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postgresql/contrib/amcheck/t/001_verify_heapam.pl
Michael Paquier f9c4cb6868 Add more $Test::Builder::Level in the TAP tests 
Incrementing the level of the call stack reported is useful for
debugging purposes as it allows to control which part of the test is
exactly failing, especially if a test is structured with subroutines
that call routines from Test::More.

This adds more incrementations of $Test::Builder::Level where debugging
gets improved (for example it does not make sense for some paths like
pg_rewind where long subroutines are used).

A note is added to src/test/perl/README about that, based on a
suggestion from Andrew Dunstan and a wording coming from both of us.

Usage of Test::Builder::Level has spread in 12, so a backpatch down to
this version is done.

Reviewed-by: Andrew Dunstan, Peter Eisentraut, Daniel Gustafsson
Discussion: https://postgr.es/m/YV1CCFwgM1RV1LeS@paquier.xyz
Backpatch-through: 12
2021-10-12 11:15:44 +09:00

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Perl
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# Copyright (c) 2021, PostgreSQL Global Development Group
use strict;
use warnings;
use PostgresNode;
use TestLib;
use Fcntl qw(:seek);
use Test::More tests => 272;
my ($node, $result);
#
# Test set-up
#
$node = PostgresNode->new('test');
$node->init;
$node->append_conf('postgresql.conf', 'autovacuum=off');
$node->start;
$node->safe_psql('postgres', q(CREATE EXTENSION amcheck));
#
# Check a table with data loaded but no corruption, freezing, etc.
#
fresh_test_table('test');
check_all_options_uncorrupted('test', 'plain');
#
# Check a corrupt table
#
fresh_test_table('test');
corrupt_first_page('test');
detects_heap_corruption("verify_heapam('test')", "plain corrupted table");
detects_heap_corruption(
"verify_heapam('test', skip := 'all-visible')",
"plain corrupted table skipping all-visible");
detects_heap_corruption(
"verify_heapam('test', skip := 'all-frozen')",
"plain corrupted table skipping all-frozen");
detects_heap_corruption(
"verify_heapam('test', check_toast := false)",
"plain corrupted table skipping toast");
detects_heap_corruption(
"verify_heapam('test', startblock := 0, endblock := 0)",
"plain corrupted table checking only block zero");
#
# Check a corrupt table with all-frozen data
#
fresh_test_table('test');
$node->safe_psql('postgres', q(VACUUM (FREEZE, DISABLE_PAGE_SKIPPING) test));
detects_no_corruption("verify_heapam('test')",
"all-frozen not corrupted table");
corrupt_first_page('test');
detects_heap_corruption("verify_heapam('test')",
"all-frozen corrupted table");
detects_no_corruption(
"verify_heapam('test', skip := 'all-frozen')",
"all-frozen corrupted table skipping all-frozen");
#
# Check a sequence with no corruption. The current implementation of sequences
# doesn't require its own test setup, since sequences are really just heap
# tables under-the-hood. To guard against future implementation changes made
# without remembering to update verify_heapam, we create and exercise a
# sequence, checking along the way that it passes corruption checks.
#
fresh_test_sequence('test_seq');
check_all_options_uncorrupted('test_seq', 'plain');
advance_test_sequence('test_seq');
check_all_options_uncorrupted('test_seq', 'plain');
set_test_sequence('test_seq');
check_all_options_uncorrupted('test_seq', 'plain');
reset_test_sequence('test_seq');
check_all_options_uncorrupted('test_seq', 'plain');
# Returns the filesystem path for the named relation.
sub relation_filepath
{
my ($relname) = @_;
my $pgdata = $node->data_dir;
my $rel = $node->safe_psql('postgres',
qq(SELECT pg_relation_filepath('$relname')));
die "path not found for relation $relname" unless defined $rel;
return "$pgdata/$rel";
}
# Returns the fully qualified name of the toast table for the named relation
sub get_toast_for
{
my ($relname) = @_;
return $node->safe_psql(
'postgres', qq(
SELECT 'pg_toast.' || t.relname
FROM pg_catalog.pg_class c, pg_catalog.pg_class t
WHERE c.relname = '$relname'
AND c.reltoastrelid = t.oid));
}
# (Re)create and populate a test table of the given name.
sub fresh_test_table
{
my ($relname) = @_;
return $node->safe_psql(
'postgres', qq(
DROP TABLE IF EXISTS $relname CASCADE;
CREATE TABLE $relname (a integer, b text);
ALTER TABLE $relname SET (autovacuum_enabled=false);
ALTER TABLE $relname ALTER b SET STORAGE external;
INSERT INTO $relname (a, b)
(SELECT gs, repeat('b',gs*10) FROM generate_series(1,1000) gs);
BEGIN;
SAVEPOINT s1;
SELECT 1 FROM $relname WHERE a = 42 FOR UPDATE;
UPDATE $relname SET b = b WHERE a = 42;
RELEASE s1;
SAVEPOINT s1;
SELECT 1 FROM $relname WHERE a = 42 FOR UPDATE;
UPDATE $relname SET b = b WHERE a = 42;
COMMIT;
));
}
# Create a test sequence of the given name.
sub fresh_test_sequence
{
my ($seqname) = @_;
return $node->safe_psql(
'postgres', qq(
DROP SEQUENCE IF EXISTS $seqname CASCADE;
CREATE SEQUENCE $seqname
INCREMENT BY 13
MINVALUE 17
START WITH 23;
SELECT nextval('$seqname');
SELECT setval('$seqname', currval('$seqname') + nextval('$seqname'));
));
}
# Call SQL functions to increment the sequence
sub advance_test_sequence
{
my ($seqname) = @_;
return $node->safe_psql(
'postgres', qq(
SELECT nextval('$seqname');
));
}
# Call SQL functions to set the sequence
sub set_test_sequence
{
my ($seqname) = @_;
return $node->safe_psql(
'postgres', qq(
SELECT setval('$seqname', 102);
));
}
# Call SQL functions to reset the sequence
sub reset_test_sequence
{
my ($seqname) = @_;
return $node->safe_psql(
'postgres', qq(
ALTER SEQUENCE $seqname RESTART WITH 51
));
}
# Stops the test node, corrupts the first page of the named relation, and
# restarts the node.
sub corrupt_first_page
{
my ($relname) = @_;
my $relpath = relation_filepath($relname);
$node->stop;
my $fh;
open($fh, '+<', $relpath)
or BAIL_OUT("open failed: $!");
binmode $fh;
# Corrupt some line pointers. The values are chosen to hit the
# various line-pointer-corruption checks in verify_heapam.c
# on both little-endian and big-endian architectures.
seek($fh, 32, SEEK_SET)
or BAIL_OUT("seek failed: $!");
syswrite(
$fh,
pack("L*",
0xAAA15550, 0xAAA0D550, 0x00010000,
0x00008000, 0x0000800F, 0x001e8000)
) or BAIL_OUT("syswrite failed: $!");
close($fh)
or BAIL_OUT("close failed: $!");
$node->start;
}
sub detects_heap_corruption
{
local $Test::Builder::Level = $Test::Builder::Level + 1;
my ($function, $testname) = @_;
detects_corruption(
$function,
$testname,
qr/line pointer redirection to item at offset \d+ precedes minimum offset \d+/,
qr/line pointer redirection to item at offset \d+ exceeds maximum offset \d+/,
qr/line pointer to page offset \d+ is not maximally aligned/,
qr/line pointer length \d+ is less than the minimum tuple header size \d+/,
qr/line pointer to page offset \d+ with length \d+ ends beyond maximum page offset \d+/,
);
}
sub detects_corruption
{
local $Test::Builder::Level = $Test::Builder::Level + 1;
my ($function, $testname, @re) = @_;
my $result = $node->safe_psql('postgres', qq(SELECT * FROM $function));
like($result, $_, $testname) for (@re);
}
sub detects_no_corruption
{
local $Test::Builder::Level = $Test::Builder::Level + 1;
my ($function, $testname) = @_;
my $result = $node->safe_psql('postgres', qq(SELECT * FROM $function));
is($result, '', $testname);
}
# Check various options are stable (don't abort) and do not report corruption
# when running verify_heapam on an uncorrupted test table.
#
# The relname *must* be an uncorrupted table, or this will fail.
#
# The prefix is used to identify the test, along with the options,
# and should be unique.
sub check_all_options_uncorrupted
{
local $Test::Builder::Level = $Test::Builder::Level + 1;
my ($relname, $prefix) = @_;
for my $stop (qw(true false))
{
for my $check_toast (qw(true false))
{
for my $skip ("'none'", "'all-frozen'", "'all-visible'")
{
for my $startblock (qw(NULL 0))
{
for my $endblock (qw(NULL 0))
{
my $opts =
"on_error_stop := $stop, "
. "check_toast := $check_toast, "
. "skip := $skip, "
. "startblock := $startblock, "
. "endblock := $endblock";
detects_no_corruption(
"verify_heapam('$relname', $opts)",
"$prefix: $opts");
}
}
}
}
}
}
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