2. ★ InnoDB?
★ MyISAM?
★ XtraDB?
★ MySQL 4.x?
★ MySQL 5.0.x?
★ MySQL 5.1?
★ MySQL 5.5?
★ Something else?
2
Show of Hands
3. Agenda for Today
★ 1. Introduction
★ 2. “How InnoDB Works”.
★ 3. Percona Server with XtraDB.
3
4. Agenda for Today
★ 1. Introduction
★ 2. “How InnoDB Works”.
★ 3. Percona Server with XtraDB.
4
5. InnoDB History
★ 1994 - First line of code written
★ 1999 - InnoDB “complete”.
★ 2001 - First alpha of working with MySQL.
★ ...
★ 2005 - MySQL 5.0 released with COMPACT row format.
★ ...
★ 2008 - InnoDB Plugin Announced
★ 2010 - InnoDB Plugin 1.1 Announced (to ship with 5.5)
5
6. InnoDB History
★ 1994 - First line of code written
★ 1999 - InnoDB “complete”.
★ 2001 - First alpha of working with MySQL.
★ ...
★ 2005 - MySQL 5.0 released with COMPACT row format.
★ ...
★ 2008 - InnoDB Plugin Announced
★ 2010 - InnoDB Plugin 1.1 Announced (to ship with 5.5)
5
Long delays while
MySQL 5.0, 5.1 is
released.
7. InnoDB Limitations (as at 5.0)
6
Slow Crash Recovery Process Not enough diagnostic
information, particularly around
threads that write data/sync
Only one buffer pool. No QoS
of mapping tables to buffer pool
or pinning indexes/content to
prevent eviction.
Poor Multi CPU Scalability Broken group commit support No way to see contents of
buffer pool.
No way to limit the memory
resident data dictionary size.
No features for warming big
buffer pools on server start.
The adaptive hash does not
suit all workloads.
Not able to take advantage of a
more powerful IO system, that
can sustain multiple concurrent
threads.
No real ability to configure
tablespaces - just two limited
options.
Page flushing is not aggressive
enough, early enough leading
up to checkpoints.
Insert buffer shows weakness -
can be up to 1/2 the buffer pool
size - and doesn’t make active
attempts to be more aggressive
at contracting when reaching
limit.
IO read ahead assumptions
have no configuration options /
ability to disable.
Limited number of undo
segments limits concurrent
transactions to 1024.
= Patch Available in some form.
8. InnoDB Limitations (as at 5.0)
7
Can’t move tables between
servers.
Slow statistics not available in
slow query log.
Replication is not transactional.
No way to force checkpoint Can’t cluster on an index other
than Primary key.
Opening tables is serialized by
LOCK_Open mutex.
No way to freeze checkpoint/
flushing activity.
auto_increment scalability is
very bad.
No parallel query execution
plans.
Adding files to a table space
must be done via configuration
file not online.
Statistics sampling is done by
10 random dives - limited
control over resampling
Index statistics don’t persist on
restart and are recalculated
each time.
Can’t change page sizes
without recompile. Not
possible to have multiple page
sizes.
Diagnostics - Can’t see a
history of deadlocks.
Can’t control page fill factor.
= Patch Available in some form.
9. InnoDB Limitations (as at 5.0)
8
InnoDB pages have checksums
- a very helpful feature to detect
silent corruption. The problem
is there’s 2 checksums and
there may be benefit from being
able to change the algorithm.
Further improvements possible
to IO. InnoDB’s emulated
async IO may not be required.
Newer system calls like
fallocate/fadvise may lead to
improvements.
No memory manager or
effective way to limit memory
use. This is both true for
MySQL and the overhead
consumed with InnoDB meta
data.
Insert buffer does not assist for
delete operations.
Dropping an index recreates
the whole table.
Indexes can not be added
online
InnoDB per page memory/
storage overhead could
probably be reduced.
There are no features to
compress/pack indexes.
There is no support for
additional index algorithms
(such as hash or bitmap)
= Patch Available in some form.
10. What’s the plugin?
★ Until recently, the InnoDB version has been tied closely
to the MySQL release.
★ MySQL 5.1’s pluggable storage engine API -
✦
Developers have increased freedom to make improvements
independent of MySQL.
★ Important Note: The default InnoDB storage engine in
MySQL 5.1 is not the InnoDB plugin version.
✦
But the plugin version has been declared GA.
9
11. Enabling the InnoDB Plugin
★ MySQL considers the plugin 1.0 GA from 5.1.46. It is
included, but not enabled in most downloads:
✦
[mysqld]
ignore-builtin-innodb
plugin-load=innodb=ha_innodb_plugin.so
★ See: http://dev.mysql.com/doc/refman/5.1/en/
innodb.html
10
12. The plugin also brings
★ New features!
✦
CPU scalability, fast index creation, buffer pool tablescan
resistance, fast crash recovery...
★ It is the main focus of new InnoDB development.
11
13. Why do I tell you this long story?
★ XtraDB is a fork of the InnoDB plugin.
✦
i.e. it inherits all [plugin] features.
★ “Fork” doesn’t necessarily mean the same as it used to.
✦
Think of it like after market enhancements you can make to
your vehicle.
✦
Percona rebases XtraDB against new plugin releases.
✦
The on disk format in XtraDB does not change by default. i.e.
You can switch InnoDB<->XtraDB all day long.
12
14. Release Model
★ Short release cycle. Changes are mostly incremental
enhancements / minor features.
★ Rebases against new MySQL releases.
✦
i.e. Version number should be reads as:
Percona-Server-server-51-5.1.47-rel11.0.47.rhel5.x86_64.rpm
13
Major MySQL Version
Minor MySQL Version
XtraDB Release Version
15. Releases History
★ Historical average of a new release every 1-2 months:
14
Release-1 Dec 2008
Release-2 Dec 2008
Release-3 Feb 2009
Release-4 April 2009
Release-5 April 2009
Release-6 July 2009
Release-7 August 2009
Release-8 Oct 2009
Release-9 Jan 2010
Release-9.1 March 2010
Release-10 April 2010
Release-10.1 May 2010
Release-11* June 2010
Release-11.1 June 2010
Release-11.2 July 2010
Release-11.3 September 2010
Release-12** September 2010
Release-11.4 September 2010
Release-12.1 October 2010
Release-11.5 October 2010
Release-11.6 November 2010
Release-12.3 December 2010
Release-11.7 December 2010
Release-12.4 December 2010
Release-12.5 January 2011
16. So what changes?
★ Most of the enhancements fall into two different
categories:
✦
Performance Improvements
✦
Operational / Usability Features
15
17. We’ll get to explaining these
changes in just a second...
(First I need to explain how InnoDB works).
18. Agenda for Today
★ 1. Introduction
★ 2. “How InnoDB Works”.
★ 3. Percona Server with XtraDB.
17
19. “Numbers everyone should know”
18
L1 cache reference 0.5 ns
Branch mispredict 5 ns
L2 cache reference 7 ns
Mutex lock/unlock 25 ns
Main memory reference 100 ns
Compress 1K bytes with Zippy 3,000 ns
Send 2K bytes over 1 Gbps network 20,000 ns
Read 1 MB sequentially from memory 250,000 ns
Round trip within same datacenter 500,000 ns
Disk seek 10,000,000 ns
Read 1 MB sequentially from disk 20,000,000 ns
Send packet CA->Netherlands->CA 150,000,000 ns
See: http://www.linux-mag.com/cache/7589/1.html and Google http://
www.cs.cornell.edu/projects/ladis2009/talks/dean-keynote-ladis2009.pdf
20. About Disks.
★ 10,000,000 ns = 10ms = 100 operations/second.
✦
This is about the average for a 7200RPM drive.
★ The actual time has dramatic variation.
✦
The variation is because disks are mechanical.
✦
We can much write faster sequentially than randomly.
19
21. [default] Everything is buffered!
★ When you write to a file, here’s what happens in the
Operating System:
20
Block 9, 10, 1, 4, 200, 5.
Block 1, 4, 5, 9, 10, 200
What happens to this
buffer if we loose power?
22. The OS provides a way!
★ $ man fsync
21
Synopsis
#include <unistd.h>
int fsync(int fd);
int fdatasync(int fd);
Description
fsync() transfers ("flushes") all modified in-core data of (i.e., modified buffer cache
pages for) the file referred to by the file descriptor fd to the disk device (or other
permanent storage device) where that file resides. The call blocks until the device
reports that the transfer has completed. It also flushes metadata information
associated with the file (see stat(2)).
Hint: MyISAM just writes to the
OS buffer and has no durability.
http://thunk.org/tytso/blog/2009/03/15/dont-fear-the-fsync/
23. Knowing this:
★ InnoDB wants to try and reduce random IO.
★ It can not (safely) rely on the operating system’s write
buffering and be ACID compliant.
✦
.. and InnoDB algorithms have to compensate.
22
24. Basic Operation (High Level)
Log Files
23
SELECT * FROM City
WHERE CountryCode=ʼAUSʼ
Buffer Pool
Tablespace
25. Basic Operation (High Level)
Log Files
23
SELECT * FROM City
WHERE CountryCode=ʼAUSʼ
Buffer Pool
Tablespace
26. Basic Operation (High Level)
Log Files
23
SELECT * FROM City
WHERE CountryCode=ʼAUSʼ
Buffer Pool
Tablespace
27. Basic Operation (High Level)
Log Files
23
SELECT * FROM City
WHERE CountryCode=ʼAUSʼ
Buffer Pool
Tablespace
28. Basic Operation (High Level)
Log Files
23
SELECT * FROM City
WHERE CountryCode=ʼAUSʼ
Buffer Pool
Tablespace
29. Basic Operation (High Level)
Log Files
23
SELECT * FROM City
WHERE CountryCode=ʼAUSʼ
Buffer Pool
Tablespace
30. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
Buffer Pool
Tablespace
31. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
Buffer Pool
Tablespace
32. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
Buffer Pool
Tablespace
33. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
Buffer Pool
Tablespace
34. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
01010
Buffer Pool
Tablespace
35. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
01010
Buffer Pool
Tablespace
36. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
01010
Buffer Pool
Tablespace
37. Basic Operation (cont.)
24
Log Files
UPDATE City SET
name = 'Morgansville'
WHERE name = 'Brisbane'
AND CountryCode='AUS'
01010
Buffer Pool
Tablespace
38. Why don’t we update?
★ This is an optimization!
✦
The log file IO is sequential and much cheaper than live
updates.
✦
The IO for the eventual updates to the tablespace can be
optimized as well.
★ Provided that you saved enough to recover, this
shouldn’t matter should it?
25
39. More on Logs...
★ Logs are only used during recovery.
✦
Not even read when we need to write down
dirty pages!
★ To figure out which pages need to be evicted we have two
lists - the flush list and the LRU.
★ Log activities are all assigned a LSN (log sequence
number).
26
Log Files
40. Log Files, Checkpoints, etc.
★ Most database systems work this way:
✦
In Oracle the transaction logs are called “Redo Logs”.
★ The background process of syncing dirty pages is
normally referred to as a “Checkpoint”.
★ InnoDB has fuzzy checkpointing.
27
41. Log Writing
★ You can change increase innodb_log_file_size.
This will allow InnoDB to “smooth out” background IO
for longer.
✦
Tip: Optionally you could change
innodb_log_files_in_group as well. Be aware that
your effective log file is innodb_log_file_size *
innodb_log_files_in_group
28
42. Log Writing (cont.)
★ You can also change
innodb_flush_log_at_trx_commit to 0 or 2 to
reduce the durability requirements of this write.
✦
Requires less flushing - particularly helpful on systems
without writeback caches!
★ innodb_log_buffer_size may also help buffer
changes for longer before writing to the logs.
✦
Very workload dependent - tends to be more helpful for
writing big TEXT/BLOB changes.
29
43. In summary
★ On commit, the log has to be flushed to guarantee
changes.
✦
Nothing else has to be done.
★ What visibility do we have into these operations?
★ How do we decide how much background work to do per
second?
★ What happens if we fall behind in background work?
30
44. Agenda for Today
★ 1. Introduction
★ 2. “How InnoDB Works”.
★ 3. Percona Server with XtraDB.
31
45. Terminology
32
Oracle Product License Percona Equivalent
Product
License
MySQL Server GPL Percona Server GPL
The InnoDB Storage
Engine (Plugin edition)
GPL The XtraDB Storage
Engine
GPL
InnoDB Hot Backup Commercial XtraBackup GPL
(GPL = Completely free for you to use. Support not included.)
46. Some changes come free
★ Some of the features from the InnoDB plugin...
33
47. Fast Index Creation
★ In built-in InnoDB, simple statements require table to be
completely rebuilt:
✦
ALTER TABLE my_table ADD INDEX my_idx (col1);
✦
CREATE INDEX my_idx ON my_table (col1);
✦
ALTER TABLE my_table DROP INDEX my_idx;
★ In InnoDB plugin, these statements just recreate the
index, provided that:
✦
The index is not the primary key.
✦
The index does not use the UTF-8 character set (BUG
#33650)
34
Inherited
via Plugin
48. Fast Index Creation (cont.)
★ Fast index creation only requires a READ LOCK.
★ When the fast indexes are created, they are first pre-
sorted, and then inserted in order.
✦
This results in a better index fill factor, and a faster index
insertion.
35
49. IO scalability
★ --innodb_io_capacity - Set the number of IO
operations per second the server is capable of to
influence background thread algorithms (default 200).
✦
100 IOPS is about the capability of a single 7200RPM disk.
★ --innodb_read_io_threads and --
innodb_write_io_threads - Using multiple IO
threads will often lead to better performance on bigger
raid systems.
36
Inherited
via Plugin
50. CPU Scalability
★ InnoDB doesn’t perform so well on systems with a lot of
CPUs/cores.
★ 3-4 main patches:
✦
Faster locking on Linux, Windows and Solaris.
✦
Option to disable InnoDB internal memory allocator.
✦
Improvements to thread concurrency settings.
✦
Using the PAUSE instruction in InnoDB spin loops.
★ Most of these changes are transparent!
37
Inherited
via Plugin
52. What’s a Mutex? (cont.)
39
Ima Server
Thread #1
Thread #2
Thread #3
Thread #4
4 Connections
4-1 = 3
4-1 = 3
X
X
53. What’s a Mutex? (cont.)
40
Ima Server
Thread #3
Thread #4
3 Connections
54. Mutexes become hotspots
★ The longer the mutex is held, the more likely you can
hold up other tasks - and reduce CPU scalability:
41
CPUs in use
55. Adaptive Flushing
★ Handle background work more aggressively as log
space runs out.
42
First
invented
in Percona
Server
* Adaptive Checkpointing also available in Percona Server
http://www.mysqlperformanceblog.com/2008/11/13/adaptive-checkpointing/
56. Fast Crash Recovery
43
First
invented
in Percona
Server
★ Crash recovery in InnoDB can be very slow. From
MySQL BUG #29847:
[28 Oct 2008 21:40] James Day
One reported effect of this performance limitation is that a system with 24GB buffer
pool size could only recover 10% after 2 hour. With a 4G buffer pool and
innodb_flush_method=O_DIRECT removed the system recovered completely in 30 minutes.
Partial workarounds.
1. During recovery, temporarily reduce innodb_buffer_pool_size to force InnoDB to
flush pages from the flush list. A value of 4G is likely to be reasonable.
2. During recovery, temporarily remove O_DIRECT so that the operating system can cache
changes during recovery.
57. Performance Improvements
44
Improved Buffer
Pool Scalability
Improved IO Path
+ adaptive checkpointing
Improved Rollback
Segment Scalability*Separate purge
thread
Data dictionary
memory
consumption
controls
Increased number of
undo slots*
Faster page
checksums*
Support for different
page sizes*
* Changes on disk format (not backwards compatible)
Insert buffer controls
Completely
disable the query
cache.
Remove excess fcntl calls
Per session configuration of
innodb_flush_log_at_trx_commit
Separate location
of double write
buffer*
Strip comments before
using query cache
Transaction logs
larger than 4G
supported.
58. Improved Buffer Pool Scalability
★ Additional patches to what is already available in the
InnoDB Plugin.
✦
Splits the buffer pool mutex into smaller mutexes:
• Flush list mutex
• LRU mutex
• Free mutex
• hash mutex
45
59. Data Dictionary control
★ Once an InnoDB table is opened it is never freed from
the in-memory data dictionary (which is unlimited in
size).
★ XtraDB introduces:
✦
--innodb_dict_size_limit - a configuration item in
bytes.
✦
innodb_dict_tables - a status variable for number
entries in the cache.
46
60. Undo Slots
★ In the built-in InnoDB, the number of undo slots is
limited to 1024.
✦
This means the number of open transactions is limited to
1023. See: http://bugs.mysql.com/bug.php?id=26590
✦
Some statements require 2 undo slots.
★ In XtraDB, this is expanded to 4072 with --
innodb_extra_undoslots=1.
47 Warning: This is binary format incompatible!
61. Rollback Segments
★ In XtraDB, it’s also possible to have more than one
rollback segment.
✦
Each segment contains undo slots.
★ Configuration is --innodb-extra-rsegments=N
★ This has the added effect of reducing mutex contention
on the rollback segment:
✦
“Mutex at 0×1b3e3e78 created file trx/trx0rseg.c line 167″
48
http://www.percona.com/docs/wiki/percona-
xtradb:patch:innodb_extra_rseg
http://www.mysqlperformanceblog.com/2009/10/14/tuning-
for-heavy-writing-workloads/
Warning: This is binary format incompatible!
62. Fast Checksums
★ The InnoDB page checksum computation is slower than
it needs to be.
★ XtraDB has the option to use a faster checksum format.
49 Warning: This is binary format incompatible!
63. Different Page Sizes
★ XtraDB now has support for different page sizes - 4K,
8K, 16K.
50 Warning: This is binary format incompatible!
64. Separate Purge Thread
★ Cleans up a long history list length faster:
51
See: http://www.mysqlperformanceblog.com/2009/10/14/
tuning-for-heavy-writing-workloads/
65. Usability Enhancements
52
Show contents of
the buffer pool
Import / export of
innodb_file_per_table
tables
Import / export of
buffer pool
contents
Transactional
Replication
Better handling
of corrupted
tables
Store buffer pool
in shared memory
segment
Save index statistics
between restarts
Advise in
processlist when
waiting on Query
cache mutex.
Improved slow
query log
User / Index / Table statistics
Disable automatic
statistics
regeneration
Show data
dictionary
Deadlock counter
Show Temporary Tables
Log connection
errors
Retain query
response time
distribution.
66. Show Buffer Pool Contents
53
mysql> SELECT d.*,round(100*cnt*16384/(data_length+index_length),2) fit FROM
(SELECT schema_name,table_name,count(*) cnt,sum(dirty),sum(hashed) FROM
INNODB_BUFFER_POOL_PAGES_INDEX GROUP BY schema_name,table_name ORDER BY cnt DESC
LIMIT 20) d JOIN TABLES ON (TABLES.table_schema=d.schema_name AND
TABLES.table_name=d.table_name);
+-------------+---------------------+---------+------------+-------------+--------+
| schema_name | table_name | cnt | sum(dirty) | sum(hashed) | fit |
+-------------+---------------------+---------+------------+-------------+--------+
| db | table1 | 1699133 | 13296 | 385841 | 87.49 |
| db | table2 | 1173272 | 17399 | 11099 | 98.42 |
| db | table3 | 916641 | 7849 | 15316 | 94.77 |
| db | table4 | 86999 | 1555 | 75554 | 87.42 |
| db | table5 | 32701 | 7997 | 30082 | 91.61 |
| db | table6 | 31990 | 4495 | 25681 | 102.97 |
| db | table7 | 1 | 0 | 0 | 100.00 |
+-------------+---------------------+---------+------------+-------------+--------+
7 rows in set (26.45 sec)
Source: http://www.mysqlperformanceblog.com/
2010/03/26/tables-fit-buffer-poo/
67. Save Buffer Pool Contents
★ Export the contents of the buffer pool to a file called
‘ib_lru_dump’ in the data directory:
✦
SELECT * FROM
information_schema.XTRADB_ADMIN_COMMAND /*!
XTRA_LRU_DUMP*/;
★ Restored ib_lru_dump:
✦
SELECT * FROM
information_schema.XTRADB_ADMIN_COMMAND /*!
XTRA_LRU_RESTORE*/;
54
Note: Not the actual contents - it takes 8 bytes to
remember the address of a 16K page.
68. Transactional Replication
★ More resilience from slaves crashing - XtraDB no longer
relies on the relay-log.info file.
✦
Instead log coordination is stored in InnoDB tables internally.
55
69. Import/Export tables
★ Because --innodb-file-per-table still has
information (data dictionary, undo) in the global
tablespace you can’t just back it up by itself.
★ With a new setting, --innodb_expand_import=1,
this is no longer the case.
★ Tip: The import/export still has to be done with
XtraBackup. Documentation available here:
http://www.percona.com/docs/wiki/percona-xtradb:patch:innodb_expand_import
56
70. Better Handling of Corrupt Tables
★ Instead of crashing the server when a table is
discovered as corrupt, just mark the table as corrupt
and continue.
57
71. The Slow Query Log
58
$ mysql -e “SET GLOBAL log_slow_verbosity = ‘full’;”
$ tail /var/log/mysql.slow
..
# Time: 100924 13:58:47
# User@Host: root[root] @ localhost []
# Thread_id: 10 Schema: imdb Last_errno: 0 Killed: 0
# Query_time: 399.563977 Lock_time: 0.000110 Rows_sent: 1 Rows_examined: 46313608 Rows_affected: 0 Rows_read: 1
# Bytes_sent: 131 Tmp_tables: 1 Tmp_disk_tables: 1 Tmp_table_sizes: 25194923
# InnoDB_trx_id: 1403
# QC_Hit: No Full_scan: Yes Full_join: No Tmp_table: Yes Tmp_table_on_disk: Yes
# Filesort: Yes Filesort_on_disk: Yes Merge_passes: 5
# InnoDB_IO_r_ops: 1064749 InnoDB_IO_r_bytes: 17444847616 InnoDB_IO_r_wait: 26.935662
# InnoDB_rec_lock_wait: 0.000000 InnoDB_queue_wait: 0.000000
# InnoDB_pages_distinct: 65329
SET timestamp=1285336727;
select STRAIGHT_JOIN count(*) as c, person_id FROM cast_info FORCE INDEX(person_id) INNER JOIN title ON
(cast_info.movie_id=title.id) WHERE title.kind_id = 1 GROUP BY cast_info.person_id ORDER by c DESC LIMIT 1;
$ tail /var/log/mysql.slow
..
# Time: 100924 13:58:47
# User@Host: root[root] @ localhost []
# Query_time: 399.563977 Lock_time: 0.000110 Rows_sent: 1 Rows_examined: 46313608
SET timestamp=1285336727;
select STRAIGHT_JOIN count(*) as c, person_id FROM cast_info FORCE INDEX(person_id) INNER JOIN title ON
(cast_info.movie_id=title.id) WHERE title.kind_id = 1 GROUP BY cast_info.person_id ORDER by c DESC LIMIT 1;
MySQL Server
Percona Server
72. User Statistics
59
mysql> SET GLOBAL userstat_running = 1;
mysql> SELECT DISTINCT s.TABLE_SCHEMA, s.TABLE_NAME, s.INDEX_NAME
FROM information_schema.statistics `s`
LEFT JOIN information_schema.index_statistics IS ON
(s.TABLE_SCHEMA = IS.TABLE_SCHEMA AND s.TABLE_NAME=IS.TABLE_NAME AND s.INDEX_NAME=IS.INDEX_NAME)
WHERE IS.TABLE_SCHEMA IS NULL;
+--------------+---------------------------+-----------------+
| TABLE_SCHEMA | TABLE_NAME | INDEX_NAME |
+--------------+---------------------------+-----------------+
| art100 | article100 | ext_key |
| art100 | article100 | site_id |
| art100 | article100 | hash |
| art100 | article100 | forum_id_2 |
| art100 | article100 | published |
| art100 | article100 | inserted |
| art100 | article100 | site_id_2 |
| art100 | author100 | PRIMARY |
| art100 | author100 | site_id |
...
+--------------+---------------------------+-----------------+
1150 rows IN SET (1 min 44.23 sec)
MySQL Server
Percona Server
( Not Possible )
73. (Related) Xtrabackup Features
★ Report on fragmentation of indexes:
★ $ xtrabackup --stats --tables=art.link* --
datadir=/mnt/data/mysql/
...
table: art/link_out104, index: PRIMARY, space
id: 12, root page 3
leaf pages: recs=25958413, pages=497839,
data=7492026403 bytes, data/pages=91%
...
60
http://www.mysqlperformanceblog.com/2009/09/14/statistics-
of-innodb-tables-and-indexes-available-in-xtrabackup/