MySQL Enterprise Backup User's Guide (Version 9.0.1)
Assuming a good portion of the data on your MySQL server remains unchanged over time, you can increase the speed and reduce the required storage space for your regular backups by backing up not all the data on the server each time, but only the changes to the data which have taken place over time. In order to that, after making first a full backup that contains all data, you can do one of the following:
Performing a series of differential backups.
Each
differential backups
includes all the changes made to the data since the last
full backup was performed. To restore data up to, for
example, time t
, you simply restore
first the full backup, and then, on top of it, the
differential backup taken for time t
.
Perform a series of incremental backup.
Each incremental
backup only includes the changes since the
previous backup, which can itself be a full or
incremental backup. The first backup in an incremental
series is always then a differential backup; but after
that, each incremental backup only contains the changes
made since that last incremental backup. Each subsequent
incremental backup is thus usually smaller in size than
a differential backup, and is faster to make; that
allows you to make very frequent incremental backups,
and then enables you to restore the database to a more
precise point in time when necessary. However, restoring
data with incremental backups might take longer and more
work: in general, to restore data up to, for example,
time t
, you start with restoring the
full backup, and then restore the incremental backups
one by one, until you are finished with the incremental
backup taken for time t.
MySQL Enterprise Backup supports both incremental and differential backups. You should decide on which backup strategy to adopt by looking at such factors like how much storage space you have, how quickly you have to be able to restore data, and so on.
MySQL Enterprise Backup treats differential backup as a special case of incremental backup that has a full backup as its base. To create a differential backup, simply follow the instructions below for performing incremental backups, and make sure you specify a full backup as the base of your incremental backup; you should also ignore any instructions that only apply to the handling of multiple incremental backups.
You can create a differential backup easily using the option
--incremental-base=history:last_full_backup
.
See Section 20.7, “Incremental Backup Options”, for
descriptions of the mysqlbackup options used
for incremental backups. An Incremental backup is enabled with
one of the two options:
--incremental
and
--incremental-with-redo-log-only
option. See
Creating Incremental Backups Using Only the Redo Log for
their differences.
When creating an incremental backup, you have to indicate to
mysqlbackup the point in time of the previous
full or incremental backup. For convenience, you can use the
--incremental-base
option to
automatically derive the necessary log
sequence number (LSN) from the metadata stored in a
previous backup directory or on the server. Or, you can specify
an explicit LSN value using the
--start-lsn
option, providing to
mysqlbackup the ending LSN from a previous
full or incremental backup (see
Other Considerations for Incremental Backups on some
limitation that applies when using the
--start-lsn
option).
To prepare the backup data to be restored, you combine all incremental backups with an original full backup. Typically, you perform a new full backup after a designated period of time, after which you can discard the older incremental backup data.
The --incremental-with-redo-log-only
might offer some benefits over the
--incremental
option for creating an
incremental backup:
The changes to the InnoDB tables are determined based on the
contents of the InnoDB
redo log. Since the
redo log has a maximum size that you know in advance,
depending on the size of your database, the amount of DML
activities, and the size of the redo log, it usually
requires less I/O to read the changes from the redo log than
to scan the InnoDB tablespace files to locate the changed
pages.
A system variable,
innodb_redo_log_capacity
,
controls the amount of disk space occupied by redo log
files. If the redo log files occupy less space than the
value of
innodb_redo_log_capacity
,
dirty pages are flushed from the buffer pool to tablespace
data files less aggressively, allowing the disk space
occupied by the redo log files to grow faster. If the space
occupied by the redo log files gets close to the specified
value, dirty pages are flushed more aggressively, so that
the disk space occupied by redo log files is kept within the
specified limit. See
Configuring Redo Log Capacity
for details.
With the way the redo log is now maintained, it becomes more
likely that when an incremental backup using only the redo
log is started, the redo log files storing the changes to
the database since the last backup are already processed and
are no longer available. To prevent that situation, you
should register mysqlbackup
(the MySQL
user who creates backups) with the server as an external
consumer of the redo log by the following UDF command,
before the creation of any data that is to be included in
the redo-log-only incremental backup:
DO innodb_redo_log_consumer_register();
This prevents InnoDB from removing or recycling redo log files that contain transactions not backed up yet by mysqlbackup. After each redo-log-only incremental backup, run the following UDF to advance to a new LSN checkpoint, so that the server may now process the redo log files that are no longer required by mysqlbackup:
DO innodb_redo_log_consumer_advance($lsn);
$lsn
is the highest LSN value included in
a finished incremental backup.
The steps above assume that the connection session that
initiated the DO
innodb_redo_log_consumer_register();
UDF is kept
open in between the base backup or the last incremental
backup and the latest redo-log-only incremental backup. One
way to help ensure that is to have the server spawning on
the same machine a special client that connects to the
Server by, for example, a Unix socket (if it is a Unix
machine) through a connection session that initiates the UDF
and is then left open for as long as it is needed. That
setup will provide a stable connection session for keeping
mysqlbackup
as a consumer of the redo
log.
This type of incremental backup is not so forgiving of
too-low --start-lsn
values as
the standard --incremental
option is. For
example, you cannot make a full backup and then make a
series of
--incremental-with-redo-log-only
backups all using the same --start-lsn
value. Make sure to specify the precise end LSN of the
previous backup as the start LSN of the next incremental
backup; do not use arbitrary values.
To ensure the LSN values match up exactly between
successive incremental backups, it is recommended that you
always use the
--incremental-base
option when
you use the
--incremental-with-redo-log-only
option.
To judge whether this type of incremental backup is practical and efficient for a particular MySQL instance:
Measure how fast the data changes within the InnoDB redo log files. Check the LSN periodically to decide how much redo data accumulates over the course of some number of hours or days.
Compare the rate of redo log accumulation with the redo
log capacity, and use this ratio to see how often to
take an incremental backup. For example, if you are
producing 1GB of redo log data per day, and the combined
size of your redo clog capacity (which is specified by
innodb_redo_log_capacity
) is 7GB, you would schedule incremental backups more
frequently than once a week. You might perform
incremental backups every day or two, to avoid a
potential issue when a sudden flurry of updates produced
more redo log data than usual.
Benchmark incremental backup times using both the
--incremental
and
--incremental-with-redo-log-only
options, to confirm if the redo log backup technique
performs faster and with less overhead than the
traditional incremental backup method. The result could
depend on the size of your data, the amount of DML
activity, and the capacity of your redo log. Do your
testing on a server with a realistic data volume and a
realistic workload. For example, if you have huge redo
log files, reading them in the course of an incremental
backup could take as long as reading the InnoDB data
files using the traditional incremental technique.
Conversely, if your data volume is large, reading all
the data files to find the few changed pages could be
less efficient than processing the much smaller redo log
files.
Backup compression (i.e., use of the
compression
options) is not supported when you perform
incremental backups with the redo log only. If backup
compression is important to you, do not use the
--incremental-with-redo-log-only
option.
mysqlbackup supports creating incremental backups using the page tracking functionality of the MySQL Server, by which mysqlbackup looks for changed pages in the InnoDB data files that have been modified since the last backup and then copies them. In general, incremental backups using page tracking are faster than other kinds of incremental backups performed by mysqlbackup if the majority of the data in the database has not been modified. Using this feature requires the following to be done on the server before the base backup for the incremental backup is made:
Install the mysqlbackup
component, which
comes with the MySQL Enterprise Server 9.0
installation, by running this command at a
mysql client connected to the server:
INSTALL COMPONENT "file://component_mysqlbackup";
Start page tracking with the following function:
SELECT mysqlbackup_page_track_set(true);
The LSN value starting from which changed pages have been tracked is returned by this function:
SELECT mysqlbackup_page_track_get_start_lsn();
You can stop page tracking with the following function:
SELECT mysqlbackup_page_track_set(false);
The previously mentioned functions regarding page tracking
require the BACKUP_ADMIN
privilege to run.
When the --incremental
option is
used without any value specified, mysqlbackup
performs an incremental backup using the page tracking
functionality. User can also specifies
--incremental=page-track
to make
mysqlbackup use the page tracking
functionality. However, the prerequisites for making use of the
page tracking functionality for incremental backups are:
Page tracking is functioning properly on the server, and it
has been enabled (with SELECT
mysqlbackup_page_track_set(true)
) before the base
backup was created; if that is not the case,
mysqlbackup throws an error when
--incremental=page-track
, or it
performs a full-scan incremental backup instead when
--incremental
is unspecified.
The number of changed pages is less than 50% of the total
number of pages; if that is not the case,
mysqlbackup throws an error when
--incremental=page-track
, or it
performs a full-scan incremental backup instead when
--incremental
is unspecified.
mysqlbackup needs to be started with enough memory to process all the tracked pages in memory. If there is not enough memory, mysqlbackup throws an error and then exits. Here are some guidelines for assuring enough memory for the operation:
The default value of 400 [MB] for the
--limit-memory
option allows
mysqlbackup to handle about 800GB of
changed data. Adjust the value for the option according to
your data size.
The page tracking feature uses the memory buffers configured for mysqlbackup for sorting the pages. Determine the number of buffers needed for page sorting by the following steps:
Before running the incremental backup, perform the
following query on the server to determine the
end_lsn
for the base backup:
SELECT end_lsn FROM mysql.backup_history WHERE exit_state = 'SUCCESS' AND backup_type != 'TTS' AND server_uuid = @@server_uuid ORDER BY end_time DESC, end_lsn DESC LIMIT 0,1;
Run the following query on the server to get the number of changed pages since the base backup was created (retry the query if it returns a negative value):
SELECT mysqlbackup_page_track_get_changed_page_count(<the above end_lsn>, 0);
Every changed page needs 8 bytes in the sorting
buffer. So, multiply the
changed_page_count
value obtained
in the last step by 8 to get the number of bytes
needed for the sorting buffer.
Each buffer has 16 Megabytes (16777216 bytes). So, divide the number of bytes needed for the sorting buffers calculated in the last step by 16777216 and round the result up to the next integer, to get the number of buffers needed for sorting.
Make sure the value for the option
--number-of-buffers
is no
smaller than the number of required sorting buffers
you calculated in the last step. Remember that there
could be more changed pages created while you are
doing this calculation, so you might want to give
mysqlbackup a few more extra
buffers.
The default memory limit of 400MB should be able to
support up to 25 buffers (up to 18 buffers only for cloud
backups); increase the memory limit if you need more
buffers than that by changing the value of the
--limit-memory
option.
Page tracking creates a file under the server's datadir for collecting information about changed pages. This file keeps growing until page tracking is stopped. If the server is stopped and restarted, a new page tracking file is created, but the old file persists and continues to grow until page tracking is deactivated explicitly. Using a sequence of SQL statements similar to the following, you can purge any old page-tracking data that you no longer need:
SELECT mysqlbackup_page_track_set(false); SELECT mysqlbackup_page_track_purge_up_to(9223372036854775807); /* Supply to the loadable function the LSN up to which you want to purge page tracking data. 9223372036854775807 is the highest possible LSN, which causes all page tracking files to be purged.*/ SELECT mysqlbackup_page_track_set(true);
This can be run, for example, before every full backup.
When the --incremental
option is set
to full-scan
, mysqlbackup
performs a full-scan incremental backup, in which it scans all
InnoDB data files in the server's data directory to find pages
that have been changed since the last backup was made and then
copies those pages. A full-scan incremental backup might not be
very efficient when not many tables have been modified since the
last back up.
An optimistic incremental backup, on the other hand, only scans
for changed pages in InnoDB data files that have been modified
since the last backup, thus saving some unnecessary scan time.
An optimistic incremental backup can be performed by specifying
--incremental=optimistic
.
While an optimistic increment backup might shorten the backup
time, it has the following limitations:
Since this feature makes use of the modification times of the files in the server's data directory, two things must have remained unchanged since the previous backup: (1) the system time on the server, and (2) the location of the data directory. Otherwise, the backup might fail, or an inconsistent incremental backup might be produced.
Optimistic incremental backups cannot be performed with the
--incremental-with-redo-log-only
,
for which mysqlbackup reads the redo log
files instead of scanning the files in the data directory.
If the --start-lsn
option is
used, a full scan is performed even if
--incremental=optimistic
is specified since, in that case,
mysqlbackup cannot determine the point in
time for which the previous backup is consistent, and thus
has no time frame to determine which files have been
modified recently.
For these and other cases in which an optimistic incremental backup is not desirable, perform a full-scan incremental backup, or an incremental backup using page tracking . See Section 4.1.2, “Grant MySQL Privileges to Backup Administrator” on the privileges required for mysqlbackup to perform an optimistic incremental backup. Also see Using Optimistic Backups and Optimistic Incremental Backups Together on how to utilize the two features together in a backup schedule.
The incremental backup feature is primarily intended for InnoDB tables, or non-InnoDB tables that are read-only or rarely updated. Incremental backups detect changes at the level of pages in the InnoDB data files, as opposed to table rows; each page that has changed is backed up. Thus, the space and time savings are not exactly proportional to the percentage of changed InnoDB rows or columns.
For non-InnoDB files, the entire file is always included in an incremental backup, which means the savings for backup resources are less significant when comparing with the case with InnoDB tables.
No binary log files are copied into the incremental backup if
the --start-lsn
option is used. To
include binary log files for the period covered by the
incremental backup, use the
--incremental-base
option instead,
which provides the necessary information for
mysqlbackup to ensure that no gap exists
between binary log data included in the previous backup and the
current incremental backup.
These examples use mysqlbackup to make an
incremental backup of a MySQL server, including all databases
and tables. We show two alternatives, one using the
--incremental-base
option and the
other using the --start-lsn
option.
With the --incremental-base
option, you do not
have to keep track of LSN values between one backup and the
next. Instead, you can do one of the following:
Tell mysqlbackup to query the
end_lsn
value from the last successful
non-TTS backup as
recorded in the backup_history
table on
the server using
--incremental-base
=history:last_backup
or history:last_full_backup
.
Advanced: For directory backups,
specify the directory of the previous backup (either full or
incremental) with
--incremental-base=dir:
,
and mysqlbackup will figure out the
starting point for this backup based on the metadata of the
earlier one. Because you need a known set of directory
names, you might want to use hardcoded names or generate a
sequence of names in your own backup script, rather than
using the directory_path
--with-timestamp
option. If your last backup was a single-file, you can still
use
--incremental-base=dir:
to provide the location of the temporary directory you
supplied with the directory_path
--backup-dir
option during the last backup
In the following example, the
--incremental-base=history:last_backup
option is used, given which mysqlbackup
fetches the LSN of the last successful (non-TTS) full or partial
backup from the mysql.backup_history
table
and performs an incremental backup basing on that.
mysqlbackup --defaults-file=/home/dbadmin/my.cnf \ --incremental --incremental-base=history:last_backup \ --backup-dir=/home/dbadmin/temp_dir \ --backup-image=incremental_image1.bi \ backup-to-image
In the following example, an incremental backup similar to the one in the last example but optimistic in nature is performed.
mysqlbackup --defaults-file=/home/dbadmin/my.cnf \ --incremental=optimistic --incremental-base=history:last_backup \ --backup-dir=/home/dbadmin/temp_dir \ --backup-image=incremental_image1.bi backup-to-image
Advanced: Use the following command to
create an incremental directory backup using the
--incremental-base=dir:
option; the backup is saved at the location specified by
directory_path
--incremental-backup-dir
:
mysqlbackup --defaults-file=/home/dbadmin/my.cnf --incremental \ --incremental-base=dir:/incr-backup/wednesday \ --incremental-backup-dir=/incr-backup/thursday \ backup
You can also use the --start-lsn
option to specify where the incremental backup should start. You
have to record the LSN of the previous backup reported by
mysqlbackup at the end of the backup:
mysqlbackup: Was able to parse the log up to lsn 2654255716
The number is also recorded in the
meta/backup_variables.txt
file in the
folder specified by --backup-dir
during the backup. Supply then that number to
mysqlbackup using the
--start-lsn
option. The incremental backup then
includes all changes that came after the
specified LSN.
To create an incremental backup image with the
--start-lsn
option, use the following command,
specifying with --backup-dir
the
backup directory, which, in this case, is a directory for
storing the metadata for the backup and some temporary files:
mysqlbackup --defaults-file=/home/dbadmin/my.cnf --incremental \ --start-lsn=2654255716 \ --with-timestamp \ --backup-dir=/incr-tmp \ --backup-image=/incr-backup/incremental_image.bi \ backup-to-image
In the following example though, because
--backup-image
does not provide a
full path to the image file to be created, the incremental
backup image is created under the folder specified by
--backup-dir
:
mysqlbackup --defaults-file=/home/dbadmin/my.cnf --incremental \ --start-lsn=2654255716 \ --with-timestamp \ --backup-dir=/incr-images \ --backup-image=incremental_image1.bi \ backup-to-image
On a regular schedule determined by date or amount of database activity, take more incremental or differential backups.
Optionally, periodically start the cycle over again by taking a full, uncompressed or compressed backup. Typically, this milestone happens when you can archive and clear out your oldest backup data.
On how to restore your database using the incremental backups, see Section 5.1.3, “Restoring an Incremental Backup”