# See the file LICENSE for redistribution information. # # Copyright (c) 2000 # Sleepycat Software. All rights reserved. # # $Id: recd013.tcl,v 11.10 2000/12/11 17:24:55 sue Exp $ # # Recovery Test 13. # Smoke test of aborted cursor adjustments. # # XXX # Other tests that cover more specific variants of the same issue # are in the access method tests for now. This is probably wrong; we # put this one here because they're closely based on and intertwined # with other, non-transactional cursor stability tests that are among # the access method tests, and because we need at least one test to # fit under recd and keep logtrack from complaining. We'll sort out the mess # later; the important thing, for now, is that everything that needs to gets # tested. (This really shouldn't be under recd at all, since it doesn't # run recovery!) proc recd013 { method { nitems 100 } args } { source ./include.tcl global alphabet log_log_record_types set args [convert_args $method $args] set omethod [convert_method $method] set tnum 13 set pgsz 512 puts "Recd0$tnum $method ($args): Test of aborted cursor adjustments." set pgindex [lsearch -exact $args "-pagesize"] if { $pgindex != -1 } { puts "Recd013: skipping for specific pagesizes" return } set testfile recd0$tnum.db env_cleanup $testdir set i 0 if { [is_record_based $method] == 1 } { set keybase "" } else { set keybase "key" } puts "\tRecd0$tnum.a:\ Create environment, database, and parent transaction." set flags "-create -txn -home $testdir" set env_cmd "berkdb env $flags" set env [eval $env_cmd] error_check_good dbenv [is_valid_env $env] TRUE set oflags "-env $env -create -mode 0644 -pagesize $pgsz $args $omethod" set db [eval {berkdb_open} $oflags $testfile] error_check_good dbopen [is_valid_db $db] TRUE # Create a database containing $nitems items, numbered with odds. # We'll then put the even numbers during the body of the test. set txn [$env txn] error_check_good init_txn [is_valid_txn $txn $env] TRUE for { set i 1 } { $i <= 2 * $nitems } { incr i 2 } { set key $keybase$i set data [chop_data $method $i$alphabet] error_check_good init_put($i) [$db put -txn $txn $key $data] 0 } error_check_good init_txn_commit [$txn commit] 0 # Create an initial txn; set a cursor of that txn to each item. set txn [$env txn] error_check_good txn [is_valid_txn $txn $env] TRUE for { set i 1 } { $i <= 2 * $nitems } { incr i 2 } { set dbc($i) [$db cursor -txn $txn] error_check_good dbc_getset($i) [$dbc($i) get -set $keybase$i] \ [list [list $keybase$i [pad_data $method $i$alphabet]]] } puts "\tRecd0$tnum.b: Put test." puts "\t\tRecd0$tnum.b.1: Put items." set ctxn [$env txn -parent $txn] error_check_good txn [is_valid_txn $ctxn $env] TRUE for { set i 2 } { $i <= 2 * $nitems } { incr i 2 } { set key $keybase$i set data [chop_data $method $i$alphabet] error_check_good child_put($i) [$db put -txn $ctxn $key $data] 0 # If we're a renumbering recno, this is uninteresting. # Stir things up by putting a few additional records at # the beginning. if { [is_rrecno $method] == 1 } { set curs [$db cursor -txn $ctxn] error_check_bad llength_get_first \ [llength [$curs get -first]] 0 error_check_good cursor [is_valid_cursor $curs $db] TRUE # expect a recno! error_check_good rrecno_put($i) \ [$curs put -before ADDITIONAL.$i] 1 error_check_good curs_close [$curs close] 0 } } puts "\t\tRecd0$tnum.b.2: Verify cursor stability after abort." error_check_good ctxn_abort [$ctxn abort] 0 for { set i 1 } { $i <= 2 * $nitems } { incr i 2 } { error_check_good dbc_get($i) [$dbc($i) get -current] \ [list [list $keybase$i [pad_data $method $i$alphabet]]] } # Clean up cursors. for { set i 1 } { $i <= 2 * $nitems } { incr i 2 } { error_check_good dbc($i)_close [$dbc($i) close] 0 } # Sync and verify. error_check_good txn_commit [$txn commit] 0 set txn [$env txn] error_check_good txn [is_valid_txn $txn $env] TRUE error_check_good db_sync [$db sync] 0 error_check_good db_verify \ [verify_dir $testdir "\t\tRecd0$tnum.b.3: "] 0 # Now put back all the even records, this time in the parent. # Commit and re-begin the transaction so we can abort and # get back to a nice full database. for { set i 2 } { $i <= 2 * $nitems } { incr i 2 } { set key $keybase$i set data [chop_data $method $i$alphabet] error_check_good child_put($i) [$db put -txn $txn $key $data] 0 } error_check_good txn_commit [$txn commit] 0 set txn [$env txn] error_check_good txn [is_valid_txn $txn $env] TRUE # Delete test. Set a cursor to each record. Delete the even ones # in the parent and check cursor stability. Then open a child # transaction, and delete the odd ones. Verify that the database # is empty puts "\tRecd0$tnum.c: Delete test." unset dbc # Create cursors pointing at each item. for { set i 1 } { $i <= 2 * $nitems } { incr i } { set dbc($i) [$db cursor -txn $txn] error_check_good dbc($i)_create [is_valid_cursor $dbc($i) $db] \ TRUE error_check_good dbc_getset($i) [$dbc($i) get -set $keybase$i] \ [list [list $keybase$i [pad_data $method $i$alphabet]]] } puts "\t\tRecd0$tnum.c.1: Delete even items in parent txn." if { [is_rrecno $method] != 1 } { set init 2 set bound [expr 2 * $nitems] set step 2 } else { # In rrecno, deletes will renumber the items, so we have # to take that into account when we delete by recno. set init 2 set bound [expr $nitems + 1] set step 1 } for { set i $init } { $i <= $bound } { incr i $step } { error_check_good del($i) [$db del -txn $txn $keybase$i] 0 } # Verify that even items are deleted and odd items are not. for { set i 1 } { $i <= 2 * $nitems } { incr i 2 } { if { [is_rrecno $method] != 1 } { set j $i } else { set j [expr ($i - 1) / 2 + 1] } error_check_good dbc_get($i) [$dbc($i) get -current] \ [list [list $keybase$j [pad_data $method $i$alphabet]]] } for { set i 2 } { $i <= 2 * $nitems } { incr i 2 } { error_check_good dbc_get($i) [$dbc($i) get -current] \ [list [list "" ""]] } puts "\t\tRecd0$tnum.c.2: Delete odd items in child txn." set ctxn [$env txn -parent $txn] for { set i 1 } { $i <= 2 * $nitems } { incr i 2 } { if { [is_rrecno $method] != 1 } { set j $i } else { # If this is an rrecno, just delete the first # item repeatedly--the renumbering will make # that delete everything. set j 1 } error_check_good del($i) [$db del -txn $ctxn $keybase$j] 0 } # Verify that everyone's deleted. for { set i 1 } { $i <= 2 * $nitems } { incr i } { error_check_good get_deleted($i) \ [llength [$db get -txn $ctxn $keybase$i]] 0 } puts "\t\tRecd0$tnum.c.3: Verify cursor stability after abort." error_check_good ctxn_abort [$ctxn abort] 0 # Verify that even items are deleted and odd items are not. for { set i 1 } { $i <= 2 * $nitems } { incr i 2 } { if { [is_rrecno $method] != 1 } { set j $i } else { set j [expr ($i - 1) / 2 + 1] } error_check_good dbc_get($i) [$dbc($i) get -current] \ [list [list $keybase$j [pad_data $method $i$alphabet]]] } for { set i 2 } { $i <= 2 * $nitems } { incr i 2 } { error_check_good dbc_get($i) [$dbc($i) get -current] \ [list [list "" ""]] } # Clean up cursors. for { set i 1 } { $i <= 2 * $nitems } { incr i } { error_check_good dbc($i)_close [$dbc($i) close] 0 } # Sync and verify. error_check_good db_sync [$db sync] 0 error_check_good db_verify \ [verify_dir $testdir "\t\tRecd0$tnum.c.4: "] 0 puts "\tRecd0$tnum.d: Clean up." error_check_good txn_commit [$txn commit] 0 error_check_good db_close [$db close] 0 error_check_good env_close [$env close] 0 error_check_good verify_dir \ [verify_dir $testdir "\t\tRecd0$tnum.d.1: "] 0 if { $log_log_record_types == 1 } { logtrack_read $testdir } }