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########################################################### # # Test cases for wl#7593: Don't hold LOCK_open... # # 1) The first basic scenario is based on concurrency and # sequencing of three threads: Let thread TA1 open table ta, # while thread TB1 and TB2 open table tb. Now, we have various # possible situations that are considered in the three first # test cases below, which are all based on this point of # departure, referred to as (1) below. # # 2) The second basic scenario is based on three threads: Let # thread TB1 and TB2 open table tb, while thread TA1 issues a # FLUSH TABLES in order to flush the cache while a share is # being initialized. The three last test cases are variants of # this scenario, referred to as (2) below. # # 3) The third scenario is based on two threads: One thread # doing CREATE TABLE while another issues LOCK TABLE on the # same table. There is one test case based on this scenario. # # 4) The fourth scenario is based on two threads: One thread # TB1 opening table tb, being paused while opening the share, # while another thread TB2 issues the SQL command SHOW OPEN # TABLES. Then, we verify that the table being opened is excluded # from the list of open tables. A related test case is relevant # in the context of the federated storage engine, and is located # in suite/federated/federated_get_table_share.test. # ########################################################### # # Test setup: Create three reusable connections: # connect con_TA1, localhost, root; connect con_TB1, localhost, root; connect con_TB2, localhost, root; ########################################################### # # Test case 1.1: After 1), verify that if thread TA1 # broadcasts COND_open first, thread TB2 will wake up, # re-fetch its share and see that m_open_in_progress is # still true, and then continue waiting for COND_open. # # connection default; # Create two tables: CREATE TABLE ta (pk integer primary key); CREATE TABLE tb (pk integer primary key); # connection con_TA1; # Wait after releasing LOCK_open for ta, and make sure we never # end up at the 'found_share' sync point: SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TA1 WAIT_FOR cont_TA1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO ta VALUES(1); # connection con_TB1; # Wait for open_TA1, then wait after releasing LOCK_open for tb, # also make sure we never end up at the 'found_share' sync point: SET DEBUG_SYNC= 'now WAIT_FOR open_TA1'; SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 WAIT_FOR cont_TB1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO tb VALUES(1); # connection con_TB2; # Wait for open_TB1, then wait after the tb share is found in the # TDC. Wake up when TA1 broadcasts COND_open, then go back to wait # since a different share (ta) was opened. Finally stop at the # 'found_share' sync point to verify that the share being addressed # is now available. Also make sure we never end up at the # 'before_open' sync point: SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; SET DEBUG_SYNC= 'get_share_found_share SIGNAL found_TB2'; SET DEBUG_SYNC= 'get_share_before_open HIT_LIMIT 1'; INSERT INTO tb VALUES(2); # connection default; # Now, we know that TA1 and TB1 are about to open the shares # for ta and tb concurrently. We also know that TB2 is about to # wait for COND_open. First issue then is to make sure TB2 waits # for COND_open (using P_S.events_waits_current, not logged here): # # Then we save the event id for later: SET @first_wait_id= 0; SELECT event_id FROM performance_schema.events_waits_current WHERE event_name LIKE '%COND_open' INTO @first_wait_id; # # Next up is to make one of the opening threads read the definition. # Here, we let TA1 read first: SET DEBUG_SYNC= 'now SIGNAL cont_TA1'; # # Then, we make sure TB2 leaves the wait for COND_open, and then # waits for it once more. Verify this by waiting for the event_id # to change: # # Then, we signal TB1 to make it open its def and do its things, # this will also wake up TB2 (now waiting on the COND_open): SET DEBUG_SYNC= 'now SIGNAL cont_TB1'; # # And at last, we wait for TB2 to signal that it found its share: SET DEBUG_SYNC= 'now WAIT_FOR found_TB2'; # # Reap the connections, reset DEBUG_SYNC and drop tables: connection con_TA1; connection con_TB1; connection con_TB2; connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE ta, tb; ########################################################### # # Test case 1.2: After 1), verify that if thread TB1 # broadcasts COND_open first, thread TB2 will wake up, # re-fetch its share and see that m_open_in_progress is # false, and then continue under the assumption that the # expected share is found. # # connection default; # Create two tables: CREATE TABLE ta (pk integer primary key); CREATE TABLE tb (pk integer primary key); # connection con_TA1; # Wait after releasing LOCK_open for ta, and make sure we never # end up at the 'found_share' sync point: SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TA1 WAIT_FOR cont_TA1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO ta VALUES(1); # connection con_TB1; # Wait for open_TA1, then wait after releasing LOCK_open for tb, # also make sure we never end up at the 'found_share' sync point: SET DEBUG_SYNC= 'now WAIT_FOR open_TA1'; SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 WAIT_FOR cont_TB1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO tb VALUES(1); # connection con_TB2; # Wait for open_TB1, then wait after the tb share is found in the # TDC. Wake up when TB1 broadcasts COND_open, jump to 'found' since # the awaited share (tb) was opened by TB1 before TA1 opened ta. # Signal when at the 'found_share' sync point so we can verify that the # thread is at the expected point. Also make sure we never end up # at the 'before_open' sync point: SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; SET DEBUG_SYNC= 'get_share_found_share SIGNAL found_TB2'; SET DEBUG_SYNC= 'get_share_before_open HIT_LIMIT 1'; INSERT INTO tb VALUES(2); # connection default; # Now, we know that TA1 and TB1 are about to open the shares # for ta and tb concurrently. We also know that TB2 is about to # wait for COND_open. First issue then is to make sure TB2 waits # for COND_open (using P_S.events_waits_current, not logged here): # # Next up is to make one of the opening threads read the def. # Here, as opposed to the previous test case, we let TB1 read first: SET DEBUG_SYNC= 'now SIGNAL cont_TB1'; # # Then, we wait for TB2 to signal that it's at the 'found_share' # sync point. This means it jumped out of the wait loop in the first # attempt since a second loop would make it do cond_wait once more: SET DEBUG_SYNC= 'now WAIT_FOR found_TB2'; # # Then, we signal TA1 to make it open its def and do its things, # and then we're done: SET DEBUG_SYNC= 'now SIGNAL cont_TA1'; # # Reap the connections, reset DEBUG_SYNC and drop tables: connection con_TA1; connection con_TB1; connection con_TB2; connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE ta, tb; ########################################################### # # Test case 1.3: After 1), verify that if there is an error # in open_table_def for TB1, the share is deleted from the # hash table and destroyed. Then, verify that TB2 wakes up, # discovers that the share is now missing, and then # continues as if the share never existed in the hash table # in the first place. This test case does not use connection # TA1. # # connection default; # Create one table: CREATE TABLE tb (pk integer primary key); # connection con_TB1; # Wait after releasing LOCK_open when opening table tb. # Set up a debug label to make the code simulate an error when # opening the table definition, hence making TB1 delete the share # from the hash table and destroy the share. Let TB1 signal at the # 'after_destroy' sync point to verify this behavior. Also make # sure we never end up at the 'found_share' sync point. SET SESSION debug= '+d,set_open_table_err'; SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 WAIT_FOR cont_TB1'; SET DEBUG_SYNC= 'get_share_after_destroy SIGNAL del_TB1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO tb VALUES(1); # connection con_TB2; # Wait for open_TB1, then wait after the tb share is found in the # TDC. Wake up when TB1 broadcasts COND_open, this happens after # the share is destroyed by TB1. Then make sure TB2 gets to the # 'before_open' sync point, and ensure it does not get to neither # the 'after_destroy' nor 'found_share' sync points: SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB2'; SET DEBUG_SYNC= 'get_share_after_destroy HIT_LIMIT 1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO tb VALUES(2); # connection default; # Now, we know that TB1 is about to open the share for tb. # We also know that TB2 is about to wait for COND_open. # First issue then is to make sure TB2 waits for COND_open # (using P_S.events_waits_current, not logged here): # # Next up is to make TB1 continue and read the table definition. # Then, TB1 will "see" an error from open_table_def (by means of # debug instrumentation in the source code). Thus, we wait for TB1 # to delete the share, and then we can let it finish: SET DEBUG_SYNC= 'now SIGNAL cont_TB1'; SET DEBUG_SYNC= 'now WAIT_FOR del_TB1'; # # Then, we wait for TB2 to signal that it's at the 'before_open' # sync point. This means it jumped out of the wait loop in the first # attempt since a second loop would make it do another cond_wait, # and it also means it ended the loop because the share was NOT # found in the TDC anymore. Then, we're done: SET DEBUG_SYNC= 'now WAIT_FOR open_TB2'; # # Reap the connections, reset DEBUG_SYNC and drop tables: connection con_TB1; ERROR 42S02: Table 'test.tb' doesn't exist SET SESSION debug= '-d,set_open_table_err'; connection con_TB2; connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE tb; ########################################################### # # Test case 2.1: After 2), verify that if thread TB1 is # stopped before open, and TA1 is starting its flushing, # when TB1 continues, then TA1 will be able to complete. # This test case has only one thread accessing table tb. # # connection default; # Create one table: CREATE TABLE tb (pk integer primary key); # connection con_TB1; # Do an insert, wait after releasing LOCK_open for tb. Due to # a concurrent pending FLUSH TABLES, the first share will be # rejected due to wrong version number, and the share will be # retrieved once more. Also, we make sure we never end up # at the 'found_share' nor the 'after_destroy' sync point: SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 WAIT_FOR cont_TB1'; SET DEBUG_SYNC= 'get_share_after_destroy HIT_LIMIT 1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO tb VALUES(1); # connection con_TA1; # Wait for TB1 to signal 'open_TB1', then issue a 'FLUSH TABLES' # command: SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; FLUSH TABLES; # connection default; # Wait until the flush has started waiting for the share, # use I_S.processlist for this purpose (not logged here): # # Then we know TA1 is waiting for TB1 to finish. Next, we signal # TB1 to continue. This will make it retry getting the share: SET DEBUG_SYNC= 'now SIGNAL cont_TB1'; # # Reap the connections, reset DEBUG_SYNC and drop tables: connection con_TA1; connection con_TB1; connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE tb; ########################################################### # # Test case 2.2: After 2), verify that if thread TB1 is # stopped before open, and TA1 is starting its flushing, # when TB1 continues, then TA1 will be able to complete. # This test case has only one thread accessing table tb. # This case is similar to 2.1, but we simulate an error in # open_table_def. We also do 'FLUSH TABLES tb' to test # another variant of the FLUSH TABLES statement. # # connection default; # Create one table: CREATE TABLE tb (pk integer primary key); # connection con_TB1; # Do an insert, wait after releasing LOCK_open for tb. # Simulate a failing open_table_def to verify that a # concurrent flush table operation handles this situation. Due # to a concurrent pending FLUSH TABLES, the first share will be # rejected due to wrong version number, but since it fails, # anyway, it will not be retrieved once more. Make sure we don't # end up more than once at the 'before_open' sync point. Also, make # sure we never end up at the 'found_share' sync point: SET SESSION debug= '+d,set_open_table_err'; SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 \ WAIT_FOR cont_TB1 HIT_LIMIT 2'; SET DEBUG_SYNC= 'get_share_after_destroy SIGNAL del_TB1 HIT_LIMIT 2'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO tb VALUES(1); # connection con_TA1; # Wait for TB1 to signal 'open_TB1', then issue a 'FLUSH TABLES' # command, and signal 'wait_TB1' right before doing cond_wait: SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; SET DEBUG_SYNC= 'get_cached_share_cond_wait SIGNAL wait_TA1'; FLUSH TABLES tb; # connection default; # Wait until the flush has started waiting for the share, # we cannot use I_S.processlist for this purpose here because # get_cached_table_share() waits for COND_open, and at that # point has locked all table caches (done in close_cached_tables). # Thus, we use a DEBUG_SYNC point instead: SET DEBUG_SYNC= 'now WAIT_FOR wait_TA1'; # # Then we know TA1 is waiting for TB1 to finish. Next, we signal # TB1 to continue. Since we simulate a failing open, TB1 should # end up signalling 'del_TB1'. We tell it to continue, and then # we're done: SET DEBUG_SYNC= 'now SIGNAL cont_TB1'; SET DEBUG_SYNC= 'now WAIT_FOR del_TB1'; # # Reap the connections, reset DEBUG_SYNC and drop tables: connection con_TA1; connection con_TB1; ERROR 42S02: Table 'test.tb' doesn't exist SET SESSION debug= '-d,set_open_table_err'; connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE tb; ########################################################### # # Test case 2.3: After 2), verify that if thread TB1 is # stopped before open, and TA1 is starting its flushing, # and TB2 has found a share and waits, then if we let # TB1 continue, then TA1 will be able to complete, and TB2 # gets to open the table def because the "first" share is # flushed due to wrong version number. Also, verify that # TB1 finds the share to exist (since TB2 opened it) when it # retries. # # connection default; # Create one table: CREATE TABLE tb (pk integer primary key); # connection con_TB1; # Do an insert, wait after releasing LOCK_open for tb. After # being signaled to continue, stop again before # retrying. After TB2 has opened the share, continue, and signal # when the share is found: SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 WAIT_FOR cont_open_TB1 HIT_LIMIT 2'; SET DEBUG_SYNC= 'open_table_before_retry SIGNAL retry_TB1 WAIT_FOR cont_retry_TB1'; SET DEBUG_SYNC= 'get_share_found_share SIGNAL found_TB1'; INSERT INTO tb VALUES(1); # connection con_TB2; # Wait for TB1 to start opening, then do an insert, and wait for # COND_open after finding the share. After TB1 broadcasts COND_open, # the share will be missing, so TB2 will open it. Stop after opening # the share to make sure TB1 will also call get_table_share() when # retrying (to get predictable behavior): SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; SET DEBUG_SYNC= 'open_table_found_share SIGNAL found_TB2 WAIT_FOR finish_TB2'; INSERT INTO tb VALUES(2); # connection con_TA1; # Issue a 'FLUSH TABLES' command: FLUSH TABLES; # connection default; # Wait until the flush has started waiting for the share, # use I_S.processlist for this purpose (not logged here): # # Next issue then is to make sure TB2 waits for COND_open # (using P_S.events_waits_current, not logged here): # # Then we know TA1 is waiting for the tb share, and we know TB2 # is waiting for COND_open. Now, we signal TB1 to continue opening # the table: SET DEBUG_SYNC= 'now SIGNAL cont_open_TB1'; # # Then we wait for the flush to complete (by an I_S wait condition, # not logged): # # When TB1 finished opening tb, we know that TB2 was signaled, # and since TB1 has eventually unlocked LOCK_open, TB2 will be opening # the table share (because the tb share is removed by TB1 since # it has too old version), but we must stop TB1 before retrying to # avoid the situation where TB1 manages to open tb before TB2 # (to make sure the test is deterministic): SET DEBUG_SYNC= 'now WAIT_FOR retry_TB1'; SET DEBUG_SYNC= 'now WAIT_FOR found_TB2'; SET DEBUG_SYNC= 'now SIGNAL cont_retry_TB1'; # # Now, we know that TB2 has opened the "new" version of the share, # and we know it's stopped at 'open_table_share_found'. # The only issue left then is to make sure TB1 drops by the # 'found_share' sync point, then signal TB2 to finish, and we're done: SET DEBUG_SYNC= 'now WAIT_FOR found_TB1'; SET DEBUG_SYNC= 'now SIGNAL finish_TB2'; # # Reap the connections, reset DEBUG_SYNC and drop tables: connection con_TA1; connection con_TB1; connection con_TB2; connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE tb; ########################################################### # # Test case 3.1: Let thread TB1 issue LOCK TABLES tb # while thread TB2 issues CREATE TABLE tb. Do LOCK TABLES # first, and stop in get_share_before_open. Then run CREATE # TABLE, which does check_if_table_exists, which again calls # get_cached_table_share, and sees the share for tb that TB1 # is trying to create. Verify that get_cached_table_share # waits for COND_open until tb is created. # # If the CREATE mistakenly does conclude that tb # exists, it will bypass the MDL lock upgrade from S to X, # and instead go ahead and open the table. Then, it will # wait in get_table_share until TB1 is done, and finally, # TB2 will attempt to open_table_def (since TB1 failed and # destroyed the share). Thus, TB2 will fail while opening # too, since tb doesn't exist, making TB2 return the # error message "Table test.tb doesn't exist". # # connection con_TB1; # Issue 'LOCK TABLES tb', and stop after allocating a share # for the table, before trying to actually open it: SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 WAIT_FOR cont_TB1'; LOCK TABLES tb WRITE;; # connection con_TB2; # Create the table which is being locked by TB1. The execution # will do check_if_table_exists() before create, calling # get_cached_share(), which does a search in the TDC. Here, we # will see the share being opened by TB1, but this situation # should be handled, allowing the CREATE to proceed. Set sync # points in get_table_share to verify we don't get there: SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; SET DEBUG_SYNC= 'get_share_before_open HIT_LIMIT 1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; CREATE TABLE tb (pk integer primary key);; # connection default; # Wait until the CREATE TABLE execution is waiting for # COND_open in get_cached_table_share for tb, then signal TB1 # to continue: SET DEBUG_SYNC='now SIGNAL cont_TB1'; # # Reap the connections, reset DEBUG_SYNC and drop tables: connection con_TB1; ERROR 42S02: Table 'test.tb' doesn't exist connection con_TB2; connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE tb; ########################################################### # # Test case 4.1: After 4), issue a SHOW OPEN TABLES command # and verify that the table being opened is excluded from # the list of open tables. # # connection default; # Create two tables: CREATE TABLE ta (pk integer primary key); CREATE TABLE tb (pk integer primary key); # # Insert into ta to make sure it is open and in the cache: INSERT INTO ta VALUES(0); # connection con_TB1; # Wait after releasing LOCK_open for tb, and make sure we never # end up at the 'found_share' sync point: SET DEBUG_SYNC= 'get_share_before_open SIGNAL open_TB1 WAIT_FOR cont_TB1'; SET DEBUG_SYNC= 'get_share_found_share HIT_LIMIT 1'; INSERT INTO tb VALUES(1); # connection default; # Wait for open_TB1, then issue a SHOW OPEN TABLES command # where tb should not be included: SET DEBUG_SYNC= 'now WAIT_FOR open_TB1'; SHOW OPEN TABLES; Database Table In_use Name_locked performance_schema events_waits_current 0 0 test ta 0 0 # # Next up is to let TB1 read the share, and do the insert: SET DEBUG_SYNC= 'now SIGNAL cont_TB1'; # # Reap connection TB1, and do another SHOW OPEN TABLES # where tb should now be included: connection con_TB1; connection default; SHOW OPEN TABLES; Database Table In_use Name_locked test tb 0 0 performance_schema events_waits_current 0 0 test ta 0 0 # # Connection TB1 has already been reaped. Reset DEBUG_SYNC # and drop tables: connection default; SET DEBUG_SYNC= 'RESET'; DROP TABLE ta, tb; ########################################################### # # Test teardown: Disconnect # connection con_TA1; disconnect con_TA1; connection con_TB1; disconnect con_TB1; connection con_TB2; disconnect con_TB2; connection default;