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# Copyright (c) 2021-2023, PostgreSQL Global Development Group
# Test collations, in particular nondeterministic ones
# (only works with ICU)
use strict;
use warnings;
use PostgreSQL::Test::Cluster;
use PostgreSQL::Test::Utils;
use Test::More;
if ($ENV{with_icu} ne 'yes')
{
plan skip_all => 'ICU not supported by this build';
}
my $node_publisher = PostgreSQL::Test::Cluster->new('publisher');
$node_publisher->init(
allows_streaming => 'logical',
extra => [ '--locale=C', '--encoding=UTF8' ]);
$node_publisher->start;
my $node_subscriber = PostgreSQL::Test::Cluster->new('subscriber');
$node_subscriber->init(
allows_streaming => 'logical',
extra => [ '--locale=C', '--encoding=UTF8' ]);
$node_subscriber->start;
my $publisher_connstr = $node_publisher->connstr . ' dbname=postgres';
# Test plan: Create a table with a nondeterministic collation in the
# primary key column. Pre-insert rows on the publisher and subscriber
# that are collation-wise equal but byte-wise different. (We use a
# string in different normal forms for that.) Set up publisher and
# subscriber. Update the row on the publisher, but don't change the
# primary key column. The subscriber needs to find the row to be
# updated using the nondeterministic collation semantics. We need to
# test for both a replica identity index and for replica identity
# full, since those have different code paths internally.
$node_subscriber->safe_psql('postgres',
q{CREATE COLLATION ctest_nondet (provider = icu, locale = 'und', deterministic = false)}
);
# table with replica identity index
$node_publisher->safe_psql('postgres',
q{CREATE TABLE tab1 (a text PRIMARY KEY, b text)});
$node_publisher->safe_psql('postgres',
q{INSERT INTO tab1 VALUES (U&'\00E4bc', 'foo')});
$node_subscriber->safe_psql('postgres',
q{CREATE TABLE tab1 (a text COLLATE ctest_nondet PRIMARY KEY, b text)});
$node_subscriber->safe_psql('postgres',
q{INSERT INTO tab1 VALUES (U&'\0061\0308bc', 'foo')});
# table with replica identity full
$node_publisher->safe_psql('postgres', q{CREATE TABLE tab2 (a text, b text)});
$node_publisher->safe_psql('postgres',
q{ALTER TABLE tab2 REPLICA IDENTITY FULL});
$node_publisher->safe_psql('postgres',
q{INSERT INTO tab2 VALUES (U&'\00E4bc', 'foo')});
$node_subscriber->safe_psql('postgres',
q{CREATE TABLE tab2 (a text COLLATE ctest_nondet, b text)});
$node_subscriber->safe_psql('postgres',
q{ALTER TABLE tab2 REPLICA IDENTITY FULL});
$node_subscriber->safe_psql('postgres',
q{INSERT INTO tab2 VALUES (U&'\0061\0308bc', 'foo')});
# set up publication, subscription
$node_publisher->safe_psql('postgres',
q{CREATE PUBLICATION pub1 FOR ALL TABLES});
$node_subscriber->safe_psql('postgres',
qq{CREATE SUBSCRIPTION sub1 CONNECTION '$publisher_connstr' PUBLICATION pub1 WITH (copy_data = false)}
);
$node_publisher->wait_for_catchup('sub1');
# test with replica identity index
$node_publisher->safe_psql('postgres',
q{UPDATE tab1 SET b = 'bar' WHERE b = 'foo'});
$node_publisher->wait_for_catchup('sub1');
is($node_subscriber->safe_psql('postgres', q{SELECT b FROM tab1}),
qq(bar), 'update with primary key with nondeterministic collation');
# test with replica identity full
$node_publisher->safe_psql('postgres',
q{UPDATE tab2 SET b = 'bar' WHERE b = 'foo'});
$node_publisher->wait_for_catchup('sub1');
is($node_subscriber->safe_psql('postgres', q{SELECT b FROM tab2}),
qq(bar),
'update with replica identity full with nondeterministic collation');
done_testing();
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