#!./perl
BEGIN {
unless(grep /blib/, @INC) {
chdir 't' if -d 't';
@INC = '../lib' if -d '../lib';
}
}
use warnings;
use strict;
use Config;
BEGIN {
if(-d "lib" && -f "TEST") {
if ($Config{'extensions'} !~ /\bDB_File\b/ ) {
print "1..0 # Skip: DB_File was not built\n";
exit 0;
}
}
}
use DB_File;
use Fcntl;
print "1..117\n";
sub ok
{
my $no = shift ;
my $result = shift ;
print "not " unless $result ;
print "ok $no\n" ;
}
{
package Redirect ;
use Symbol ;
sub new
{
my $class = shift ;
my $filename = shift ;
my $fh = gensym ;
open ($fh, ">$filename") || die "Cannot open $filename: $!" ;
my $real_stdout = select($fh) ;
return bless [$fh, $real_stdout ] ;
}
sub DESTROY
{
my $self = shift ;
close $self->[0] ;
select($self->[1]) ;
}
}
sub docat_del
{
my $file = shift;
local $/ = undef;
open(CAT,$file) || die "Cannot open $file: $!";
my $result = <CAT>;
close(CAT);
$result = normalise($result) ;
unlink $file ;
return $result;
}
sub normalise
{
my $data = shift ;
$data =~ s#\r\n#\n#g
if $^O eq 'cygwin' ;
return $data ;
}
my $Dfile = "dbhash.tmp";
my $null_keys_allowed = ($DB_File::db_ver < 2.004010
|| $DB_File::db_ver >= 3.1 );
unlink $Dfile;
umask(0);
# Check the interface to HASHINFO
my $dbh = new DB_File::HASHINFO ;
ok(1, ! defined $dbh->{bsize}) ;
ok(2, ! defined $dbh->{ffactor}) ;
ok(3, ! defined $dbh->{nelem}) ;
ok(4, ! defined $dbh->{cachesize}) ;
ok(5, ! defined $dbh->{hash}) ;
ok(6, ! defined $dbh->{lorder}) ;
$dbh->{bsize} = 3000 ;
ok(7, $dbh->{bsize} == 3000 );
$dbh->{ffactor} = 9000 ;
ok(8, $dbh->{ffactor} == 9000 );
$dbh->{nelem} = 400 ;
ok(9, $dbh->{nelem} == 400 );
$dbh->{cachesize} = 65 ;
ok(10, $dbh->{cachesize} == 65 );
$dbh->{hash} = "abc" ;
ok(11, $dbh->{hash} eq "abc" );
$dbh->{lorder} = 1234 ;
ok(12, $dbh->{lorder} == 1234 );
# Check that an invalid entry is caught both for store & fetch
eval '$dbh->{fred} = 1234' ;
ok(13, $@ =~ /^DB_File::HASHINFO::STORE - Unknown element 'fred' at/ );
eval 'my $q = $dbh->{fred}' ;
ok(14, $@ =~ /^DB_File::HASHINFO::FETCH - Unknown element 'fred' at/ );
# Now check the interface to HASH
my ($X, %h);
ok(15, $X = tie(%h, 'DB_File',$Dfile, O_RDWR|O_CREAT, 0640, $DB_HASH ) );
die "Could not tie: $!" unless $X;
my ($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,$atime,$mtime,$ctime,
$blksize,$blocks) = stat($Dfile);
my %noMode = map { $_, 1} qw( amigaos MSWin32 NetWare cygwin ) ;
ok(16, ($mode & 0777) == (($^O eq 'os2' || $^O eq 'MacOS') ? 0666 : 0640) ||
$noMode{$^O} );
my ($key, $value, $i);
while (($key,$value) = each(%h)) {
$i++;
}
ok(17, !$i );
$h{'goner1'} = 'snork';
$h{'abc'} = 'ABC';
ok(18, $h{'abc'} eq 'ABC' );
ok(19, !defined $h{'jimmy'} );
ok(20, !exists $h{'jimmy'} );
ok(21, exists $h{'abc'} );
$h{'def'} = 'DEF';
$h{'jkl','mno'} = "JKL\034MNO";
$h{'a',2,3,4,5} = join("\034",'A',2,3,4,5);
$h{'a'} = 'A';
#$h{'b'} = 'B';
$X->STORE('b', 'B') ;
$h{'c'} = 'C';
#$h{'d'} = 'D';
$X->put('d', 'D') ;
$h{'e'} = 'E';
$h{'f'} = 'F';
$h{'g'} = 'X';
$h{'h'} = 'H';
$h{'i'} = 'I';
$h{'goner2'} = 'snork';
delete $h{'goner2'};
# IMPORTANT - $X must be undefined before the untie otherwise the
# underlying DB close routine will not get called.
undef $X ;
untie(%h);
# tie to the same file again, do not supply a type - should default to HASH
ok(22, $X = tie(%h,'DB_File',$Dfile, O_RDWR, 0640) );
# Modify an entry from the previous tie
$h{'g'} = 'G';
$h{'j'} = 'J';
$h{'k'} = 'K';
$h{'l'} = 'L';
$h{'m'} = 'M';
$h{'n'} = 'N';
$h{'o'} = 'O';
$h{'p'} = 'P';
$h{'q'} = 'Q';
$h{'r'} = 'R';
$h{'s'} = 'S';
$h{'t'} = 'T';
$h{'u'} = 'U';
$h{'v'} = 'V';
$h{'w'} = 'W';
$h{'x'} = 'X';
$h{'y'} = 'Y';
$h{'z'} = 'Z';
$h{'goner3'} = 'snork';
delete $h{'goner1'};
$X->DELETE('goner3');
my @keys = keys(%h);
my @values = values(%h);
ok(23, $#keys == 29 && $#values == 29) ;
$i = 0 ;
while (($key,$value) = each(%h)) {
if ($key eq $keys[$i] && $value eq $values[$i] && $key eq lc($value)) {
$key =~ y/a-z/A-Z/;
$i++ if $key eq $value;
}
}
ok(24, $i == 30) ;
@keys = ('blurfl', keys(%h), 'dyick');
ok(25, $#keys == 31) ;
$h{'foo'} = '';
ok(26, $h{'foo'} eq '' );
# Berkeley DB from version 2.4.10 to 3.0 does not allow null keys.
# This feature was reenabled in version 3.1 of Berkeley DB.
my $result = 0 ;
if ($null_keys_allowed) {
$h{''} = 'bar';
$result = ( $h{''} eq 'bar' );
}
else
{ $result = 1 }
ok(27, $result) ;
# check cache overflow and numeric keys and contents
my $ok = 1;
for ($i = 1; $i < 200; $i++) { $h{$i + 0} = $i + 0; }
for ($i = 1; $i < 200; $i++) { $ok = 0 unless $h{$i} == $i; }
ok(28, $ok );
($dev,$ino,$mode,$nlink,$uid,$gid,$rdev,$size,$atime,$mtime,$ctime,
$blksize,$blocks) = stat($Dfile);
ok(29, $size > 0 );
@h{0..200} = 200..400;
my @foo = @h{0..200};
ok(30, join(':',200..400) eq join(':',@foo) );
# Now check all the non-tie specific stuff
# Check NOOVERWRITE will make put fail when attempting to overwrite
# an existing record.
my $status = $X->put( 'x', 'newvalue', R_NOOVERWRITE) ;
ok(31, $status == 1 );
# check that the value of the key 'x' has not been changed by the
# previous test
ok(32, $h{'x'} eq 'X' );
# standard put
$status = $X->put('key', 'value') ;
ok(33, $status == 0 );
#check that previous put can be retrieved
$value = 0 ;
$status = $X->get('key', $value) ;
ok(34, $status == 0 );
ok(35, $value eq 'value' );
# Attempting to delete an existing key should work
$status = $X->del('q') ;
ok(36, $status == 0 );
# Make sure that the key deleted, cannot be retrieved
{
no warnings 'uninitialized' ;
ok(37, $h{'q'} eq undef );
}
# Attempting to delete a non-existant key should fail
$status = $X->del('joe') ;
ok(38, $status == 1 );
# Check the get interface
# First a non-existing key
$status = $X->get('aaaa', $value) ;
ok(39, $status == 1 );
# Next an existing key
$status = $X->get('a', $value) ;
ok(40, $status == 0 );
ok(41, $value eq 'A' );
# seq
# ###
# ditto, but use put to replace the key/value pair.
# use seq to walk backwards through a file - check that this reversed is
# check seq FIRST/LAST
# sync
# ####
$status = $X->sync ;
ok(42, $status == 0 );
# fd
# ##
$status = $X->fd ;
ok(43, $status != 0 );
undef $X ;
untie %h ;
unlink $Dfile;
# clear
# #####
ok(44, tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_HASH ) );
foreach (1 .. 10)
{ $h{$_} = $_ * 100 }
# check that there are 10 elements in the hash
$i = 0 ;
while (($key,$value) = each(%h)) {
$i++;
}
ok(45, $i == 10);
# now clear the hash
%h = () ;
# check it is empty
$i = 0 ;
while (($key,$value) = each(%h)) {
$i++;
}
ok(46, $i == 0);
untie %h ;
unlink $Dfile ;
# Now try an in memory file
ok(47, $X = tie(%h, 'DB_File',undef, O_RDWR|O_CREAT, 0640, $DB_HASH ) );
# fd with an in memory file should return fail
$status = $X->fd ;
ok(48, $status == -1 );
undef $X ;
untie %h ;
{
# check ability to override the default hashing
my %x ;
my $filename = "xyz" ;
my $hi = new DB_File::HASHINFO ;
$::count = 0 ;
$hi->{hash} = sub { ++$::count ; length $_[0] } ;
ok(49, tie %x, 'DB_File', $filename, O_RDWR|O_CREAT, 0640, $hi ) ;
$h{"abc"} = 123 ;
ok(50, $h{"abc"} == 123) ;
untie %x ;
unlink $filename ;
ok(51, $::count >0) ;
}
{
# check that attempting to tie an array to a DB_HASH will fail
my $filename = "xyz" ;
my @x ;
eval { tie @x, 'DB_File', $filename, O_RDWR|O_CREAT, 0640, $DB_HASH ; } ;
ok(52, $@ =~ /^DB_File can only tie an associative array to a DB_HASH database/) ;
unlink $filename ;
}
{
# sub-class test
package Another ;
use warnings ;
use strict ;
open(FILE, ">SubDB.pm") or die "Cannot open SubDB.pm: $!\n" ;
print FILE <<'EOM' ;
package SubDB ;
use warnings ;
use strict ;
our (@ISA, @EXPORT);
require Exporter ;
use DB_File;
@ISA=qw(DB_File);
@EXPORT = @DB_File::EXPORT ;
sub STORE {
my $self = shift ;
my $key = shift ;
my $value = shift ;
$self->SUPER::STORE($key, $value * 2) ;
}
sub FETCH {
my $self = shift ;
my $key = shift ;
$self->SUPER::FETCH($key) - 1 ;
}
sub put {
my $self = shift ;
my $key = shift ;
my $value = shift ;
$self->SUPER::put($key, $value * 3) ;
}
sub get {
my $self = shift ;
$self->SUPER::get($_[0], $_[1]) ;
$_[1] -= 2 ;
}
sub A_new_method
{
my $self = shift ;
my $key = shift ;
my $value = $self->FETCH($key) ;
return "[[$value]]" ;
}
1 ;
EOM
close FILE ;
BEGIN { push @INC, '.'; }
eval 'use SubDB ; ';
main::ok(53, $@ eq "") ;
my %h ;
my $X ;
eval '
$X = tie(%h, "SubDB","dbhash.tmp", O_RDWR|O_CREAT, 0640, $DB_HASH );
' ;
main::ok(54, $@ eq "") ;
my $ret = eval '$h{"fred"} = 3 ; return $h{"fred"} ' ;
main::ok(55, $@ eq "") ;
main::ok(56, $ret == 5) ;
my $value = 0;
$ret = eval '$X->put("joe", 4) ; $X->get("joe", $value) ; return $value' ;
main::ok(57, $@ eq "") ;
main::ok(58, $ret == 10) ;
$ret = eval ' R_NEXT eq main::R_NEXT ' ;
main::ok(59, $@ eq "" ) ;
main::ok(60, $ret == 1) ;
$ret = eval '$X->A_new_method("joe") ' ;
main::ok(61, $@ eq "") ;
main::ok(62, $ret eq "[[11]]") ;
undef $X;
untie(%h);
unlink "SubDB.pm", "dbhash.tmp" ;
}
{
# DBM Filter tests
use warnings ;
use strict ;
my (%h, $db) ;
my ($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
unlink $Dfile;
sub checkOutput
{
my($fk, $sk, $fv, $sv) = @_ ;
return
$fetch_key eq $fk && $store_key eq $sk &&
$fetch_value eq $fv && $store_value eq $sv &&
$_ eq 'original' ;
}
ok(63, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_HASH ) );
$db->filter_fetch_key (sub { $fetch_key = $_ }) ;
$db->filter_store_key (sub { $store_key = $_ }) ;
$db->filter_fetch_value (sub { $fetch_value = $_}) ;
$db->filter_store_value (sub { $store_value = $_ }) ;
$_ = "original" ;
$h{"fred"} = "joe" ;
# fk sk fv sv
ok(64, checkOutput( "", "fred", "", "joe")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(65, $h{"fred"} eq "joe");
# fk sk fv sv
ok(66, checkOutput( "", "fred", "joe", "")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(67, $db->FIRSTKEY() eq "fred") ;
# fk sk fv sv
ok(68, checkOutput( "fred", "", "", "")) ;
# replace the filters, but remember the previous set
my ($old_fk) = $db->filter_fetch_key
(sub { $_ = uc $_ ; $fetch_key = $_ }) ;
my ($old_sk) = $db->filter_store_key
(sub { $_ = lc $_ ; $store_key = $_ }) ;
my ($old_fv) = $db->filter_fetch_value
(sub { $_ = "[$_]"; $fetch_value = $_ }) ;
my ($old_sv) = $db->filter_store_value
(sub { s/o/x/g; $store_value = $_ }) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
$h{"Fred"} = "Joe" ;
# fk sk fv sv
ok(69, checkOutput( "", "fred", "", "Jxe")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(70, $h{"Fred"} eq "[Jxe]");
# fk sk fv sv
ok(71, checkOutput( "", "fred", "[Jxe]", "")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(72, $db->FIRSTKEY() eq "FRED") ;
# fk sk fv sv
ok(73, checkOutput( "FRED", "", "", "")) ;
# put the original filters back
$db->filter_fetch_key ($old_fk);
$db->filter_store_key ($old_sk);
$db->filter_fetch_value ($old_fv);
$db->filter_store_value ($old_sv);
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
$h{"fred"} = "joe" ;
ok(74, checkOutput( "", "fred", "", "joe")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(75, $h{"fred"} eq "joe");
ok(76, checkOutput( "", "fred", "joe", "")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(77, $db->FIRSTKEY() eq "fred") ;
ok(78, checkOutput( "fred", "", "", "")) ;
# delete the filters
$db->filter_fetch_key (undef);
$db->filter_store_key (undef);
$db->filter_fetch_value (undef);
$db->filter_store_value (undef);
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
$h{"fred"} = "joe" ;
ok(79, checkOutput( "", "", "", "")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(80, $h{"fred"} eq "joe");
ok(81, checkOutput( "", "", "", "")) ;
($fetch_key, $store_key, $fetch_value, $store_value) = ("") x 4 ;
ok(82, $db->FIRSTKEY() eq "fred") ;
ok(83, checkOutput( "", "", "", "")) ;
undef $db ;
untie %h;
unlink $Dfile;
}
{
# DBM Filter with a closure
use warnings ;
use strict ;
my (%h, $db) ;
unlink $Dfile;
ok(84, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_HASH ) );
my %result = () ;
sub Closure
{
my ($name) = @_ ;
my $count = 0 ;
my @kept = () ;
return sub { ++$count ;
push @kept, $_ ;
$result{$name} = "$name - $count: [@kept]" ;
}
}
$db->filter_store_key(Closure("store key")) ;
$db->filter_store_value(Closure("store value")) ;
$db->filter_fetch_key(Closure("fetch key")) ;
$db->filter_fetch_value(Closure("fetch value")) ;
$_ = "original" ;
$h{"fred"} = "joe" ;
ok(85, $result{"store key"} eq "store key - 1: [fred]");
ok(86, $result{"store value"} eq "store value - 1: [joe]");
ok(87, ! defined $result{"fetch key"} );
ok(88, ! defined $result{"fetch value"} );
ok(89, $_ eq "original") ;
ok(90, $db->FIRSTKEY() eq "fred") ;
ok(91, $result{"store key"} eq "store key - 1: [fred]");
ok(92, $result{"store value"} eq "store value - 1: [joe]");
ok(93, $result{"fetch key"} eq "fetch key - 1: [fred]");
ok(94, ! defined $result{"fetch value"} );
ok(95, $_ eq "original") ;
$h{"jim"} = "john" ;
ok(96, $result{"store key"} eq "store key - 2: [fred jim]");
ok(97, $result{"store value"} eq "store value - 2: [joe john]");
ok(98, $result{"fetch key"} eq "fetch key - 1: [fred]");
ok(99, ! defined $result{"fetch value"} );
ok(100, $_ eq "original") ;
ok(101, $h{"fred"} eq "joe");
ok(102, $result{"store key"} eq "store key - 3: [fred jim fred]");
ok(103, $result{"store value"} eq "store value - 2: [joe john]");
ok(104, $result{"fetch key"} eq "fetch key - 1: [fred]");
ok(105, $result{"fetch value"} eq "fetch value - 1: [joe]");
ok(106, $_ eq "original") ;
undef $db ;
untie %h;
unlink $Dfile;
}
{
# DBM Filter recursion detection
use warnings ;
use strict ;
my (%h, $db) ;
unlink $Dfile;
ok(107, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_HASH ) );
$db->filter_store_key (sub { $_ = $h{$_} }) ;
eval '$h{1} = 1234' ;
ok(108, $@ =~ /^recursion detected in filter_store_key at/ );
undef $db ;
untie %h;
unlink $Dfile;
}
{
# Examples from the POD
my $file = "xyzt" ;
{
my $redirect = new Redirect $file ;
use warnings FATAL => qw(all);
use strict ;
use DB_File ;
our (%h, $k, $v);
unlink "fruit" ;
tie %h, "DB_File", "fruit", O_RDWR|O_CREAT, 0640, $DB_HASH
or die "Cannot open file 'fruit': $!\n";
# Add a few key/value pairs to the file
$h{"apple"} = "red" ;
$h{"orange"} = "orange" ;
$h{"banana"} = "yellow" ;
$h{"tomato"} = "red" ;
# Check for existence of a key
print "Banana Exists\n\n" if $h{"banana"} ;
# Delete a key/value pair.
delete $h{"apple"} ;
# print the contents of the file
while (($k, $v) = each %h)
{ print "$k -> $v\n" }
untie %h ;
unlink "fruit" ;
}
ok(109, docat_del($file) eq <<'EOM') ;
Banana Exists
orange -> orange
tomato -> red
banana -> yellow
EOM
}
{
# Bug ID 20001013.009
#
# test that $hash{KEY} = undef doesn't produce the warning
# Use of uninitialized value in null operation
use warnings ;
use strict ;
use DB_File ;
unlink $Dfile;
my %h ;
my $a = "";
local $SIG{__WARN__} = sub {$a = $_[0]} ;
tie %h, 'DB_File', $Dfile or die "Can't open file: $!\n" ;
$h{ABC} = undef;
ok(110, $a eq "") ;
untie %h ;
unlink $Dfile;
}
{
# test that %hash = () doesn't produce the warning
# Argument "" isn't numeric in entersub
use warnings ;
use strict ;
use DB_File ;
unlink $Dfile;
my %h ;
my $a = "";
local $SIG{__WARN__} = sub {$a = $_[0]} ;
tie %h, 'DB_File', $Dfile or die "Can't open file: $!\n" ;
%h = (); ;
ok(111, $a eq "") ;
untie %h ;
unlink $Dfile;
}
{
# When iterating over a tied hash using "each", the key passed to FETCH
# will be recycled and passed to NEXTKEY. If a Source Filter modifies the
# key in FETCH via a filter_fetch_key method we need to check that the
# modified key doesn't get passed to NEXTKEY.
# Also Test "keys" & "values" while we are at it.
use warnings ;
use strict ;
use DB_File ;
unlink $Dfile;
my $bad_key = 0 ;
my %h = () ;
my $db ;
ok(112, $db = tie(%h, 'DB_File', $Dfile, O_RDWR|O_CREAT, 0640, $DB_HASH ) );
$db->filter_fetch_key (sub { $_ =~ s/^Beta_/Alpha_/ if defined $_}) ;
$db->filter_store_key (sub { $bad_key = 1 if /^Beta_/ ; $_ =~ s/^Alpha_/Beta_/}) ;
$h{'Alpha_ABC'} = 2 ;
$h{'Alpha_DEF'} = 5 ;
ok(113, $h{'Alpha_ABC'} == 2);
ok(114, $h{'Alpha_DEF'} == 5);
my ($k, $v) = ("","");
while (($k, $v) = each %h) {}
ok(115, $bad_key == 0);
$bad_key = 0 ;
foreach $k (keys %h) {}
ok(116, $bad_key == 0);
$bad_key = 0 ;
foreach $v (values %h) {}
ok(117, $bad_key == 0);
undef $db ;
untie %h ;
unlink $Dfile;
}
exit ;
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