Commit da1fe0b1 authored by Rich Prohaska's avatar Rich Prohaska Committed by Yoni Fogel

#4582 maintain lock tree after it is closed closes[t:4582]

git-svn-id: file:///svn/toku/tokudb@40456 c7de825b-a66e-492c-adef-691d508d4ae1
parent d9ec343b
......@@ -1332,8 +1332,10 @@ toku_lt_create(toku_lock_tree** ptree,
toku_ltm_incr_lock_memory, toku_ltm_decr_lock_memory, mgr);
if (r != 0)
goto cleanup;
r = toku_rth_create(&tmp_tree->rth);
if (r != 0)
goto cleanup;
r = toku_rth_create(&tmp_tree->txns_to_unlock);
if (r != 0)
goto cleanup;
......@@ -1362,6 +1364,8 @@ toku_lt_create(toku_lock_tree** ptree,
toku_rt_close(tmp_tree->borderwrite);
if (tmp_tree->rth)
toku_rth_close(tmp_tree->rth);
if (tmp_tree->txns_to_unlock)
toku_rth_close(tmp_tree->txns_to_unlock);
if (tmp_tree->buf)
toku_free(tmp_tree->buf);
if (tmp_tree->bw_buf)
......@@ -1394,6 +1398,7 @@ toku_lt_set_dict_id(toku_lock_tree* lt, DICTIONARY_ID dict_id) {
static void lt_add_db(toku_lock_tree* tree, DB *db);
static void lt_remove_db(toku_lock_tree* tree, DB *db);
static void lt_unlock_deferred_txns(toku_lock_tree *tree);
int
toku_ltm_get_lt(toku_ltm* mgr, toku_lock_tree** ptree, DICTIONARY_ID dict_id, DB *db, toku_dbt_cmp compare_fun) {
......@@ -1414,6 +1419,7 @@ toku_ltm_get_lt(toku_ltm* mgr, toku_lock_tree** ptree, DICTIONARY_ID dict_id, DB
assert (tree != NULL);
toku_lt_add_ref(tree);
lt_add_db(tree, db);
lt_unlock_deferred_txns(tree);
*ptree = tree;
r = 0;
goto cleanup;
......@@ -1484,17 +1490,23 @@ toku_lt_close(toku_lock_tree* tree) {
if (!first_error && r != 0)
first_error = r;
uint32_t ranges = 0;
toku_rth_start_scan(tree->rth);
rt_forest* forest;
while ((forest = toku_rth_next(tree->rth)) != NULL) {
if (forest->self_read)
ranges += toku_rt_get_size(forest->self_read);
r = lt_free_contents(tree, forest->self_read);
if (!first_error && r != 0)
first_error = r;
if (forest->self_write)
ranges += toku_rt_get_size(forest->self_write);
r = lt_free_contents(tree, forest->self_write);
if (!first_error && r != 0)
first_error = r;
}
ltm_decr_locks(tree->mgr, ranges);
toku_rth_close(tree->txns_to_unlock);
toku_rth_close(tree->rth);
toku_omt_destroy(&tree->dbs);
toku_mutex_destroy(&tree->mutex);
......@@ -2112,34 +2124,26 @@ lt_unlock_txn(toku_lock_tree* tree, TXNID txn) {
uint32_t ranges = 0;
if (selfread) {
uint32_t size = toku_rt_get_size(selfread);
ranges += size;
ranges += toku_rt_get_size(selfread);
r = lt_free_contents(tree, selfread);
if (r != 0)
return lt_panic(tree, r);
}
if (selfwrite) {
uint32_t size = toku_rt_get_size(selfwrite);
ranges += size;
// get a db from the db's associated with the lock tree and use it to update the borderwrite
// if there are no db's, then assume that the db was closed before all transactions that referenced the
// lock tree were retired. in this case, there is no need to update the border write since
// these transactions may no longer do anything to the db since it is closed, and
// we expect to just close the lock tree when all of the open references to it are retired.
if (toku_omt_size(tree->dbs) > 0) {
ranges += toku_rt_get_size(selfwrite);
assert(toku_omt_size(tree->dbs) > 0);
OMTVALUE dbv;
r = toku_omt_fetch(tree->dbs, 0, &dbv);
assert_zero(r);
DB *db = dbv;
lt_set_comparison_functions(tree, db);
r = lt_border_delete(tree, selfwrite);
lt_clear_comparison_functions(tree);
if (r != 0)
return lt_panic(tree, r);
}
r = lt_free_contents(tree, selfwrite);
if (r != 0)
return lt_panic(tree, r);
......@@ -2166,13 +2170,29 @@ toku_lt_unlock_txn(toku_lock_tree* tree, TXNID txn) {
r = EINVAL; goto cleanup;
}
toku_mutex_lock(&tree->mutex);
if (toku_omt_size(tree->dbs) > 0) {
lt_unlock_txn(tree, txn);
lt_retry_lock_requests(tree);
} else {
r = toku_rth_insert(tree->txns_to_unlock, txn);
}
toku_mutex_unlock(&tree->mutex);
cleanup:
return r;
}
static void
lt_unlock_deferred_txns(toku_lock_tree *tree) {
toku_rth_start_scan(tree->txns_to_unlock);
rt_forest *forest;
while ((forest = toku_rth_next(tree->txns_to_unlock)) != NULL) {
TXNID txn = forest->hash_key;
lt_unlock_txn(tree, txn);
}
toku_rth_clear(tree->txns_to_unlock);
lt_retry_lock_requests(tree);
}
void
toku_lt_add_ref(toku_lock_tree* tree) {
assert(tree);
......
......@@ -76,6 +76,7 @@ struct __toku_lock_tree {
OMT dbs; //The extant dbs using this lock tree.
OMT lock_requests;
toku_pthread_mutex_t mutex;
toku_rth* txns_to_unlock; // set of txn's that could not release their locks because there was no db for the comparison function
/** A temporary area where we store the results of various find on
the range trees that this lock tree owns
......
// verify that the lock tree is maintained after closes if txn's still own locks
// A gets W(L)
// B gets W(M)
// close lock tree
// A unlocks
// reopen lock tree
// B gets W(L)
// B unlocks
#include "test.h"
int main(int argc, const char *argv[]) {
int r;
uint32_t max_locks = 2;
uint64_t max_lock_memory = 4096;
for (int i = 1; i < argc; i++) {
if (strcmp(argv[i], "-v") == 0 || strcmp(argv[i], "--verbose") == 0) {
verbose++;
continue;
}
if (strcmp(argv[i], "-q") == 0 || strcmp(argv[i], "--quiet") == 0) {
if (verbose > 0) verbose--;
continue;
}
if (strcmp(argv[i], "--max_locks") == 0 && i+1 < argc) {
max_locks = atoi(argv[++i]);
continue;
}
if (strcmp(argv[i], "--max_lock_memory") == 0 && i+1 < argc) {
max_lock_memory = atoi(argv[++i]);
continue;
}
assert(0);
}
// setup
toku_ltm *ltm = NULL;
r = toku_ltm_create(&ltm, max_locks, max_lock_memory, dbpanic);
assert(r == 0 && ltm);
DB *fake_db = (DB *) 1;
toku_lock_tree *lt = NULL;
r = toku_ltm_get_lt(ltm, &lt, (DICTIONARY_ID){1}, fake_db, dbcmp);
assert(r == 0 && lt);
const TXNID txn_a = 1;
const TXNID txn_b = 2;
DBT key_l = { .data = "L", .size = 1 };
DBT key_m = { .data = "M", .size = 1 };
// txn_a gets W(L)
toku_lock_request a_w_l; toku_lock_request_init(&a_w_l, fake_db, txn_a, &key_l, &key_l, LOCK_REQUEST_WRITE);
r = toku_lock_request_start(&a_w_l, lt, false); assert(r == 0);
assert(a_w_l.state == LOCK_REQUEST_COMPLETE && a_w_l.complete_r == 0);
toku_lock_request_destroy(&a_w_l);
toku_lt_add_ref(lt);
// txn_b gets W(M)
toku_lock_request b_w_m; toku_lock_request_init(&b_w_m, fake_db, txn_b, &key_m, &key_m, LOCK_REQUEST_WRITE);
r = toku_lock_request_start(&b_w_m, lt, false); assert(r == 0);
assert(b_w_m.state == LOCK_REQUEST_COMPLETE && b_w_m.complete_r == 0);
toku_lock_request_destroy(&b_w_m);
toku_lt_add_ref(lt);
// start closing the lock tree
toku_lt_remove_db_ref(lt, fake_db);
// txn_a unlocks
r = toku_lt_unlock_txn(lt, txn_a);
toku_lt_remove_ref(lt);
// reopen the lock tree
r = toku_ltm_get_lt(ltm, &lt, (DICTIONARY_ID){1}, fake_db, dbcmp);
assert(r == 0 && lt);
// txn_b gets W(L)
toku_lock_request b_w_l; toku_lock_request_init(&b_w_l, fake_db, txn_b, &key_l, &key_l, LOCK_REQUEST_WRITE);
r = toku_lock_request_start(&b_w_l, lt, false); assert(r == 0);
assert(b_w_l.state == LOCK_REQUEST_COMPLETE && b_w_l.complete_r == 0);
toku_lock_request_destroy(&b_w_l);
toku_lt_add_ref(lt);
// release all locks for the transaction
r = toku_lt_unlock_txn(lt, txn_b); assert(r == 0);
toku_lt_remove_ref(lt);
// shutdown
r = toku_ltm_close(ltm); assert(r == 0);
return 0;
}
// add a write lock on L for a transaction, remove a reference on the lock tree, then release the locks for the transaction.
// verify that txn's can release locks after the lock tree is closed
// A gets W(L)
// close lock tree
// A unlocks
#include "test.h"
......@@ -55,6 +59,7 @@ int main(int argc, const char *argv[]) {
// release all locks for the transaction
r = toku_lt_unlock_txn(lt, txn_a); assert(r == 0);
toku_lt_remove_ref(lt);
// shutdown
r = toku_ltm_close(ltm); assert(r == 0);
......
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