Compressed blob columns didn't accept data at their capacity. E.g. storing
255 bytes to TINYBLOB results in "Data too long" error.
Now it is allowed assuming compression method was able to produce shorter
string (so that both metadata and compressed data fits blob) and
column_compression_threshold is lower than blob.
If no compression was performed, we still have to reserve additional byte
for metadata and thus we perform normal data truncation and return it's
status.
Unexpected data truncation may occur when storing data to compressed blob
column having multi byte variable length character sets.
The reason was incorrect number of characters limit was enforced for
blobs.
Modern compilers (such as GCC 8) emit warnings that the
'register' keyword is deprecated and not valid C++17.
Let us remove most use of the 'register' keyword.
Code in 'extra/' is not touched.
This patch does the following:
1. Makes Field_vers_trx_id::type_handler() return
&type_handler_vers_trx_id rather than &type_handler_longlong.
Fixes Item_func::convert_const_compared_to_int_field() to
test field_item->type_handler() against &type_handler_vers_trx_id,
instead of testing field_item->vers_trx_id().
2. Removes VERS_TRX_ID related code from
Type_handler_hybrid_field_type::aggregate_for_comparison(),
because "BIGINT UNSIGNED GENERATED ALWAYS AS ROW {START|END}"
columns behave just like a BIGINT in a regular comparison,
i.e. when not inside AS OF.
3. Removes
- Type_handler_hybrid_field_type::m_vers_trx_id;
- Type_handler_hybrid_field_type::m_flags;
because a "BIGINT UNSIGNED GENERATED ALWAYS AS ROW {START|END}"
behaves like a regular BIGINT column when in UNION.
4. Removes Field::vers_trx_id(), Item::vers_trx_id(), Item::field_flags()
They are not needed anymore. See N1.
Problems:
1. Unlike Item_field::fix_fields(),
Item_sum_sp::fix_length_and_dec() and Item_func_sp::fix_length_and_dec()
did not run the code which resided in adjust_max_effective_column_length(),
therefore they did not extend max_length for the integer return data types
from the user-specified length to the maximum length according to
the data type capacity.
2. The code in adjust_max_effective_column_length() was not correct
for TEXT data, because Field_blob::max_display_length()
multiplies to mbmaxlen. So TEXT variants were unintentionally
promoted to the next longer data type for multi-byte character
sets: TINYTEXT->TEXT, TEXT->MEDIUMTEXT, MEDIUMTEXT->LONGTEXT.
3. Item_sum_sp::create_table_field_from_handler()
Item_func_sp::create_table_field_from_handler()
erroneously called tmp_table_field_from_field_type(),
which converted VARCHAR(>512) to TEXT variants.
So "CREATE..SELECT spfunc()" erroneously converted
VARCHAR to TEXT. This was wrong, because stored
functions have explicitly declared data types,
which should be preserved.
Solution:
- Removing Type_std_attributes(const Field *)
and using instead Type_std_attributes::set() in combination
with field->type_str_attributes() all around the code, e.g.:
Type_std_attributes::set(field->type_std_attributes())
These two ways of copying attributes from a Field
to an Item duplicated each other, and were slightly
different in how to mix max_length and mbmaxlen.
- Removing adjust_max_effective_column_length() and
fixing Field::type_std_attributes() to do all necessary
type-specific calculations , so no further adjustments
is needed.
Field::type_std_attributes() is now called from all affected methods:
Item_field::fix_fields()
Item_sum_sp::fix_length_and_dec()
Item_func_sp::fix_length_and_dec()
This fixes the problem N1.
- Making Field::type_std_attributes() virtual, to make
sure that type-specific adjustments a properly done
by individual Field_xxx classes. Implementing
Field_blob::type_std_attributes() in the way that
no TEXT promotion is done.
This fixes the problem N2.
- Fixing Item_sum_sp::create_table_field_from_handler()
Item_func_sp::create_table_field_from_handler() to
call create_table_field_from_handler() instead of
tmp_table_field_from_field_type() to avoid
VARCHAR->TEXT conversion on "CREATE..SELECT spfunc()".
- Recording mysql-test/suite/compat/oracle/r/sp-param.result
as "CREATE..SELECT spfunc()" now correctly
preserve the data type as specified in the RETURNS clause.
- Adding new tests
Problem:
The logic in store_column_type() with a switch on field type was
hard to follow. The part for MEDIUMINT (MYSQL_TYPE_INT24) was not correct.
It erroneously calculated the precision of MEDIUMINT UNSIGNED
as 7 instead of 8.
A similar hard-to-follow switch doing some type specific calculations
resided in adjust_max_effective_column_length(). It was also wrong for
MEDIUMINT (reported as a separate issue in MDEV-15946).
Solution:
1. Introducing a new class Information_schema_numeric_attributes
2. Adding a new virtual method Field::information_schema_numeric_attributes()
3. Splitting the logic in store_column_type() into virtual
implementations of information_schema_numeric_attributes().
4. In order to avoid adding duplicate code for the integer data types,
adding a new virtual method Field_int::numeric_precision(),
which returns the number of digits.
Additional changes:
1. Adding the "const" qualifier to Field::max_display_length()
2. Moving the code from adjust_max_effective_column_length()
directly to Field::max_display_length().
There was no any sense to have two implementations:
- a set of wrong virtual implementations for Field_xxx::max_display_length()
- additional code in adjust_max_effective_column_length() fixing
bad results of Field_xxx::max_display_length()
This change is safe:
- The code using Field::max_display_length()
in field.cc, sql_show.cc, sql_type.cc is not affected.
- The code in rpl_utility.cc is also not affected.
See a new DBUG_ASSSERT and new comments explaining why.
In the new reduction, Field_xxx::max_display_length() returns
correct results for all integer types (except MEDIUMINT, see below).
Putting implementations of numeric_precision() and max_display_length()
near each other in field.h made the logic much clearer and thus
helped to reveal bad results for Field_medium::max_display_length(),
which returns 9 instead of 8 for signed MEDIUMINT fields.
This problem will be addressed separately (MDEV-15946).
Note, this change is also useful for pluggable data types (see MDEV-4912),
as now a user defined Field_xxx has a way to control what's returned
in INFORMATION_SCHEMA.COLUMNS.NUMERIC_PRECISION and
INFORMATION_SCHEMA.COLUMNS.NUMERIC_SCALE by implementing
a desired behavior in Field_xxx::information_schema_numeric_attributes().
Renaming methods:
- Field::make_field(Send_field*) to make_send_field(..)
- Item::make_field(THD *,Send_field *) to make_send_field(..)
- Item::init_make_field(Send_field *, enum_field_type) to init_make_send_field(..)
These names looked similar to other functions that are used
for a very different purpose (creating Field instances):
- Public function "Field * make_field(..)"
- Method "Field *Column_defitinion::make_field(..)"
The rename makes it's easier to search the code using "grep".
- Adding class Field_int as a common
parent for Field_{longlong|long|short|medium|tiny}
- Moving store_decimal(), val_decimal(), get_date(), store_time_dec(),
get_date(), val_bool() from Field_num to Field_int
- Adding Field_int::val_str_from_long() and reusing it in
Field_tiny::val_str(), Field_short::val_str(), Field_medium::val_str()
and Field_long::val_str(). This removes a good amount of duplicate code
- Adding "const" qualifier to "virtual bool Field::optimize_range()".
- Adding a new virtual method Field::load_data_set_no_data().
- Overriding Field_timestamp::load_data_set_no_data() and moving
the TIMESTAMP specific code there.
- Overriding Field_geom::load_data_set_no_data() and implementing
GEOMETRY specific behavior, to prevent writing empty strings
when the loaded file ends unexpectedly. This fixes the bug.
- Adding a new test gis-loaddaata.test.
- The test in loaddata.test for CHAR was added simply to record behavior.
The CHAR data type did not change its behaviour (only GEOMRYRY did).
- Additionally, moving duplicate code into a new method
Field::load_data_set_value() and reusing it in three places.
Standard compatible behavior for UPDATE: all assignments in SET
are executed "simultaneously", not left-to-right. And `SET a=b,b=a`
will swap the values.
Handle string length as size_t, consistently (almost always:))
Change function prototypes to accept size_t, where in the past
ulong or uint were used. change local/member variables to size_t
when appropriate.
This fix excludes rocksdb, spider,spider, sphinx and connect for now.
When storing '0001-01-01 10:20:30x', execution went throw the last code
branch in Field_time::store_TIME_with_warning(), around the test
for (ltime->year || ltime->month). This then resulted into wrong results
because:
1. Field_time::store_TIME() does not check YYYYMM against zero.
It assumes that ltime->days and ltime->hours are already properly set.
So it mixed days to hours, even when YYYYMM was not zero.
2. Field_time_hires::store_TIME() does not check YYYYMM against zero.
It assumes that ltime->year, ltime->month, ltime->days and ltime->hours
are already properly set. So it always mixed days and even months(!) and years(!)
to hours, using pack_time(). This gave even worse results comparing to #2.
3. Field_timef::store_TIME() did not check the entire YYYYMM for being zero.
It only checked MM, but did not check YYYY. In case of a zero MM,
it mixed days to hours, even if YYYY was not zero.
The wrong code was in TIME_to_longlong_time_packed().
In the new reduction Field_time::store_TIME_with_warning() is responsible
to prepare the YYYYYMMDD part properly in all code branches
(with trailing garbage like 'x' and without trailing garbage).
It was reorganized into a more straightforward style.
Field_time:store_TIME(), Field_time_hires::store_TIME() and
TIME_to_longlong_time_packed() were fixed to do a DBUG_ASSERT
on non-zero ltime->year or ltime->month. The code testing ltime->month
was removed from TIME_to_longlong_time_packed(), as it's now
properly done on the caller level.
Truncation was moved from Field_timef::store_TIME() to
Field_time::store_TIME_with_warning().
So now all thee methods Field_time*::store_TIME() assume a properly
set input value:
- Only zero ltime->year and ltime->month are allowed.
- The value must be already properly truncated according to decimals()
(this will help to add rounding soon, see MDEV-8894)
A "const" qualifier was added to the argument of Field_time*::store_TIME().
1st. Create_field does not have function vers_sys_field() kind of handy
function, second I think Create_field and Field should not divert much , and
Field does have this function.
2nd. Versioning column does not have NOT_NULL_FLAG, since they can never be
null. So I have added NOT_NULL_FLAG.
3rd. Since I added NOT_NULL_FLAG this created one issue , versioning column
of datatype bigint unsigned were getting NO_DEFAULT_VALUE_FLAG. This makes
test like versioning.insert to fail, Reason being If a column gets this
flag if we insert 'default' value it will generate error(that is why ) test
was failing. So now versioning column wont get NO_DEFAULT_VALUE_FLAG flag.
After MDEV-14212, the Virtual_tmp_table instance that stores a ROW
variable elements is accessible from the underlying Field_row
(rather than Item_field_row).
This patch makes some further changes by moving the code from
sp_instr_xxx, sp_rcontext, Item_xxx to Virtual_tmp_table and Field_xxx.
The data type specific code (scalar vs ROW) now resides in
a new virtual method Field_xxx::sp_prepare_and_store_item().
The the code in sp_rcontext::set_variable() and sp_eval_expr()
is now symmetric for scalar and ROW values.
The code in sp_rcontext::set_variable_row_field(), sp_rcontext::set_variable_row_field(), sp_rcontext::set_variable_row()
is now symmetric for ROW elements (i.e. scalar and ROW elements inside a ROW).
Rationale:
Prepare the code to implement these tasks soon easier:
- MDEV-12252 ROW data type for stored function return values
- MDEV-12307 ROW data type for built-in function return values
- MDEV-6121 Data type: Array
- MDEV-10593 sql_mode=ORACLE: TYPE .. AS OBJECT: basic functionality
- ROW with ROW fields (no MDEV yet)
Details:
1. Moving the code in sp_eval_expr() responsible to backup/restore
thd->count_cuted_fields, thd->abort_on_warning,
thd->transaction.stmt.modified_non_trans_table
into a new helper class Sp_eval_expr_state, to reuse it easier.
Fixing sp_eval_expr() to use this new class.
2. Moving sp_eval_expr() and sp_prepare_func_item() from public functions
to methods in THD, so they can be reused in *.cc files easier without
a need to include "sp_head.h".
Splitting sp_prepare_func_item() into two parts.
Adding a new function sp_fix_func_item(), which fixes
the underlying items, but does not do check_cols() for them.
Reusing sp_fix_func_item() in Field_row::sp_prepare_and_store_item().
3. Moving the code to find ROW fields by name from Item to Virtual_tmp_table
Moving the code searching for ROW fields by their names
from Item_field_row::element_index_by_name() to a new method
Item_field_row to Virtual_tmp_table::sp_find_field_by_name().
Adding wrapper methods sp_rcontext::find_row_field_by_name() and
find_row_field_by_name_or_error(), to search for a ROW variable
fields by the variable offset and its field name.
Changing Item_splocal_row_field_by_name::fix_fields() to do
use sp_rcontext::find_row_field_by_name_or_error().
Removing virtual Item::element_index_by_name().
4. Splitting sp_rcontext::set_variable()
Adding a new virtual method Field::sp_prepare_and_store_item().
Spliting the two branches of the code in sp_rcontext::set_variable()
into two virtual implementations of Field::sp_prepare_and_store_item(),
(for Field and for Field_row).
Moving the former part of sp_rcontext::set_variable() with the loop
doing set_null() for all ROW fields into a new method
Virtual_tmp_table::set_all_fields_to_null() and using it in
Field_row::sp_prepare_and_store_item().
Moving the former part of sp_rcontext::set_variable() with the loop
doing set_variable_row_field() into a new method
Virtual_tmp_table::set_all_fields_from_item() and using it in
Field_row::sp_prepare_and_store_item().
The loop in the new method now uses sp_prepare_and_store_item()
instead of set_variable_row_field(), because saving/restoring
THD flags is now done on the upper level. No needs to save/restore
on every iteration.
5. Fixing sp_eval_expr() to simply do two things:
- backup/restore THD flags
- call result_field->sp_prepare_and_store_item()
So now sp_eval_expr() can be used for both scalar and ROW variables.
Reusing it in sp_rcontext::set_variable*().
6. Moving the loop in sp_rcontext::set_variable_row() into a
new method Virtual_tmp_table::sp_set_all_fields_from_item_list().
Changing the loop body to call field->sp_prepare_and_store_item()
instead of doing set_variable_row_field(). This removes
saving/restoring of the THD flags from every interation.
Instead, adding the code to save/restore the flags around
the entire loop in set_variable_row(), using Sp_eval_expr_state.
So now saving/restoring is done only once for the entire ROW
(a slight performance improvement).
7. Removing the code in sp_instr_set::exec_core() that sets
a variable to NULL if the value evaluation failed.
sp_rcontext::set_variable() now makes sure to reset
the variable properly by effectively calling sp_eval_expr(),
which calls virtual Field::sp_prepare_and_store_item().
Removing the similar code from sp_instr_set_row_field::exec_core()
and sp_instr_set_row_field_by_name::exec_core().
Removing the method sp_rcontext::set_variable_row_field_to_null(),
as it's not used any more.
8. Removing the call for sp_prepare_func_item() from
sp_rcontext::set_variable_row_field(), as it was duplicate:
it was done inside sp_eval_expr(). Now it's done inside
virtual Field::sp_prepare_and_store_item().
9. Moving the code from sp_instr_set_row_field_by_name::exec_core()
into sp_rcontext::set_variable_row_field_by_name(), for symmetry
with other sp_instr_set*::exec_core()/sp_rcontext::set_variable*() pairs.
Now sp_instr_set_row_field_by_name::exec_core() calls
sp_rcontext::set_variable_row_field_by_name().
10. Misc:
- Adding a helper private method sp_rcontext::virtual_tmp_table_for_row(),
reusing it in a new sp_rcontext methods.
- Removing Item_field_row::get_row_field(), as it's not used any more.
- Removing the "Item *result_item" from sp_eval_expr(),
as it's not needed any more.
TRASH was mapped to TRASH_FREE and was supposed to be used for memory
that should not be accessed anymore, while TRASH_ALLOC() is to be
used for uninitialized but to-be-used memory.
But sometimes TRASH() was used in the latter sense.
Remove TRASH() macro, always use explicit TRASH_ALLOC() or TRASH_FREE().
when number of NULLs in IN list reaches in_predicate_conversion_threshold
The bug was fixed by removing an assertion that had been set in order
just to test whether the code could be ever executed.
Many related changes.
Note that AS OF condition must always be pushed down to physical tables,
it cannot be applied to a derived or a view. Thus:
* no versioning for internal temporary tables, they can never store
historical data.
* remove special versioning code from mysql_derived_prepare and
remove ER_VERS_DERIVED_PROHIBITED - derived can have no historical
data and cannot be prohibited for system versioning related reasons.
* do not expand select list for derived/views with sys vers fields,
derived/views can never have historical data.
* remove special invisiblity rules for sys vers fields, they are no
longer needed after the previous change
* remove system_versioning_hide, it lost the meaning after the
previous change.
* remove ER_VERS_SYSTEM_TIME_CLASH, it's no "clash", the inner
AS OF clause always wins.
* non-versioned fields in a historical query
reword the warning text, downgrade to note, don't
replace values with NULLs
This is needed for MDEV 13679 Enabled sequences to be used in DEFAULT
Added new option for count_cuted_fields: CHECK_FIELD_EXPRESSION
which is used to check if a DEFAULT expression is correct before
ALTER TABLE starts
Changed also all test:
if (thd->count_cuted_fields)
to
if (thd->count_cuted_fields > CHECK_FIELD_EXPRESSION)
Merge branch '10.3' into trunk
Both field_visibility and VERS_HIDDEN_FLAG exist independently.
TODO:
VERS_HIDDEN_FLAG should be replaced with SYSTEM_INVISIBLE (or COMPLETELY_INVISIBLE?).
Feature Definition:-
This feature adds invisible column functionality to server.
There is 4 level of "invisibility":
1. Not invisible (NOT_INVISIBLE) — Normal columns created by the user
2. A little bit invisible (USER_DEFINED_INVISIBLE) — columns that the
user has marked invisible. They aren't shown in SELECT * and they
don't require values in INSERT table VALUE (...). Otherwise
they behave as normal columns.
3. More invisible (SYSTEM_INVISIBLE) — Can be queried explicitly,
otherwise invisible from everything. Think ROWID sytem column.
Because they're invisible from ALTER TABLE and from CREATE TABLE
they cannot be created or dropped, they're created by the system.
User cant not create a column name which is same as of
SYSTEM_INVISIBLE.
4. Very invisible (COMPLETELY_INVISIBLE) — as above, but cannot be
queried either. They can only show up in EXPLAIN EXTENDED (might
be possible for a very invisible indexed virtual column) but
otherwise they don't exist for the user.If user creates a columns
which has same name as of COMPLETELY_INVISIBLE then
COMPLETELY_INVISIBLE column is renamed again. So it is completely
invisible from user.
Invisible Index(HA_INVISIBLE_KEY):-
Creation of invisible columns require a new type of index which
will be only visible to system. User cant see/alter/create/delete
this index. If user creates a index which is same name as of
invisible index then it will be renamed.
Syntax Details:-
Only USER_DEFINED_INVISIBLE column can be created by user. This
can be created by adding INVISIBLE suffix after column definition.
Create table t1( a int invisible, b int);
Rules:-
There are some rules/restrictions related to use of invisible columns
1. All the columns in table cant be invisible.
Create table t1(a int invisible); \\error
Create table t1(a int invisible, b int invisble); \\error
2. If you want invisible column to be NOT NULL then you have to supply
Default value for the column.
Create table t1(a int, b int not null); \\error
3. If you create a view/create table with select * then this wont copy
invisible fields. So newly created view/table wont have any invisible
columns.
Create table t2 as select * from t1;//t2 wont have t1 invisible column
Create view v1 as select * from t1;//v1 wont have t1 invisible column
4. Invisibility wont be forwarded to next table in any case of create
table/view as select */(a,b,c) from table.
Create table t2 as select a,b,c from t1; // t2 will have t1 invisible
// column(b), but this wont be invisible in t2
Create view v1 as select a,b,c from t1; // v1 will have t1 invisible
// column(b), but this wont be invisible in v1
Implementation Details:-
Parsing:- INVISIBLE_SYM is added into vcol_attribute(so its like unique
suffix), It is also added into keyword_sp_not_data_type so that table
can have column with name invisible.
Implementation detail is given by each modified function/created function.
(Some function are left as they were self explanatory)
(m= Modified, n= Newly Created)
mysql_prepare_create_table(m):- Extra checks for invisible columns are
added. Also some DEBUG_EXECUTE_IF are also added for test cases.
mysql_prepare_alter_table(m):- Now this will drop all the
COMPLETELY_INVISIBLE column and HA_INVISIBLE_KEY index. Further
Modifications are made to stop drop/change/delete of SYSTEM_INVISIBLE
column.
build_frm_image(m):- Now this allows incorporating field_visibility
status into frm image. To remain compatible with old frms
field_visibility info will be only written when any of the field is
not NOT_INVISIBLE.
extra2_write_additional_field_properties(n):- This will write field
visibility info into buffer. We first write EXTRA2_FIELD_FLAGS into
buffer/frm , then each next char will have field_visibility for each
field.
init_from_binary_frm_image(m):- Now if we get EXTRA2_FIELD_FLAGS,
then we will read the next n(n= number of fields) chars and set the
field_visibility. We also increment
thd->status_var.feature_invisible_columns. One important thing to
note if we find out that key contains a field whose visibility is
> USER_DEFINED_INVISIBLE then , we declare this key as invisible
key.
sql_show.cc is changed accordingly to make show table, show keys
correct.
mysql_insert(m):- If we get to know that we are doing insert in
this way insert into t1 values(1,1); without explicitly specifying
columns, then we check for if we have invisible fields if yes then
we reset the whole record, Why ? Because first we want hidden columns
to get default/null value. Second thing auto_increment has property
no default and no null which voilates invisible key rule 2, And
because of this it was giving error. Reseting table->record[0]
eliminates this issue. More info put breakpoint on handler::write_row
and see auto_increment value.
fill_record(m):- we continue loop if we find invisible column because
this is already reseted/will get its value if it is default.
Test cases:- Since we can not directly add > USER_DEFINED_INVISIBLE
column then I have debug_dbug to create it in mysql_prepare_create_table.
Patch Credit:- Serg Golubchik
The fixes for these bugs:
Bug#27586 Wrong autoinc value assigned by LOAD DATA in the NO_AUTO_VALUE_ON_ZERO mode
Bug#22372 Disable spatial key, load data, enable spatial key, crashes table
fixed only LOAD DATA INFILE, but did not fix LOAD XML INFILE.
This patch does for LOAD XML FILE what patches for Bug#27586 and Bug#22372
earlier did for LOAD DATA INFILE.
1. Fixing the auto_increment problem:
a. table->auto_increment_field_not_null is not set to TRUE
anymore when a column does not have a corresponding XML tag.
b. Adding "table->auto_increment_field_not_null= false"
in the end of read_xml_field().
These two changes resemble the patch for Bug#27586.
2. Fixing the GEOMETRY problem:
The result for "reset()" was not tested for errors in read_xml_field(),
which made it possible for empty string to sneak into a "GEOMETRY NOT NULL"
column when this column does not have a corresponding XML tag with data.
After this patch the result of reset() is tested and and an error is
returned in such cases.
This change effectively resembles the patch for Bug#22372
3. Spliting the code into a new virtual method Field::load_data_set_null().
Rationale:
a. To avoid duplicate code in read_sep_field() and read_xml_field():
Changes #1 and #2 made the code handling NULL values for Field
exactly the same in read_sep_field() and read_xml_field().
b. To avoid tests for field_type(), which is not friendly to
upcoming data type plugins.
This change makes it possible for data type plugins
to implement their own special way for handling NULL values in LOAD DATA
by overriding Field_xxx::load_data_set_null(),
like Field_geom and Field_timestamp do.
The intent of this patch is to avoid copying arguments from
a pair "Item **args, uint arg_count" to List<Item> in
sp_head::execute_function(). If the number of a stored function parameters
is huge, such copying can affect performance.
Change:
1. Adding a new method Row_definition_list::adjust_formal_params_to_actual_params,
which accepts a pair of "Item **, uint".
2. Modifying the code to use the new method:
- the calls for sp_rcontext::retrieve_field_definitions() and
Row_definition_list::adjust_formal_params_to_actual_params() have
been moved from sp_rcontext::create() to sp_head::rcontext_create(),
to handle different argument notations easier (Item** vs List<Item>).
- sp_rcontext::create() now assumes that the passed Row_definition_list
is already adjusted to the actual SP parameters, and all "TYPE OF"
and "ROWTYPE OF" references are resolved.
3. Removing creation of List<Item> in sp_head::execute_procedure(),
using the code with "Item**, uint" notation instead.
4. Improvement of the code for MDEV-10577:
As a good side effect, this patch gets rid of double security context
switch inside sp_head::execute_trigger():
sp_rcontext is created when the context is already switched,
so the second context switch inside sp_head::rcontext_create() was
redundant. This is solved by adding a "bool switch_secutiry_ctx" parameter
to rcontext_create(), so now execute_function() and execute_procedure()
pass "true", while execute_trigger() passes "false".
Moving a few methods from sp_rcontext to different classes:
- Table_ident::resolve_table_rowtype_ref
- Qualified_column_ident::resolve_type_ref
- Row_definition_list::resolve_table_rowtype_ref
- Row_definition_list::adjust_formal_params_to_actual_params
It easier to reuse these methods this way in the future.
Implement Field_timestamp::save_in_field(timestamp_field)
that stores timestamp values without converting them to MYSQL_TIME
and back, because this conversion is lossy around DST change time.
This fixes main.old-mode test.
This is 10.2 version of f8a800bec8
Implement a special Copy_func function for timestamps, that copies
timestamps without converting them to MYSQL_TIME (the conversion is
lossy around DST change time).
This fixes ALTER TABLE part of main.old-mode test.
This is 10.2 version of f4f48e0621
make insert NULL into a timestamp mark the field as having an
explicit value. So that the field won't be assigned the value
again in TABLE::update_default_field()
make Item_func_now_local::save_in_field(timestamp_field) not to go
through MYSQL_TIME - this conversion is lossy around DST change times.
This fixes inserting a default value into a timestamp field.
Storage engine independent support for column compression.
TINYBLOB, BLOB, MEDIUMBLOB, LONGBLOB, TINYTEXT, TEXT, MEDIUMTEXT, LONGTEXT,
VARCHAR and VARBINARY columns can be compressed.
New COMPRESSED column attribute added:
COMPRESSED[=<compression_method>]
System variables added:
column_compression_threshold
column_compression_zlib_level
column_compression_zlib_strategy
column_compression_zlib_wrap
Status variables added:
Column_compressions
Column_decompressions
Limitations:
- the only supported method currently is zlib
- CSV storage engine stores data uncompressed on-disk even if COMPRESSED
attribute is present
- it is not possible to create indexes over compressed columns.
Backport of 7e29f2d64f from 10.1.
Create_field does not set BINARY_FLAG, so the check didn't work at all.
Also, character sets were already compared, so this check would've been
redundant (if it would've worked).
- Adding new virtual methods in Type_handler:
* Column_definition_prepare_stage1()
* Column_definition_prepare_stage2()
* calc_pack_length()
- Using new methods to remove type specific code in:
* Global function calc_pack_length()
* Column_definition::prepare_create_field()
* The loop body mysql_prepare_create_table()
* Column_definition::sp_prepare_create_field()
