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mariadb/mysql-test/suite/innodb/t/innodb_bug14147491.test
Marko Mäkelä 0b47c126e3 MDEV-13542: Crashing on corrupted page is unhelpful 
The approach to handling corruption that was chosen by Oracle in
commit 177d8b0c12
is not really useful. Not only did it actually fail to prevent InnoDB
from crashing, but it is making things worse by blocking attempts to
rescue data from or rebuild a partially readable table.

We will try to prevent crashes in a different way: by propagating
errors up the call stack. We will never mark the clustered index
persistently corrupted, so that data recovery may be attempted by
reading from the table, or by rebuilding the table.

This should also fix MDEV-13680 (crash on btr_page_alloc() failure);
it was extensively tested with innodb_file_per_table=0 and a
non-autoextend system tablespace.

We should now avoid crashes in many cases, such as when a page
cannot be read or allocated, or an inconsistency is detected when
attempting to update multiple pages. We will not crash on double-free,
such as on the recovery of DDL in system tablespace in case something
was corrupted.

Crashes on corrupted data are still possible. The fault injection mechanism
that is introduced in the subsequent commit may help catch more of them.

buf_page_import_corrupt_failure: Remove the fault injection, and instead
corrupt some pages using Perl code in the tests.

btr_cur_pessimistic_insert(): Always reserve extents (except for the
change buffer), in order to prevent a subsequent allocation failure.

btr_pcur_open_at_rnd_pos(): Merged to the only caller ibuf_merge_pages().

btr_assert_not_corrupted(), btr_corruption_report(): Remove.
Similar checks are already part of btr_block_get().

FSEG_MAGIC_N_BYTES: Replaces FSEG_MAGIC_N_VALUE.

dict_hdr_get(), trx_rsegf_get_new(), trx_undo_page_get(),
trx_undo_page_get_s_latched(): Replaced with error-checking calls.

trx_rseg_t::get(mtr_t*): Replaces trx_rsegf_get().

trx_rseg_header_create(): Let the caller update the TRX_SYS page if needed.

trx_sys_create_sys_pages(): Merged with trx_sysf_create().

dict_check_tablespaces_and_store_max_id(): Do not access
DICT_HDR_MAX_SPACE_ID, because it was already recovered in dict_boot().
Merge dict_check_sys_tables() with this function.

dir_pathname(): Replaces os_file_make_new_pathname().

row_undo_ins_remove_sec(): Do not modify the undo page by adding
a terminating NUL byte to the record.

btr_decryption_failed(): Report decryption failures

dict_set_corrupted_by_space(), dict_set_encrypted_by_space(),
dict_set_corrupted_index_cache_only(): Remove.

dict_set_corrupted(): Remove the constant parameter dict_locked=false.
Never flag the clustered index corrupted in SYS_INDEXES, because
that would deny further access to the table. It might be possible to
repair the table by executing ALTER TABLE or OPTIMIZE TABLE, in case
no B-tree leaf page is corrupted.

dict_table_skip_corrupt_index(), dict_table_next_uncorrupted_index(),
row_purge_skip_uncommitted_virtual_index(): Remove, and refactor
the callers to read dict_index_t::type only once.

dict_table_is_corrupted(): Remove.

dict_index_t::is_btree(): Determine if the index is a valid B-tree.

BUF_GET_NO_LATCH, BUF_EVICT_IF_IN_POOL: Remove.

UNIV_BTR_DEBUG: Remove. Any inconsistency will no longer trigger
assertion failures, but error codes being returned.

buf_corrupt_page_release(): Replaced with a direct call to
buf_pool.corrupted_evict().

fil_invalid_page_access_msg(): Never crash on an invalid read;
let the caller of buf_page_get_gen() decide.

btr_pcur_t::restore_position(): Propagate failure status to the caller
by returning CORRUPTED.

opt_search_plan_for_table(): Simplify the code.

row_purge_del_mark(), row_purge_upd_exist_or_extern_func(),
row_undo_ins_remove_sec_rec(), row_undo_mod_upd_del_sec(),
row_undo_mod_del_mark_sec(): Avoid mem_heap_create()/mem_heap_free()
when no secondary indexes exist.

row_undo_mod_upd_exist_sec(): Simplify the code.

row_upd_clust_step(), dict_load_table_one(): Return DB_TABLE_CORRUPT
if the clustered index (and therefore the table) is corrupted, similar
to what we do in row_insert_for_mysql().

fut_get_ptr(): Replace with buf_page_get_gen() calls.

buf_page_get_gen(): Return nullptr and *err=DB_CORRUPTION
if the page is marked as freed. For other modes than
BUF_GET_POSSIBLY_FREED or BUF_PEEK_IF_IN_POOL this will
trigger a debug assertion failure. For BUF_GET_POSSIBLY_FREED,
we will return nullptr for freed pages, so that the callers
can be simplified. The purge of transaction history will be
a new user of BUF_GET_POSSIBLY_FREED, to avoid crashes on
corrupted data.

buf_page_get_low(): Never crash on a corrupted page, but simply
return nullptr.

fseg_page_is_allocated(): Replaces fseg_page_is_free().

fts_drop_common_tables(): Return an error if the transaction
was rolled back.

fil_space_t::set_corrupted(): Report a tablespace as corrupted if
it was not reported already.

fil_space_t::io(): Invoke fil_space_t::set_corrupted() to report
out-of-bounds page access or other errors.

Clean up mtr_t::page_lock()

buf_page_get_low(): Validate the page identifier (to check for
recently read corrupted pages) after acquiring the page latch.

buf_page_t::read_complete(): Flag uninitialized (all-zero) pages
with DB_FAIL. Return DB_PAGE_CORRUPTED on page number mismatch.

mtr_t::defer_drop_ahi(): Renamed from mtr_defer_drop_ahi().

recv_sys_t::free_corrupted_page(): Only set_corrupt_fs()
if any log records exist for the page. We do not mind if read-ahead
produces corrupted (or all-zero) pages that were not actually needed
during recovery.

recv_recover_page(): Return whether the operation succeeded.

recv_sys_t::recover_low(): Simplify the logic. Check for recovery error.

Thanks to Matthias Leich for testing this extensively and to the
authors of https://rr-project.org for making it easy to diagnose
and fix any failures that were found during the testing.
2022-06-06 14:03:22 +03:00

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#
# Test opening a corrupted table.
#
# Restarting is not supported under embedded
-- source include/not_embedded.inc
# Require InnoDB
-- source include/have_innodb.inc
-- source include/not_encrypted.inc
--disable_query_log
call mtr.add_suppression("InnoDB: Table `test`\\.`t1` is corrupted\\. Please drop the table and recreate\\.");
call mtr.add_suppression("InnoDB: Database page corruption on disk or a failed read of file '.*test.t1\\.ibd' page");
call mtr.add_suppression("InnoDB: We detected index corruption in an InnoDB type table");
call mtr.add_suppression("Index for table 't1' is corrupt; try to repair it");
call mtr.add_suppression("InnoDB: File '.*test/t1\\.ibd' is corrupted");
--enable_query_log
--echo # Ensure that purge will not crash on the table after we corrupt it.
SET GLOBAL innodb_purge_rseg_truncate_frequency = 1;
SET GLOBAL innodb_fast_shutdown=0;
--echo # Create and populate the table to be corrupted
set global innodb_file_per_table=ON;
CREATE TABLE t1 (a INT AUTO_INCREMENT PRIMARY KEY, b TEXT) ENGINE=InnoDB;
INSERT INTO t1 (b) VALUES ('corrupt me');
--disable_query_log
--let $i = 10
while ($i)
{
INSERT INTO t1 (b) VALUES (REPEAT('abcdefghijklmnopqrstuvwxyz', 100));
dec $i;
}
--enable_query_log
INSERT INTO t1 (b) VALUES ('corrupt me');
let $MYSQLD_DATADIR=`select @@datadir`;
let t1_IBD = $MYSQLD_DATADIR/test/t1.ibd;
--source include/shutdown_mysqld.inc
--echo # Corrupt the table
perl;
use strict;
use warnings;
use Fcntl qw(:DEFAULT :seek);
my $ibd_file = $ENV{'t1_IBD'};
my $chunk;
my $len;
sysopen IBD_FILE, $ibd_file, O_RDWR || die "Unable to open $ibd_file";
while ($len = sysread IBD_FILE, $chunk, 1024)
{
if ($chunk =~ s/corrupt me/korrupt me/)
{
print "Munged a string.\n";
sysseek IBD_FILE, -$len, SEEK_CUR;
syswrite IBD_FILE, $chunk, $len;
}
}
close IBD_FILE;
EOF
--source include/start_mysqld.inc
--echo # Now t1 is corrupted but we should not crash
--error ER_GET_ERRNO,ER_NOT_KEYFILE,ER_INDEX_CORRUPT,ER_NO_SUCH_TABLE_IN_ENGINE
SELECT * FROM t1;
--error 126,ER_GET_ERRNO,ER_NOT_KEYFILE,ER_INDEX_CORRUPT,ER_NO_SUCH_TABLE_IN_ENGINE
INSERT INTO t1(b) VALUES('abcdef');
--error ER_GET_ERRNO,ER_NOT_KEYFILE,ER_INDEX_CORRUPT,ER_NO_SUCH_TABLE_IN_ENGINE
UPDATE t1 set b = 'deadbeef' where a = 1;
--echo # Cleanup, this must be possible
DROP TABLE t1;
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