int
ai_btree_delete(as_sindex_metadata *imd, as_sindex_pmetadata *pimd, as_sindex_key *skey, void *val)
{
int ret = AS_SINDEX_OK;
uint64_t uk = * (uint64_t *) val;
uint64_t bv = skey->b[0].u.i64;
if (!pimd->ibtr) {
SITRACE(imd->si, DML, debug, "AI_BTREE_FAIL: Delete failed no ibtr %d %lu", bv, uk);
return AS_SINDEX_KEY_NOTFOUND;
}
ai_obj ncol;
if (C_IS_Y(imd->dtype)) {
init_ai_objFromDigest(&ncol, &skey->b[0].digest);
}
else {
init_ai_objLong(&ncol, skey->b[0].u.i64);
}
ai_obj apk;
init_ai_objFromDigest(&apk, (cf_digest *)val);
ulong bb = pimd->ibtr->msize + pimd->ibtr->nsize;
ret = reduced_iRem(pimd->ibtr, &ncol, &apk);
ulong ab = pimd->ibtr->msize + pimd->ibtr->nsize;
as_sindex_release_data_memory(imd, (bb - ab));
SITRACE(imd->si, DML, debug, "ai__btree_delete(N): key: %d - %lu", bv, uk);
return ret;
}
int
ai_btree_delete(as_sindex_metadata *imd, as_sindex_pmetadata *pimd, void * skey, cf_digest * value)
{
int ret = AS_SINDEX_OK;
if (!pimd->ibtr) {
return AS_SINDEX_KEY_NOTFOUND;
}
ai_obj ncol;
if (C_IS_DG(imd->sktype)) {
init_ai_objFromDigest(&ncol, (cf_digest *)skey);
}
else {
// TODO - ai_obj type is LONG for both Geo and Long
init_ai_objLong(&ncol, *(ulong *)skey);
}
ai_obj apk;
init_ai_objFromDigest(&apk, value);
uint64_t before = pimd->ibtr->msize + pimd->ibtr->nsize;
ret = reduced_iRem(pimd->ibtr, &ncol, &apk);
uint64_t after = pimd->ibtr->msize + pimd->ibtr->nsize;
cf_atomic64_sub(&imd->si->ns->n_bytes_sindex_memory, (before - after));
return ret;
}
int
ai_btree_put(as_sindex_metadata *imd, as_sindex_pmetadata *pimd, void *skey, cf_digest *value)
{
ai_obj ncol;
if (C_IS_DG(imd->sktype)) {
init_ai_objFromDigest(&ncol, (cf_digest*)skey);
}
else {
// TODO - ai_obj type is LONG for both Geo and Long
init_ai_objLong(&ncol, *(ulong *)skey);
}
ai_obj apk;
init_ai_objFromDigest(&apk, value);
uint64_t before = pimd->ibtr->msize + pimd->ibtr->nsize;
int ret = reduced_iAdd(pimd->ibtr, &ncol, &apk, COL_TYPE_DIGEST);
uint64_t after = pimd->ibtr->msize + pimd->ibtr->nsize;
cf_atomic64_add(&imd->si->ns->n_bytes_sindex_memory, (after - before));
if (ret && ret != AS_SINDEX_KEY_FOUND) {
cf_warning(AS_SINDEX, "Insert into the btree failed");
return AS_SINDEX_ERR_NO_MEMORY;
}
return ret;
}
int
ai_btree_delete(as_sindex_metadata *imd, as_sindex_pmetadata *pimd, void * skey, cf_digest * value)
{
int ret = AS_SINDEX_OK;
if (!pimd->ibtr) {
return AS_SINDEX_KEY_NOTFOUND;
}
ai_obj ncol;
if (C_IS_Y(imd->dtype)) {
init_ai_objFromDigest(&ncol, (cf_digest *)skey);
}
else {
init_ai_objLong(&ncol, *(ulong *)skey);
}
ai_obj apk;
init_ai_objFromDigest(&apk, value);
ulong bb = pimd->ibtr->msize + pimd->ibtr->nsize;
ret = reduced_iRem(pimd->ibtr, &ncol, &apk);
ulong ab = pimd->ibtr->msize + pimd->ibtr->nsize;
as_sindex_release_data_memory(imd, (bb - ab));
return ret;
}
/*
* Deletes the digest as in the passed in as gc_list, bound by n2del number of
* elements per iteration, with *deleted successful deletes.
*/
bool
ai_btree_defrag_list(as_sindex_metadata *imd, as_sindex_pmetadata *pimd, cf_ll *gc_list, ulong n2del, ulong *deleted)
{
// If n2del is zero here, that means caller do not want to defrag
if (n2del == 0 ) {
return false;
}
ulong success = 0;
as_namespace *ns = imd->si->ns;
// STEP 3: go thru the PKtoDeleteList and delete the keys
ulong bb = pimd->ibtr->msize + pimd->ibtr->nsize;
uint64_t validation_time_ns = 0;
uint64_t deletion_time_ns = 0;
while (cf_ll_size(gc_list)) {
cf_ll_element * ele = cf_ll_get_head(gc_list);
ll_sindex_gc_element * node = (ll_sindex_gc_element * )ele;
objs_to_defrag_arr * dt = node->objs_to_defrag;
// check before deleting. The digest may re-appear after the list
// creation and before deletion from the secondary index
int i = 0;
while (dt->num != 0) {
i = dt->num - 1;
SET_TIME_FOR_SINDEX_GC_HIST(validation_time_ns);
int ret = as_sindex_can_defrag_record(ns, &(dt->acol_digs[i].dig));
SINDEX_GC_HIST_INSERT_DATA_POINT(sindex_gc_validate_obj_hist, validation_time_ns);
validation_time_ns = 0;
if (ret == AS_SINDEX_GC_SKIP_ITERATION) {
goto END;
} else if (ret == AS_SINDEX_GC_OK) {
ai_obj apk;
init_ai_objFromDigest(&apk, &(dt->acol_digs[i].dig));
ai_obj *acol = &(dt->acol_digs[i].acol);
cf_detail(AS_SINDEX, "Defragged %lu %ld", acol->l, *((uint64_t *)&apk.y));
SET_TIME_FOR_SINDEX_GC_HIST(deletion_time_ns);
if (reduced_iRem(pimd->ibtr, acol, &apk) == AS_SINDEX_OK) {
success++;
SINDEX_GC_HIST_INSERT_DATA_POINT(sindex_gc_delete_obj_hist, deletion_time_ns);
}
deletion_time_ns = 0;
}
dt->num -= 1;
n2del--;
if (n2del == 0) {
goto END;
}
}
cf_ll_delete(gc_list, (cf_ll_element*)node);
}
END:
as_sindex_release_data_memory(imd, (bb - pimd->ibtr->msize - pimd->ibtr->nsize));
*deleted += success;
return cf_ll_size(gc_list) ? true : false;
}
static void
ai_arr_move_to_tree(ai_arr *arr, bt *nbtr)
{
for (int i = 0; i < arr->used; i++) {
ai_obj apk;
init_ai_objFromDigest(&apk, (cf_digest *)&arr->data[i * CF_DIGEST_KEY_SZ]);
if (!btIndNodeAdd(nbtr, &apk)) {
// what to do ??
continue;
}
}
}
int
ai_btree_put(as_sindex_metadata *imd, as_sindex_pmetadata *pimd, as_sindex_key *skey, void *value)
{
int ret = AS_SINDEX_OK;
uint64_t uk = *(uint64_t *)value;
cf_digest *keyd = (cf_digest *)value;
ai_obj ncol;
if (C_IS_Y(imd->dtype)) {
init_ai_objFromDigest(&ncol, &skey->b[0].digest);
}
else {
init_ai_objLong(&ncol, skey->b[0].u.i64);
}
ai_obj apk;
init_ai_objFromDigest(&apk, keyd);
cf_detail(AS_SINDEX, "Insert: %ld %ld %ld", *(uint64_t *) &ncol.y, *(uint64_t *) &skey->b[0].digest, *((uint64_t *) &apk.y));
ulong bb = pimd->ibtr->msize + pimd->ibtr->nsize;
ret = reduced_iAdd(pimd->ibtr, &ncol, &apk, COL_TYPE_U160);
if (ret == AS_SINDEX_KEY_FOUND) {
goto END;
} else if (ret != AS_SINDEX_OK) {
cf_warning(AS_SINDEX, "Insert into the btree failed");
ret = AS_SINDEX_ERR_NO_MEMORY;
goto END;
}
ulong ab = pimd->ibtr->msize + pimd->ibtr->nsize;
if (!as_sindex_reserve_data_memory(imd, (ab - bb))) {
reduced_iRem(pimd->ibtr, &ncol, &apk);
ret = AS_SINDEX_ERR_NO_MEMORY;
goto END;
}
SITRACE(imd->si, DML, debug, "ai__btree_insert(N): %s key: %d val %lu", imd->iname, skey->b[0].u.i64, uk);
END:
return ret;
}
int
ai_btree_put(as_sindex_metadata *imd, as_sindex_pmetadata *pimd, void *skey, cf_digest *value)
{
int ret = AS_SINDEX_OK;
ai_obj ncol;
if (C_IS_Y(imd->dtype)) {
init_ai_objFromDigest(&ncol, (cf_digest*)skey);
}
else {
init_ai_objLong(&ncol, *(ulong *)skey);
}
ai_obj apk;
init_ai_objFromDigest(&apk, value);
ulong bb = pimd->ibtr->msize + pimd->ibtr->nsize;
ret = reduced_iAdd(pimd->ibtr, &ncol, &apk, COL_TYPE_U160);
if (ret == AS_SINDEX_KEY_FOUND) {
goto END;
} else if (ret != AS_SINDEX_OK) {
cf_warning(AS_SINDEX, "Insert into the btree failed");
ret = AS_SINDEX_ERR_NO_MEMORY;
goto END;
}
ulong ab = pimd->ibtr->msize + pimd->ibtr->nsize;
if (!as_sindex_reserve_data_memory(imd, (ab - bb))) {
reduced_iRem(pimd->ibtr, &ncol, &apk);
ret = AS_SINDEX_ERR_NO_MEMORY;
goto END;
}
END:
return ret;
}
/*
* Return 0 in case of success
* -1 in case of failure
*/
static int
add_recs_from_nbtr(as_sindex_metadata *imd, ai_obj *ikey, bt *nbtr, as_sindex_qctx *qctx, bool fullrng)
{
int ret = 0;
ai_obj sfk, efk;
init_ai_obj(&sfk);
init_ai_obj(&efk);
btSIter *nbi;
btEntry *nbe;
btSIter stack_nbi;
if (fullrng) {
nbi = btSetFullRangeIter(&stack_nbi, nbtr, 1, NULL);
} else { // search from LAST batches end-point
init_ai_objFromDigest(&sfk, &qctx->bdig);
assignMaxKey(nbtr, &efk);
nbi = btSetRangeIter(&stack_nbi, nbtr, &sfk, &efk, 1);
}
if (nbi) {
while ((nbe = btRangeNext(nbi, 1))) {
ai_obj *akey = nbe->key;
// FIRST can be REPEAT (last batch)
if (!fullrng && ai_objEQ(&sfk, akey)) {
continue;
}
if (btree_addsinglerec(imd, ikey, (cf_digest *)&akey->y, qctx->recl, &qctx->n_bdigs,
qctx->can_partition_query, qctx->partitions_pre_reserved)) {
ret = -1;
break;
}
if (qctx->n_bdigs == qctx->bsize) {
if (ikey) {
ai_objClone(qctx->bkey, ikey);
}
cloneDigestFromai_obj(&qctx->bdig, akey);
break;
}
}
btReleaseRangeIterator(nbi);
} else {
cf_warning(AS_QUERY, "Could not find nbtr iterator.. skipping !!");
}
return ret;
}
int
ai_btree_query(as_sindex_metadata *imd, as_sindex_range *srange, as_sindex_qctx *qctx)
{
bool err = 1;
if (!srange->isrange) { // EQUALITY LOOKUP
ai_obj afk;
if (C_IS_Y(imd->dtype)) {
init_ai_objFromDigest(&afk, &srange->start.digest);
}
else {
init_ai_objLong(&afk, srange->start.u.i64);
}
err = get_recl(imd, &afk, qctx);
} else { // RANGE LOOKUP
err = get_numeric_range_recl(imd, srange->start.u.i64, srange->end.u.i64, qctx);
}
return (err ? AS_SINDEX_ERR_NO_MEMORY :
(qctx->n_bdigs >= qctx->bsize) ? AS_SINDEX_CONTINUE : AS_SINDEX_OK);
}
