Commit beeed36f authored by Rich Prohaska's avatar Rich Prohaska

cursor->del clears pivots if last match. closes #159

git-svn-id: file:///svn/tokudb@1114 c7de825b-a66e-492c-adef-691d508d4ae1
parent 3abb2333
......@@ -2947,6 +2947,76 @@ int toku_brt_cursor_get (BRT_CURSOR cursor, DBT *kbt, DBT *vbt, int flags, TOKUT
return 0;
}
/* clear the right present flag if the key matches the pivot key */
static int brt_node_maybe_clear_right_pivot_flag(BRTNODE node, DBT *key, DBT *val, int childnum, BRT t) {
int match = 0;
if (0 <= childnum) {
if (0 == brt_compare_pivot(t, key, val, node->u.n.childkeys[childnum])) {
assert(node->u.n.pivotflags[childnum] & BRT_PIVOT_PRESENT_R);
node->u.n.pivotflags[childnum] &= ~BRT_PIVOT_PRESENT_R;
node->dirty = 1;
match = 1;
}
}
return match;
}
/* clear the left present flag if the key matches the pivot key */
static int brt_node_maybe_clear_left_pivot_flag(BRTNODE node, DBT *key, DBT *val, int childnum, BRT t) {
int match = 0;
if (childnum < node->u.n.n_children - 1) {
if (0 == brt_compare_pivot(t, key, val, node->u.n.childkeys[childnum])) {
assert(node->u.n.pivotflags[childnum] & BRT_PIVOT_PRESENT_L);
node->u.n.pivotflags[childnum] &= ~BRT_PIVOT_PRESENT_L;
node->dirty = 1;
match = 1;
}
}
return match;
}
/* check if any subtree of this node contains the key */
static int brt_node_any_key_present(BRTNODE node, DBT *key, DBT *val, BRT t) {
int i;
for (i=0; i<node->u.n.n_children-1; i++)
if (0 == brt_compare_pivot(t, key, val, node->u.n.childkeys[i]) && (node->u.n.pivotflags[i] & (BRT_PIVOT_PRESENT_L + BRT_PIVOT_PRESENT_R)))
return 1;
return 0;
}
/* clear the key present flags in the nodes along the cursor path */
static void brt_cursor_maybe_clear_pivot_flags(BRT_CURSOR cursor) {
int r;
DBT key, *k;
toku_init_dbt(&key); key.flags = DB_DBT_MALLOC;
k = &key;
DBT val, *v;
if (cursor->brt->flags & TOKU_DB_DUPSORT) {
toku_init_dbt(&val); val.flags = DB_DBT_MALLOC;
v = &val;
} else
v = 0;
r = toku_pma_cursor_get_current(cursor->pmacurs, k, v, 1); assert(r == 0);
int i;
for (i = cursor->path_len - 2; i >= 0; i -= 1) {
BRTNODE node = cursor->path[i];
int childnum = cursor->pathcnum[i];
int match;
match = brt_node_maybe_clear_left_pivot_flag(node, k, v, childnum, cursor->brt);
match += brt_node_maybe_clear_right_pivot_flag(node, k, v, childnum-1, cursor->brt);
if (!match) break;
/* if matching keys in any subtrees of this node then we are done */
if (brt_node_any_key_present(node, k, v, cursor->brt)) break;
}
toku_free(k->data);
if (v) toku_free(v->data);
}
/* delete the key and value under the cursor */
int toku_brt_cursor_delete(BRT_CURSOR cursor, int flags __attribute__((__unused__))) {
int r;
......@@ -2954,11 +3024,12 @@ int toku_brt_cursor_delete(BRT_CURSOR cursor, int flags __attribute__((__unused_
if (cursor->path_len > 0) {
BRTNODE node = cursor->path[cursor->path_len-1];
assert(node->height == 0);
int kvsize;
r = toku_pma_cursor_delete_under(cursor->pmacurs, &kvsize, node->rand4fingerprint, &node->local_fingerprint);
int kvsize, lastmatch;
r = toku_pma_cursor_delete_under(cursor->pmacurs, &kvsize, node->rand4fingerprint, &node->local_fingerprint, &lastmatch);
if (r == 0) {
node->u.l.n_bytes_in_buffer -= PMA_ITEM_OVERHEAD + KEY_VALUE_OVERHEAD + kvsize;
node->dirty = 1;
if (lastmatch) brt_cursor_maybe_clear_pivot_flags(cursor);
}
} else
r = DB_NOTFOUND;
......
......@@ -1898,21 +1898,18 @@ static void test_pma_cursor_delete_under() {
assert(error == 0);
PMA_CURSOR cursor;
error = toku_pma_cursor(pma, &cursor, &skey, &sval);
assert(error == 0);
error = toku_pma_cursor(pma, &cursor, &skey, &sval); assert(error == 0);
int kvsize;
int kvsize, lastkey;
/* delete under an uninitialized cursor should fail */
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint);
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint, 0);
assert(error == DB_NOTFOUND);
DBT key, val;
int k, v;
int i;
/* insert 0 .. n-1 */
int i;
for (i=0; i<n; i++) {
k = htonl(i);
v = i;
......@@ -1925,6 +1922,7 @@ static void test_pma_cursor_delete_under() {
assert(error == DB_NOTFOUND);
break;
}
DBT key, val;
toku_init_dbt(&key); key.flags = DB_DBT_MALLOC;
toku_init_dbt(&val); val.flags = DB_DBT_MALLOC;
error = toku_pma_cursor_get_current(cursor, &key, &val, 0);
......@@ -1937,21 +1935,94 @@ static void test_pma_cursor_delete_under() {
toku_free(val.data);
/* delete under should succeed */
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint);
assert(error == 0);
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint, &lastkey);
assert(error == 0 && lastkey);
/* 2nd delete under should fail */
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint);
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint, 0);
assert(error == DB_NOTFOUND);
}
assert(i == n);
error = toku_pma_cursor_free(&cursor);
assert(error == 0);
error = toku_pma_cursor_free(&cursor); assert(error == 0);
assert(toku_pma_n_entries(pma) == 0);
error = toku_pma_free(&pma);
error = toku_pma_free(&pma); assert(error == 0);
}
static void test_pma_cursor_delete_under_mode(int n, int dup_mode) {
printf("test_pma_cursor_delete_under_mode:%d %d\n", n, dup_mode);
int error;
PMA pma;
u_int32_t rand4fingerprint = random();
u_int32_t sum = 0;
u_int32_t expect_fingerprint = 0;
error = toku_pma_create(&pma, toku_default_compare_fun, null_db, null_filenum, n * (8 + sizeof (int) + sizeof (int)));
assert(error == 0);
error = toku_pma_set_dup_mode(pma, dup_mode); assert(error == 0);
PMA_CURSOR cursor;
error = toku_pma_cursor(pma, &cursor, &skey, &sval); assert(error == 0);
int kvsize, lastkey;
/* delete under an uninitialized cursor should fail */
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint, &lastkey);
assert(error == DB_NOTFOUND);
int k, v;
k = htonl(1); v = 0;
do_insert(pma, &k, sizeof k, &v, sizeof v, rand4fingerprint, &sum, &expect_fingerprint);
/* insert n-2 dups */
int i;
for (i=1; i < n-1; i++) {
k = htonl(2);
v = i;
do_insert(pma, &k, sizeof k, &v, sizeof v, rand4fingerprint, &sum, &expect_fingerprint);
}
k = htonl(3); v = i;
do_insert(pma, &k, sizeof k, &v, sizeof v, rand4fingerprint, &sum, &expect_fingerprint);
for (i=0;;i++) {
error = toku_pma_cursor_set_position_next(cursor);
if (error != 0) {
assert(error == DB_NOTFOUND);
break;
}
DBT key, val;
toku_init_dbt(&key); key.flags = DB_DBT_MALLOC;
toku_init_dbt(&val); val.flags = DB_DBT_MALLOC;
error = toku_pma_cursor_get_current(cursor, &key, &val, 0);
assert(error == 0);
int vv;
assert(val.size == sizeof vv);
memcpy(&vv, val.data, val.size);
assert(vv == i);
toku_free(key.data);
toku_free(val.data);
/* delete under should succeed */
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint, &lastkey);
assert(error == 0);
if (i == 0 || i >= n-2) assert(lastkey);
/* 2nd delete under should fail */
error = toku_pma_cursor_delete_under(cursor, &kvsize, rand4fingerprint, &expect_fingerprint, &lastkey);
assert(error == DB_NOTFOUND);
}
assert(i == n);
error = toku_pma_cursor_free(&cursor); assert(error == 0);
assert(toku_pma_n_entries(pma) == 0);
error = toku_pma_free(&pma); assert(error == 0);
}
static void test_pma_cursor_set_both() {
......@@ -2428,6 +2499,12 @@ static void test_dup() {
static void pma_tests (void) {
toku_memory_check=1;
test_pma_cursor_delete_under(); local_memory_check_all_free();
test_pma_cursor_delete_under_mode(3, TOKU_DB_DUP); local_memory_check_all_free();
test_pma_cursor_delete_under_mode(3, TOKU_DB_DUP+TOKU_DB_DUPSORT); local_memory_check_all_free();
return;
toku_test_keycompare(); local_memory_check_all_free();
test_pma_compare_fun(0); local_memory_check_all_free();
test_pma_compare_fun(1); local_memory_check_all_free();
......@@ -2451,6 +2528,7 @@ static void pma_tests (void) {
test_pma_cursor_set_key(); local_memory_check_all_free();
test_pma_cursor_set_range(); local_memory_check_all_free();
test_pma_cursor_delete_under(); local_memory_check_all_free();
test_pma_cursor_delete_under_mode(3, TOKU_DB_DUP); local_memory_check_all_free();
test_pma_cursor_set_both(); local_memory_check_all_free();
test_dup();
}
......
......@@ -865,7 +865,88 @@ int toku_pma_cursor_set_range(PMA_CURSOR c, DBT *key) {
return r;
}
int toku_pma_cursor_delete_under(PMA_CURSOR c, int *kvsize, u_int32_t rand4sem, u_int32_t *fingerprint) {
/* find the next matching key in the pma starting from index here */
static int pma_next_key(PMA pma, DBT *k, DBT *v, int here, int n, int *found) {
assert(0 <= here);
*found = 0;
while (here < n && !kv_pair_inuse(pma->pairs[here]))
here += 1;
if (here < n) {
struct kv_pair *kv = kv_pair_ptr(pma->pairs[here]);
DBT k2, v2;
int cmp = pma->compare_fun(pma->db, k, toku_fill_dbt(&k2, kv_pair_key(kv), kv_pair_keylen(kv)));
if (cmp == 0 && v)
cmp = pma->dup_compare_fun(pma->db, v, toku_fill_dbt(&v2, kv_pair_val(kv), kv_pair_vallen(kv)));
if (cmp == 0)
*found = 1;
}
return here;
}
/* find the previous matching key in the pma starting from index here */
static int pma_prev_key(PMA pma, DBT *k, DBT *v, int here, int n, int *found) {
assert(here < n);
*found = 0;
while (0 <= here && !kv_pair_inuse(pma->pairs[here]))
here -= 1;
if (0 <= here) {
struct kv_pair *kv = kv_pair_ptr(pma->pairs[here]);
DBT k2, v2;
int cmp = pma->compare_fun(pma->db, k, toku_fill_dbt(&k2, kv_pair_key(kv), kv_pair_keylen(kv)));
if (cmp == 0 && v)
cmp = pma->dup_compare_fun(pma->db, v, toku_fill_dbt(&v2, kv_pair_val(kv), kv_pair_vallen(kv)));
if (cmp == 0)
*found = 1;
}
return here;
}
/* set lastkeymatch if the kv pair under the cursor is the last one in the pma
compare with the next and previous valid pma entries */
static void pma_cursor_key_last(PMA_CURSOR c, int *lastkeymatch) {
*lastkeymatch = 1;
PMA pma = c->pma;
if (pma->dup_mode & TOKU_DB_DUP) {
int here, found;
/* get the current key */
here = c->position; assert(0 <= here && here < (int) pma->N);
struct kv_pair *kv = kv_pair_ptr(pma->pairs[here]);
DBT currentkey; toku_fill_dbt(&currentkey, kv_pair_key(kv), kv_pair_keylen(kv));
DBT currentval, *v;
if (pma->dup_mode & TOKU_DB_DUPSORT) {
toku_fill_dbt(&currentval, kv_pair_val(kv), kv_pair_vallen(kv));
v = &currentval;
} else
v = 0;
/* check if the next key == current key */
here = c->position+1;
for (;;) {
here = pma_next_key(pma, &currentkey, v, here, pma->N, &found);
if (!found) break;
if (kv_pair_valid(pma->pairs[here])) {
*lastkeymatch = 0; /* next key == current key */
return;
}
}
/* check if the prev key == current key */
here = c->position-1;
for (;;) {
here = pma_prev_key(pma, &currentkey, v, here, pma->N, &found);
if (!found) break;
if (kv_pair_valid(pma->pairs[here])) {
*lastkeymatch = 0; /* prev key == current key */
return;
}
}
}
}
int toku_pma_cursor_delete_under(PMA_CURSOR c, int *kvsize, u_int32_t rand4sem, u_int32_t *fingerprint, int *lastkeymatch) {
int r = DB_NOTFOUND;
if (c->position >= 0) {
PMA pma = c->pma;
......@@ -877,6 +958,8 @@ int toku_pma_cursor_delete_under(PMA_CURSOR c, int *kvsize, u_int32_t rand4sem,
*fingerprint -= rand4sem*toku_calccrc32_kvpair (kv_pair_key_const(kv), kv_pair_keylen(kv), kv_pair_val_const(kv), kv_pair_vallen(kv));
pma->pairs[c->position] = kv_pair_set_deleted(kv);
r = 0;
if (lastkeymatch)
pma_cursor_key_last(c, lastkeymatch);
}
}
return r;
......@@ -1057,21 +1140,6 @@ int toku_pma_insert (PMA pma, DBT *k, DBT *v, TOKUTXN txn, FILENUM filenum, DISK
}
}
/* find the next matching key in the pma starting from index here */
static int pma_next_key(PMA pma, DBT *k, int here, int n, int *found) {
assert(0 <= here);
*found = 0;
while (here < n && !kv_pair_inuse(pma->pairs[here]))
here += 1;
if (here < n) {
struct kv_pair *kv = kv_pair_ptr(pma->pairs[here]);
DBT k2;
if (0 == pma->compare_fun(pma->db, k, toku_fill_dbt(&k2, kv_pair_key(kv), kv_pair_keylen(kv))))
*found = 1;
}
return here;
}
static int pma_delete_dup (PMA pma, DBT *k, u_int32_t rand4sem, u_int32_t *fingerprint, u_int32_t *deleted_size) {
/* find the left most matching key in the pma */
int found;
......@@ -1092,7 +1160,7 @@ static int pma_delete_dup (PMA pma, DBT *k, u_int32_t rand4sem, u_int32_t *finge
}
}
/* find the next matching key in the pma */
righthere = pma_next_key(pma, k, righthere+1, pma->N, &rightfound);
righthere = pma_next_key(pma, k, 0, righthere+1, pma->N, &rightfound);
}
if (found) {
/* check the density of the region centered around the deleted pairs */
......
......@@ -117,7 +117,7 @@ int toku_pma_cursor_set_key(PMA_CURSOR c, DBT *key);
int toku_pma_cursor_set_range(PMA_CURSOR c, DBT *key);
/* delete the key value pair under the cursor, return the size of the pair */
int toku_pma_cursor_delete_under(PMA_CURSOR /*c*/, int */*kvsize*/, u_int32_t /*rand4sem*/, u_int32_t */*fingerprint*/);
int toku_pma_cursor_delete_under(PMA_CURSOR /*c*/, int */*kvsize*/, u_int32_t /*rand4sem*/, u_int32_t */*fingerprint*/, int */*lastkeymatch*/);
int toku_pma_random_pick(PMA, bytevec *key, ITEMLEN *keylen, bytevec *data, ITEMLEN *datalen);
......
/* -*- mode: C; c-basic-offset: 4 -*- */
#ident "Copyright (c) 2007 Tokutek Inc. All rights reserved."
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include <unistd.h>
#include <string.h>
#include <sys/stat.h>
#include <arpa/inet.h>
#include <db.h>
#include "test.h"
void cursor_expect(DBC *cursor, int k, int v, int op) {
DBT key, val;
int r = cursor->c_get(cursor, dbt_init_malloc(&key), dbt_init_malloc(&val), op);
assert(r == 0);
assert(key.size == sizeof k);
int kk;
memcpy(&kk, key.data, key.size);
assert(val.size == sizeof v);
int vv;
memcpy(&vv, val.data, val.size);
if (kk != k || vv != v) printf("expect key %d got %d - %d %d\n", htonl(k), htonl(kk), htonl(v), htonl(vv));
assert(kk == k);
assert(vv == v);
free(key.data);
free(val.data);
}
/* generate a multi-level tree and delete all entries with a cursor
verify that the pivot flags are toggled (currently by inspection) */
void test_cursor_delete(int dup_mode) {
if (verbose) printf("test_cursor_delete:%d\n", dup_mode);
int pagesize = 4096;
int elementsize = 32;
int npp = pagesize/elementsize;
int n = 16*npp; /* build a 2 level tree */
DB_ENV * const null_env = 0;
DB *db;
DB_TXN * const null_txn = 0;
const char * const fname = DIR "/" "test.cursor.delete.brt";
int r;
unlink(fname);
/* create the dup database file */
r = db_create(&db, null_env, 0); assert(r == 0);
r = db->set_flags(db, dup_mode); assert(r == 0);
r = db->set_pagesize(db, pagesize); assert(r == 0);
r = db->open(db, null_txn, fname, "main", DB_BTREE, DB_CREATE, 0666); assert(r == 0);
int i;
for (i=0; i<n; i++) {
int k = htonl(dup_mode & DB_DUP ? 1 : i);
int v = htonl(i);
DBT key, val;
r = db->put(db, null_txn, dbt_init(&key, &k, sizeof k), dbt_init(&val, &v, sizeof v), 0); assert(r == 0);
}
/* verify the sort order with a cursor */
DBC *cursor;
r = db->cursor(db, null_txn, &cursor, 0); assert(r == 0);
for (i=0; i<n; i++) {
cursor_expect(cursor, htonl(dup_mode & DB_DUP ? 1 : i), htonl(i), DB_NEXT);
r = cursor->c_del(cursor, 0); assert(r == 0);
}
r = cursor->c_close(cursor); assert(r == 0);
r = db->close(db, 0); assert(r == 0);
}
/* insert duplicate duplicates into a sorted duplicate tree */
void test_cursor_delete_dupsort(int dup_mode) {
if (verbose) printf("test_cursor_delete_dupsort:%d\n", dup_mode);
int pagesize = 4096;
int elementsize = 32;
int npp = pagesize/elementsize;
int n = 16*npp; /* build a 2 level tree */
DB_ENV * const null_env = 0;
DB *db;
DB_TXN * const null_txn = 0;
const char * const fname = DIR "/" "test.cursor.delete.brt";
int r;
unlink(fname);
/* create the dup database file */
r = db_create(&db, null_env, 0); assert(r == 0);
r = db->set_flags(db, dup_mode); assert(r == 0);
r = db->set_pagesize(db, pagesize); assert(r == 0);
r = db->open(db, null_txn, fname, "main", DB_BTREE, DB_CREATE, 0666); assert(r == 0);
int i;
for (i=0; i<n; i++) {
int k = htonl(1);
int v = htonl(1);
DBT key, val;
r = db->put(db, null_txn, dbt_init(&key, &k, sizeof k), dbt_init(&val, &v, sizeof v), 0); assert(r == 0);
}
/* verify the sort order with a cursor */
DBC *cursor;
r = db->cursor(db, null_txn, &cursor, 0); assert(r == 0);
for (i=0; i<n; i++) {
cursor_expect(cursor, htonl(1), htonl(1), DB_NEXT);
r = cursor->c_del(cursor, 0); assert(r == 0);
}
r = cursor->c_close(cursor); assert(r == 0);
r = db->close(db, 0); assert(r == 0);
}
int main(int argc, const char *argv[]) {
parse_args(argc, argv);
system("rm -rf " DIR);
mkdir(DIR, 0777);
test_cursor_delete(0);
test_cursor_delete(DB_DUP);
test_cursor_delete(DB_DUP + DB_DUPSORT);
test_cursor_delete_dupsort(DB_DUP + DB_DUPSORT);
return 0;
}
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