libdb/test/tcl/test001.tcl

221 lines
5.9 KiB
Tcl

# See the file LICENSE for redistribution information.
#
# Copyright (c) 1996, 2011 Oracle and/or its affiliates. All rights reserved.
#
# $Id$
#
# TEST test001
# TEST Small keys/data
# TEST Put/get per key
# TEST Dump file
# TEST Close, reopen
# TEST Dump file
# TEST
# TEST Use the first 10,000 entries from the dictionary.
# TEST Insert each with self as key and data; retrieve each.
# TEST After all are entered, retrieve all; compare output to original.
# TEST Close file, reopen, do retrieve and re-verify.
proc test001 { method {nentries 10000} \
{start 0} {skip 0} {tnum "001"} args } {
source ./include.tcl
set args [convert_args $method $args]
set omethod [convert_method $method]
# Create the database and open the dictionary
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 we are not using an external env, then test setting
# the database cache size and using multiple caches.
set txnenv 0
if { $eindex == -1 } {
set testfile $testdir/test$tnum.db
append args " -cachesize {0 1048576 3} "
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
}
}
set testdir [get_home $env]
}
puts "Test$tnum: $method ($args) $nentries equal key/data pairs"
set did [open $dict]
# The "start" variable determines the record number to start
# with, if we're using record numbers. The "skip" variable
# determines the dictionary entry to start with.
# In normal use, skip will match start.
puts "\tTest$tnum: Starting at $start with dictionary entry $skip"
if { $skip != 0 } {
for { set count 0 } { $count < $skip } { incr count } {
gets $did str
}
}
set t1 $testdir/t1
set t2 $testdir/t2
set t3 $testdir/t3
set temp $testdir/temp
cleanup $testdir $env
set db [eval {berkdb_open \
-create -mode 0644} $args $omethod $testfile]
error_check_good dbopen [is_valid_db $db] TRUE
set pflags ""
set gflags ""
set txn ""
if { [is_record_based $method] == 1 } {
set checkfunc test001_recno.check
append gflags " -recno"
} else {
set checkfunc test001.check
}
puts "\tTest$tnum.a: put/get loop"
# Here is the loop where we put and get each key/data pair
set count 0
while { [gets $did str] != -1 && $count < $nentries } {
if { [is_record_based $method] == 1 } {
global kvals
set key [expr $count + 1 + $start]
if { 0xffffffff > 0 && $key > 0xffffffff } {
set key [expr $key - 0x100000000]
}
if { $key == 0 || $key - 0xffffffff == 1 } {
incr key
incr count
}
set kvals($key) [pad_data $method $str]
} else {
set key $str
set str [reverse $str]
}
if { $txnenv == 1 } {
set t [$env txn]
error_check_good txn [is_valid_txn $t $env] TRUE
set txn "-txn $t"
}
set ret [eval \
{$db put} $txn $pflags {$key [chop_data $method $str]}]
error_check_good put $ret 0
if { $txnenv == 1 } {
error_check_good txn [$t commit] 0
if { $count % 50 == 0 } {
error_check_good txn_checkpoint($count) \
[$env txn_checkpoint] 0
}
}
set ret [eval {$db get} $gflags {$key}]
error_check_good \
get $ret [list [list $key [pad_data $method $str]]]
# Test DB_GET_BOTH for success
set ret [$db get -get_both $key [pad_data $method $str]]
error_check_good \
getboth $ret [list [list $key [pad_data $method $str]]]
# Test DB_GET_BOTH for failure
set ret [$db get -get_both $key [pad_data $method BAD$str]]
error_check_good getbothBAD [llength $ret] 0
incr count
}
close $did
if { $txnenv == 1 } {
set t [$env txn]
error_check_good txn [is_valid_txn $t $env] TRUE
set txn "-txn $t"
}
# Now we will get each key from the DB and compare the results
# to the original.
puts "\tTest$tnum.b: dump file"
dump_file $db $txn $t1 $checkfunc
#
# dump_file should just have been "get" calls, so
# aborting a get should really be a no-op. Abort
# just for the fun of it.
if { $txnenv == 1 } {
error_check_good txn [$t abort] 0
}
error_check_good db_close [$db close] 0
# Now compare the keys to see if they match the dictionary (or ints)
if { [is_record_based $method] == 1 } {
set oid [open $t2 w]
for { set i 1 } { $i <= $nentries } { incr i } {
set j [expr $i + $start]
if { 0xffffffff > 0 && $j > 0xffffffff } {
set j [expr $j - 0x100000000]
}
if { $j == 0 } {
incr i
incr j
}
puts $oid $j
}
close $oid
} else {
filehead [expr $nentries + $start] $dict $t2 [expr $start + 1]
}
filesort $t2 $temp
file rename -force $temp $t2
filesort $t1 $t3
error_check_good Test$tnum:diff($t3,$t2) \
[filecmp $t3 $t2] 0
puts "\tTest$tnum.c: close, open, and dump file"
# Now, reopen the file and run the last test again.
eval open_and_dump_file $testfile $env $t1 $checkfunc \
dump_file_direction "-first" "-next" $args
if { [string compare $omethod "-recno"] != 0 } {
filesort $t1 $t3
}
error_check_good Test$tnum:diff($t2,$t3) \
[filecmp $t2 $t3] 0
# Now, reopen the file and run the last test again in the
# reverse direction.
puts "\tTest$tnum.d: close, open, and dump file in reverse direction"
eval open_and_dump_file $testfile $env $t1 $checkfunc \
dump_file_direction "-last" "-prev" $args
if { [string compare $omethod "-recno"] != 0 } {
filesort $t1 $t3
}
error_check_good Test$tnum:diff($t3,$t2) \
[filecmp $t3 $t2] 0
}
# Check function for test001; keys and data are identical
proc test001.check { key data } {
error_check_good "key/data mismatch" $data [reverse $key]
}
proc test001_recno.check { key data } {
global dict
global kvals
error_check_good key"$key"_exists [info exists kvals($key)] 1
error_check_good "key/data mismatch, key $key" $data $kvals($key)
}