#include "common.h"
#include "struct.h"
+#include "nstring.h"
#include "mem.h"
typedef struct node {
- uint64_t key;
+ nstring_t *key;
uint64_t value;
struct node *next;
} node_t;
node_t *head;
};
-static node_t *node_alloc (uint64_t key, uint64_t value) {
+static node_t *node_alloc (const void *key_data, uint32_t key_len, uint64_t value) {
node_t *item = (node_t *)nbd_malloc(sizeof(node_t));
memset(item, 0, sizeof(node_t));
- item->key = key;
+ item->key = key_data ? ns_alloc(key_data, key_len) : NULL;
item->value = value;
return item;
}
list_t *ll_alloc (void) {
list_t *ll = (list_t *)nbd_malloc(sizeof(list_t));
- ll->head = node_alloc((uint64_t)-1, 0);
+ ll->head = node_alloc(" ", 0, 0);
ll->head->next = NULL;
return ll;
}
-static node_t *find_pred (node_t **pred_ptr, list_t *ll, uint64_t key, int help_remove) {
+static node_t *find_pred (node_t **pred_ptr, list_t *ll, const void *key_data, uint32_t key_len, int help_remove) {
node_t *pred = ll->head;
node_t *item = pred->next;
- TRACE("l3", "find_pred: searching for key %p in ll (head is %p)", key, pred);
+ TRACE("l3", "find_pred: searching for key %p in ll (head is %p)", key_data, pred);
while (item != NULL) {
node_t *next = item->next;
TRACE("l3", "find_pred: visiting item %p (next %p)", item, next);
- TRACE("l3", "find_pred: key %p", item->key, item->value);
+ TRACE("l3", "find_pred: key \"%s\"", ns_data(item->key), item->value);
- // Marked items are logically removed, but not unlinked yet.
+ // A tag means an item is logically removed but not physically unlinked yet.
while (EXPECT_FALSE(IS_TAGGED(next))) {
- // Skip over partially removed items.
+ // Skip over logically removed items.
if (!help_remove) {
item = (node_t *)STRIP_TAG(item->next);
if (EXPECT_FALSE(item == NULL))
continue;
}
- // Unlink partially removed items.
+ // Unlink logically removed items.
node_t *other;
if ((other = SYNC_CAS(&pred->next, item, STRIP_TAG(next))) == item) {
item = (node_t *)STRIP_TAG(next);
} else {
TRACE("l3", "find_pred: lost race to unlink from pred %p; its link changed to %p", pred, other);
if (IS_TAGGED(other))
- return find_pred(pred_ptr, ll, key, help_remove); // retry
+ return find_pred(pred_ptr, ll, key_data, key_len, help_remove); // retry
item = other;
if (EXPECT_FALSE(item == NULL))
break;
break;
// If we reached the key (or passed where it should be), we found the right predesssor
- if (item->key >= key) {
+ int x = ns_cmp_raw(item->key, key_data, key_len);
+ if (x >= 0) {
TRACE("l3", "find_pred: found pred %p item %p", pred, item);
if (pred_ptr != NULL) {
*pred_ptr = pred;
}
- return item;
+ return x == 0 ? item : NULL;
}
pred = item;
}
// Fast find. Do not help unlink partially removed nodes and do not return the found item's predecessor.
-uint64_t ll_lookup (list_t *ll, uint64_t key) {
- TRACE("l3", "ll_lookup: searching for key %p in ll %p", key, ll);
- node_t *item = find_pred(NULL, ll, key, FALSE);
+uint64_t ll_lookup (list_t *ll, const void *key_data, uint32_t key_len) {
+ TRACE("l3", "ll_lookup: searching for key %p in ll %p", key_data, ll);
+ node_t *item = find_pred(NULL, ll, key_data, key_len, FALSE);
- // If we found an <item> matching the <key> return its value.
- return (item && item->key == key) ? item->value : DOES_NOT_EXIST;
+ // If we found an <item> matching the key return its value.
+ return item != NULL ? item->value : DOES_NOT_EXIST;
}
-// Insert the <key>, if it doesn't already exist in <ll>
-uint64_t ll_add (list_t *ll, uint64_t key, uint64_t value) {
- TRACE("l3", "ll_add: inserting key %p value %p", key, value);
+// Insert a new item if a matching key doesn't already exist in <ll>
+uint64_t ll_add (list_t *ll, const void *key_data, uint32_t key_len, uint64_t value) {
+ TRACE("l3", "ll_add: inserting key %p value %p", key_data, value);
node_t *pred;
node_t *item = NULL;
do {
- node_t *next = find_pred(&pred, ll, key, TRUE);
+ node_t *next = find_pred(&pred, ll, key_data, key_len, TRUE);
- // If a node matching <key> already exists in <ll>, return its value.
- if (next != NULL && next->key == key) {
+ // If a node matching the key already exists in <ll> return its value.
+ if (next != NULL) {
TRACE("l3", "ll_add: there is already an item %p (value %p) with the same key", next, next->value);
if (EXPECT_FALSE(item != NULL)) { nbd_free(item); }
return next->value;
}
+ next = pred->next;
TRACE("l3", "ll_add: attempting to insert item between %p and %p", pred, next);
- if (EXPECT_TRUE(item == NULL)) { item = node_alloc(key, value); }
+ if (EXPECT_TRUE(item == NULL)) { item = node_alloc(key_data, key_len, value); }
item->next = next;
node_t *other = SYNC_CAS(&pred->next, next, item);
if (other == next) {
} while (1);
}
-uint64_t ll_remove (list_t *ll, uint64_t key) {
- TRACE("l3", "ll_remove: removing item with key %p from ll %p", key, ll);
+uint64_t ll_remove (list_t *ll, const void *key_data, uint32_t key_len) {
+ TRACE("l3", "ll_remove: removing item with key %p from ll %p", key_data, ll);
node_t *pred;
- node_t *item = find_pred(&pred, ll, key, TRUE);
- if (item == NULL || item->key != key) {
+ node_t *item = find_pred(&pred, ll, key_data, key_len, TRUE);
+ if (item == NULL) {
TRACE("l3", "ll_remove: remove failed, an item with a matching key does not exist in the ll", 0, 0);
return DOES_NOT_EXIST;
}
node_t *item;
item = ll->head->next;
while (item) {
- printf("0x%llx ", item->key);
+ printf("%s ", (char *)ns_data(item->key));
fflush(stdout);
item = item->next;
}