# See the file LICENSE for redistribution information. # # Copyright (c) 1996, 2012 Oracle and/or its affiliates. All rights reserved. # # $Id$ # # TEST test033 # TEST DB_GET_BOTH without comparison function # TEST # TEST Use the first 10,000 entries from the dictionary. Insert each with # TEST self as key and data; add duplicate records for each. After all are # TEST entered, retrieve all and verify output using DB_GET_BOTH (on DB and # TEST DBC handles) and DB_GET_BOTH_RANGE (on a DBC handle) on existent and # TEST nonexistent keys. # TEST # TEST XXX # TEST This does not work for rbtree. proc test033 { method {nentries 10000} {ndups 5} {tnum "033"} \ {overflow 0} args } { source ./include.tcl set args [convert_args $method $args] set omethod [convert_method $method] if { [is_rbtree $method] == 1 } { puts "Test$tnum skipping for method $method" return } # Btree with compression does not support unsorted duplicates. if { [is_compressed $args] == 1 } { puts "Test$tnum skipping for btree with compression." return } if {$ndups <= 1} { set ndups 1 } set txnenv 0 set eindex [lsearch -exact $args "-env"] # # If we are using an env, then testfile should just be the db name. # Otherwise it is the test directory and the name. if { $eindex == -1 } { set testfile $testdir/test$tnum.db set env NULL } else { set testfile test$tnum.db incr eindex set env [lindex $args $eindex] set txnenv [is_txnenv $env] if { $txnenv == 1 } { append args " -auto_commit " # # If we are using txns and running with the # default, set the default down a bit. # if { $nentries == 10000 } { set nentries 100 } reduce_dups nentries ndups } set testdir [get_home $env] } if {$ndups == 1} { set dup "non-dup" } else { set dup "$ndups-dup" } set dataset "" if {$overflow != 0} { set dataset "overflow" } puts "Test$tnum:\ $method ($args) $nentries $dup ${dataset}key/data pairs" set t1 $testdir/t1 set t2 $testdir/t2 set t3 $testdir/t3 cleanup $testdir $env # Duplicate data entries are not allowed in record based methods. if { [is_record_based $method] == 1 || $ndups == 1} { set db [eval {berkdb_open -create -mode 0644 \ $omethod} $args {$testfile}] } else { set db [eval {berkdb_open -create -mode 0644 \ $omethod -dup} $args {$testfile}] } error_check_good dbopen [is_valid_db $db] TRUE set pflags "" set gflags "" set txn "" # # Find the pagesize if we are testing with overflow pages. We will # use the pagesize to build overflow items of the correct size. # if {$overflow != 0} { set stat [$db stat] set pg [get_pagesize $stat] error_check_bad get_pagesize $pg -1 set len $pg } # Allocate a cursor for DB_GET_BOTH_RANGE. if { $txnenv == 1 } { set t [$env txn] error_check_good txn [is_valid_txn $t $env] TRUE set txn "-txn $t" } set dbc [eval {$db cursor} $txn] error_check_good cursor_open [is_valid_cursor $dbc $db] TRUE puts "\tTest$tnum.a: Put/get loop." # Here is the loop where we put and get each key/data pair set count 0 set did [open $dict] while { [gets $did str] != -1 && $count < $nentries } { if { $overflow != 0 } { # # Pad the data string so that overflow data items # are large enough to generate overflow pages. # for { set j 1} { $j <= [expr $len / 4 - 1] } \ { incr j } { append str "!@#$" } } if { [is_record_based $method] == 1 } { set key [expr $count + 1] set ret [eval {$db put} $txn $pflags \ {$key [chop_data $method $str]}] error_check_good put $ret 0 } else { for { set i 1 } { $i <= $ndups } { incr i } { set datastr $i:$str set ret [eval {$db put} \ $txn $pflags {$str [chop_data $method $datastr]}] error_check_good db_put $ret 0 } } # Now retrieve all the keys matching this key and dup # for non-record based AMs. if { [is_record_based $method] == 1 } { test033_recno.check $db $dbc $method $str $txn $key } else { test033_check $db $dbc $method $str $txn $ndups } incr count } close $did puts "\tTest$tnum.b: Verifying DB_GET_BOTH after creation." set count 0 set did [open $dict] while { [gets $did str] != -1 && $count < $nentries } { if { $overflow != 0 } { # # Pad the data string so that overflow data items # are large enough to generate overflow pages. # for { set j 1} { $j <= [expr $len / 4 - 1] } \ { incr j } { append str "!@#$" } } # Now retrieve all the keys matching this key # for non-record based AMs. if { [is_record_based $method] == 1 } { set key [expr $count + 1] test033_recno.check $db $dbc $method $str $txn $key } else { test033_check $db $dbc $method $str $txn $ndups } incr count } close $did error_check_good dbc_close [$dbc close] 0 if { $txnenv == 1 } { error_check_good txn [$t commit] 0 } error_check_good db_close [$db close] 0 } # No testing of dups is done on record-based methods. proc test033_recno.check {db dbc method str txn key} { set ret [eval {$db get} $txn {-recno $key}] error_check_good "db_get:$method" \ [lindex [lindex $ret 0] 1] [pad_data $method $str] set ret [$dbc get -get_both $key [pad_data $method $str]] error_check_good "db_get_both:$method" \ [lindex [lindex $ret 0] 1] [pad_data $method $str] } # Testing of non-record-based methods includes duplicates # and get_both_range. proc test033_check {db dbc method str txn ndups} { for {set i 1} {$i <= $ndups } { incr i } { set datastr $i:$str set ret [eval {$db get} $txn {-get_both $str $datastr}] error_check_good "db_get_both:dup#" \ [lindex [lindex $ret 0] 1] $datastr set ret [$dbc get -get_both $str $datastr] error_check_good "dbc_get_both:dup#" \ [lindex [lindex $ret 0] 1] $datastr set ret [$dbc get -get_both_range $str $datastr] error_check_good "dbc_get_both_range:dup#" \ [lindex [lindex $ret 0] 1] $datastr } # Now retrieve non-existent dup (i is ndups + 1) set datastr $i:$str set ret [eval {$db get} $txn {-get_both $str $datastr}] error_check_good db_get_both:dupfailure [llength $ret] 0 set ret [$dbc get -get_both $str $datastr] error_check_good dbc_get_both:dupfailure [llength $ret] 0 set ret [$dbc get -get_both_range $str $datastr] error_check_good dbc_get_both_range [llength $ret] 0 }