This is the command myisamchk that can be run in the OnWorks free hosting provider using one of our multiple free online workstations such as Ubuntu Online, Fedora Online, Windows online emulator or MAC OS online emulator
PROGRAM:
NAME
myisamchk - MyISAM table-maintenance utility
SYNOPSIS
myisamchk [options] tbl_name ...
DESCRIPTION
The myisamchk utility gets information about your database tables or checks, repairs, or
optimizes them. myisamchk works with MyISAM tables (tables that have .MYD and .MYI files
for storing data and indexes).
You can also use the CHECK TABLE and REPAIR TABLE statements to check and repair MyISAM
tables. See Section 13.7.2.2, “CHECK TABLE Syntax”, and Section 13.7.2.5, “REPAIR TABLE
Syntax”.
The use of myisamchk with partitioned tables is not supported.
Caution
It is best to make a backup of a table before performing a table repair operation;
under some circumstances the operation might cause data loss. Possible causes include
but are not limited to file system errors.
Invoke myisamchk like this:
shell> myisamchk [options] tbl_name ...
The options specify what you want myisamchk to do. They are described in the following
sections. You can also get a list of options by invoking myisamchk --help.
With no options, myisamchk simply checks your table as the default operation. To get more
information or to tell myisamchk to take corrective action, specify options as described
in the following discussion.
tbl_name is the database table you want to check or repair. If you run myisamchk somewhere
other than in the database directory, you must specify the path to the database directory,
because myisamchk has no idea where the database is located. In fact, myisamchk does not
actually care whether the files you are working on are located in a database directory.
You can copy the files that correspond to a database table into some other location and
perform recovery operations on them there.
You can name several tables on the myisamchk command line if you wish. You can also
specify a table by naming its index file (the file with the .MYI suffix). This enables you
to specify all tables in a directory by using the pattern *.MYI. For example, if you are
in a database directory, you can check all the MyISAM tables in that directory like this:
shell> myisamchk *.MYI
If you are not in the database directory, you can check all the tables there by specifying
the path to the directory:
shell> myisamchk /path/to/database_dir/*.MYI
You can even check all tables in all databases by specifying a wildcard with the path to
the MySQL data directory:
shell> myisamchk /path/to/datadir/*/*.MYI
The recommended way to quickly check all MyISAM tables is:
shell> myisamchk --silent --fast /path/to/datadir/*/*.MYI
If you want to check all MyISAM tables and repair any that are corrupted, you can use the
following command:
shell> myisamchk --silent --force --fast --update-state
--key_buffer_size=64M --myisam_sort_buffer_size=64M
--read_buffer_size=1M --write_buffer_size=1M
/path/to/datadir/*/*.MYI
This command assumes that you have more than 64MB free. For more information about memory
allocation with myisamchk, see the section called “MYISAMCHK MEMORY USAGE”.
For additional information about using myisamchk, see Section 7.6, “MyISAM Table
Maintenance and Crash Recovery”.
Important
You must ensure that no other program is using the tables while you are running
myisamchk. The most effective means of doing so is to shut down the MySQL server while
running myisamchk, or to lock all tables that myisamchk is being used on.
Otherwise, when you run myisamchk, it may display the following error message:
warning: clients are using or haven't closed the table properly
This means that you are trying to check a table that has been updated by another
program (such as the mysqld server) that hasn't yet closed the file or that has died
without closing the file properly, which can sometimes lead to the corruption of one
or more MyISAM tables.
If mysqld is running, you must force it to flush any table modifications that are
still buffered in memory by using FLUSH TABLES. You should then ensure that no one is
using the tables while you are running myisamchk
However, the easiest way to avoid this problem is to use CHECK TABLE instead of
myisamchk to check tables. See Section 13.7.2.2, “CHECK TABLE Syntax”.
myisamchk supports the following options, which can be specified on the command line or in
the [myisamchk] group of an option file. For information about option files used by MySQL
programs, see Section 4.2.6, “Using Option Files”.
MYISAMCHK GENERAL OPTIONS
The options described in this section can be used for any type of table maintenance
operation performed by myisamchk. The sections following this one describe options that
pertain only to specific operations, such as table checking or repairing.
· --help, -?
Display a help message and exit. Options are grouped by type of operation.
· --HELP, -H
Display a help message and exit. Options are presented in a single list.
· --debug=debug_options, -# debug_options
Write a debugging log. A typical debug_options string is d:t:o,file_name. The default
is d:t:o,/tmp/myisamchk.trace.
· --defaults-extra-file=file_name
Read this option file after the global option file but (on Unix) before the user
option file. If the file does not exist or is otherwise inaccessible, an error occurs.
file_name is interpreted relative to the current directory if given as a relative path
name rather than a full path name.
· --defaults-file=file_name
Use only the given option file. If the file does not exist or is otherwise
inaccessible, an error occurs. file_name is interpreted relative to the current
directory if given as a relative path name rather than a full path name.
· --defaults-group-suffix=str
Read not only the usual option groups, but also groups with the usual names and a
suffix of str. For example, myisamchk normally reads the [myisamchk] group. If the
--defaults-group-suffix=_other option is given, myisamchk also reads the
[myisamchk_other] group.
· --no-defaults
Do not read any option files. If program startup fails due to reading unknown options
from an option file, --no-defaults can be used to prevent them from being read.
The exception is that the .mylogin.cnf file, if it exists, is read in all cases. This
permits passwords to be specified in a safer way than on the command line even when
--no-defaults is used. (.mylogin.cnf is created by the mysql_config_editor utility.
See mysql_config_editor(1).)
· --print-defaults
Print the program name and all options that it gets from option files.
· --silent, -s
Silent mode. Write output only when errors occur. You can use -s twice (-ss) to make
myisamchk very silent.
· --verbose, -v
Verbose mode. Print more information about what the program does. This can be used
with -d and -e. Use -v multiple times (-vv, -vvv) for even more output.
· --version, -V
Display version information and exit.
· --wait, -w
Instead of terminating with an error if the table is locked, wait until the table is
unlocked before continuing. If you are running mysqld with external locking disabled,
the table can be locked only by another myisamchk command.
You can also set the following variables by using --var_name=value syntax:
┌───────────────────────┬───────────────────┐
│Variable │ Default Value │
├───────────────────────┼───────────────────┤
│decode_bits │ 9 │
├───────────────────────┼───────────────────┤
│ft_max_word_len │ version-dependent │
├───────────────────────┼───────────────────┤
│ft_min_word_len │ 4 │
├───────────────────────┼───────────────────┤
│ft_stopword_file │ built-in list │
├───────────────────────┼───────────────────┤
│key_buffer_size │ 523264 │
├───────────────────────┼───────────────────┤
│myisam_block_size │ 1024 │
├───────────────────────┼───────────────────┤
│myisam_sort_key_blocks │ 16 │
├───────────────────────┼───────────────────┤
│read_buffer_size │ 262136 │
├───────────────────────┼───────────────────┤
│sort_buffer_size │ 2097144 │
├───────────────────────┼───────────────────┤
│sort_key_blocks │ 16 │
├───────────────────────┼───────────────────┤
│stats_method │ nulls_unequal │
├───────────────────────┼───────────────────┤
│write_buffer_size │ 262136 │
└───────────────────────┴───────────────────┘
The possible myisamchk variables and their default values can be examined with myisamchk
--help:
sort_buffer_size is used when the keys are repaired by sorting keys, which is the normal
case when you use --recover. As of MySQL 5.6.9, myisam_sort_buffer_size is available as an
alternative name to sort_buffer_size. myisam_sort_buffer_size is preferable to
sort_buffer_size because its name corresponds to the myisam_sort_buffer_size server system
variable that has a similar meaning. sort_buffer_size should be considered deprecated.
key_buffer_size is used when you are checking the table with --extend-check or when the
keys are repaired by inserting keys row by row into the table (like when doing normal
inserts). Repairing through the key buffer is used in the following cases:
· You use --safe-recover.
· The temporary files needed to sort the keys would be more than twice as big as when
creating the key file directly. This is often the case when you have large key values
for CHAR, VARCHAR, or TEXT columns, because the sort operation needs to store the
complete key values as it proceeds. If you have lots of temporary space and you can
force myisamchk to repair by sorting, you can use the --sort-recover option.
Repairing through the key buffer takes much less disk space than using sorting, but is
also much slower.
If you want a faster repair, set the key_buffer_size and myisam_sort_buffer_size variables
to about 25% of your available memory. You can set both variables to large values, because
only one of them is used at a time.
myisam_block_size is the size used for index blocks.
stats_method influences how NULL values are treated for index statistics collection when
the --analyze option is given. It acts like the myisam_stats_method system variable. For
more information, see the description of myisam_stats_method in Section 5.1.4, “Server
System Variables”, and Section 8.3.7, “InnoDB and MyISAM Index Statistics Collection”.
ft_min_word_len and ft_max_word_len indicate the minimum and maximum word length for
FULLTEXT indexes on MyISAM tables. ft_stopword_file names the stopword file. These need
to be set under the following circumstances.
If you use myisamchk to perform an operation that modifies table indexes (such as repair
or analyze), the FULLTEXT indexes are rebuilt using the default full-text parameter values
for minimum and maximum word length and the stopword file unless you specify otherwise.
This can result in queries failing.
The problem occurs because these parameters are known only by the server. They are not
stored in MyISAM index files. To avoid the problem if you have modified the minimum or
maximum word length or the stopword file in the server, specify the same ft_min_word_len,
ft_max_word_len, and ft_stopword_file values to myisamchk that you use for mysqld. For
example, if you have set the minimum word length to 3, you can repair a table with
myisamchk like this:
shell> myisamchk --recover --ft_min_word_len=3 tbl_name.MYI
To ensure that myisamchk and the server use the same values for full-text parameters, you
can place each one in both the [mysqld] and [myisamchk] sections of an option file:
[mysqld]
ft_min_word_len=3
[myisamchk]
ft_min_word_len=3
An alternative to using myisamchk is to use the REPAIR TABLE, ANALYZE TABLE, OPTIMIZE
TABLE, or ALTER TABLE. These statements are performed by the server, which knows the
proper full-text parameter values to use.
MYISAMCHK CHECK OPTIONS
myisamchk supports the following options for table checking operations:
· --check, -c
Check the table for errors. This is the default operation if you specify no option
that selects an operation type explicitly.
· --check-only-changed, -C
Check only tables that have changed since the last check.
· --extend-check, -e
Check the table very thoroughly. This is quite slow if the table has many indexes.
This option should only be used in extreme cases. Normally, myisamchk or myisamchk
--medium-check should be able to determine whether there are any errors in the table.
If you are using --extend-check and have plenty of memory, setting the key_buffer_size
variable to a large value helps the repair operation run faster.
See also the description of this option under table repair options.
For a description of the output format, see the section called “OBTAINING TABLE
INFORMATION WITH MYISAMCHK”.
· --fast, -F
Check only tables that haven't been closed properly.
· --force, -f
Do a repair operation automatically if myisamchk finds any errors in the table. The
repair type is the same as that specified with the --recover or -r option.
· --information, -i
Print informational statistics about the table that is checked.
· --medium-check, -m
Do a check that is faster than an --extend-check operation. This finds only 99.99% of
all errors, which should be good enough in most cases.
· --read-only, -T
Do not mark the table as checked. This is useful if you use myisamchk to check a table
that is in use by some other application that does not use locking, such as mysqld
when run with external locking disabled.
· --update-state, -U
Store information in the .MYI file to indicate when the table was checked and whether
the table crashed. This should be used to get full benefit of the --check-only-changed
option, but you shouldn't use this option if the mysqld server is using the table and
you are running it with external locking disabled.
MYISAMCHK REPAIR OPTIONS
myisamchk supports the following options for table repair operations (operations performed
when an option such as --recover or --safe-recover is given):
· --backup, -B
Make a backup of the .MYD file as file_name-time.BAK
· --character-sets-dir=path
The directory where character sets are installed. See Section 10.5, “Character Set
Configuration”.
· --correct-checksum
Correct the checksum information for the table.
· --data-file-length=len, -D len
The maximum length of the data file (when re-creating data file when it is “full”).
· --extend-check, -e
Do a repair that tries to recover every possible row from the data file. Normally,
this also finds a lot of garbage rows. Do not use this option unless you are
desperate.
See also the description of this option under table checking options.
For a description of the output format, see the section called “OBTAINING TABLE
INFORMATION WITH MYISAMCHK”.
· --force, -f
Overwrite old intermediate files (files with names like tbl_name.TMD) instead of
aborting.
· --keys-used=val, -k val
For myisamchk, the option value is a bit-value that indicates which indexes to update.
Each binary bit of the option value corresponds to a table index, where the first
index is bit 0. An option value of 0 disables updates to all indexes, which can be
used to get faster inserts. Deactivated indexes can be reactivated by using myisamchk
-r.
· --no-symlinks, -l
Do not follow symbolic links. Normally myisamchk repairs the table that a symlink
points to. This option does not exist as of MySQL 4.0 because versions from 4.0 on do
not remove symlinks during repair operations.
· --max-record-length=len
Skip rows larger than the given length if myisamchk cannot allocate memory to hold
them.
· --parallel-recover, -p
Use the same technique as -r and -n, but create all the keys in parallel, using
different threads. This is beta-quality code. Use at your own risk!
· --quick, -q
Achieve a faster repair by modifying only the index file, not the data file. You can
specify this option twice to force myisamchk to modify the original data file in case
of duplicate keys.
· --recover, -r
Do a repair that can fix almost any problem except unique keys that are not unique
(which is an extremely unlikely error with MyISAM tables). If you want to recover a
table, this is the option to try first. You should try --safe-recover only if
myisamchk reports that the table cannot be recovered using --recover. (In the unlikely
case that --recover fails, the data file remains intact.)
If you have lots of memory, you should increase the value of myisam_sort_buffer_size.
· --safe-recover, -o
Do a repair using an old recovery method that reads through all rows in order and
updates all index trees based on the rows found. This is an order of magnitude slower
than --recover, but can handle a couple of very unlikely cases that --recover cannot.
This recovery method also uses much less disk space than --recover. Normally, you
should repair first using --recover, and then with --safe-recover only if --recover
fails.
If you have lots of memory, you should increase the value of key_buffer_size.
· --set-character-set=name
Change the character set used by the table indexes. This option was replaced by
--set-collation in MySQL 5.0.3.
· --set-collation=name
Specify the collation to use for sorting table indexes. The character set name is
implied by the first part of the collation name.
· --sort-recover, -n
Force myisamchk to use sorting to resolve the keys even if the temporary files would
be very large.
· --tmpdir=path, -t path
The path of the directory to be used for storing temporary files. If this is not set,
myisamchk uses the value of the TMPDIR environment variable. --tmpdir can be set to a
list of directory paths that are used successively in round-robin fashion for creating
temporary files. The separator character between directory names is the colon (“:”) on
Unix and the semicolon (“;”) on Windows.
· --unpack, -u
Unpack a table that was packed with myisampack.
OTHER MYISAMCHK OPTIONS
myisamchk supports the following options for actions other than table checks and repairs:
· --analyze, -a
Analyze the distribution of key values. This improves join performance by enabling the
join optimizer to better choose the order in which to join the tables and which
indexes it should use. To obtain information about the key distribution, use a
myisamchk --description --verbose tbl_name command or the SHOW INDEX FROM tbl_name
statement.
· --block-search=offset, -b offset
Find the record that a block at the given offset belongs to.
· --description, -d
Print some descriptive information about the table. Specifying the --verbose option
once or twice produces additional information. See the section called “OBTAINING TABLE
INFORMATION WITH MYISAMCHK”.
· --set-auto-increment[=value], -A[value]
Force AUTO_INCREMENT numbering for new records to start at the given value (or higher,
if there are existing records with AUTO_INCREMENT values this large). If value is not
specified, AUTO_INCREMENT numbers for new records begin with the largest value
currently in the table, plus one.
· --sort-index, -S
Sort the index tree blocks in high-low order. This optimizes seeks and makes table
scans that use indexes faster.
· --sort-records=N, -R N
Sort records according to a particular index. This makes your data much more localized
and may speed up range-based SELECT and ORDER BY operations that use this index. (The
first time you use this option to sort a table, it may be very slow.) To determine a
table's index numbers, use SHOW INDEX, which displays a table's indexes in the same
order that myisamchk sees them. Indexes are numbered beginning with 1.
If keys are not packed (PACK_KEYS=0), they have the same length, so when myisamchk
sorts and moves records, it just overwrites record offsets in the index. If keys are
packed (PACK_KEYS=1), myisamchk must unpack key blocks first, then re-create indexes
and pack the key blocks again. (In this case, re-creating indexes is faster than
updating offsets for each index.)
OBTAINING TABLE INFORMATION WITH MYISAMCHK
To obtain a description of a MyISAM table or statistics about it, use the commands shown
here. The output from these commands is explained later in this section.
· myisamchk -d tbl_name
Runs myisamchk in “describe mode” to produce a description of your table. If you start
the MySQL server with external locking disabled, myisamchk may report an error for a
table that is updated while it runs. However, because myisamchk does not change the
table in describe mode, there is no risk of destroying data.
· myisamchk -dv tbl_name
Adding -v runs myisamchk in verbose mode so that it produces more information about
the table. Adding -v a second time produces even more information.
· myisamchk -eis tbl_name
Shows only the most important information from a table. This operation is slow because
it must read the entire table.
· myisamchk -eiv tbl_name
This is like -eis, but tells you what is being done.
The tbl_name argument can be either the name of a MyISAM table or the name of its index
file, as described in myisamchk(1). Multiple tbl_name arguments can be given.
Suppose that a table named person has the following structure. (The MAX_ROWS table option
is included so that in the example output from myisamchk shown later, some values are
smaller and fit the output format more easily.)
CREATE TABLE person
(
id INT NOT NULL AUTO_INCREMENT,
last_name VARCHAR(20) NOT NULL,
first_name VARCHAR(20) NOT NULL,
birth DATE,
death DATE,
PRIMARY KEY (id),
INDEX (last_name, first_name),
INDEX (birth)
) MAX_ROWS = 1000000;
Suppose also that the table has these data and index file sizes:
-rw-rw---- 1 mysql mysql 9347072 Aug 19 11:47 person.MYD
-rw-rw---- 1 mysql mysql 6066176 Aug 19 11:47 person.MYI
Example of myisamchk -dvv output:
MyISAM file: person
Record format: Packed
Character set: latin1_swedish_ci (8)
File-version: 1
Creation time: 2009-08-19 16:47:41
Recover time: 2009-08-19 16:47:56
Status: checked,analyzed,optimized keys
Auto increment key: 1 Last value: 306688
Data records: 306688 Deleted blocks: 0
Datafile parts: 306688 Deleted data: 0
Datafile pointer (bytes): 4 Keyfile pointer (bytes): 3
Datafile length: 9347072 Keyfile length: 6066176
Max datafile length: 4294967294 Max keyfile length: 17179868159
Recordlength: 54
table description:
Key Start Len Index Type Rec/key Root Blocksize
1 2 4 unique long 1 99328 1024
2 6 20 multip. varchar prefix 512 3563520 1024
27 20 varchar 512
3 48 3 multip. uint24 NULL 306688 6065152 1024
Field Start Length Nullpos Nullbit Type
1 1 1
2 2 4 no zeros
3 6 21 varchar
4 27 21 varchar
5 48 3 1 1 no zeros
6 51 3 1 2 no zeros
Explanations for the types of information myisamchk produces are given here. “Keyfile”
refers to the index file. “Record” and “row” are synonymous, as are “field” and “column.”
The initial part of the table description contains these values:
· MyISAM file
Name of the MyISAM (index) file.
· Record format
The format used to store table rows. The preceding examples use Fixed length. Other
possible values are Compressed and Packed. (Packed corresponds to what SHOW TABLE
STATUS reports as Dynamic.)
· Chararacter set
The table default character set.
· File-version
Version of MyISAM format. Currently always 1.
· Creation time
When the data file was created.
· Recover time
When the index/data file was last reconstructed.
· Status
Table status flags. Possible values are crashed, open, changed, analyzed, optimized
keys, and sorted index pages.
· Auto increment key, Last value
The key number associated the table's AUTO_INCREMENT column, and the most recently
generated value for this column. These fields do not appear if there is no such
column.
· Data records
The number of rows in the table.
· Deleted blocks
How many deleted blocks still have reserved space. You can optimize your table to
minimize this space. See Section 7.6.4, “MyISAM Table Optimization”.
· Datafile parts
For dynamic-row format, this indicates how many data blocks there are. For an
optimized table without fragmented rows, this is the same as Data records.
· Deleted data
How many bytes of unreclaimed deleted data there are. You can optimize your table to
minimize this space. See Section 7.6.4, “MyISAM Table Optimization”.
· Datafile pointer
The size of the data file pointer, in bytes. It is usually 2, 3, 4, or 5 bytes. Most
tables manage with 2 bytes, but this cannot be controlled from MySQL yet. For fixed
tables, this is a row address. For dynamic tables, this is a byte address.
· Keyfile pointer
The size of the index file pointer, in bytes. It is usually 1, 2, or 3 bytes. Most
tables manage with 2 bytes, but this is calculated automatically by MySQL. It is
always a block address.
· Max datafile length
How long the table data file can become, in bytes.
· Max keyfile length
How long the table index file can become, in bytes.
· Recordlength
How much space each row takes, in bytes.
The table description part of the output includes a list of all keys in the table. For
each key, myisamchk displays some low-level information:
· Key
This key's number. This value is shown only for the first column of the key. If this
value is missing, the line corresponds to the second or later column of a
multiple-column key. For the table shown in the example, there are two table
description lines for the second index. This indicates that it is a multiple-part
index with two parts.
· Start
Where in the row this portion of the index starts.
· Len
How long this portion of the index is. For packed numbers, this should always be the
full length of the column. For strings, it may be shorter than the full length of the
indexed column, because you can index a prefix of a string column. The total length of
a multiple-part key is the sum of the Len values for all key parts.
· Index
Whether a key value can exist multiple times in the index. Possible values are unique
or multip. (multiple).
· Type
What data type this portion of the index has. This is a MyISAM data type with the
possible values packed, stripped, or empty.
· Root
Address of the root index block.
· Blocksize
The size of each index block. By default this is 1024, but the value may be changed at
compile time when MySQL is built from source.
· Rec/key
This is a statistical value used by the optimizer. It tells how many rows there are
per value for this index. A unique index always has a value of 1. This may be updated
after a table is loaded (or greatly changed) with myisamchk -a. If this is not updated
at all, a default value of 30 is given.
The last part of the output provides information about each column:
· Field
The column number.
· Start
The byte position of the column within table rows.
· Length
The length of the column in bytes.
· Nullpos, Nullbit
For columns that can be NULL, MyISAM stores NULL values as a flag in a byte. Depending
on how many nullable columns there are, there can be one or more bytes used for this
purpose. The Nullpos and Nullbit values, if nonempty, indicate which byte and bit
contains that flag indicating whether the column is NULL.
The position and number of bytes used to store NULL flags is shown in the line for
field 1. This is why there are six Field lines for the person table even though it has
only five columns.
· Type
The data type. The value may contain any of the following descriptors:
· constant
All rows have the same value.
· no endspace
Do not store endspace.
· no endspace, not_always
Do not store endspace and do not do endspace compression for all values.
· no endspace, no empty
Do not store endspace. Do not store empty values.
· table-lookup
The column was converted to an ENUM.
· zerofill(N)
The most significant N bytes in the value are always 0 and are not stored.
· no zeros
Do not store zeros.
· always zero
Zero values are stored using one bit.
· Huff tree
The number of the Huffman tree associated with the column.
· Bits
The number of bits used in the Huffman tree.
The Huff tree and Bits fields are displayed if the table has been compressed with
myisampack. See myisampack(1), for an example of this information.
Example of myisamchk -eiv output:
Checking MyISAM file: person
Data records: 306688 Deleted blocks: 0
- check file-size
- check record delete-chain
No recordlinks
- check key delete-chain
block_size 1024:
- check index reference
- check data record references index: 1
Key: 1: Keyblocks used: 98% Packed: 0% Max levels: 3
- check data record references index: 2
Key: 2: Keyblocks used: 99% Packed: 97% Max levels: 3
- check data record references index: 3
Key: 3: Keyblocks used: 98% Packed: -14% Max levels: 3
Total: Keyblocks used: 98% Packed: 89%
- check records and index references
*** LOTS OF ROW NUMBERS DELETED ***
Records: 306688 M.recordlength: 25 Packed: 83%
Recordspace used: 97% Empty space: 2% Blocks/Record: 1.00
Record blocks: 306688 Delete blocks: 0
Record data: 7934464 Deleted data: 0
Lost space: 256512 Linkdata: 1156096
User time 43.08, System time 1.68
Maximum resident set size 0, Integral resident set size 0
Non-physical pagefaults 0, Physical pagefaults 0, Swaps 0
Blocks in 0 out 7, Messages in 0 out 0, Signals 0
Voluntary context switches 0, Involuntary context switches 0
Maximum memory usage: 1046926 bytes (1023k)
myisamchk -eiv output includes the following information:
· Data records
The number of rows in the table.
· Deleted blocks
How many deleted blocks still have reserved space. You can optimize your table to
minimize this space. See Section 7.6.4, “MyISAM Table Optimization”.
· Key
The key number.
· Keyblocks used
What percentage of the keyblocks are used. When a table has just been reorganized with
myisamchk, the values are very high (very near theoretical maximum).
· Packed
MySQL tries to pack key values that have a common suffix. This can only be used for
indexes on CHAR and VARCHAR columns. For long indexed strings that have similar
leftmost parts, this can significantly reduce the space used. In the preceding
example, the second key is 40 bytes long and a 97% reduction in space is achieved.
· Max levels
How deep the B-tree for this key is. Large tables with long key values get high
values.
· Records
How many rows are in the table.
· M.recordlength
The average row length. This is the exact row length for tables with fixed-length
rows, because all rows have the same length.
· Packed
MySQL strips spaces from the end of strings. The Packed value indicates the percentage
of savings achieved by doing this.
· Recordspace used
What percentage of the data file is used.
· Empty space
What percentage of the data file is unused.
· Blocks/Record
Average number of blocks per row (that is, how many links a fragmented row is composed
of). This is always 1.0 for fixed-format tables. This value should stay as close to
1.0 as possible. If it gets too large, you can reorganize the table. See
Section 7.6.4, “MyISAM Table Optimization”.
· Recordblocks
How many blocks (links) are used. For fixed-format tables, this is the same as the
number of rows.
· Deleteblocks
How many blocks (links) are deleted.
· Recorddata
How many bytes in the data file are used.
· Deleted data
How many bytes in the data file are deleted (unused).
· Lost space
If a row is updated to a shorter length, some space is lost. This is the sum of all
such losses, in bytes.
· Linkdata
When the dynamic table format is used, row fragments are linked with pointers (4 to 7
bytes each). Linkdata is the sum of the amount of storage used by all such pointers.
MYISAMCHK MEMORY USAGE
Memory allocation is important when you run myisamchk. myisamchk uses no more memory than
its memory-related variables are set to. If you are going to use myisamchk on very large
tables, you should first decide how much memory you want it to use. The default is to use
only about 3MB to perform repairs. By using larger values, you can get myisamchk to
operate faster. For example, if you have more than 512MB RAM available, you could use
options such as these (in addition to any other options you might specify):
shell> myisamchk --myisam_sort_buffer_size=256M
--key_buffer_size=512M
--read_buffer_size=64M
--write_buffer_size=64M ...
Using --myisam_sort_buffer_size=16M is probably enough for most cases.
Be aware that myisamchk uses temporary files in TMPDIR. If TMPDIR points to a memory file
system, out of memory errors can easily occur. If this happens, run myisamchk with the
--tmpdir=path option to specify a directory located on a file system that has more space.
When performing repair operations, myisamchk also needs a lot of disk space:
· Twice the size of the data file (the original file and a copy). This space is not
needed if you do a repair with --quick; in this case, only the index file is
re-created. This space must be available on the same file system as the original data
file, as the copy is created in the same directory as the original.
· Space for the new index file that replaces the old one. The old index file is
truncated at the start of the repair operation, so you usually ignore this space. This
space must be available on the same file system as the original data file.
· When using --recover or --sort-recover (but not when using --safe-recover), you need
space on disk for sorting. This space is allocated in the temporary directory
(specified by TMPDIR or --tmpdir=path). The following formula yields the amount of
space required:
(largest_key + row_pointer_length) * number_of_rows * 2
You can check the length of the keys and the row_pointer_length with myisamchk -dv
tbl_name (see the section called “OBTAINING TABLE INFORMATION WITH MYISAMCHK”). The
row_pointer_length and number_of_rows values are the Datafile pointer and Data records
values in the table description. To determine the largest_key value, check the Key
lines in the table description. The Len column indicates the number of bytes for each
key part. For a multiple-column index, the key size is the sum of the Len values for
all key parts.
If you have a problem with disk space during repair, you can try --safe-recover instead of
--recover.
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