layout->elem[layout->num_elems++] = elem;
}
-void tdb_layout_add_zone(struct tdb_layout *layout,
- unsigned int zone_bits,
- bool fill_prev)
+void tdb_layout_add_freelist(struct tdb_layout *layout)
{
union tdb_layout_elem elem;
- if (fill_prev)
- tdb_layout_add_free(layout, 0);
- elem.base.type = ZONE;
- elem.zone.zone_bits = zone_bits;
+ elem.base.type = FREELIST;
add(layout, elem);
}
+ htable->extra;
}
-static tdb_len_t zone_header_len(struct tle_zone *zone)
+static tdb_len_t freelist_len(struct tle_freelist *flist)
{
- return sizeof(struct free_zone_header)
- + sizeof(tdb_off_t) * (BUCKETS_FOR_ZONE(zone->zone_bits)+1);
+ return sizeof(struct tdb_freelist);
}
static void set_free_record(void *mem, tdb_len_t len)
}
static void set_data_record(void *mem, struct tdb_context *tdb,
- struct tle_zone *last_zone,
struct tle_used *used)
{
struct tdb_used_record *u = mem;
set_header(tdb, u, used->key.dsize, used->data.dsize,
used->key.dsize + used->data.dsize + used->extra,
- tdb_hash(tdb, used->key.dptr, used->key.dsize),
- last_zone->zone_bits);
+ tdb_hash(tdb, used->key.dptr, used->key.dsize));
memcpy(u + 1, used->key.dptr, used->key.dsize);
memcpy((char *)(u + 1) + used->key.dsize,
used->data.dptr, used->data.dsize);
}
static void set_hashtable(void *mem, struct tdb_context *tdb,
- struct tle_zone *last_zone,
struct tle_hashtable *htable)
{
struct tdb_used_record *u = mem;
tdb_len_t len = sizeof(tdb_off_t) << TDB_SUBLEVEL_HASH_BITS;
- set_header(tdb, u, 0, len, len + htable->extra, 0,
- last_zone->zone_bits);
+ set_header(tdb, u, 0, len, len + htable->extra, 0);
memset(u + 1, 0, len);
}
-static void set_zone(void *mem, struct tdb_context *tdb,
- struct tle_zone *zone)
+static void set_freelist(void *mem, struct tdb_context *tdb,
+ struct tle_freelist *freelist)
{
- struct free_zone_header *fz = mem;
- memset(fz, 0, zone_header_len(zone));
- fz->zone_bits = zone->zone_bits;
+ struct tdb_freelist *flist = mem;
+ memset(flist, 0, sizeof(*flist));
+ set_header(tdb, &flist->hdr, 0,
+ sizeof(*flist) - sizeof(flist->hdr),
+ sizeof(*flist) - sizeof(flist->hdr), 1);
}
static void add_to_freetable(struct tdb_context *tdb,
- struct tle_zone *last_zone,
tdb_off_t eoff,
tdb_off_t elen)
{
- add_free_record(tdb, last_zone->zone_bits, eoff,
- sizeof(struct tdb_used_record) + elen);
+ add_free_record(tdb, eoff, sizeof(struct tdb_used_record) + elen);
}
static tdb_off_t hbucket_off(tdb_off_t group_start, unsigned ingroup)
struct tdb_context *tdb_layout_get(struct tdb_layout *layout)
{
unsigned int i;
- tdb_off_t off, len;
- tdb_len_t zone_left;
+ tdb_off_t off, len, flist_off = 0;
char *mem;
struct tdb_context *tdb;
- struct tle_zone *last_zone = NULL;
- assert(layout->elem[0].base.type == ZONE);
-
- zone_left = 0;
off = sizeof(struct tdb_header);
/* First pass of layout: calc lengths */
union tdb_layout_elem *e = &layout->elem[i];
e->base.off = off;
switch (e->base.type) {
- case ZONE:
- assert(zone_left == 0);
- len = zone_header_len(&e->zone);
- zone_left = 1ULL << e->zone.zone_bits;
+ case FREELIST:
+ assert(flist_off == 0);
+ flist_off = off;
+ len = freelist_len(&e->flist);
break;
case FREE:
- if (e->free.len == 0)
- e->free.len = zone_left
- - sizeof(struct tdb_used_record);
len = free_record_len(e->free.len);
break;
case DATA:
abort();
}
off += len;
- assert(zone_left >= len);
- zone_left -= len;
}
+ /* Must have a free list! */
+ assert(flist_off);
mem = malloc(off);
/* Now populate our header, cribbing from a real TDB header. */
free(tdb->map_ptr);
tdb->map_ptr = mem;
tdb->map_size = off;
+ tdb->flist_off = flist_off;
for (i = 0; i < layout->num_elems; i++) {
union tdb_layout_elem *e = &layout->elem[i];
switch (e->base.type) {
- case ZONE:
- set_zone(mem + e->base.off, tdb, &e->zone);
- last_zone = &e->zone;
+ case FREELIST:
+ set_freelist(mem + e->base.off, tdb, &e->flist);
break;
case FREE:
set_free_record(mem + e->base.off, e->free.len);
break;
case DATA:
- set_data_record(mem + e->base.off, tdb, last_zone,
- &e->used);
+ set_data_record(mem + e->base.off, tdb, &e->used);
break;
case HASHTABLE:
- set_hashtable(mem + e->base.off, tdb, last_zone,
- &e->hashtable);
+ set_hashtable(mem + e->base.off, tdb, &e->hashtable);
break;
}
}
for (i = 0; i < layout->num_elems; i++) {
union tdb_layout_elem *e = &layout->elem[i];
switch (e->base.type) {
- case ZONE:
- last_zone = &e->zone;
- break;
case FREE:
- add_to_freetable(tdb, last_zone,
- e->base.off, e->free.len);
+ add_to_freetable(tdb, e->base.off, e->free.len);
break;
case DATA:
add_to_hashtable(tdb, e->base.off, e->used.key);