mirror of
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b66cdbd1ea
This makes it easier to compare different costs and also allows
the optimizer to optimizer different storage engines more reliably.
- Added tests/check_costs.pl, a tool to verify optimizer cost calculations.
- Most engine costs has been found with this program. All steps to
calculate the new costs are documented in Docs/optimizer_costs.txt
- User optimizer_cost variables are given in microseconds (as individual
costs can be very small). Internally they are stored in ms.
- Changed DISK_READ_COST (was DISK_SEEK_BASE_COST) from a hard disk cost
(9 ms) to common SSD cost (400MB/sec).
- Removed cost calculations for hard disks (rotation etc).
- Changed the following handler functions to return IO_AND_CPU_COST.
This makes it easy to apply different cost modifiers in ha_..time()
functions for io and cpu costs.
- scan_time()
- rnd_pos_time() & rnd_pos_call_time()
- keyread_time()
- Enhanched keyread_time() to calculate the full cost of reading of a set
of keys with a given number of ranges and optional number of blocks that
need to be accessed.
- Removed read_time() as keyread_time() + rnd_pos_time() can do the same
thing and more.
- Tuned cost for: heap, myisam, Aria, InnoDB, archive and MyRocks.
Used heap table costs for json_table. The rest are using default engine
costs.
- Added the following new optimizer variables:
- optimizer_disk_read_ratio
- optimizer_disk_read_cost
- optimizer_key_lookup_cost
- optimizer_row_lookup_cost
- optimizer_row_next_find_cost
- optimizer_scan_cost
- Moved all engine specific cost to OPTIMIZER_COSTS structure.
- Changed costs to use 'records_out' instead of 'records_read' when
recalculating costs.
- Split optimizer_costs.h to optimizer_costs.h and optimizer_defaults.h.
This allows one to change costs without having to compile a lot of
files.
- Updated costs for filter lookup.
- Use a better cost estimate in best_extension_by_limited_search()
for the sorting cost.
- Fixed previous issues with 'filtered' explain column as we are now
using 'records_out' (min rows seen for table) to calculate filtering.
This greatly simplifies the filtering code in
JOIN_TAB::save_explain_data().
This change caused a lot of queries to be optimized differently than
before, which exposed different issues in the optimizer that needs to
be fixed. These fixes are in the following commits. To not have to
change the same test case over and over again, the changes in the test
cases are done in a single commit after all the critical change sets
are done.
InnoDB changes:
- Updated InnoDB to not divide big range cost with 2.
- Added cost for InnoDB (innobase_update_optimizer_costs()).
- Don't mark clustered primary key with HA_KEYREAD_ONLY. This will
prevent that the optimizer is trying to use index-only scans on
the clustered key.
- Disabled ha_innobase::scan_time() and ha_innobase::read_time() and
ha_innobase::rnd_pos_time() as the default engine cost functions now
works good for InnoDB.
Other things:
- Added --show-query-costs (\Q) option to mysql.cc to show the query
cost after each query (good when working with query costs).
- Extended my_getopt with GET_ADJUSTED_VALUE which allows one to adjust
the value that user is given. This is used to change cost from
microseconds (user input) to milliseconds (what the server is
internally using).
- Added include/my_tracker.h ; Useful include file to quickly test
costs of a function.
- Use handler::set_table() in all places instead of 'table= arg'.
- Added SHOW_OPTIMIZER_COSTS to sys variables. These are input and
shown in microseconds for the user but stored as milliseconds.
This is to make the numbers easier to read for the user (less
pre-zeros). Implemented in 'Sys_var_optimizer_cost' class.
- In test_quick_select() do not use index scans if 'no_keyread' is set
for the table. This is what we do in other places of the server.
- Added THD parameter to Unique::get_use_cost() and
check_index_intersect_extension() and similar functions to be able
to provide costs to called functions.
- Changed 'records' to 'rows' in optimizer_trace.
- Write more information to optimizer_trace.
- Added INDEX_BLOCK_FILL_FACTOR_MUL (4) and INDEX_BLOCK_FILL_FACTOR_DIV (3)
to calculate usage space of keys in b-trees. (Before we used numeric
constants).
- Removed code that assumed that b-trees has similar costs as binary
trees. Replaced with engine calls that returns the cost.
- Added Bitmap::find_first_bit()
- Added timings to join_cache for ANALYZE table (patch by Sergei Petrunia).
- Added records_init and records_after_filter to POSITION to remember
more of what best_access_patch() calculates.
- table_after_join_selectivity() changed to recalculate 'records_out'
based on the new fields from best_access_patch()
Bug fixes:
- Some queries did not update last_query_cost (was 0). Fixed by moving
setting thd->...last_query_cost in JOIN::optimize().
- Write '0' as number of rows for const tables with a matching row.
Some internals:
- Engine cost are stored in OPTIMIZER_COSTS structure. When a
handlerton is created, we also created a new cost variable for the
handlerton. We also create a new variable if the user changes a
optimizer cost for a not yet loaded handlerton either with command
line arguments or with SET
@@global.engine.optimizer_cost_variable=xx.
- There are 3 global OPTIMIZER_COSTS variables:
default_optimizer_costs The default costs + changes from the
command line without an engine specifier.
heap_optimizer_costs Heap table costs, used for temporary tables
tmp_table_optimizer_costs The cost for the default on disk internal
temporary table (MyISAM or Aria)
- The engine cost for a table is stored in table_share. To speed up
accesses the handler has a pointer to this. The cost is copied
to the table on first access. If one wants to change the cost one
must first update the global engine cost and then do a FLUSH TABLES.
This was done to be able to access the costs for an open table
without any locks.
- When a handlerton is created, the cost are updated the following way:
See sql/keycaches.cc for details:
- Use 'default_optimizer_costs' as a base
- Call hton->update_optimizer_costs() to override with the engines
default costs.
- Override the costs that the user has specified for the engine.
- One handler open, copy the engine cost from handlerton to TABLE_SHARE.
- Call handler::update_optimizer_costs() to allow the engine to update
cost for this particular table.
- There are two costs stored in THD. These are copied to the handler
when the table is used in a query:
- optimizer_where_cost
- optimizer_scan_setup_cost
- Simply code in best_access_path() by storing all cost result in a
structure. (Idea/Suggestion by Igor)
367 lines
10 KiB
C++
367 lines
10 KiB
C++
/* Copyright (c) 2002, 2010, Oracle and/or its affiliates. All rights reserved.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; version 2 of the License.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */
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#include "mariadb.h"
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#include "keycaches.h"
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#include "optimizer_costs.h"
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#include "optimizer_defaults.h"
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#include "handler.h"
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#include "sql_class.h"
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/****************************************************************************
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Named list handling
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****************************************************************************/
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NAMED_ILIST key_caches;
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NAMED_ILIST rpl_filters;
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NAMED_ILIST linked_optimizer_costs;
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extern "C" PSI_memory_key key_memory_KEY_CACHE;
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extern PSI_memory_key key_memory_NAMED_ILINK_name;
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LEX_CSTRING default_base= {STRING_WITH_LEN("default")};
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/**
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ilink (intrusive list element) with a name
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*/
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class NAMED_ILINK :public ilink
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{
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public:
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const char *name;
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size_t name_length;
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uchar* data;
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NAMED_ILINK(I_List<NAMED_ILINK> *links, const char *name_arg,
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size_t name_length_arg, uchar* data_arg)
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:name_length(name_length_arg), data(data_arg)
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{
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name= my_strndup(key_memory_NAMED_ILINK_name, name_arg, name_length,
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MYF(MY_WME));
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links->push_back(this);
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}
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inline bool cmp(const char *name_cmp, size_t length)
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{
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return !system_charset_info->strnncoll(name, name_length, name_cmp, length);
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}
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~NAMED_ILINK()
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{
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my_free((void *) name);
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}
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};
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uchar* find_named(I_List<NAMED_ILINK> *list, const char *name, size_t length,
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NAMED_ILINK **found)
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{
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I_List_iterator<NAMED_ILINK> it(*list);
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NAMED_ILINK *element;
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while ((element= it++))
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{
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if (element->cmp(name, length))
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{
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if (found)
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*found= element;
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return element->data;
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}
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}
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return 0;
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}
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bool NAMED_ILIST::delete_element(const char *name, size_t length,
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void (*free_element)(const char *name, void*))
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{
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I_List_iterator<NAMED_ILINK> it(*this);
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NAMED_ILINK *element;
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DBUG_ENTER("NAMED_ILIST::delete_element");
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while ((element= it++))
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{
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if (element->cmp(name, length))
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{
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(*free_element)(element->name, element->data);
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delete element;
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DBUG_RETURN(0);
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}
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}
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DBUG_RETURN(1);
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}
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void NAMED_ILIST::delete_elements(void (*free_element)(const char *name, void*))
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{
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NAMED_ILINK *element;
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DBUG_ENTER("NAMED_ILIST::delete_elements");
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while ((element= get()))
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{
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(*free_element)(element->name, element->data);
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delete element;
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}
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DBUG_VOID_RETURN;
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}
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/* Key cache functions */
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KEY_CACHE zero_key_cache; ///< @@nonexistent_cache.param->value_ptr() points here
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KEY_CACHE *get_key_cache(const LEX_CSTRING *cache_name)
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{
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if (!cache_name || ! cache_name->length)
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cache_name= &default_base;
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return ((KEY_CACHE*) find_named(&key_caches,
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cache_name->str, cache_name->length, 0));
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}
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KEY_CACHE *create_key_cache(const char *name, size_t length)
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{
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KEY_CACHE *key_cache;
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DBUG_ENTER("create_key_cache");
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DBUG_PRINT("enter",("name: %.*s", (int)length, name));
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if ((key_cache= (KEY_CACHE*) my_malloc(key_memory_KEY_CACHE,
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sizeof(KEY_CACHE), MYF(MY_ZEROFILL | MY_WME))))
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{
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if (!new NAMED_ILINK(&key_caches, name, length, (uchar*) key_cache))
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{
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my_free(key_cache);
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key_cache= 0;
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}
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else
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{
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/*
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Set default values for a key cache
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The values in dflt_key_cache_var is set by my_getopt() at startup
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We don't set 'buff_size' as this is used to enable the key cache
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*/
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key_cache->param_block_size= dflt_key_cache_var.param_block_size;
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key_cache->param_division_limit= dflt_key_cache_var.param_division_limit;
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key_cache->param_age_threshold= dflt_key_cache_var.param_age_threshold;
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key_cache->param_partitions= dflt_key_cache_var.param_partitions;
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}
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}
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DBUG_RETURN(key_cache);
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}
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KEY_CACHE *get_or_create_key_cache(const char *name, size_t length)
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{
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LEX_CSTRING key_cache_name;
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KEY_CACHE *key_cache;
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key_cache_name.str= name;
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key_cache_name.length= length;
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if (!(key_cache= get_key_cache(&key_cache_name)))
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key_cache= create_key_cache(name, length);
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return key_cache;
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}
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void free_key_cache(const char *name, void *key_cache)
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{
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end_key_cache(static_cast<KEY_CACHE *>(key_cache), 1); // Can never fail
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my_free(key_cache);
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}
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bool process_key_caches(process_key_cache_t func, void *param)
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{
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I_List_iterator<NAMED_ILINK> it(key_caches);
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NAMED_ILINK *element;
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int res= 0;
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while ((element= it++))
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{
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KEY_CACHE *key_cache= (KEY_CACHE *) element->data;
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res |= func(element->name, key_cache, param);
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}
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return res != 0;
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}
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/* Rpl_filter functions */
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LEX_CSTRING default_rpl_filter_base= {STRING_WITH_LEN("")};
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Rpl_filter *get_rpl_filter(LEX_CSTRING *filter_name)
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{
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if (!filter_name->length)
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filter_name= &default_rpl_filter_base;
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return ((Rpl_filter*) find_named(&rpl_filters,
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filter_name->str, filter_name->length, 0));
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}
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Rpl_filter *create_rpl_filter(const char *name, size_t length)
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{
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Rpl_filter *filter;
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DBUG_ENTER("create_rpl_filter");
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DBUG_PRINT("enter",("name: %.*s", (int)length, name));
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filter= new Rpl_filter;
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if (filter)
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{
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if (!new NAMED_ILINK(&rpl_filters, name, length, (uchar*) filter))
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{
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delete filter;
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filter= 0;
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}
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}
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DBUG_RETURN(filter);
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}
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Rpl_filter *get_or_create_rpl_filter(const char *name, size_t length)
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{
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LEX_CSTRING rpl_filter_name;
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Rpl_filter *filter;
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rpl_filter_name.str= (char *) name;
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rpl_filter_name.length= length;
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if (!(filter= get_rpl_filter(&rpl_filter_name)))
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filter= create_rpl_filter(name, length);
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return filter;
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}
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void free_rpl_filter(const char *name, void *filter)
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{
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delete static_cast<Rpl_filter*>(filter);
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}
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void free_all_rpl_filters()
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{
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rpl_filters.delete_elements(free_rpl_filter);
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}
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/******************************************************************************
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Optimizer costs functions
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******************************************************************************/
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LEX_CSTRING default_costs_base= {STRING_WITH_LEN("default")};
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OPTIMIZER_COSTS default_optimizer_costs=
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{
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DEFAULT_DISK_READ_COST, // disk_read_cost
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DEFAULT_INDEX_BLOCK_COPY_COST, // index_block_copy_cost
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DEFAULT_WHERE_COST/4, // key_cmp_cost
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DEFAULT_KEY_COPY_COST, // key_copy_cost
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DEFAULT_KEY_LOOKUP_COST, // key_lookup_cost
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DEFAULT_KEY_NEXT_FIND_COST, // key_next_find_cost
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DEFAULT_DISK_READ_RATIO, // disk_read_ratio
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DEFAULT_ROW_COPY_COST, // row_copy_cost
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DEFAULT_ROW_LOOKUP_COST, // row_lookup_cost
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DEFAULT_ROW_NEXT_FIND_COST, // row_next_find_cost
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DEFAULT_ROWID_COMPARE_COST, // rowid_compare_cost
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DEFAULT_ROWID_COPY_COST, // rowid_copy_cost
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1 // Cannot be deleted
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};
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OPTIMIZER_COSTS heap_optimizer_costs, tmp_table_optimizer_costs;
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OPTIMIZER_COSTS *get_optimizer_costs(const LEX_CSTRING *cache_name)
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{
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if (!cache_name->length)
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return &default_optimizer_costs;
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return ((OPTIMIZER_COSTS*) find_named(&linked_optimizer_costs,
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cache_name->str, cache_name->length,
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0));
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}
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OPTIMIZER_COSTS *create_optimizer_costs(const char *name, size_t length)
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{
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OPTIMIZER_COSTS *optimizer_costs;
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DBUG_ENTER("create_optimizer_costs");
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DBUG_PRINT("enter",("name: %.*s", (int) length, name));
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if ((optimizer_costs= (OPTIMIZER_COSTS*)
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my_malloc(key_memory_KEY_CACHE,
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sizeof(OPTIMIZER_COSTS), MYF(MY_ZEROFILL | MY_WME))))
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{
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if (!new NAMED_ILINK(&linked_optimizer_costs, name, length,
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(uchar*) optimizer_costs))
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{
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my_free(optimizer_costs);
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optimizer_costs= 0;
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}
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else
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{
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/* Mark that values are not yet set */
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for (uint i=0 ; i < sizeof(OPTIMIZER_COSTS)/sizeof(double) ; i++)
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((double*) optimizer_costs)[i]= OPTIMIZER_COST_UNDEF;
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}
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}
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DBUG_RETURN(optimizer_costs);
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}
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OPTIMIZER_COSTS *get_or_create_optimizer_costs(const char *name, size_t length)
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{
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LEX_CSTRING optimizer_costs_name;
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OPTIMIZER_COSTS *optimizer_costs;
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optimizer_costs_name.str= name;
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optimizer_costs_name.length= length;
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if (!(optimizer_costs= get_optimizer_costs(&optimizer_costs_name)))
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optimizer_costs= create_optimizer_costs(name, length);
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return optimizer_costs;
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}
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extern "C"
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{
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bool process_optimizer_costs(process_optimizer_costs_t func, TABLE *param)
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{
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I_List_iterator<NAMED_ILINK> it(linked_optimizer_costs);
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NAMED_ILINK *element;
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int res= 0;
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while ((element= it++))
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{
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LEX_CSTRING name= { element->name, element->name_length };
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OPTIMIZER_COSTS *costs= (OPTIMIZER_COSTS *) element->data;
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res |= func(&name, costs, param);
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}
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return res != 0;
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}
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}
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bool create_default_optimizer_costs()
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{
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return (new NAMED_ILINK(&linked_optimizer_costs,
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default_base.str, default_base.length,
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(uchar*) &default_optimizer_costs)) == 0;
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}
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/*
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Make a copy of heap and tmp_table engine costs to be able to create
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internal temporary tables without taking a mutex.
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*/
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void copy_tmptable_optimizer_costs()
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{
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memcpy(&heap_optimizer_costs, heap_hton->optimizer_costs,
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sizeof(heap_optimizer_costs));
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memcpy(&tmp_table_optimizer_costs, TMP_ENGINE_HTON->optimizer_costs,
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sizeof(tmp_table_optimizer_costs));
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}
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static void free_optimizer_costs(const char *name, void *cost)
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{
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if ((OPTIMIZER_COSTS*) cost != &default_optimizer_costs)
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my_free(cost);
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}
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void free_all_optimizer_costs()
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{
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linked_optimizer_costs.delete_elements(free_optimizer_costs);
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}
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