MDEV-33407 Parser support for vector indexes
The syntax is
create table t1 (... vector index (v) ...);
limitation:
* v is a binary string and NOT NULL
* only one vector index per table
* temporary tables are not supported
MDEV-33404 Engine-independent indexes: subtable method
added support for so-called "high level indexes", they are not visible
to the storage engine, implemented on the sql level. For every such
an index in a table, say, t1, the server implicitly creates a second
table named, like, t1#i#05 (where "05" is the index number in t1).
This table has a fixed structure, no frm, not accessible directly,
doesn't go into the table cache, needs no MDLs.
MDEV-33406 basic optimizer support for k-NN searches
for a query like SELECT ... ORDER BY func() optimizer will use
item_func->part_of_sortkey() to decide what keys can be used
to resolve ORDER BY.
let the caller tell init_tmp_table_share() whether the table
should be thread_specific or not.
In particular, internal tmp tables created in the slave thread
are perfectly thread specific
create templates
thd->alloc<X>(n) to use instead of (X*)thd->alloc(sizeof(X)*n)
and the same for thd->calloc(). By the default the type is char,
so old usage of thd->alloc(size) works too.
the information about index algorithm was stored in two
places inconsistently split between both.
BTREE index could have key->algorithm == HA_KEY_ALG_BTREE, if the user
explicitly specified USING BTREE or HA_KEY_ALG_UNDEF, if not.
RTREE index had key->algorithm == HA_KEY_ALG_RTREE
and always had key->flags & HA_SPATIAL
FULLTEXT index had key->algorithm == HA_KEY_ALG_FULLTEXT
and always had key->flags & HA_FULLTEXT
HASH index had key->algorithm == HA_KEY_ALG_HASH or HA_KEY_ALG_UNDEF
long unique index always had key->algorithm == HA_KEY_ALG_LONG_HASH
In this commit:
All indexes except BTREE and HASH always have key->algorithm
set, HA_SPATIAL and HA_FULLTEXT flags are not used anymore (except
for storage to keep frms backward compatible).
As a side effect ALTER TABLE now detects FULLTEXT index renames correctly
to explicit row_start/row_end columns
In case of adding both system fields of same type (length, unsigned
flag) as old implicit system fields do the rename of implicit system
fields to the ones specified in ALTER, remove SYSTEM_INVISIBLE flag in
that case. Correct PERIOD clause must be specified in ALTER as well.
MDEV-34904 Inplace alter for implicit to explicit versioning is broken
Whether ALTER goes inplace and how it goes inplace depends on
handler_flags which goes from alter_info->flags by this logic:
ha_alter_info->handler_flags|= (alter_info->flags & ~flags_to_remove);
ALTER_VERS_EXPLICIT was not in flags_to_remove and its value (1ULL <<
35) clashed with ALTER_ADD_NON_UNIQUE_NON_PRIM_INDEX.
ALTER_VERS_EXPLICIT must not affect inplace, it is SQL-only so we
remove it from handler_flags.
In commit 1c55b845e0 (MDEV-32932) the
test mariabackup.innodb_ddl_on_intermediate_table was introduced but
disabled.
xb_load_single_table_tablespace(): Properly handle missing FTS_ tables.
backup_file_op_fail(): Properly handle FILE_DELETE records.
Post-fix for MDEV-35144.
Cannot allocate options values on the statement arena, because
HA_CREATE_INFO is shallow-copied for every execution, so if the
option_list was initially empty, it will be reset for every execution
and any values allocated on the statement arena will be lost.
Cannot allocate option values on the execution arena, because
HA_CREATE_INFO is shallow-copied for every execution, so if the
option_list was initially NOT empty, any values appended to the
end will be preserved and if they're on the execution arena their
content will be destroyed.
Let's use thd->change_item_tree() to save and restore necessary pointers
for every execution.
followup for 3da565c41d
When adding a column or index that uses plugin-defined
sysvar-based options with CREATE ... LIKE the server
was using the current value of the sysvar, not the default one.
Because parse_option_list() function was used both in create
and open and it tried to guess when it's create (need to use
current sysvar value and add a new name=value pair to the list)
or open (need to use default, without extending the list).
Let's move the list extending functionality into a separate
function and call it explicitly when needed. Operations that
add new objects (CREATE, ALTER ... ADD) will extend the list,
other operations (ALTER, CREATE ... LIKE, open) will not.
The problem was that when using clang + asan, we do not get a correct value
for the thread stack as some local variables are not allocated at the
normal stack.
It looks like that for example clang 18.1.3, when compiling with
-O2 -fsanitize=addressan it puts local variables and things allocated by
alloca() in other areas than on the stack.
The following code shows the issue
Thread 6 "mariadbd" hit Breakpoint 3, do_handle_one_connection
(connect=0x5080000027b8,
put_in_cache=<optimized out>) at sql/sql_connect.cc:1399
THD *thd;
1399 thd->thread_stack= (char*) &thd;
(gdb) p &thd
(THD **) 0x7fffedee7060
(gdb) p $sp
(void *) 0x7fffef4e7bc0
The address of thd is 24M away from the stack pointer
(gdb) info reg
...
rsp 0x7fffef4e7bc0 0x7fffef4e7bc0
...
r13 0x7fffedee7060 140737185214560
r13 is pointing to the address of the thd. Probably some kind of
"local stack" used by the sanitizer
I have verified this with gdb on a recursive call that calls alloca()
in a loop. In this case all objects was stored in a local heap,
not on the stack.
To solve this issue in a portable way, I have added two functions:
my_get_stack_pointer() returns the address of the current stack pointer.
The code is using asm instructions for intel 32/64 bit, powerpc,
arm 32/64 bit and sparc 32/64 bit.
Supported compilers are gcc, clang and MSVC.
For MSVC 64 bit we are using _AddressOfReturnAddress()
As a fallback for other compilers/arch we use the address of a local
variable.
my_get_stack_bounds() that will return the address of the base stack
and stack size using pthread_attr_getstack() or NtCurrentTed() with
fallback to using the address of a local variable and user provided
stack size.
Server changes are:
- Moving setting of thread_stack to THD::store_globals() using
my_get_stack_bounds().
- Removing setting of thd->thread_stack, except in functions that
allocates a lot on the stack before calling store_globals(). When
using estimates for stack start, we reduce stack_size with
MY_STACK_SAFE_MARGIN (8192) to take into account the stack used
before calling store_globals().
I also added a unittest, stack_allocation-t, to verify the new code.
Reviewed-by: Sergei Golubchik <serg@mariadb.org>
work consistently on replication
Row-based replication does not execute CREATE .. SELECT but instead
CREATE TABLE. CREATE .. SELECT creates implict system fields on
unusual place: in-between declared fields and select fields. That was
done because select_field_pos logic requires select fields go last in
create_list.
So, CREATE .. SELECT on master and CREATE TABLE on slave create system
fields on different positions and replication gets field mismatch.
To fix this we've changed CREATE .. SELECT to create implicit system
fields on usual place in the end and updated select_field_pos for
handling this case.
Don't allow the referencing key column from NULL TO NOT NULL
when
1) Foreign key constraint type is ON UPDATE SET NULL
2) Foreign key constraint type is ON DELETE SET NULL
3) Foreign key constraint type is UPDATE CASCADE and referenced
column declared as NULL
Don't allow the referenced key column from NOT NULL to NULL
when foreign key constraint type is UPDATE CASCADE
and referencing key columns doesn't allow NULL values
get_foreign_key_info(): InnoDB sends the information about
nullability of the foreign key fields and referenced key fields.
fk_check_column_changes(): Enforce the above rules for COPY
algorithm
innobase_check_foreign_drop_col(): Checks whether the dropped
column exists in existing foreign key relation
innobase_check_foreign_low() : Enforce the above rules for
INPLACE algorithm
dict_foreign_t::check_fk_constraint_valid(): This is used
by CREATE TABLE statement to check nullability for foreign
key relation.
A CHAR column cannot be longer than 1024, because
Binlog_type_info_fixed_string::Binlog_type_info_fixed_string
replies on this fact - it cannot store binlog metadata for longer columns.
In case of the filename character set mbmaxlen is equal to 5,
so only 1024/5=204 characters can fit into the 1024 limit.
- In strict mode:
Disallowing creation of a CHAR column with octet length grater than 1024.
- In non-strict mode:
Automatically convert CHAR with octet length>1024 into VARCHAR.
- During copy algorithm, InnoDB should use bulk insert operation
for row by row insert operation. By doing this, copy algorithm
can effectively build indexes. This optimization is disabled
for temporary table, versioning table and table which has
foreign key relation.
Introduced the variable innodb_alter_copy_bulk to allow
the bulk insert operation for copy alter operation
inside InnoDB. This is enabled by default
ha_innobase::extra(): HA_EXTRA_END_ALTER_COPY mode tries to apply
the buffered bulk insert operation, updates the non-persistent
table stats.
row_merge_bulk_t::write_to_index(): Update stat_n_rows after
applying the bulk insert operation
row_ins_clust_index_entry_low(): In case of copy algorithm,
switch to bulk insert operation.
copy_data_error_ignore(): Handles the error while copying
the data from source to target file.
Caused by:
5d37cac7 MDEV-33348 ALTER TABLE lock waiting stages are indistinguishable.
In that commit, progress reporting was moved to
mysql_alter_table from copy_data_between_tables.
The temporary table case wasn't taken into the consideration,
where the execution of mysql_alter_table ends earlier than usual, by the
'end_temporary' label. There, thd_progress_end has been missing.
Fix:
Add missing thd_progress_end() call in mysql_alter_table.
