static inline int ht_key_equals (uint64_t a, uint32_t b_hash, const char *b_value, uint32_t b_len) {
if ((b_hash >> 16) != (a >> 48)) // high-order 16 bits are from the hash value
return FALSE;
- return ns_equalsc(GET_PTR(a), b_value, b_len);
+ return ns_cmp_raw(GET_PTR(a), b_value, b_len) == 0;
}
// Lookup <key> in <hti>.
//
// Record if the entry being returned is empty. Otherwise the caller will have to waste time with
// ht_key_equals() to confirm that it did not lose a race to fill an empty entry.
-static volatile entry_t *hti_lookup (hashtable_i_t *hti, uint32_t key_hash, const char *key_val, uint32_t key_len, int *is_empty) {
- TRACE("h2", "hti_lookup(key %p in hti %p)", key_val, hti);
+static volatile entry_t *hti_lookup (hashtable_i_t *hti, uint32_t key_hash, const char *key_data, uint32_t key_len, int *is_empty) {
+ TRACE("h2", "hti_lookup(key %p in hti %p)", key_data, hti);
*is_empty = 0;
// Probe one cache line at a time
uint64_t e_key = e->key;
if (e_key == DOES_NOT_EXIST) {
- TRACE("h1", "hti_lookup: entry %p for key \"%s\" is empty", e, ns_val(GET_PTR(e_key)));
+ TRACE("h1", "hti_lookup: entry %p for key \"%s\" is empty", e, ns_data(GET_PTR(e_key)));
*is_empty = 1; // indicate an empty so the caller avoids an expensive ht_key_equals
return e;
}
- if (ht_key_equals(e_key, key_hash, key_val, key_len)) {
- TRACE("h1", "hti_lookup: entry %p key \"%s\"", e, ns_val(GET_PTR(e_key)));
+ if (ht_key_equals(e_key, key_hash, key_data, key_len)) {
+ TRACE("h1", "hti_lookup: entry %p key \"%s\"", e, ns_data(GET_PTR(e_key)));
TRACE("h2", "hti_lookup: entry key len %llu, value %p", ns_len(GET_PTR(e_key)), e->value);
return e;
}
// We use 0 to indicate that <key_hash> isn't initiallized. Occasionally the <key_hash> will
// really be 0 and we will waste time recomputing it. That is rare enough that it is OK.
if (key_hash == 0) {
- key_hash = murmur32(ns_val(key_string), ns_len(key_string));
+ key_hash = murmur32(ns_data(key_string), ns_len(key_string));
}
int is_empty;
- volatile entry_t *ht2_e = hti_lookup(ht2, key_hash, ns_val(key_string), ns_len(key_string), &is_empty);
+ volatile entry_t *ht2_e = hti_lookup(ht2, key_hash, ns_data(key_string), ns_len(key_string), &is_empty);
TRACE("h0", "hti_copy_entry: copy entry %p to entry %p", ht1_e, ht2_e);
// it is possible that there is not any room in the new table either
// Update the count if we were the one that completed the copy.
if (old_ht2_e_value == DOES_NOT_EXIST) {
- TRACE("h0", "hti_copy_entry: key \"%s\" value %p copied to new entry", ns_val(key_string), value);
+ TRACE("h0", "hti_copy_entry: key \"%s\" value %p copied to new entry", ns_data(key_string), value);
SYNC_ADD(&ht1->count, -1);
SYNC_ADD(&ht2->count, 1);
return TRUE;
// real value matches (i.e. not a TOMBSTONE or DOES_NOT_EXIST) as long as <key> is in the table. If
// <expected> is EXPECT_WHATEVER then skip the test entirely.
//
-static uint64_t hti_compare_and_set (hashtable_i_t *hti, uint32_t key_hash, const char *key_val,
+static uint64_t hti_compare_and_set (hashtable_i_t *hti, uint32_t key_hash, const char *key_data,
uint32_t key_len, uint64_t expected, uint64_t new) {
- TRACE("h1", "hti_compare_and_set: hti %p key %p", hti, key_val);
+ TRACE("h1", "hti_compare_and_set: hti %p key %p", hti, key_data);
TRACE("h1", "hti_compare_and_set: value %p expect %p", new, expected);
assert(hti);
assert(new != DOES_NOT_EXIST && !IS_TAGGED(new));
- assert(key_val);
+ assert(key_data);
int is_empty;
- volatile entry_t *e = hti_lookup(hti, key_hash, key_val, key_len, &is_empty);
+ volatile entry_t *e = hti_lookup(hti, key_hash, key_data, key_len, &is_empty);
// There is no room for <key>, grow the table and try again.
if (e == NULL) {
return DOES_NOT_EXIST;
// Allocate <key>.
- nstring_t *key = ns_alloc(key_val, key_len);
+ nstring_t *key = ns_alloc(key_data, key_len);
// Combine <key> pointer with bits from its hash, CAS it into the table.
uint64_t temp = ((uint64_t)(key_hash >> 16) << 48) | (uint64_t)key;
TRACE("h0", "hti_compare_and_set: lost race to install key %p in entry %p", key, e);
TRACE("h0", "hti_compare_and_set: found %p instead of NULL", GET_PTR(e_key), 0);
nbd_free(key);
- return hti_compare_and_set(hti, key_hash, key_val, key_len, expected, new); // tail-call
+ return hti_compare_and_set(hti, key_hash, key_data, key_len, expected, new); // tail-call
}
TRACE("h2", "hti_compare_and_set: installed key %p in entry %p", key, e);
}
- TRACE("h0", "hti_compare_and_set: entry for key \"%s\" is %p", ns_val(GET_PTR(e->key)), e);
+ TRACE("h0", "hti_compare_and_set: entry for key \"%s\" is %p", ns_data(GET_PTR(e->key)), e);
// If the entry is in the middle of a copy, the copy must be completed first.
uint64_t e_value = e->value;
uint64_t v = SYNC_CAS(&e->value, e_value, new);
if (EXPECT_FALSE(v != e_value)) {
TRACE("h0", "hti_compare_and_set: value CAS failed; expected %p found %p", e_value, v);
- return hti_compare_and_set(hti, key_hash, key_val, key_len, expected, new); // recursive tail-call
+ return hti_compare_and_set(hti, key_hash, key_data, key_len, expected, new); // recursive tail-call
}
// The set succeeded. Adjust the value count.
}
//
-static uint64_t hti_get (hashtable_i_t *hti, uint32_t key_hash, const char *key_val, uint32_t key_len) {
- assert(key_val);
+static uint64_t hti_get (hashtable_i_t *hti, uint32_t key_hash, const char *key_data, uint32_t key_len) {
+ assert(key_data);
int is_empty;
- volatile entry_t *e = hti_lookup(hti, key_hash, key_val, key_len, &is_empty);
+ volatile entry_t *e = hti_lookup(hti, key_hash, key_data, key_len, &is_empty);
// When hti_lookup() returns NULL it means we hit the reprobe limit while
// searching the table. In that case, if a copy is in progress the key
// might exist in the copy.
if (EXPECT_FALSE(e == NULL)) {
if (((volatile hashtable_i_t *)hti)->next != NULL)
- return hti_get(hti->next, key_hash, key_val, key_len); // recursive tail-call
+ return hti_get(hti->next, key_hash, key_data, key_len); // recursive tail-call
return DOES_NOT_EXIST;
}
SYNC_ADD(&hti->num_entries_copied, 1);
}
}
- return hti_get(((volatile hashtable_i_t *)hti)->next, key_hash, key_val, key_len); // tail-call
+ return hti_get(((volatile hashtable_i_t *)hti)->next, key_hash, key_data, key_len); // tail-call
}
return (e_value == TOMBSTONE) ? DOES_NOT_EXIST : e_value;
}
//
-uint64_t ht_get (hashtable_t *ht, const char *key_val, uint32_t key_len) {
- return hti_get(*ht, murmur32(key_val, key_len), key_val, key_len);
+uint64_t ht_get (hashtable_t *ht, const char *key_data, uint32_t key_len) {
+ return hti_get(*ht, murmur32(key_data, key_len), key_data, key_len);
}
//
-uint64_t ht_compare_and_set (hashtable_t *ht, const char *key_val, uint32_t key_len,
+uint64_t ht_compare_and_set (hashtable_t *ht, const char *key_data, uint32_t key_len,
uint64_t expected_val, uint64_t new_val) {
- TRACE("h2", "ht_compare_and_set: key %p len %u", key_val, key_len);
+ TRACE("h2", "ht_compare_and_set: key %p len %u", key_data, key_len);
TRACE("h2", "ht_compare_and_set: expected val %p new val %p", expected_val, new_val);
- assert(key_val);
+ assert(key_data);
assert(!IS_TAGGED(new_val) && new_val != DOES_NOT_EXIST);
hashtable_i_t *hti = *ht;
}
uint64_t old_val;
- uint32_t key_hash = murmur32(key_val, key_len);
- while ((old_val = hti_compare_and_set(hti, key_hash, key_val, key_len, expected_val, new_val))
+ uint32_t key_hash = murmur32(key_data, key_len);
+ while ((old_val = hti_compare_and_set(hti, key_hash, key_data, key_len, expected_val, new_val))
== COPIED_VALUE) {
assert(hti->next);
hti = hti->next;
return old_val == TOMBSTONE ? DOES_NOT_EXIST : old_val;
}
-// Remove the value in <ht> associated with <key_val>. Returns the value removed, or
+// Remove the value in <ht> associated with <key_data>. Returns the value removed, or
// DOES_NOT_EXIST if there was no value for that key.
-uint64_t ht_remove (hashtable_t *ht, const char *key_val, uint32_t key_len) {
+uint64_t ht_remove (hashtable_t *ht, const char *key_data, uint32_t key_len) {
hashtable_i_t *hti = *ht;
uint64_t val;
- uint32_t key_hash = murmur32(key_val, key_len);
+ uint32_t key_hash = murmur32(key_data, key_len);
do {
- val = hti_compare_and_set(hti, key_hash, key_val, key_len, EXPECT_WHATEVER, TOMBSTONE);
+ val = hti_compare_and_set(hti, key_hash, key_data, key_len, EXPECT_WHATEVER, TOMBSTONE);
if (val != COPIED_VALUE)
return val == TOMBSTONE ? DOES_NOT_EXIST : val;
assert(hti->next);