# See the file LICENSE for redistribution information. # # Copyright (c) 2000, 2011 Oracle and/or its affiliates. All rights reserved. # # $Id$ # # TEST test095 # TEST Bulk get test for methods supporting dups. [#2934] proc test095 { method {tnum "095"} args } { source ./include.tcl global is_je_test global is_qnx_test set args [convert_args $method $args] set omethod [convert_method $method] 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 basename $testdir/test$tnum set env NULL # If we've our own env, no reason to swap--this isn't # an mpool test. set carg { -cachesize {0 25000000 0} } } else { set basename test$tnum incr eindex set env [lindex $args $eindex] set txnenv [is_txnenv $env] if { $txnenv == 1 } { puts "Skipping for environment with txns" return } set testdir [get_home $env] set carg {} } cleanup $testdir $env puts "Test$tnum: $method ($args) Bulk get test" # Tcl leaves a lot of memory allocated after this test # is run in the tclsh. This ends up being a problem on # QNX runs as later tests then run out of memory. if { $is_qnx_test } { puts "Test$tnum skipping for QNX" return } if { [is_record_based $method] == 1 || [is_rbtree $method] == 1 } { puts "Test$tnum skipping for method $method" return } # The test's success is dependent on the relationship between # the amount of data loaded and the buffer sizes we pick, so # these parameters don't belong on the command line. set nsets 300 set noverflows 25 # We run the meat of the test twice: once with unsorted dups, # once with sorted dups. foreach { dflag sort } { -dup unsorted {-dup -dupsort} sorted } { if { $is_je_test || [is_compressed $args] } { if { $sort == "unsorted" } { continue } } set testfile $basename-$sort.db set did [open $dict] # Open and populate the database with $nsets sets of dups. # Each set contains as many dups as its number puts "\tTest$tnum.a:\ Creating database with $nsets sets of $sort dups." set dargs "$dflag $carg $args" set db [eval {berkdb_open_noerr -create} \ $omethod $dargs $testfile] error_check_good db_open [is_valid_db $db] TRUE t95_populate $db $did $nsets 0 # Determine the pagesize so we can use it to size the buffer. set stat [$db stat] set pagesize [get_pagesize $stat] # Run basic get tests. # # A small buffer will fail if it is smaller than the pagesize. # Skip small buffer tests if the page size is so small that # we can't define a buffer smaller than the page size. # (Buffers must be 1024 or multiples of 1024.) # # A big buffer of 66560 (64K + 1K) should always be large # enough to contain the data, so the test should succeed # on all platforms. We picked this number because it # is larger than the largest allowed pagesize, so the test # always fills more than a page at some point. set maxpage [expr 1024 * 64] set bigbuf [expr $maxpage + 1024] set smallbuf 1024 if { $pagesize > 1024 } { t95_gettest $db $tnum b $smallbuf 1 } else { puts "Skipping small buffer test Test$tnum.b" } t95_gettest $db $tnum c $bigbuf 0 # Run cursor get tests. if { $pagesize > 1024 } { t95_cgettest $db $tnum b $smallbuf 1 } else { puts "Skipping small buffer test Test$tnum.d" } t95_cgettest $db $tnum e $bigbuf 0 # Run invalid flag combination tests # Sync and reopen test file so errors won't be sent to stderr error_check_good db_sync [$db sync] 0 set noerrdb [eval berkdb_open_noerr $dargs $testfile] t95_flagtest $noerrdb $tnum f [expr 8192] t95_cflagtest $noerrdb $tnum g [expr 100] error_check_good noerrdb_close [$noerrdb close] 0 # Set up for overflow tests set max [expr 4096 * $noverflows] puts "\tTest$tnum.h: Add $noverflows overflow sets\ to database (max item size $max)" t95_populate $db $did $noverflows 4096 # Run overflow get tests. The overflow test fails with # our standard big buffer doubled, but succeeds with a # buffer sized to handle $noverflows pairs of data of # size $max. t95_gettest $db $tnum i $bigbuf 1 t95_gettest $db $tnum j [expr $bigbuf * 2] 1 t95_gettest $db $tnum k [expr $max * $noverflows * 2] 0 # Run overflow cursor get tests. t95_cgettest $db $tnum l $bigbuf 1 # Expand buffer to accommodate basekey as well as the padding. t95_cgettest $db $tnum m [expr ($max + 512) * 2] 0 error_check_good db_close [$db close] 0 close $did } } proc t95_gettest { db tnum letter bufsize expectfail } { t95_gettest_body $db $tnum $letter $bufsize $expectfail 0 } proc t95_cgettest { db tnum letter bufsize expectfail } { t95_gettest_body $db $tnum $letter $bufsize $expectfail 1 } proc t95_flagtest { db tnum letter bufsize } { t95_flagtest_body $db $tnum $letter $bufsize 0 } proc t95_cflagtest { db tnum letter bufsize } { t95_flagtest_body $db $tnum $letter $bufsize 1 } # Basic get test proc t95_gettest_body { db tnum letter bufsize expectfail usecursor } { global errorCode foreach flag { multi multi_key } { if { $usecursor == 0 } { if { $flag == "multi_key" } { # db->get does not allow multi_key continue } else { set action "db get -$flag" } } else { set action "dbc get -$flag -set/-next" } puts "\tTest$tnum.$letter: $action with bufsize $bufsize" set allpassed TRUE set saved_err "" # Cursor for $usecursor. if { $usecursor != 0 } { set getcurs [$db cursor] error_check_good getcurs [is_valid_cursor $getcurs $db] TRUE } # Traverse DB with cursor; do get/c_get($flag) on each item. set dbc [$db cursor] error_check_good is_valid_dbc [is_valid_cursor $dbc $db] TRUE for { set dbt [$dbc get -first] } { [llength $dbt] != 0 } \ { set dbt [$dbc get -nextnodup] } { set key [lindex [lindex $dbt 0] 0] set datum [lindex [lindex $dbt 0] 1] if { $usecursor == 0 } { set ret [catch {eval $db get -$flag $bufsize $key} res] } else { set res {} for { set ret [catch {eval $getcurs get -$flag $bufsize\ -set $key} tres] } \ { $ret == 0 && [llength $tres] != 0 } \ { set ret [catch {eval $getcurs get -$flag $bufsize\ -nextdup} tres]} { eval lappend res $tres } } # If we expect a failure, be more tolerant if the above # fails; just make sure it's a DB_BUFFER_SMALL or an # EINVAL (if the buffer is smaller than the pagesize, # it's EINVAL), mark it, and move along. if { $expectfail != 0 && $ret != 0 } { if { [is_substr $errorCode DB_BUFFER_SMALL] != 1 && \ [is_substr $errorCode EINVAL] != 1 } { error_check_good \ "$flag failure errcode" \ $errorCode "DB_BUFFER_SMALL or EINVAL" } set allpassed FALSE continue } error_check_good "get_$flag ($key)" $ret 0 if { $flag == "multi_key" } { t95_verify $res TRUE } else { t95_verify $res FALSE } } set ret [catch {eval $db get -$flag $bufsize} res] if { $expectfail == 1 } { error_check_good allpassed $allpassed FALSE puts "\t\tTest$tnum.$letter:\ returned at least one DB_BUFFER_SMALL (as expected)" } else { error_check_good allpassed $allpassed TRUE puts "\t\tTest$tnum.$letter: succeeded (as expected)" } error_check_good dbc_close [$dbc close] 0 if { $usecursor != 0 } { error_check_good getcurs_close [$getcurs close] 0 } } } # Test of invalid flag combinations proc t95_flagtest_body { db tnum letter bufsize usecursor } { global errorCode foreach flag { multi multi_key } { if { $usecursor == 0 } { if { $flag == "multi_key" } { # db->get does not allow multi_key continue } else { set action "db get -$flag" } } else { set action "dbc get -$flag" } puts "\tTest$tnum.$letter: $action with invalid flag combinations" # Cursor for $usecursor. if { $usecursor != 0 } { set getcurs [$db cursor] error_check_good getcurs [is_valid_cursor $getcurs $db] TRUE } if { $usecursor == 0 } { # Disallowed flags for db->get set badflags [list consume consume_wait {rmw some_key}] foreach badflag $badflags { catch {eval $db get -$flag $bufsize -$badflag} ret error_check_good \ db:get:$flag:$badflag [is_substr $errorCode EINVAL] 1 } } else { # Disallowed flags for db->cget set cbadflags [list last get_recno join_item \ {multi_key 1000} prev prevnodup] set dbc [$db cursor] $dbc get -first foreach badflag $cbadflags { catch {eval $dbc get -$flag $bufsize -$badflag} ret error_check_good dbc:get:$flag:$badflag \ [is_substr $errorCode EINVAL] 1 } error_check_good dbc_close [$dbc close] 0 } if { $usecursor != 0 } { error_check_good getcurs_close [$getcurs close] 0 } } puts "\t\tTest$tnum.$letter completed" } # Verify that a passed-in list of key/data pairs all match the predicted # structure (e.g. {{thing1 thing1.0}}, {{key2 key2.0} {key2 key2.1}}). proc t95_verify { res multiple_keys } { global alphabet set i 0 set orig_key [lindex [lindex $res 0] 0] set nkeys [string trim $orig_key $alphabet'] set base_key [string trim $orig_key 0123456789] set datum_count 0 while { 1 } { set key [lindex [lindex $res $i] 0] set datum [lindex [lindex $res $i] 1] if { $datum_count >= $nkeys } { if { [llength $key] != 0 } { # If there are keys beyond $nkeys, we'd # better have multiple_keys set. error_check_bad "keys beyond number $i allowed"\ $multiple_keys FALSE # If multiple_keys is set, accept the new key. set orig_key $key set nkeys [eval string trim \ $orig_key {$alphabet'}] set base_key [eval string trim \ $orig_key 0123456789] set datum_count 0 } else { # datum_count has hit nkeys. We're done. return } } error_check_good returned_key($i) $key $orig_key error_check_good returned_datum($i) \ $datum $base_key.[format %4u $datum_count] incr datum_count incr i } } # Add nsets dup sets, each consisting of {word$ndups word$n} pairs, # with "word" having (i * pad_bytes) bytes extra padding. proc t95_populate { db did nsets pad_bytes } { set txn "" for { set i 1 } { $i <= $nsets } { incr i } { # basekey is a padded dictionary word gets $did basekey append basekey [repeat "a" [expr $pad_bytes * $i]] # key is basekey with the number of dups stuck on. set key $basekey$i for { set j 0 } { $j < $i } { incr j } { set data $basekey.[format %4u $j] error_check_good db_put($key,$data) \ [eval {$db put} $txn {$key $data}] 0 } } # This will make debugging easier, and since the database is # read-only from here out, it's cheap. error_check_good db_sync [$db sync] 0 }