hash_bucket *bkt, *cur_bkt;
- uint32_t cnt_b, cnt_a;
int ret;
uint16_t short_sig;
prim_bucket_idx = get_prim_bucket_index(h, sig);
sec_bucket_idx = get_alt_bucket_index(h, prim_bucket_idx, short_sig);
+ bkt = &h->buckets[prim_bucket_idx];
+
__hash_rw_reader_lock(h);
+ /* Check if key is in primary location */
+ ret = search_one_bucket_l(h, key, short_sig, data, bkt);
+ if (ret != -1) {
+ __hash_rw_reader_unlock(h);
+ return ret;
+ }
+ /* Calculate secondary hash */
+ bkt = &h->buckets[sec_bucket_idx];
+
+ /* Check if key is in secondary location */
+ FOR_EACH_BUCKET(cur_bkt, bkt) {
+ ret = search_one_bucket_l(h, key, short_sig,
+ data, cur_bkt);
+ if (ret != -1) {
+ __hash_rw_reader_unlock(h);
+ return ret;
+ }
+ }
+
+ __hash_rw_reader_unlock(h);
+
+ return -ENOENT;
+}
+
+static inline int32_t
+__rte_hash_lookup_with_hash_lf(const struct rte_hash *h, const void *key,
+ hash_sig_t sig, void **data)
+{
+ uint32_t prim_bucket_idx, sec_bucket_idx;
+ struct rte_hash_bucket *bkt, *cur_bkt;
+ uint32_t cnt_b, cnt_a;
+ int ret;
+ uint16_t short_sig;
+
+ short_sig = get_short_sig(sig);
+ prim_bucket_idx = get_prim_bucket_index(h, sig);
+ sec_bucket_idx = get_alt_bucket_index(h, prim_bucket_idx, short_sig);
+
do {
/* Load the table change counter before the lookup
* starts. Acquire semantics will make sure that
/* Check if key is in primary location */
bkt = &h->buckets[prim_bucket_idx];
- ret = search_one_bucket(h, key, short_sig, data, bkt);
+ ret = search_one_bucket_lf(h, key, short_sig, data, bkt);
if (ret != -1) {
__hash_rw_reader_unlock(h);
return ret;
/* Check if key is in secondary location */
FOR_EACH_BUCKET(cur_bkt, bkt) {
- ret = search_one_bucket(h, key, short_sig,
+ ret = search_one_bucket_lf(h, key, short_sig,
data, cur_bkt);
if (ret != -1) {
__hash_rw_reader_unlock(h);
__ATOMIC_ACQUIRE);
} while (cnt_b != cnt_a);
- __hash_rw_reader_unlock(h);
-
return -ENOENT;
}
+static inline int32_t
+__rte_hash_lookup_with_hash(const struct rte_hash *h, const void *key,
+ hash_sig_t sig, void **data)
+{
+ if (h->readwrite_concur_lf_support)
+ return __rte_hash_lookup_with_hash_lf(h, key, sig, data);
+ else
+ return __rte_hash_lookup_with_hash_l(h, key, sig, data);
+}
+
int32_t
rte_hash_lookup_with_hash(const struct rte_hash *h,
const void *key, hash_sig_t sig)
#define PREFETCH_OFFSET 4
static inline void
-__rte_hash_lookup_bulk(const struct rte_hash *h, const void **keys,
+__rte_hash_lookup_bulk_l(const struct rte_hash *h, const void **keys,
+ int32_t num_keys, int32_t *positions,
+ uint64_t *hit_mask, void *data[])
+{
+ uint64_t hits = 0;
+ int32_t i;
+ int32_t ret;
+ uint32_t prim_hash[RTE_HASH_LOOKUP_BULK_MAX];
+ uint32_t prim_index[RTE_HASH_LOOKUP_BULK_MAX];
+ uint32_t sec_index[RTE_HASH_LOOKUP_BULK_MAX];
+ uint16_t sig[RTE_HASH_LOOKUP_BULK_MAX];
+ const struct rte_hash_bucket *primary_bkt[RTE_HASH_LOOKUP_BULK_MAX];
+ const struct rte_hash_bucket *secondary_bkt[RTE_HASH_LOOKUP_BULK_MAX];
+ uint32_t prim_hitmask[RTE_HASH_LOOKUP_BULK_MAX] = {0};
+ uint32_t sec_hitmask[RTE_HASH_LOOKUP_BULK_MAX] = {0};
+ struct rte_hash_bucket *cur_bkt, *next_bkt;
+
+ /* Prefetch first keys */
+ for (i = 0; i < PREFETCH_OFFSET && i < num_keys; i++)
+ rte_prefetch0(keys[i]);
+
+ /*
+ * Prefetch rest of the keys, calculate primary and
+ * secondary bucket and prefetch them
+ */
+ for (i = 0; i < (num_keys - PREFETCH_OFFSET); i++) {
+ rte_prefetch0(keys[i + PREFETCH_OFFSET]);
+
+ prim_hash[i] = rte_hash_hash(h, keys[i]);
+
+ sig[i] = get_short_sig(prim_hash[i]);
+ prim_index[i] = get_prim_bucket_index(h, prim_hash[i]);
+ sec_index[i] = get_alt_bucket_index(h, prim_index[i], sig[i]);
+
+ primary_bkt[i] = &h->buckets[prim_index[i]];
+ secondary_bkt[i] = &h->buckets[sec_index[i]];
+
+ rte_prefetch0(primary_bkt[i]);
+ rte_prefetch0(secondary_bkt[i]);
+ }
+
+ /* Calculate and prefetch rest of the buckets */
+ for (; i < num_keys; i++) {
+ prim_hash[i] = rte_hash_hash(h, keys[i]);
+
+ sig[i] = get_short_sig(prim_hash[i]);
+ prim_index[i] = get_prim_bucket_index(h, prim_hash[i]);
+ sec_index[i] = get_alt_bucket_index(h, prim_index[i], sig[i]);
+
+ primary_bkt[i] = &h->buckets[prim_index[i]];
+ secondary_bkt[i] = &h->buckets[sec_index[i]];
+
+ rte_prefetch0(primary_bkt[i]);
+ rte_prefetch0(secondary_bkt[i]);
+ }
+
+ __hash_rw_reader_lock(h);
+
+ /* Compare signatures and prefetch key slot of first hit */
+ for (i = 0; i < num_keys; i++) {
+ compare_signatures(&prim_hitmask[i], &sec_hitmask[i],
+ primary_bkt[i], secondary_bkt[i],
+ sig[i], h->sig_cmp_fn);
+
+ if (prim_hitmask[i]) {
+ uint32_t first_hit =
+ __builtin_ctzl(prim_hitmask[i])
+ >> 1;
+ uint32_t key_idx =
+ primary_bkt[i]->key_idx[first_hit];
+ const struct rte_hash_key *key_slot =
+ (const struct rte_hash_key *)(
+ (const char *)h->key_store +
+ key_idx * h->key_entry_size);
+ rte_prefetch0(key_slot);
+ continue;
+ }
+
+ if (sec_hitmask[i]) {
+ uint32_t first_hit =
+ __builtin_ctzl(sec_hitmask[i])
+ >> 1;
+ uint32_t key_idx =
+ secondary_bkt[i]->key_idx[first_hit];
+ const struct rte_hash_key *key_slot =
+ (const struct rte_hash_key *)(
+ (const char *)h->key_store +
+ key_idx * h->key_entry_size);
+ rte_prefetch0(key_slot);
+ }
+ }
+
+ /* Compare keys, first hits in primary first */
+ for (i = 0; i < num_keys; i++) {
+ positions[i] = -ENOENT;
+ while (prim_hitmask[i]) {
+ uint32_t hit_index =
+ __builtin_ctzl(prim_hitmask[i])
+ >> 1;
+ uint32_t key_idx =
+ primary_bkt[i]->key_idx[hit_index];
+ const struct rte_hash_key *key_slot =
+ (const struct rte_hash_key *)(
+ (const char *)h->key_store +
+ key_idx * h->key_entry_size);
+
+ /*
+ * If key index is 0, do not compare key,
+ * as it is checking the dummy slot
+ */
+ if (!!key_idx &
+ !rte_hash_cmp_eq(
+ key_slot->key, keys[i], h)) {
+ if (data != NULL)
+ data[i] = key_slot->pdata;
+
+ hits |= 1ULL << i;
+ positions[i] = key_idx - 1;
+ goto next_key;
+ }
+ prim_hitmask[i] &= ~(3ULL << (hit_index << 1));
+ }
+
+ while (sec_hitmask[i]) {
+ uint32_t hit_index =
+ __builtin_ctzl(sec_hitmask[i])
+ >> 1;
+ uint32_t key_idx =
+ secondary_bkt[i]->key_idx[hit_index];
+ const struct rte_hash_key *key_slot =
+ (const struct rte_hash_key *)(
+ (const char *)h->key_store +
+ key_idx * h->key_entry_size);
+
+ /*
+ * If key index is 0, do not compare key,
+ * as it is checking the dummy slot
+ */
+
+ if (!!key_idx &
+ !rte_hash_cmp_eq(
+ key_slot->key, keys[i], h)) {
+ if (data != NULL)
+ data[i] = key_slot->pdata;
+
+ hits |= 1ULL << i;
+ positions[i] = key_idx - 1;
+ goto next_key;
+ }
+ sec_hitmask[i] &= ~(3ULL << (hit_index << 1));
+ }
+next_key:
+ continue;
+ }
+
+ /* all found, do not need to go through ext bkt */
+ if ((hits == ((1ULL << num_keys) - 1)) || !h->ext_table_support) {
+ if (hit_mask != NULL)
+ *hit_mask = hits;
+ __hash_rw_reader_unlock(h);
+ return;
+ }
+
+ /* need to check ext buckets for match */
+ for (i = 0; i < num_keys; i++) {
+ if ((hits & (1ULL << i)) != 0)
+ continue;
+ next_bkt = secondary_bkt[i]->next;
+ FOR_EACH_BUCKET(cur_bkt, next_bkt) {
+ if (data != NULL)
+ ret = search_one_bucket_l(h, keys[i],
+ sig[i], &data[i], cur_bkt);
+ else
+ ret = search_one_bucket_l(h, keys[i],
+ sig[i], NULL, cur_bkt);
+ if (ret != -1) {
+ positions[i] = ret;
+ hits |= 1ULL << i;
+ break;
+ }
+ }
+ }
+
+ __hash_rw_reader_unlock(h);
+
+ if (hit_mask != NULL)
+ *hit_mask = hits;
+}
+
+static inline void
+__rte_hash_lookup_bulk_lf(const struct rte_hash *h, const void **keys,
int32_t num_keys, int32_t *positions,
uint64_t *hit_mask, void *data[])
{
rte_prefetch0(secondary_bkt[i]);
}
- __hash_rw_reader_lock(h);
do {
/* Load the table change counter before the lookup
* starts. Acquire semantics will make sure that
next_bkt = secondary_bkt[i]->next;
FOR_EACH_BUCKET(cur_bkt, next_bkt) {
if (data != NULL)
- ret = search_one_bucket(h, keys[i],
+ ret = search_one_bucket_lf(h, keys[i],
sig[i], &data[i], cur_bkt);
else
- ret = search_one_bucket(h, keys[i],
+ ret = search_one_bucket_lf(h, keys[i],
sig[i], NULL, cur_bkt);
if (ret != -1) {
positions[i] = ret;
}
}
- __hash_rw_reader_unlock(h);
-
if (hit_mask != NULL)
*hit_mask = hits;
}
+static inline void
+__rte_hash_lookup_bulk(const struct rte_hash *h, const void **keys,
+ int32_t num_keys, int32_t *positions,
+ uint64_t *hit_mask, void *data[])
+{
+ if (h->readwrite_concur_lf_support)
+ return __rte_hash_lookup_bulk_lf(h, keys, num_keys,
+ positions, hit_mask, data);
+ else
+ return __rte_hash_lookup_bulk_l(h, keys, num_keys,
+ positions, hit_mask, data);
+}
+
int
rte_hash_lookup_bulk(const struct rte_hash *h, const void **keys,
uint32_t num_keys, int32_t *positions)