Table of Contents
noinstall
ZIP ArchiveThis chapter describes how to obtain and install MySQL. A summary of the procedure follows and later sections provide the details. If you plan to upgrade an existing version of MySQL to a newer version rather than install MySQL for the first time, see Section 2.11, “Upgrading MySQL”, for information about upgrade procedures and about issues that you should consider before upgrading.
If you are interested in migrating to MySQL from another database system, see Section A.8, “MySQL 5.7 FAQ: Migration”, which contains answers to some common questions concerning migration issues.
Installation of MySQL generally follows the steps outlined here:
Determine whether MySQL runs and is supported on your platform.
Please note that not all platforms are equally suitable for running MySQL, and that not all platforms on which MySQL is known to run are officially supported by Oracle Corporation. For information about those platforms that are officially supported, see https://www.mysql.com/support/supportedplatforms/database.html on the MySQL website.
Choose which distribution to install.
Several versions of MySQL are available, and most are available in several distribution formats. You can choose from pre-packaged distributions containing binary (precompiled) programs or source code. When in doubt, use a binary distribution. Oracle also provides access to the MySQL source code for those who want to see recent developments and test new code. To determine which version and type of distribution you should use, see Section 2.1.1, “Which MySQL Version and Distribution to Install”.
Download the distribution that you want to install.
For instructions, see Section 2.1.2, “How to Get MySQL”. To verify the integrity of the distribution, use the instructions in Section 2.1.3, “Verifying Package Integrity Using MD5 Checksums or GnuPG”.
Install the distribution.
To install MySQL from a binary distribution, use the instructions in Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”.
To install MySQL from a source distribution or from the current development source tree, use the instructions in Section 2.9, “Installing MySQL from Source”.
Perform any necessary postinstallation setup.
After installing MySQL, see Section 2.10, “Postinstallation Setup and Testing”
for information about making sure the MySQL server is working
properly. Also refer to the information provided in
Section 2.10.4, “Securing the Initial MySQL Account”. This section describes how
to secure the initial MySQL root
user
account, which has no password until you
assign one. The section applies whether you install MySQL using
a binary or source distribution.
If you want to run the MySQL benchmark scripts, Perl support for MySQL must be available. See Section 2.13, “Perl Installation Notes”.
Instructions for installing MySQL on different platforms and environments is available on a platform by platform basis:
Unix, Linux, FreeBSD
For instructions on installing MySQL on most Linux and Unix
platforms using a generic binary (for example, a
.tar.gz
package), see
Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”.
For information on building MySQL entirely from the source code distributions or the source code repositories, see Section 2.9, “Installing MySQL from Source”
For specific platform help on installation, configuration, and building from source see the corresponding platform section:
Linux, including notes on distribution specific methods, see Section 2.5, “Installing MySQL on Linux”.
Solaris, including PKG and IPS formats, see Section 2.7, “Installing MySQL on Solaris”.
IBM AIX, see Section 2.7, “Installing MySQL on Solaris”.
FreeBSD, see Section 2.8, “Installing MySQL on FreeBSD”.
Microsoft Windows
For instructions on installing MySQL on Microsoft Windows, using either the MySQL Installer or Zipped binary, see Section 2.3, “Installing MySQL on Microsoft Windows”.
For information about managing MySQL instances, see MySQL Notifier Overview.
For details and instructions on building MySQL from source code using Microsoft Visual Studio, see Section 2.9, “Installing MySQL from Source”.
macOS
For installation on macOS, including using both the binary package and native PKG formats, see Section 2.4, “Installing MySQL on macOS”.
For information on making use of an macOS Launch Daemon to automatically start and stop MySQL, see Section 2.4.3, “Installing a MySQL Launch Daemon”.
For information on the MySQL Preference Pane, see Section 2.4.4, “Installing and Using the MySQL Preference Pane”.
The immediately following sections contain the information necessary to choose, download, and verify your distribution. The instructions in later sections of the chapter describe how to install the distribution that you choose. For binary distributions, see the instructions at Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries” or the corresponding section for your platform if available. To build MySQL from source, use the instructions in Section 2.9, “Installing MySQL from Source”.
MySQL is available on a number of operating systems and platforms. For information about those platforms that are officially supported, see https://www.mysql.com/support/supportedplatforms/database.html on the MySQL website.
MySQL is available on many operating systems and platforms. For information about platforms supported by GA releases of MySQL, see https://www.mysql.com/support/supportedplatforms/database.html. For development versions of MySQL, builds are available for a number of platforms at http://dev.mysql.com/downloads/mysql/5.7.html. To learn more about MySQL Support, see https://www.mysql.com/support/.
When preparing to install MySQL, decide which version and distribution format (binary or source) to use.
First, decide whether to install a development release or a General Availability (GA) release. Development releases have the newest features, but are not recommended for production use. GA releases, also called production or stable releases, are meant for production use. We recommend using the most recent GA release.
The naming scheme in MySQL 5.7 uses release names that consist of three numbers and an optional suffix; for example, mysql-5.7.1-m1. The numbers within the release name are interpreted as follows:
The first number (5) is the major version number.
The second number (7) is the minor version number. Taken together, the major and minor numbers constitute the release series number. The series number describes the stable feature set.
The third number (1) is the version number within the release series. This is incremented for each new bugfix release. In most cases, the most recent version within a series is the best choice.
Release names can also include a suffix to indicate the stability level of the release. Releases within a series progress through a set of suffixes to indicate how the stability level improves. The possible suffixes are:
mN (for example, m1, m2, m3, ...) indicates a milestone number. MySQL development uses a milestone model, in which each milestone introduces a small subset of thoroughly tested features. From one milestone to the next, feature interfaces may change or features may even be removed, based on feedback provided by community members who try these earily releases. Features within milestone releases may be considered to be of pre-production quality.
rc indicates a Release Candidate (RC). Release candidates are believed to be stable, having passed all of MySQL's internal testing. New features may still be introduced in RC releases, but the focus shifts to fixing bugs to stabilize features introduced earlier within the series.
Absence of a suffix indicates a General Availability (GA) or Production release. GA releases are stable, having successfully passed through the earlier release stages, and are believed to be reliable, free of serious bugs, and suitable for use in production systems.
Development within a series begins with milestone releases, followed by RC releases, and finally reaches GA status releases.
After choosing which MySQL version to install, decide which distribution format to install for your operating system. For most use cases, a binary distribution is the right choice. Binary distributions are available in native format for many platforms, such as RPM packages for Linux or DMG packages for macOS. Distributions are also available in more generic formats such as Zip archives or compressed tar files. On Windows, you can use the MySQL Installer to install a binary distribution.
Under some circumstances, it may be preferable to install MySQL from a source distribution:
You want to install MySQL at some explicit location. The standard binary distributions are ready to run at any installation location, but you might require even more flexibility to place MySQL components where you want.
You want to configure mysqld with features that might not be included in the standard binary distributions. Here is a list of the most common extra options used to ensure feature availability:
-DWITH_LIBWRAP=1
for TCP
wrappers support.
-DWITH_ZLIB={system|bundled}
for features that depend on compression
-DWITH_DEBUG=1
for debugging
support
For additional information, see Section 2.9.7, “MySQL Source-Configuration Options”.
You want to configure mysqld without some features that are included in the standard binary distributions. For example, distributions normally are compiled with support for all character sets. If you want a smaller MySQL server, you can recompile it with support for only the character sets you need.
You want to read or modify the C and C++ code that makes up MySQL. For this purpose, obtain a source distribution.
Source distributions contain more tests and examples than binary distributions.
Check our downloads page at https://dev.mysql.com/downloads/ for information about the current version of MySQL and for downloading instructions. For a complete up-to-date list of MySQL download mirror sites, see https://dev.mysql.com/downloads/mirrors.html. You can also find information there about becoming a MySQL mirror site and how to report a bad or out-of-date mirror.
For RPM-based Linux platforms that use Yum as their package management system, MySQL can be installed using the MySQL Yum Repository. See Section 2.5.1, “Installing MySQL on Linux Using the MySQL Yum Repository” for details.
For Debian-based Linux platforms, MySQL can be installed using the MySQL APT Repository. See Section 2.5.3, “Installing MySQL on Linux Using the MySQL APT Repository” for details.
For SUSE Linux Enterprise Server (SLES) platforms, MySQL can be installed using the MySQL SLES Repository. See Section 2.5.4, “Installing MySQL on Linux Using the MySQL SLES Repository” for details.
To obtain the latest development source, see Section 2.9.5, “Installing MySQL Using a Development Source Tree”.
After downloading the MySQL package that suits your needs and before attempting to install it, make sure that it is intact and has not been tampered with. There are three means of integrity checking:
MD5 checksums
Cryptographic signatures using GnuPG
, the
GNU Privacy Guard
For RPM packages, the built-in RPM integrity verification mechanism
The following sections describe how to use these methods.
If you notice that the MD5 checksum or GPG signatures do not match, first try to download the respective package one more time, perhaps from another mirror site.
After you have downloaded a MySQL package, you should make sure that its MD5 checksum matches the one provided on the MySQL download pages. Each package has an individual checksum that you can verify against the package that you downloaded. The correct MD5 checksum is listed on the downloads page for each MySQL product, and you will compare it against the MD5 checksum of the file (product) that you download.
Each operating system and setup offers its own version of tools
for checking the MD5 checksum. Typically the command is named
md5sum, or it may be named
md5, and some operating systems do not ship
it at all. On Linux, it is part of the GNU
Text Utilities package, which is available for a wide
range of platforms. You can also download the source code from
http://www.gnu.org/software/textutils/. If you
have OpenSSL installed, you can use the command openssl
md5 package_name
instead. A
Windows implementation of the md5 command
line utility is available from
http://www.fourmilab.ch/md5/.
winMd5Sum is a graphical MD5 checking tool
that can be obtained from
http://www.nullriver.com/index/products/winmd5sum.
Our Microsoft Windows examples will assume the name
md5.exe.
Linux and Microsoft Windows examples:
shell> md5sum mysql-standard-5.7.30-linux-i686.tar.gz
aaab65abbec64d5e907dcd41b8699945 mysql-standard-5.7.30-linux-i686.tar.gz
shell> md5.exe mysql-installer-community-5.7.30.msi
aaab65abbec64d5e907dcd41b8699945 mysql-installer-community-5.7.30.msi
You should verify that the resulting checksum (the string of hexadecimal digits) matches the one displayed on the download page immediately below the respective package.
Make sure to verify the checksum of the archive
file (for example, the .zip
,
.tar.gz
, or .msi
file) and not of the files that are contained inside of the
archive. In other words, verify the file before extracting its
contents.
Another method of verifying the integrity and authenticity of a package is to use cryptographic signatures. This is more reliable than using MD5 checksums, but requires more work.
We sign MySQL downloadable packages with GnuPG (GNU Privacy Guard). GnuPG is an Open Source alternative to the well-known Pretty Good Privacy (PGP) by Phil Zimmermann. Most Linux distributions ship with GnuPG installed by default. Otherwise, see http://www.gnupg.org/ for more information about GnuPG and how to obtain and install it.
To verify the signature for a specific package, you first need
to obtain a copy of our public GPG build key, which you can
download from http://pgp.mit.edu/. The key that
you want to obtain is named
[email protected]
. Alternatively,
you can copy and paste the key directly from the following text:
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sl9/S1xZ5S8ylG/xeRsAAwUH/i8KqmvAhq0X7DgCcYputwh37cuZlHOa1Ep07JRm BCDgkdQXkGrsj2Wzw7Aw/TGdWWkmn2pxb8BRui5cfcZFO7c6vryi6FpJuLucX975 +eVY50ndWkPXkJ1HF4i+HJwRqE2zliN/RHMs4LJcwXQvvjD43EE3AO6eiVFbD+qA AdxUFoOeLblKNBHPG7DPG9xL+Ni5rkE+TXShxsB7F0z7ZdJJZOG0JODmox7IstQT GoaU9u41oyZTIiXPiFidJoIZCh7fdurP8pn3X+R5HUNXMr7M+ba8lSNxce/F3kmH 0L7rsKqdh9d/aVxhJINJ+inVDnrXWVoXu9GBjT8Nco1iU9SIVAQYEQIADAUCTnc9 7QUJE/sBuAASB2VHUEcAAQEJEIxxjTtQcuH1FJsAmwWK9vmwRJ/y9gTnJ8PWf0BV roUTAKClYAhZuX2nUNwH4vlEJQHDqYa5yQ== =ghXk -----END PGP PUBLIC KEY BLOCK-----
To import the build key into your personal public GPG keyring,
use gpg --import. For example, if you have
saved the key in a file named
mysql_pubkey.asc
, the import command looks
like this:
shell> gpg --import mysql_pubkey.asc
gpg: key 5072E1F5: public key "MySQL Release Engineering
<[email protected]>" imported
gpg: Total number processed: 1
gpg: imported: 1
gpg: no ultimately trusted keys found
You can also download the key from the public keyserver using
the public key id, 5072E1F5
:
shell> gpg --recv-keys 5072E1F5 gpg: requesting key 5072E1F5 from hkp server keys.gnupg.net gpg: key 5072E1F5: "MySQL Release Engineering <[email protected]>" 1 new user ID gpg: key 5072E1F5: "MySQL Release Engineering <[email protected]>" 53 new signatures gpg: no ultimately trusted keys found gpg: Total number processed: 1 gpg: new user IDs: 1 gpg: new signatures: 53
If you want to import the key into your RPM configuration to validate RPM install packages, you should be able to import the key directly:
shell> rpm --import mysql_pubkey.asc
If you experience problems or require RPM specific information, see Section 2.1.3.4, “Signature Checking Using RPM”.
After you have downloaded and imported the public build key,
download your desired MySQL package and the corresponding
signature, which also is available from the download page. The
signature file has the same name as the distribution file with
an .asc
extension, as shown by the examples
in the following table.
Table 2.1 MySQL Package and Signature Files for Source files
File Type | File Name |
---|---|
Distribution file | mysql-standard-5.7.30-linux-i686.tar.gz |
Signature file | mysql-standard-5.7.30-linux-i686.tar.gz.asc |
Make sure that both files are stored in the same directory and then run the following command to verify the signature for the distribution file:
shell> gpg --verify package_name
.asc
If the downloaded package is valid, you will see a "Good signature" similar to:
shell> gpg --verify mysql-standard-5.7.30-linux-i686.tar.gz.asc
gpg: Signature made Tue 01 Feb 2011 02:38:30 AM CST using DSA key ID 5072E1F5
gpg: Good signature from "MySQL Release Engineering <[email protected]>"
The Good signature
message indicates that the
file signature is valid, when compared to the signature listed
on our site. But you might also see warnings, like so:
shell> gpg --verify mysql-standard-5.7.30-linux-i686.tar.gz.asc
gpg: Signature made Wed 23 Jan 2013 02:25:45 AM PST using DSA key ID 5072E1F5
gpg: checking the trustdb
gpg: no ultimately trusted keys found
gpg: Good signature from "MySQL Release Engineering <[email protected]>"
gpg: WARNING: This key is not certified with a trusted signature!
gpg: There is no indication that the signature belongs to the owner.
Primary key fingerprint: A4A9 4068 76FC BD3C 4567 70C8 8C71 8D3B 5072 E1F5
That is normal, as they depend on your setup and configuration. Here are explanations for these warnings:
gpg: no ultimately trusted keys found: This means that the specific key is not "ultimately trusted" by you or your web of trust, which is okay for the purposes of verifying file signatures.
WARNING: This key is not certified with a trusted signature! There is no indication that the signature belongs to the owner.: This refers to your level of trust in your belief that you possess our real public key. This is a personal decision. Ideally, a MySQL developer would hand you the key in person, but more commonly, you downloaded it. Was the download tampered with? Probably not, but this decision is up to you. Setting up a web of trust is one method for trusting them.
See the GPG documentation for more information on how to work with public keys.
The Section 2.1.3.2, “Signature Checking Using GnuPG” section describes
how to verify MySQL downloads using GPG. That guide also applies
to Microsoft Windows, but another option is to use a GUI tool
like Gpg4win. You
may use a different tool but our examples are based on Gpg4win,
and utilize its bundled Kleopatra
GUI.
Download and install Gpg4win, and then load Kleopatra. The dialog should look similar to:
Next, add the MySQL Release Engineering certificate. Do this by clicking
, . Type "Mysql Release Engineering" into the search box and press .Select the "MySQL Release Engineering" certificate. The Fingerprint and Key-ID must be "5072E1F5", or choose Imported Certificates tab.
to confirm the certificate is valid. Now, import it by clicking . An import dialog will be displayed, choose , and this certificate will now be listed under theNext, configure the trust level for our certificate. Select our certificate, then from the main menu select I believe checks are very accurate for our certificate, as otherwise you might not be able to verify our signature. Select I believe checks are very accurate to enable "full trust" and then press .
, . We suggest choosing
Next, verify the downloaded MySQL package file. This requires
files for both the packaged file, and the signature. The
signature file must have the same name as the packaged file but
with an appended .asc
extension, as shown
by the example in the following table. The signature is linked
to on the downloads page for each MySQL product. You must create
the .asc
file with this signature.
Table 2.2 MySQL Package and Signature Files for MySQL Installer for Microsoft Windows
File Type | File Name |
---|---|
Distribution file | mysql-installer-community-5.7.30.msi |
Signature file | mysql-installer-community-5.7.30.msi.asc |
Make sure that both files are stored in the same directory and
then run the following command to verify the signature for the
distribution file. Either drag and drop the signature
(.asc
) file into Kleopatra, or load the
dialog from , , and then choose either the
.msi
or .asc
file.
Click
to check the file. The two most common results will look like the following, and although the yellow warning looks problematic, the following means that the file check passed with success. You may now run this installer.Seeing a red "The signature is bad" error means the file is invalid. Do not execute the MSI file if you see this error.
The Section 2.1.3.2, “Signature Checking Using GnuPG” section explains
why you probably don't see a green Good
signature
result.
For RPM packages, there is no separate signature. RPM packages have a built-in GPG signature and MD5 checksum. You can verify a package by running the following command:
shell> rpm --checksig package_name
.rpm
Example:
shell> rpm --checksig MySQL-server-5.7.30-0.linux_glibc2.5.i386.rpm
MySQL-server-5.7.30-0.linux_glibc2.5.i386.rpm: md5 gpg OK
If you are using RPM 4.1 and it complains about (GPG)
NOT OK (MISSING KEYS: GPG#5072e1f5)
, even though you
have imported the MySQL public build key into your own GPG
keyring, you need to import the key into the RPM keyring
first. RPM 4.1 no longer uses your personal GPG keyring (or
GPG itself). Rather, RPM maintains a separate keyring because
it is a system-wide application and a user's GPG public
keyring is a user-specific file. To import the MySQL public
key into the RPM keyring, first obtain the key, then use
rpm --import to import the key. For
example:
shell> gpg --export -a 5072e1f5 > 5072e1f5.asc shell> rpm --import 5072e1f5.asc
Alternatively, rpm also supports loading the key directly from a URL, and you can use this manual page:
shell> rpm --import https://dev.mysql.com/doc/refman/5.7/en/checking-gpg-signature.html
If you need to obtain the MySQL public key, see Section 2.1.3.2, “Signature Checking Using GnuPG”.
The installation layout differs for different installation types (for example, native packages, binary tarballs, and source tarballs), which can lead to confusion when managing different systems or using different installation sources. The individual layouts are given in the corresponding installation type or platform chapter, as described following. Note that the layout of installations from vendors other than Oracle may differ from these layouts.
In some cases, the compiler used to build MySQL affects the features available for use. The notes in this section apply for binary distributions provided by Oracle Corporation or that you compile yourself from source.
icc (Intel C++ Compiler) Builds
A server built with icc has these characteristics:
SSL support is not included.
Oracle provides a set of binary distributions of MySQL. These
include generic binary distributions in the form of compressed
tar files (files with a
.tar.gz
extension) for a number of platforms,
and binaries in platform-specific package formats for selected
platforms.
This section covers the installation of MySQL from a compressed tar file binary distribution on Unix/Linux platforms. For other platform-specific binary package formats, see the other platform-specific sections in this manual. For example, for Windows distributions, see Section 2.3, “Installing MySQL on Microsoft Windows”. See Section 2.1.2, “How to Get MySQL” on how to obtain MySQL in different distribution formats.
MySQL compressed tar file binary distributions
have names of the form
mysql-
,
where VERSION
-OS
.tar.gz
is a
number (for example, VERSION
5.7.30
), and
OS
indicates the type of operating system
for which the distribution is intended (for example,
pc-linux-i686
or winx64
).
If you have previously installed MySQL using your operating
system native package management system, such as Yum or APT,
you may experience problems installing using a native binary.
Make sure your previous MySQL installation has been removed
entirely (using your package management system), and that any
additional files, such as old versions of your data files,
have also been removed. You should also check for
configuration files such as /etc/my.cnf
or the /etc/mysql
directory and delete
them.
For information about replacing third-party packages with official MySQL packages, see the related APT guide or Yum guide.
MySQL has a dependency on the libaio
library. Data directory initialization and subsequent server
startup steps will fail if this library is not installed
locally. If necessary, install it using the appropriate
package manager. For example, on Yum-based systems:
shell>yum search libaio
# search for info shell>yum install libaio
# install library
Or, on APT-based systems:
shell>apt-cache search libaio
# search for info shell>apt-get install libaio1
# install library
For MySQL 5.7.19 and later: Support for
Non-Uniform Memory Access (NUMA) has been added to the generic
Linux build, which has a dependency now on the
libnuma
library; if the library has not
been installed on your system, use you system's package
manager to search for and install it (see the preceding item
for some sample commands).
SLES 11: As of MySQL 5.7.19,
the Linux Generic tarball package format is EL6 instead of
EL5. As a side effect, the MySQL client
bin/mysql needs
libtinfo.so.5
.
A workaround is to create a symlink, such as ln -s libncurses.so.5.6 /lib64/libtinfo.so.5 on 64-bit systems or ln -s libncurses.so.5.6 /lib/libtinfo.so.5 on 32-bit systems.
To install a compressed tar file binary
distribution, unpack it at the installation location you choose
(typically /usr/local/mysql
). This creates the
directories shown in the following table.
Table 2.3 MySQL Installation Layout for Generic Unix/Linux Binary Package
Directory | Contents of Directory |
---|---|
bin |
mysqld server, client and utility programs |
docs |
MySQL manual in Info format |
man |
Unix manual pages |
include |
Include (header) files |
lib |
Libraries |
share |
Error messages, dictionary, and SQL for database installation |
support-files |
Miscellaneous support files |
Debug versions of the mysqld binary are available as mysqld-debug. To compile your own debug version of MySQL from a source distribution, use the appropriate configuration options to enable debugging support. See Section 2.9, “Installing MySQL from Source”.
To install and use a MySQL binary distribution, the command sequence looks like this:
shell>groupadd mysql
shell>useradd -r -g mysql -s /bin/false mysql
shell>cd /usr/local
shell>tar zxvf
shell>/path/to/mysql-VERSION-OS
.tar.gzln -s
shell>full-path-to-mysql-VERSION-OS
mysqlcd mysql
shell>mkdir mysql-files
shell>chown mysql:mysql mysql-files
shell>chmod 750 mysql-files
shell>bin/mysqld --initialize --user=mysql
shell>bin/mysql_ssl_rsa_setup
shell>bin/mysqld_safe --user=mysql &
# Next command is optional shell>cp support-files/mysql.server /etc/init.d/mysql.server
This procedure assumes that you have root
(administrator) access to your system. Alternatively, you can
prefix each command using the sudo (Linux) or
pfexec (Solaris) command.
The mysql-files
directory provides a convenient
location to use as the value for the
secure_file_priv
system variable, which limits
import and export operations to a specific directory. See
Section 5.1.7, “Server System Variables”.
A more detailed version of the preceding description for installing a binary distribution follows.
If your system does not already have a user and group to use for
running mysqld, you may need to create them. The
following commands add the mysql
group and the
mysql
user. You might want to call the user and
group something else instead of mysql
. If so,
substitute the appropriate name in the following instructions. The
syntax for useradd and
groupadd may differ slightly on different
versions of Unix/Linux, or they may have different names such as
adduser and addgroup.
shell>groupadd mysql
shell>useradd -r -g mysql -s /bin/false mysql
Because the user is required only for ownership purposes, not
login purposes, the useradd command uses the
-r
and -s /bin/false
options to
create a user that does not have login permissions to your server
host. Omit these options if your useradd does
not support them.
Pick the directory under which you want to unpack the distribution
and change location into it. The example here unpacks the
distribution under /usr/local
. The
instructions, therefore, assume that you have permission to create
files and directories in /usr/local
. If that
directory is protected, you must perform the installation as
root
.
shell> cd /usr/local
Obtain a distribution file using the instructions in Section 2.1.2, “How to Get MySQL”. For a given release, binary distributions for all platforms are built from the same MySQL source distribution.
Unpack the distribution, which creates the installation directory.
tar can uncompress and unpack the distribution if
it has z
option support:
shell> tar zxvf /path/to/mysql-VERSION-OS
.tar.gz
The tar command creates a directory named
mysql-
.
VERSION
-OS
To install MySQL from a compressed tar file
binary distribution, your system must have GNU
gunzip
to uncompress the distribution and a
reasonable tar to unpack it. If your
tar program supports the z
option, it can both uncompress and unpack the file.
GNU tar is known to work. The standard
tar provided with some operating systems is not
able to unpack the long file names in the MySQL distribution. You
should download and install GNU tar, or if
available, use a preinstalled version of GNU tar. Usually this is
available as gnutar, gtar, or
as tar within a GNU or Free Software directory,
such as /usr/sfw/bin
or
/usr/local/bin
. GNU tar is
available from http://www.gnu.org/software/tar/.
If your tar does not have z
option support, use gunzip to unpack the
distribution and tar to unpack it. Replace the
preceding tar command with the following
alternative command to uncompress and extract the distribution:
shell> gunzip < /path/to/mysql-VERSION-OS
.tar.gz | tar xvf -
Next, create a symbolic link to the installation directory created by tar:
shell> ln -s full-path-to-mysql-VERSION-OS
mysql
The ln
command makes a symbolic link to the
installation directory. This enables you to refer more easily to it
as /usr/local/mysql
. To avoid having to type
the path name of client programs always when you are working with
MySQL, you can add the /usr/local/mysql/bin
directory to your PATH
variable:
shell> export PATH=$PATH:/usr/local/mysql/bin
The remainder of the installation process involves setting distribution ownership and access permissions, initializing the data directory, starting the MySQL server, and setting up the configuration file. For instructions, see Section 2.10, “Postinstallation Setup and Testing”.
noinstall
ZIP ArchiveMySQL Community 5.7 Server requires the Microsoft Visual C++ 2013 Redistributable Package to run on Windows platforms. Users should make sure the package has been installed on the system before installing the server. The package is available at the Microsoft Download Center.
MySQL is available for Microsoft Windows, for both 32-bit and 64-bit versions. For supported Windows platform information, see https://www.mysql.com/support/supportedplatforms/database.html.
If your operating system is Windows 2008 R2 or Windows 7 and you do not have Service Pack 1 (SP1) installed, MySQL 5.7 will regularly restart and in the MySQL server error log file you will see this message:
mysqld got exception 0xc000001d
This error message occurs because you are also using a CPU that does not support the VPSRLQ instruction and indicates that the CPU instruction that was attempted is not supported.
To fix this error, you must install SP1. This adds the required operating system support for the CPU capability detection and disables that support when the CPU does not have the required instructions.
Alternatively, install an older version of MySQL, such as 5.6.
There are different methods to install MySQL on Microsoft Windows.
The simplest and recommended method is to download MySQL Installer (for Windows) and let it install and configure all of the MySQL products on your system. Here is how:
Download MySQL Installer from https://dev.mysql.com/downloads/installer/ and execute it.
Unlike the standard MySQL Installer, the smaller "web-community" version does not bundle any MySQL applications but it will download the MySQL products you choose to install.
Choose the appropriate Setup Type for your system. Typically you will choose Developer Default to install MySQL server and other MySQL tools related to MySQL development, helpful tools like MySQL Workbench. Or, choose the Custom setup type to manually select your desired MySQL products.
Multiple versions of MySQL server can exist on a single system. You can choose one or multiple versions.
Complete the installation process by following the instructions. This will install several MySQL products and start the MySQL server.
MySQL is now installed. If you configured MySQL as a service, then Windows will automatically start MySQL server every time you restart your system.
You probably also installed other helpful MySQL products like MySQL Workbench and MySQL Notifier on your system. Consider loading Chapter 30, MySQL Workbench to check your new MySQL server connection, and MySQL Notifier Overview to view the connection's status. By default, these two programs automatically start after installing MySQL.
This process also installs the MySQL Installer application on your system, and later you can use MySQL Installer to upgrade or reconfigure your MySQL products.
It is possible to run MySQL as a standard application or as a Windows service. By using a service, you can monitor and control the operation of the server through the standard Windows service management tools. For more information, see Section 2.3.4.8, “Starting MySQL as a Windows Service”.
Generally, you should install MySQL on Windows using an account that
has administrator rights. Otherwise, you may encounter problems with
certain operations such as editing the PATH
environment variable or accessing the Service Control
Manager. When installed, MySQL does not need to be
executed using a user with Administrator privileges.
For a list of limitations on the use of MySQL on the Windows platform, see Section 2.3.7, “Windows Platform Restrictions”.
In addition to the MySQL Server package, you may need or want additional components to use MySQL with your application or development environment. These include, but are not limited to:
To connect to the MySQL server using ODBC, you must have a Connector/ODBC driver. For more information, including installation and configuration instructions, see MySQL Connector/ODBC Developer Guide.
MySQL Installer will install and configure Connector/ODBC for you.
To use MySQL server with .NET applications, you must have the Connector/NET driver. For more information, including installation and configuration instructions, see MySQL Connector/NET Developer Guide.
MySQL Installer will install and configure MySQL Connector/NET for you.
MySQL distributions for Windows can be downloaded from https://dev.mysql.com/downloads/. See Section 2.1.2, “How to Get MySQL”.
MySQL for Windows is available in several distribution formats, detailed here. Generally speaking, you should use MySQL Installer. It contains more features and MySQL products than the older MSI, is simpler to use than the compressed file, and you need no additional tools to get MySQL up and running. MySQL Installer automatically installs MySQL Server and additional MySQL products, creates an options file, starts the server, and enables you to create default user accounts. For more information on choosing a package, see Section 2.3.2, “Choosing an Installation Package”.
A MySQL Installer distribution includes MySQL Server and additional MySQL products including MySQL Workbench, MySQL Notifier, and MySQL for Excel. MySQL Installer can also be used to upgrade these products in the future.
For instructions on installing MySQL using MySQL Installer, see Section 2.3.3, “MySQL Installer for Windows”.
The standard binary distribution (packaged as a compressed file) contains all of the necessary files that you unpack into your chosen location. This package contains all of the files in the full Windows MSI Installer package, but does not include an installation program.
For instructions on installing MySQL using the compressed file,
see Section 2.3.4, “Installing MySQL on Microsoft Windows Using a
noinstall
ZIP Archive”.
The source distribution format contains all the code and support files for building the executables using the Visual Studio compiler system.
For instructions on building MySQL from source on Windows, see Section 2.9, “Installing MySQL from Source”.
Large Table Support
If you need tables with a size larger than 4 GB, install MySQL
on an NTFS or newer file system. Do not forget to use
MAX_ROWS
and
AVG_ROW_LENGTH
when you create tables. See
Section 13.1.18, “CREATE TABLE Statement”.
InnoDB tablespace files cannot exceed 4 GB on Windows 32-bit systems.
MySQL and Virus Checking Software
Virus-scanning software such as Norton/Symantec Anti-Virus on directories containing MySQL data and temporary tables can cause issues, both in terms of the performance of MySQL and the virus-scanning software misidentifying the contents of the files as containing spam. This is due to the fingerprinting mechanism used by the virus-scanning software, and the way in which MySQL rapidly updates different files, which may be identified as a potential security risk.
After installing MySQL Server, it is recommended that you
disable virus scanning on the main directory
(datadir
) used to store your
MySQL table data. There is usually a system built into the
virus-scanning software to enable specific directories to be
ignored.
In addition, by default, MySQL creates temporary files in the
standard Windows temporary directory. To prevent the temporary
files also being scanned, configure a separate temporary
directory for MySQL temporary files and add this directory to
the virus scanning exclusion list. To do this, add a
configuration option for the
tmpdir
parameter to your
my.ini
configuration file. For more
information, see Section 2.3.4.2, “Creating an Option File”.
Running MySQL on a 4K Sector Hard Drive
Running the MySQL server on a 4K sector hard drive on Windows is
not supported with
innodb_flush_method=async_unbuffered
,
which is the default setting. The workaround is to use
innodb_flush_method=normal
.
For MySQL 5.7 on Windows, the default installation
directory is C:\Program Files\MySQL\MySQL Server
5.7
for installations performed with MySQL Installer.
If you use the ZIP archive method to install MySQL, you may prefer
to install in C:\mysql
. However, the layout
of the subdirectories remains the same.
All of the files are located within this parent directory, using the structure shown in the following table.
Table 2.4 Default MySQL Installation Layout for Microsoft Windows
Directory | Contents of Directory | Notes |
---|---|---|
bin |
mysqld server, client and utility programs | |
%PROGRAMDATA%\MySQL\MySQL Server 5.7\ |
Log files, databases | The Windows system variable %PROGRAMDATA% defaults to
C:\ProgramData . |
docs |
Release documentation | With MySQL Installer, use the Modify operation to select this
optional folder. |
include |
Include (header) files | |
lib |
Libraries | |
share |
Miscellaneous support files, including error messages, character set files, sample configuration files, SQL for database installation |
For MySQL 5.7, there are multiple installation package formats to choose from when installing MySQL on Windows. The package formats described in this section are:
Program Database (PDB) files (with file name extension
pdb
) provide information for debugging your
MySQL installation in the event of a problem. These files are
included in ZIP Archive distributions (but not MSI distributions)
of MySQL.
This package has a file name similar to
mysql-installer-community-5.7.30.0.msi
or
mysql-installer-commercial-5.7.30.0.msi
,
and utilizes MSIs to automatically install MySQL server and
other products. MySQL Installer will download and apply updates to itself,
and for each of the installed products. It also configures the
installed MySQL server (including a sandbox InnoDB cluster test
setup) and MySQL Router. MySQL Installer is recommended for most users.
MySQL Installer can install and manage (add, modify, upgrade, and remove) many other MySQL products, including:
Applications – MySQL Workbench, MySQL for Visual Studio, MySQL Notifier, MySQL for Excel, MySQL Utilities, MySQL Shell, MySQL Router
Connectors – MySQL Connector/C++, MySQL Connector/NET, Connector/ODBC, MySQL Connector/Python, MySQL Connector/J, MySQL Connector/Node.js
Documentation – MySQL Manual (PDF format), samples and examples
MySQL Installer operates on all MySQL supported versions of Windows (see https://www.mysql.com/support/supportedplatforms/database.html).
Because MySQL Installer is not a native component of Microsoft Windows and depends on .NET, it will not work on minimal installation options like the Server Core version of Windows Server.
For instructions on how to install MySQL using MySQL Installer, see Section 2.3.3, “MySQL Installer for Windows”.
These packages contain the files found in the complete MySQL Server installation package, with the exception of the GUI. This format does not include an automated installer, and must be manually installed and configured.
The noinstall
ZIP archives are split into two
separate compressed files. The main package is named
mysql-
for 64-bit and
VERSION
-winx64.zipmysql-
for 32-bit. This contains the components needed to use MySQL on
your system. The optional MySQL test suite, MySQL benchmark
suite, and debugging binaries/information components (including
PDB files) are in a separate compressed file named
VERSION
-win32.zipmysql-
for 64-bit and
VERSION
-winx64-debug-test.zipmysql-
for 32-bit.
VERSION
-win32-debug-test.zip
If you choose to install a noinstall
ZIP
archive, see Section 2.3.4, “Installing MySQL on Microsoft Windows Using a
noinstall
ZIP Archive”.
For information on using the MySQL Docker images provided by Oracle on Windows platform, see Section 2.5.7.3, “Deploying MySQL on Windows and Other Non-Linux Platforms with Docker”.
The MySQL Docker images provided by Oracle are built specifically for Linux platforms. Other platforms are not supported, and users running the MySQL Docker images from Oracle on them are doing so at their own risk.
MySQL Installer is a standalone application designed to ease the complexity of installing and configuring MySQL products that run on Microsoft Windows. It supports the following MySQL products:
MySQL Servers
MySQL Installer can install and manage multiple, separate MySQL server instances on the same host at the same time. For example, MySQL Installer can install, configure, and upgrade a separate instance of MySQL 5.6, MySQL 5.7, and MySQL 8.0 on the same host. MySQL Installer does not permit server upgrades between major and minor version numbers, but does permit upgrades within a release series (such as 5.7.18 to 5.7.19).
MySQL Installer cannot install both Community and Commercial (Standard Edition and Enterprise Edition) releases of MySQL server on the same host. If you require both releases on the same host, consider using the ZIP archive distribution to install one of the releases.
MySQL Applications
MySQL Workbench, MySQL Shell, MySQL Router, MySQL for Visual Studio, MySQL for Excel, MySQL Notifier, and MySQL Utilities.
MySQL Connectors
MySQL Connector/NET, MySQL Connector/Python, MySQL Connector/ODBC, MySQL Connector/J, and MySQL Connector/C++.
To install MySQL Connector/Node.js, see
https://dev.mysql.com/downloads/connector/nodejs/.
Connector/Node.js does not provide an .msi
file
for use with MySQL Installer.
Documentation and Samples
MySQL Reference Manuals (by version) in PDF format and MySQL database samples (by version).
MySQL Installer requires Microsoft .NET Framework 4.5.2 or later. If this version is not installed on the host computer, you can download it by visiting the Microsoft website.
Download software from https://dev.mysql.com/downloads/installer/ to install the Community release of all MySQL products for Windows. Select one of the following MySQL Installer package options:
Web: Contains MySQL Installer and configuration files
only. The web package downloads only the MySQL products you
select to install, but it requires an internet connection for
each download. The size of this file is approximately 2 MB; the
name of the file has the form
mysql-installer-community-
where web
-VERSION
.N
.msiVERSION
is the MySQL server version
number such as 8.0 and
N
is the package number, which begins at 0.
Full or Current Bundle: Bundles all of the
MySQL products for Windows (including the MySQL server). The
file size is over 300 MB, and the name has the form
mysql-installer-community-
where VERSION
.N
.msiVERSION
is the MySQL Server version
number such as 8.0 and
N
is the package number, which begins at 0.
Download software from https://edelivery.oracle.com/ to install the Commercial (Standard Edition or Enterprise Edition) release of MySQL products for Windows. The Commercial release includes all of the current and previous GA versions in the Community release (excludes development-milestone versions) and also includes the following products:
Workbench SE/EE
MySQL Enterprise Backup
MySQL Enterprise Firewall
The Commercial release integrates with your My Oracle Support (MOS) account. For knowledge-base content and patches, see My Oracle Support.
When you download MySQL Installer for the first time, a setup wizard guides you through the initial installation of MySQL products. As the following figure shows, the initial setup is a one-time activity in the overall process. MySQL Installer detects existing MySQL products installed on the host during its initial setup and adds them to the list of products to be managed.
MySQL Installer extracts configuration files (described later) to the hard drive of the host during the initial setup. Although MySQL Installer is a 32-bit application, it can install both 32-bit and 64-bit binaries.
The initial setup adds a link to the Start menu under the
group. Click , , , to open MySQL Installer.During the initial setup, you are prompted to select the MySQL products to be installed on the host. One alternative is to use a predetermined setup type that matches your setup requirements. By default, both GA and pre-release products are included in the download and installation with the Developer Default, Client only, and Full setup types. Select the Only install GA products option to restrict the product set to include GA products only when using these setup types.
Choosing one of the following setup types determines the initial installation only and does not limit your ability to install or update MySQL products for Windows later:
Developer Default: Install the following products that compliment application development with MySQL:
MySQL Server (Installs the version that you selected when you downloaded MySQL Installer.)
MySQL Connectors (for .NET / Python / ODBC / Java / C++)
MySQL Utilities
MySQL Documentation
MySQL Samples and Examples
Server only: Only install the MySQL server. This setup type installs the general availability (GA) or development release server that you selected when you downloaded MySQL Installer. It uses the default installation and data paths.
Client only: Only install
the most recent MySQL applications and MySQL connectors.
This setup type is similar to the Developer
Default
type, except that it does not include
MySQL server or the client programs typically bundled with
the server, such as mysql or
mysqladmin.
Full: Install all available MySQL products.
Custom: The custom setup type enables you to filter and select individual MySQL products from the MySQL Installer catalog.
Use the Custom
setup type to install:
A product or product version that is not available from the usual download locations. The catalog contains all product releases, including the other releases between pre-release (or development) and GA.
An instance of MySQL server using an alternative installation path, data path, or both. For instructions on how to adjust the paths, see Section 2.3.3.2, “Setting Alternative Server Paths with MySQL Installer”.
Two or more MySQL server versions on the same host at the same time (for example, 5.6, 5.7, and 8.0).
A specific combination of products and features not offered as a predetermine setup type. For example, you can install a single product, such as MySQL Workbench, instead of installing all client applications for Windows.
When the default installation or data folder (required by MySQL server) for a product to be installed already exists on the host, the wizard displays the Path Conflict step to identify each conflict and enable you to take action to avoid having files in the existing folder overwritten by the new installation. You see this step in the initial setup only when MySQL Installer detects a conflict.
To resolve the path conflict, do one of the following:
Select a product from the list to display the conflict options. A warning symbol indicates which path is in conflict. Use the browse button to choose a new path and then click
.
Click Custom
setup type enables you to select
individual product versions.
Click
to ignore the conflict and overwrite files in the existing folder.Delete the existing product. Click dashboard.
to stop the initial setup and close MySQL Installer. Open MySQL Installer again from the Start menu and delete the installed product from the host using the Delete operation from the
MySQL Installer uses entries in the package-rules.xml
file to determine whether the prerequisite software for each
product is installed on the host. When the requirements check
fails, MySQL Installer displays the Check Requirements
step to help you update the host. Requirements are evaluated
each time you download a new product (or version) for
installation. The following figure identifies and describes the
key areas of this step.
Shows the current step in the initial setup. Steps in this list may change slightly depending on the products already installed on the host, the availability of prerequisite software, and the products to be installed on the host.
Lists all pending installation requirements by product and indicates the status as follows:
A blank space in the Status column means that MySQL Installer can attempt to download and install the required software for you.
The word Manual in the Status column means that you must satisfy the requirement manually. Select each product in the list to see its requirement details.
Describes the requirement in detail to assist you with each manual resolution. When possible, a download URL is provided. After you download and install the required software, click
to verify that the requirement has been met.Provides the following set operations to proceed:
– Return to the previous step. This action enables you to select a different the setup type.
– Have MySQL Installer attempt to download and install the required software for all items without a manual status. Manual requirements are resolved by you and verified by clicking .
– Do not execute the request to apply the requirements automatically and proceed to the installation without including the products that fail the check requirements step.
All MySQL Installer files are located within the C:\Program Files
(x86)
and C:\ProgramData
folders. The following table describes the files and folders
that define MySQL Installer as a standalone application.
Installed MySQL products are neither altered nor removed when you update or uninstall MySQL Installer.
Table 2.5 MySQL Installer Configuration Files
File or Folder | Description | Folder Hierarchy |
---|---|---|
MySQL Installer for Windows |
This folder contains all of the files needed to run MySQL Installer and MySQLInstallerConsole.exe, a command-line program with similar functionality. | C:\Program Files (x86) |
Templates |
The Templates folder has one file for each version
of MySQL server. Template files contain keys and formulas
to calculate some values dynamically. |
C:\ProgramData\MySQL\MySQL Installer for
Windows\Manifest |
package-rules.xml |
This file contains the prerequisites for every product to be installed. |
C:\ProgramData\MySQL\MySQL Installer for
Windows\Manifest |
produts.xml |
The |
C:\ProgramData\MySQL\MySQL Installer for
Windows\Manifest |
Product Cache |
The |
C:\ProgramData\MySQL\MySQL Installer for Windows |
You can change the default installation path, the data path, or both when you install MySQL server. After you have installed the server, the paths cannot be altered without removing and reinstalling the server instance.
To change paths for MySQL server
Identify the MySQL server to change and display the Advanced Options link.
Navigate to the Select Products and Features step by doing one of the following:
If this is an
initial
setup of MySQL Installer, select the
Custom
setup type and click
.
If MySQL Installer is installed already, launch it from the Start menu and then click
from the dashboard.Click Available Products (see Locating Products to Install.
to apply a filter on the product list shown inWith the server instance selected, use the arrow to move the selected server to the Products/Features To Be Installed list.
Click the server to select it. When you select the server, the Advanced Options link appears. For details, see the figure that follows.
Click Advanced Options to open a dialog box where you can enter alternative path names. After the path names are validated, click to continue with the configuration steps.
MySQL Installer provides a wizard-like tool to install and configure new MySQL products for Windows. Unlike the initial setup, which runs only once, MySQL Installer invokes the wizard each time you download or install a new product. For first-time installations, the steps of the initial setup proceed directly into the steps of the installation. For assistance with product selection, see Locating Products to Install.
Full permissions are granted to the user executing MySQL Installer to all
generated files, such as my.ini
. This does
not apply to files and directories for specific products, such
as the MySQL server data directory in
%ProgramData%
that is owned by
SYSTEM
.
Products installed and configured on a host follow a general pattern that might require your input during the various steps. If you attempt to install a product that is incompatible with the existing MySQL server version (or a version selected for upgrade), you are alerted about the possible mismatch.
MySQL Installer loads all selected products together using the following workflow:
Product download.
If you installed the full (not web) MySQL Installer package, all
.msi
files were loaded to the
Product Cache
folder during the initial
setup and are not downloaded again. Otherwise, click
to begin the download. The
status of each product changes from
Downloading
to
Downloaded
.
Product installation.
The status of each product in the list changes from
Ready to Install
, to
Installing
, and lastly to
Complete
. During the process, click
Show Details to view the installation
actions.
If you cancel the installation at this point, the products are installed, but the server (if installed) is not yet configured. To restart the server configuration, open MySQL Installer from the Start menu and click the Reconfigure link next to the appropriate server in the dashboard.
Product configuration.
This step applies to MySQL Server, MySQL Router, and samples
only. The status for each item in the list should indicate
Ready to Configure
.
Click
to start the configuration wizard for all items in the list. The configuration options presented during this step are specific to the version of database or router that you selected to install.Click MySQL Installer dashboard.
to begin applying the configuration options or click (repeatedly) to return to each configuration page. Click to open theInstallation complete. This step finalizes the installation for products that do not require configuration. It enables you to copy the log to a clipboard and to start certain applications, such as MySQL Workbench and MySQL Shell. Click MySQL Installer dashboard.
to open theMySQL Installer performs the initial configuration of the MySQL server. For example:
For the MySQL 8.0 release series, a server can be configured to run as a standalone database, as a sandbox InnoDB cluster on a single host, or to create a production InnoDB cluster inside a local network (see Section 2.3.3.3.1.1, “High Availability”).
It creates the configuration file
(my.ini
) that is used to configure the
MySQL server. The values written to this file are influenced
by choices you make during the installation process. Some
definitions are host dependent. For example, query_cache is
enabled if the host has fewer than three cores.
Query cache was deprecated in MySQL 5.7 and removed in MySQL 8.0 (and later).
By default, a Windows service for the MySQL server is added.
Provides default installation and data paths for MySQL server. For instructions on how to change the default paths, see Section 2.3.3.2, “Setting Alternative Server Paths with MySQL Installer”.
It can optionally create MySQL server user accounts with
configurable permissions based on general roles, such as DB
Administrator, DB Designer, and Backup Admin. It optionally
creates a Windows user named MysqlSys
with limited privileges, which would then run the MySQL
Server.
User accounts may also be added and configured in MySQL Workbench.
Checking Show Advanced Options enables additional Logging Options to be set. This includes defining custom file paths for the error log, general log, slow query log (including the configuration of seconds it requires to execute a query), and the binary log.
During the configuration process, click
to proceed to the next step or to return to the previous step. Click at the final step to apply the server configuration.The sections that follow describe the server configuration options that apply to MySQL server on Windows. The server version you installed will determine which steps and options you can configure. Configuring MySQL server may include some or all of the steps.
MySQL Installer enables you to install, configure, and deploy MySQL Server as a standalone instance or as a member of a highly available cluster using MySQL Group Replication. In either case, MySQL Installer restricts the installation and configuration of the server (or servers) to the local Windows host computer.
Standalone MySQL Server / Classic MySQL Replication (default)
Select this option to configure one MySQL instance to run as a standalone database server. This option is ideal if you intend to set up classic replication later and then to include this server in your custom solution. The remaining configuration steps are described in the sections that follow, starting with Type and Networking.
InnoDB cluster
Select this option to create or extend an InnoDB cluster solution that is based on MySQL Group Replication (see Section 20.1, “Introducing InnoDB Cluster”). You can configure (or reconfigure) a minimum of three server instances to perform a basic setup as a test-only sandbox cluster on a single computer or to create a production cluster inside a local network.
InnoDB Cluster Log Verbosity Level.
This configuration step includes an adjustable log that
captures information during the configuration of each
server instance in the production or sandbox cluster.
The values are: MINIMAL
,
MEDIUM
(default), and
DEBUG
. If the cluster configuration
fails, use the Reconfigure action
from the MySQL Installer
dashboard to restart the configuration and then
set the verbosity level to DEBUG
to
gather additional information during your next attempt.
MySQL Installer provides the following configuration variations to deploy an InnoDB cluster:
Set Up a Local Server Cluster for Testing Only
Select Create a Sandbox InnoDB cluster for
Testing to enable this option. When
prompted, define the number of server sandbox
instances in the cluster, set a password for the
root
user, and adjust the
InnoDB cluster log verbosity level as needed. For a
more detailed description of the configuration, see
Deploying a Sandbox InnoDB Cluster with MySQL Installer.
This setup requires MySQL 5.7.17 or higher.
Create or Join an InnoDB cluster
To set up a highly available InnoDB cluster using MySQL Installer, you must have a minimum of three computers on a local network. If you require a more advanced setup, use MySQL Shell to configure some or all of the server instances in the cluster. For details about how to perform a local-network cluster setup, see Setting up an InnoDB cluster with MySQL Installer. This setup requires MySQL 8.0.0 or higher.
InnoDB cluster was designed to operate with MySQL Shell, which enables you to perform advanced cluster administration, and MySQL Router to automate the connections made between client applications and server instances. Neither MySQL Shell nor MySQL Router are required to deploy a cluster on Windows using MySQL Installer.
A sandbox deployment includes multiple server sandbox instances that run together on the same computer. Because all server instances reside on the same computer, a sandbox cluster does not meet the requirements of a highly available solution. Instead, this deployment option simulates an environment from which you can explore the techniques associated with InnoDB cluster administration.
When you select Create a Sandbox InnoDB cluster
for Testing, a follow-on step prompts you to
select a cluster consisting of three, five, seven, or nine
MySQL server instances. Unlike the other server setups
provided by MySQL Installer, the sandbox deployment skips the usual
server configuration steps (except Authentication Method).
The resulting cluster, named
sandboxCluster
, is available on selected
ports that are configured for you.
MySQL Installer deletes ports 3310 to 3390 during the configuration, if those ports were set for the sandbox InnoDB cluster manually using MySQL Shell.
Each sandbox instance is configured to run as a process (not a Windows service). You must start each instance in the sandbox cluster manually after restarting the computer.
After you create the test cluster, click the Summary tab to view the specific ports that apply to your cluster. To modify the number of server instances within the existing cluster or to adjust the logging level, use the Reconfigure quick action from the MySQL Installer dashboard.
MySQL Installer deletes all existing sandbox cluster data when the cluster is reconfigured or when the server instances within the sandbox cluster are upgraded.
MySQL Installer stores all sandbox InnoDB cluster configuration
entries in the installer_config.xml
file. By default, MySQL Installer creates the sandbox instances in
%userprofile%\MySQL\mysql-sandboxes
on
the local host.
To create a single InnoDB cluster, select InnoDB Cluster as the High Availability option and then select Create a New InnoDB Cluster. Adjust the log verbosity level (as needed), and click to configure the first server instance. This setup process involves installing and running MySQL Installer on multiple computers.
Define the first server instance (or seed) by providing the following configuration information:
InnoDB Cluster Name:
The default cluster name is
myCluster
. If you intend to configure
multiple clusters, replace the default name with one
that is meaningful within your solution. Alphanumeric
characters, spaces, and underscore
(_
) characters are valid for this
field. The limit is 40 characters.
Cluster Admin User Name:
The default cluster administrator name is
ic
. You can reuse the same MySQL
administrative account across multiple clusters. You
will be prompted for this account name (and password)
later when you configure other server instances to join
the cluster. The limit is 32 characters.
Cluster Admin Password:
Enter a password for the cluster administrator account (minimum length is four characters). MySQL Installer will evaluate the strength of the MySQL password as you type. Use the Repeat Password field to confirm the password.
Host Address:
Select the host name or IP address of the local host from the list. When joining additional server instances to the cluster, you will be prompted to identify the seed instance by the host name or IP address.
Server ID:
The default value is 1
. This
identifier is required to record the events of a server
instance in the binary log. The ID of each server
instance within a cluster must be unique; however, you
can reuse the same number in a different cluster. The
server ID you specify in this field also appears later
in Advanced Options step. If you change the value in
Advanced Option, the number is changed for the
InnoDB cluster Setup too.
Click Type and
Networking. After the seed instance is added and the
cluster is created, it requires more instances for full
tolerance. At this point, the status is
OK_NO_TOLERANCE
.
To add the second and third server instances to the cluster, you must use a separate computer inside the local network for each. Some of the configuration details of the seed instance are required to complete the join operation.
After you start MySQL Installer and install the server instance on the next computer, begin the configuration by selecting InnoDB Cluster as the High Availability option and then select Add Local MySQL Server Instance to an InnoDB Cluster. Adjust the InnoDB Cluster Log Verbosity Level (as needed) and then click Next.
Define the joining server instance by providing the following configuration information:
Seed Instance Address:
Enter the host name or IP address of the computer that hosts the seed instance.
Seed Instance Port:
The default value is 3306
, which is
the port for classic MySQL. Use the same TCP port that
you configured for the seed instance.
Cluster Admin User Name:
The default cluster administrator name is
ic
. If you assigned a different name
when you configured the seed instance, enter the
alternative cluster administrator name.
Cluster Admin Password:
Enter the password assigned to the cluster administrator account.
Host Address:
Select the host name or IP address of the local host from the list.
Server ID:
The default value is 1
. This
identifier is required to record the events of a server
instance in the binary log. The ID of each server
instance within a cluster must be unique; however, you
can reuse the same number in a different cluster. The
server ID you specify in this field also appears later
in Advanced Options step. If you change the value in
Advanced Option, the number is changed for the
InnoDB cluster Setup too.
Use this button to verify the connection between the local server instance and the seed instance defined for the cluster. A valid connection is required to proceed.
Click Type and Networking.
and then complete the remaining configuration steps, which are described in the sections that follow, starting with
With one seed instance and a second server instance in the
cluster, the status is OK_NO_TOLERANCE
.
After you add the third server instance, the status is
OK
, which indicates that the cluster now
is tolerant to the failure of one instance.
Server Configuration Type
Choose the MySQL server configuration type that describes your setup. This setting defines the amount of system resources (memory) to assign to your MySQL server instance.
Development: A computer that hosts many other applications, and typically this is your personal workstation. This setting configures MySQL to use the least amount of memory.
Server: Several other applications are expected to run on this computer, such as a web server. The Server setting configures MySQL to use a medium amount of memory.
Dedicated: A computer that is dedicated to running the MySQL server. Because no other major applications run on this server, this setting configures MySQL to use the majority of available memory.
Connectivity
Connectivity options control how the connection to MySQL is made. Options include:
TCP/IP: This option is selected by default. You may disable TCP/IP Networking to permit local host connections only. With the TCP/IP connection option selected, you can modify the following items:
Port for the classic MySQL
protocol connections. The default value is
3306
.
X Protocol Port shown when configuring MySQL 8.0 server only.
Open Windows Firewall port for network access, which is selected by default for TCP/IP.
If a port number is in use already, you will see the information icon () next to the default value and
is disabled until you provide a new port number.
Named Pipe: Enable and define the
pipe name, similar to setting the
named_pipe
system
variable. The default name is
MySQL
.
Shared Memory: Enable and define
the memory name, similar to setting the
shared_memory
system
variable. The default name is
MySQL
.
Advanced Configuration
Check Show Advanced and Logging Options to set custom logging and advanced options in later steps. The Logging Options step enables you to define custom file paths for the error log, general log, slow query log (including the configuration of seconds it requires to execute a query), and the binary log. The Advanced Options step enables you to set the unique server ID required when binary logging is enabled in a replication topology.
MySQL Enterprise Firewall (Enterprise Edition only)
The Enable MySQL Enterprise Firewall check box is deselected by default. Select this option to enable a security whitelist that offers protection against certain types of attacks. Additional post-installation configuration is required (see Section 6.4.6, “MySQL Enterprise Firewall”).
There is an issue for MySQL 8.0.19 that prevents the server from starting if MySQL Enterprise Firewall is selected during the server configuration steps. If the server startup operation fails, click
to end the configuration process and return to the dashboard. You must uninstall the server.The workaround is to run MySQL Installer without MySQL Enterprise Firewall selected. (That is, do not select the Enable MySQL Enterprise Firewall check box.) Then install MySQL Enterprise Firewall afterward using the instructions for manual installation (see Section 6.4.6.2, “Installing or Uninstalling MySQL Enterprise Firewall”).
The Authentication Method step is visible only during the installation or upgrade of MySQL 8.0.4 or higher. It introduces a choice between two server-side authentication options. The MySQL user accounts that you create in the next step will use the authentication method that you select in this step.
MySQL 8.0 connectors and community drivers that use
libmysqlclient
8.0 now support the
mysql_native_password
default
authentication plugin. However, if you are unable to update
your clients and applications to support this new
authentication method, you can configure the MySQL server to
use mysql_native_password
for legacy
authentication. For more information about the implications of
this change, see
caching_sha2_password as the Preferred Authentication Plugin.
If you are installing or upgrading to MySQL 8.0.4 or higher, select one of the following authentication methods:
Use Strong Password Encryption for Authentication (RECOMMENDED)
MySQL 8.0 supports a new authentication based on improved, stronger SHA256-based password methods. It is recommended that all new MySQL server installations use this method going forward.
The caching_sha2_password
authentication plugin on the server requires new
versions of connectors and clients, which add support
for the new MySQL 8.0 default authentication.
Use Legacy Authentication Method (Retain MySQL 5.x Compatibility)
Using the old MySQL 5.x legacy authentication method should be considered only in the following cases:
Applications cannot be updated to use MySQL 8.0 connectors and drivers.
Recompilation of an existing application is not feasible.
An updated, language-specific connector or driver is not available yet.
Root Account Password
Assigning a root password is required and you will be asked for it when performing other MySQL Installer operations. Password strength is evaluated when you repeat the password in the box provided. For descriptive information regarding password requirements or status, move your mouse pointer over the information icon () when it appears.
MySQL User Accounts (Optional)
Click
or to create or modify MySQL user accounts with predefined roles. Next, enter the required account credentials:User Name: MySQL user names can be up to 32 characters long.
Host: Select
localhost
for local connections
only or <All Hosts (%)>
when
remote connections to the server are required.
Role: Each predefined role, such
as DB Admin
, is configured with its
own set of privileges. For example, the DB
Admin
role has more privileges than the
DB Designer
role. The
Role drop-down list contains a
description of each role.
Password: Password strength assessment is performed while you type the password. Passwords must be confirmed. MySQL permits a blank or empty password (considered to be insecure).
MySQL Installer Commercial Release Only: MySQL Enterprise Edition for Windows, a commercial product, also supports an authentication method that performs external authentication on Windows. Accounts authenticated by the Windows operating system can access the MySQL server without providing an additional password.
To create a new MySQL account that uses Windows
authentication, enter the user name and then select a
value for Host and
Role. Click
Windows authentication to enable the
authentication_windows
plugin. In the
Windows Security Tokens area, enter a token for each
Windows user (or group) who can authenticate with the
MySQL user name. MySQL accounts can include security
tokens for both local Windows users and Windows users that
belong to a domain. Multiple security tokens are separated
by the semicolon character (;
) and use
the following format for local and domain accounts:
Local account
Enter the simple Windows user name as the security
token for each local user or group; for example,
finley;jeffrey;admin
.
Domain account
Use standard Windows syntax
(domain
\
domainuser
)
or MySQL syntax
(domain
\\
domainuser
)
to enter Windows domain users and groups.
For domain accounts, you may need to use the credentials of an administrator within the domain if the account running MySQL Installer lacks the permissions to query the Active Directory. If this is the case, select Validate Active Directory users with to activate the domain administrator credentials.
Windows authentication permits you to test all of the
security tokens each time you add or modify a token. Click
X
icon and red token text. When all
tokens resolve as valid (green text without an
X
icon), you can click
to save the changes.
On the Windows platform, MySQL server can run as a named service managed by the operating system and be configured to start up automatically when Windows starts. Alternatively, you can configure MySQL server to run as an executable program that requires manual configuration.
Configure MySQL server as a Windows service (Selected by default.)
When the default configuration option is selected, you can also select the following:
Start the MySQL Server at System Startup
When selected (default), the service startup type is set to Automatic; otherwise, the startup type is set to Manual.
Run Windows Service as
When Standard System Account is selected (default), the service logs on as Network Service.
The Custom User option must have privileges to log on to Microsoft Windows as a service. The button will be disabled until this user is configured with the required privileges.
A custom user account is configured in Windows by searching for "local security policy" in the Start menu. In the Local Security Policy window, select Local Policies, User Rights Assignment, and then Log On As A Service to open the property dialog. Click to add the custom user and then click in each dialog to save the changes.
Deselect the Windows Service option
This step is available if the Show Advanced Configuration check box was selected during the Type and Networking step. To enable this step now, click to return to the Type and Networking step and select the check box.
Advanced configuration options are related to the following MySQL log files:
The binary log is enabled by default for MySQL 5.7 and higher.
This step is available if the Show Advanced Configuration check box was selected during the Type and Networking step. To enable this step now, click to return to the Type and Networking step and select the check box.
The advanced-configuration options include:
Server ID
Set the unique identifier used in a replication topology.
If binary logging is enabled, you must specify a server
ID. The default ID value depends on the server version.
For more information, see the description of the
server_id
system
variable.
If you specified an ID for a server instance of an InnoDB cluster, then MySQL Installer adjusts the ID (shown on this page) to match the previous identifier.
Table Names Case
You can set the following options during the initial and subsequent configuration the server. For the MySQL 8.0 release series, these options apply only to the initial configuration of the server.
Lower Case
Sets the
lower_case_table_names
option value to 1 (default), in which table names are
stored in lowercase on disk and comparisons are not
case-sensitive.
Preserve Given Case
Sets the
lower_case_table_names
option value to 2, in which table names are stored as
given but compared in lowercase.
All configuration settings are applied to the MySQL server when you click Configuration Steps tab to follow the progress of each action; the icon for each toggles from white to green (with a check mark) on success. Otherwise, the process stops and displays an error message if an individual action times out. Click the Log tab to view the log.
. Use the
When the installation completes successfully and you click
MySQL
group. Opening MySQL Installer loads the
dashboard
where installed MySQL products are listed and other MySQL Installer
operations are available.
MySQL Installer downloads and installs a suite of tools for developing and managing business-critical applications on Windows. The suite consist of applications, connectors, documentation, and samples.
During the initial
setup, choose any predetermined setup type, except
Server only
, to install the latest GA version
of the tools. Use the Custom
setup type to
install an individual tool or specific version. If MySQL Installer is
installed on the host already, use the Add
operation to select and install tools from the MySQL Installer dashboard.
MySQL Installer provides a configuration wizard that can bootstrap an installed instance of MySQL Router 8.0 or later to route traffic between MySQL applications and an InnoDB cluster. When configured, MySQL Router runs as a local Windows service. For detailed information about using MySQL Router with an InnoDB cluster, see Routing for MySQL InnoDB cluster.
You are prompted to configure MySQL Router after the initial installation and when you reconfigure an installed router explicitly. In contrast, the upgrade operation does not require or prompt you to configure the upgraded product.
To configure MySQL Router, do the following:
Set up InnoDB cluster. For instructions on how to configure a sandbox InnoDB cluster on the local host using MySQL Installer, see Section 2.3.3.3.1.1, “High Availability”.
For general InnoDB cluster information, see Chapter 20, InnoDB Cluster.
Using MySQL Installer, download and install the MySQL Router application. After the installation finishes, the configuration wizard prompts you for information. Select the Configure MySQL Router for InnoDB cluster check box to begin the configuration and provide the following configuration values:
Hostname: Host name of the
primary (seed) server in the InnoDB cluster
(localhost
by default).
Port: The port number of the
primary (seed) server in the InnoDB cluster
(3310
by default).
Management User: An administrative user with root-level privileges.
Password: The password for the management user.
Classic MySQL protocol connections to InnoDB cluster
Read/Write: Set the first base port number to one that is unused (between 80 and 65532) and the wizard will select the remaining ports for you.
The figure that follows shows an example of the MySQL Router configuration page, with the first base port number specified as 6446 and the remaining ports set by the wizard as 6447, 6448, and 6449.
Click MySQL Installer dashboard.
and then to apply the configuration. Click to close MySQL Installer or return to the
After installing a production cluster with MySQL Router, the root
account only exists in the user table as
root@localhost
(local), instead of
root@%
(remote). Regardless of where the
router or client are located, even if both are located on the
same host as the seed server, any connection that passes
through the router is viewed by server as being remote, not
local. As a result, a connection made to the server using the
local host (see the example that follows), does not
authenticate.
shell> \c root@localhost:6446
This section describes the MySQL Installer product catalog and the dashboard.
The product catalog stores the complete list of released MySQL products for Microsoft Windows that are available to download from MySQL Downloads. By default, and when an Internet connection is present, MySQL Installer updates the catalog daily. You can also update the catalog manually from the dashboard (described later).
An up-to-date catalog performs the following actions:
Populates the Available Products pane of the Select Products and Features step. This step appears when you select:
The Custom
setup type during the
initial
setup.
The Add operation from the dashboard.
Identifies when product updates are available for the installed products listed in the dashboard.
The catalog includes all development releases (Pre-Release), general releases (Current GA), and minor releases (Other Releases). Products in the catalog will vary somewhat, depending on the MySQL Installer release that you download.
The MySQL Installer dashboard is the default view that you see when you start MySQL Installer after the initial setup finishes. If you closed MySQL Installer before the setup was finished, MySQL Installer resumes the initial setup before it displays the dashboard.
MySQL Installer dashboard operations provide a variety of actions that apply to installed products or products listed in the catalog. To initiate the following operations, first click the operation link and then select the product or products to manage:
Add: This operation opens the Select Products and Features page. From there, you can filter the product in the product catalog, select one or more products to download (as needed), and begin the installation. For hints about using the filter, see Locating Products to Install.
Modify: Use this operation to add
or remove the features associated with installed
products. Features that you can modify vary in
complexity by product. When the Program
Shortcut check box is selected, the product
appears in the Start menu under the
MySQL
group.
Upgrade: This operation loads the Select Products to Upgrade page and populates it with all the upgrade candidates. An installed product can have more than one upgrade version and requires a current product catalog.
Important server upgrade conditions:
MySQL Installer does not permit server upgrades between major release versions or minor release versions, but does permit upgrades within a release series, such as an upgrade from 5.7.18 to 5.7.19.
Upgrades between milestone releases (or from a milestone release to a GA release) are not supported. Significant development changes take place in milestone releases and you may encounter compatibility issues or problems starting the server.
For upgrades to MySQL 8.0.16 server and higher, a check box enables you to skip the upgrade check and process for system tables, while checking and processing data dictionary tables normally. MySQL Installer does not prompt you with the check box when the previous server upgrade was skipped or when the server was configured as a sandbox InnoDB cluster. This behavior represents a change in how MySQL Server performs an upgrade (see What the MySQL Upgrade Process Upgrades) and it alters the sequence of steps that MySQL Installer applies to the configuration process.
If you select Skip system tables upgrade
check and process. (Not recommended),
MySQL Installer starts the upgraded server with the
--upgrade=MINIMAL
server option, which upgrades the data dictionary
only. If you stop and then restart the server
without the
--upgrade=MINIMAL
option, the server upgrades the system tables
automatically, if needed.
The following information appears in the Log tab and log file after the upgrade configuration (with system tables skipped) is complete:
WARNING: The system tables upgrade was skipped after upgrading MySQL Server. The server will be started now with the --upgrade=MINIMAL option, but then each time the server is started it will attempt to upgrade the system tables, unless you modify the Windows service (command line) to add --upgrade=MINIMAL to bypass the upgrade. FOR THE BEST RESULTS: Run mysqld.exe --upgrade=FORCE on the command line to upgrade the system tables manually.
To choose a new product version:
Click Upgrade. Confirm that the check box next to product name in the Upgradeable Products pane has a check mark. Deselect the products that you do not intend to upgrade at this time.
For server milestone releases in the same release series, MySQL Installer deselects the server upgrade and displays a warning to indicate that the upgrade is not supported, identifies the risks of continuing, and provides a summary of the steps to perform a logical upgrade manually. You can reselect server upgrade at your own risk. For instructions on how to perform a logical upgrade with a milestone release, see Logical Upgrade.
Click a product in the list to highlight it. This
action populates the Upgradeable
Versions pane with the details of each
available version for the selected product: version
number, published date, and a
Changes
link to open the release
notes for that version.
MySQL Installer upgrades all of the selected products in one action. Click
to view the actions performed by MySQL Installer.Remove: This operation opens the Remove Products page and populates it with the MySQL products installed on the host. Select the MySQL products you want to remove (uninstall) and then click to begin the removal process. During the operation, an indicator shows the number of steps that are executed as a percentage of all steps.
To select products to remove, do one of the following:
Select the check box for one or more products.
Select the Product check box to select all products.
To remove a local MySQL server:
Determine whether the local data directory should be removed. If you retain the data directory, another server installation can reuse the data. This option is enabled by default (removes the data directory).
If the local server is a member of an InnoDB cluster, reconfigure the cluster as follows:
Type the administrator password for the cluster affected when the local server is removed and then click
to verify the credentials. MySQL Installer can perform the following actions, depending on the configuration of the existing cluster:If the local server is a seed instance and the number of instances in the cluster is one, dissolve the cluster when you remove the local server.
If the local server is a seed instance and the number of instances in the cluster is greater than one, remove the instance from the cluster or dissolve the cluster when you remove the local server.
If the local server is a slave instance within the cluster and the number of instances in the cluster is greater than two, remove the local instance from the cluster. (A single slave instance within a cluster reverts to a seed instance automatically.)
If the local server is configured as a sandbox InnoDB cluster, remove all instances created for the sandbox server installation.
When prompted, do one of the following:
Select an action to apply to the cluster and click
.Click
without selecting an action. In most cases, MySQL Group Replication can manage the cluster when the local server becomes unavailable. A warning message reminds you that skipping the step may result in an inconsistent InnoDB cluster configuration.Click
to begin uninstalling the local server. Note that all products that you selected to remove are also uninstalled at this time.(Optional) Click the Log tab to display the current actions performed by MySQL Installer.
The Reconfigure link in the Quick Action column next to each installed server loads the current configuration values for the server and then cycles through all configuration steps enabling you to change the options and values. You must provide credentials with root privileges to reconfigure these items. Click the Log tab to show the output of each configuration step performed by MySQL Installer.
On completion, MySQL Installer stops the server, applies the
configuration changes, and restarts the server for you. For
a description of each configuration option, see
Section 2.3.3.3.1, “MySQL Server Configuration with MySQL Installer”. Installed
Samples and Examples
associated with a
specific MySQL server version can be also be reconfigured to
apply new feature settings, if any.
The Catalog link enables you to download the latest catalog of MySQL products manually and then to integrate those product changes with MySQL Installer. The catalog-download action does not perform an upgrade of the products already installed on the host. Instead, it returns to the dashboard and displays an arrow icon in the Version column for each installed product that has a newer version. Use the Upgrade operation to install the newer product version.
You can also use the Catalog link to display the current change history of each product without downloading the new catalog. Select the Do not update at this time check box to view the change history only.
The MySQL Installer About icon () shows the current version of MySQL Installer and general information about MySQL. The version number is located above the
button.Always include this version number when reporting a problem with MySQL Installer.
In addition to the About MySQL information (), you can also select the following icons from the side panel:
License icon () for MySQL Installer.
This product may include third-party software, used under license. If you are using a Commercial release of MySQL Installer, the icon opens the MySQL Installer Commercial License Information User Manual for licensing information, including licensing information relating to third-party software that may be included in this Commercial release. If you are using a Community release of MySQL Installer, the icon opens the MySQL Installer Community License Information User Manual for licensing information, including licensing information relating to third-party software that may be included in this Community release.
Resource links icon () to the latest MySQL product documentation, blogs, webinars, and more.
The MySQL Installer Options icon () includes the following tabs:
Product Catalog: Manages the daily automatic catalog updates. By default, catalog updates are scheduled at a fixed hour. When new products or product versions are available, MySQL Installer adds them to the catalog and then displays an arrow icon () next to the version number of installed products listed in the dashboard.
Use this option to enable or disable automatic catalog
updates and to reset the time of day when the MySQL Installer
updates the catalog automatically. For specific
settings, see the task named
ManifestUpdate
in the Windows Task
Scheduler.
Connectivity Settings: Several operations performed by MySQL Installer require internet access. This option enables you to use a default value to validate the connection or to use a different URL, one selected from a list or added by you manually. With the Manual option selected, new URLs can be added and all URLs in the list can be moved or deleted. When the Automatic option is selected, MySQL Installer attempts to connect to each default URL in the list (in order) until a connection is made. If no connection can be made, it raises an error.
MySQL products in the catalog are listed by category: MySQL Servers, Applications, MySQL Connectors, and Documentation. Only the latest GA versions appear in the Available Products pane by default. If you are looking for a pre-release or older version of a product, it may not be visible in the default list.
To change the default product list, click Add on the dashboard to open the Select Products and Features page, and then click to open the filter dialog box (see the figure that follows). Modify the product values and then click .
Reset one or more of the following values to filter the list of available products:
Text: Filter by text.
Category: All Software (default), MySQL Servers, Applications, MySQL Connectors, or Documentation (for samples and documentation).
Maturity: Current Bundle (appears initially with the full package only), Pre-Release, Current GA, or Other Releases.
The Commercial release of MySQL Installer does not display any MySQL products when you select the Pre-Release age filter. Products in development are available from the Community release of MySQL Installer only.
Already Downloaded (the check box is deselected by default).
Architecture: Any (default), 32-bit, or 64-bit.
MySQL Installer remains installed on your computer, and like other software, MySQL Installer can be upgraded from the previous version. In some cases, other MySQL software may require that you upgrade MySQL Installer for compatibility. This section describes how to identify the current version of MySQL Installer and how to upgrade MySQL Installer manually.
To locate the installed version of MySQL Installer:
Start MySQL Installer from the search menu. The MySQL Installer dashboard opens.
Click the MySQL Installer About icon (). The version number is located above the
button.To initiate an on-demand upgrade of MySQL Installer:
Connect the computer with MySQL Installer installed to the internet.
Start MySQL Installer from the search menu. The MySQL Installer dashboard opens.
Click Catalog on the bottom of the dashboard to open the Update Catalog window.
Click
to begin the process. If the installed version of MySQL Installer can be upgraded, you will be prompted to start the upgrade.Click
to review all changes to the catalog and then click to return to the dashboard.Verify the (new) installed version of MySQL Installer (see the previous procedure).
MySQLInstallerConsole.exe provides command-line
functionality that is similar to MySQL Installer. It is installed when MySQL Installer
is initially executed and then available within the
MySQL Installer
directory. Typically, that is
in C:\Program Files (x86)\MySQL\MySQL
Installer\
, and the console must be executed with
administrative privileges.
To use, invoke the command prompt with administrative privileges
by choosing Run as
administrator
. And from the command line, optionally
change the directory to where
MySQLInstallerConsole.exe is located:
C:\>cd Program Files (x86)\MySQL\MySQL Installer for Windows
C:\Program Files (x86)\MySQL\MySQL Installer for Windows>MySQLInstallerConsole.exe help
=================== Start Initialization =================== MySQL Installer is running in Community mode Attempting to update manifest. Initializing product requirements Loading product catalog Checking for product catalog snippets Checking for product packages in the bundle Categorizing product catalog Finding all installed packages. Your product catalog was last updated at 11/1/2016 4:10:38 PM =================== End Initialization =================== The following commands are available: Configure - Configures one or more of your installed programs. Help - Provides list of available commands. Install - Install and configure one or more available MySQL programs. List - Provides an interactive way to list all products available. Modify - Modifies the features of installed products. Remove - Removes one or more products from your system. Status - Shows the status of all installed products. Update - Update the current product catalog. Upgrade - Upgrades one or more of your installed programs.
MySQLInstallerConsole.exe supports the following commands:
Configuration block values that contain a colon (":") must be wrapped in double quotes. For example, installdir="C:\MySQL\MySQL Server 8.0".
configure
[product1]:[setting]=[value];
[product2]:[setting]=[value]; [...]
Configure one or more MySQL products on your system. Multiple setting=value pairs can be configured for each product.
Switches include:
-showsettings
: Displays the available
options for the selected product, by passing in the
product name after -showsettings
.
-silent
: Disable confirmation prompts.
C:\>MySQLInstallerConsole configure -showsettings server
C:\>MySQLInstallerConsole configure server:port=3307
Displays a help message with usage examples, and then exits. Pass in an additional command to receive help specific to that command.
C:\>MySQLInstallerConsole help
C:\>MySQLInstallerConsole help install
install
[product]:[features]:[config
block]:[config block]:[config block];
[...]
Install one or more MySQL products on your system. If
pre-release products are available, both GA and pre-release
products are installed when the value of the
-type
switch is
Developer
, Client
, or
Full
. Use the
-only_ga_products
switch to restrict the
product set to GA products only when using these setup types.
Switches and syntax options include:
-only_ga_products
: Restricts the
product set to include GA products only.
-type=[SetupType]
: Installs a
predefined set of software. The "SetupType" can be one of
the following:
Non-custom setup types can only be chosen if no other MySQL products are installed.
Developer: Installs a complete development environment.
Server: Installs a single MySQL server
Client: Installs client programs and libraries
Full: Installs everything
Custom: Installs user selected products. This is the default option.
-showsettings
: Displays the available
options for the selected product, by passing in the
product name after -showsettings
.
-silent
: Disable confirmation prompts.
[config block]
: One or more
configuration blocks can be specified. Each configuration
block is a semicolon separated list of key value pairs. A
block can include either a "config" or "user" type key,
where "config" is the default type if one is not defined.
Configuration block values that contain a colon character
(:
) must be wrapped in double quotes.
For example, installdir="C:\MySQL\MySQL Server
8.0"
.
Only one "config" type block can be defined per product. A "user" block should be defined for each user that should be created during the product's installation.
Adding users is not supported when a product is being reconfigured.
[feature]
: The feature block is
a semicolon separated list of features, or an asterisk
character (*
) to select all features.
C:\>MySQLInstallerConsole install server;5.6.25:*:port=3307;serverid=2:type=user;username=foo;password=bar;role=DBManager
C:\>MySQLInstallerConsole install server;5.6.25;x64 -silent
An example that passes in additional configuration blocks,
separated by ^
to fit:
C:\> MySQLInstallerConsole install server;5.6.25;x64:*:type=config;openfirewall=true; ^
generallog=true;binlog=true;serverid=3306;enable_tcpip=true;port=3306;rootpasswd=pass; ^
installdir="C:\MySQL\MySQL Server 5.6":type=user;datadir="C:\MySQL\data";username=foo;password=bar;role=DBManager
Lists an interactive console where all of the available MySQL
products can be searched. Execute
MySQLInstallerConsole list
to launch the
console, and enter in a substring to search.
C:\> MySQLInstallerConsole list
modify
[product1:-removelist|+addlist]
[product2:-removelist|+addlist] [...]
Modifies or displays features of a previously installed MySQL product.
-silent
: Disable confirmation prompts.
C:\>MySQLInstallerConsole modify server
C:\>MySQLInstallerConsole modify server:+documentation
C:\>MySQLInstallerConsole modify server:-debug
remove
[product1] [product2]
[...]
Removes one ore more products from your system.
*
: Pass in *
to
remove all of the MySQL products.
-continue
: Continue the operation even
if an error occurs.
-silent
: Disable confirmation prompts.
C:\>MySQLInstallerConsole remove *
C:\>MySQLInstallerConsole remove server
Provides a quick overview of the MySQL products that are installed on the system. Information includes product name and version, architecture, date installed, and install location.
C:\> MySQLInstallerConsole status
Downloads the latest MySQL product catalog to your system. On success, the download catalog will be applied the next time either MySQLInstaller or MySQLInstallerConsole is executed.
C:\> MySQLInstallerConsole update
The Automatic Catalog Update GUI option executes this command from the Windows Task Scheduler.
upgrade
[product1:version]
[product2:version] [...]
Upgrades one or more products on your system. Syntax options include:
*
: Pass in *
to
upgrade all products to the latest version, or pass in
specific products.
!
: Pass in !
as a
version number to upgrade the MySQL product to its latest
version.
-silent
: Disable confirmation prompts.
C:\>MySQLInstallerConsole upgrade *
C:\>MySQLInstallerConsole upgrade workbench:6.3.5
C:\>MySQLInstallerConsole upgrade workbench:!
C:\>MySQLInstallerConsole upgrade workbench:6.3.5 excel:1.3.2
Users who are installing from the noinstall
package can use the instructions in this section to manually
install MySQL. The process for installing MySQL from a ZIP Archive
package is as follows:
Extract the main archive to the desired install directory
Optional: also extract the debug-test archive if you plan to execute the MySQL benchmark and test suite
Create an option file
Choose a MySQL server type
Initialize MySQL
Start the MySQL server
Secure the default user accounts
This process is described in the sections that follow.
To install MySQL manually, do the following:
If you are upgrading from a previous version please refer to Section 2.11.8, “Upgrading MySQL on Windows”, before beginning the upgrade process.
Make sure that you are logged in as a user with administrator privileges.
Choose an installation location. Traditionally, the MySQL
server is installed in C:\mysql
. If you
do not install MySQL at C:\mysql
, you
must specify the path to the install directory during
startup or in an option file. See
Section 2.3.4.2, “Creating an Option File”.
The MySQL Installer installs MySQL under C:\Program
Files\MySQL
.
Extract the install archive to the chosen installation location using your preferred file-compression tool. Some tools may extract the archive to a folder within your chosen installation location. If this occurs, you can move the contents of the subfolder into the chosen installation location.
If you need to specify startup options when you run the server, you can indicate them on the command line or place them in an option file. For options that are used every time the server starts, you may find it most convenient to use an option file to specify your MySQL configuration. This is particularly true under the following circumstances:
The installation or data directory locations are different
from the default locations (C:\Program
Files\MySQL\MySQL Server 5.7
and
C:\Program Files\MySQL\MySQL Server
5.7\data
).
You need to tune the server settings, such as memory, cache, or InnoDB configuration information.
When the MySQL server starts on Windows, it looks for option
files in several locations, such as the Windows directory,
C:\
, and the MySQL installation directory
(for the full list of locations, see
Section 4.2.2.2, “Using Option Files”). The Windows directory typically
is named something like C:\WINDOWS
. You can
determine its exact location from the value of the
WINDIR
environment variable using the
following command:
C:\> echo %WINDIR%
MySQL looks for options in each location first in the
my.ini
file, and then in the
my.cnf
file. However, to avoid confusion,
it is best if you use only one file. If your PC uses a boot
loader where C:
is not the boot drive, your
only option is to use the my.ini
file.
Whichever option file you use, it must be a plain text file.
When using the MySQL Installer to install MySQL Server, it will create
the my.ini
at the default location, and
the user executing MySQL Installer is granted full permissions to this
new my.ini
file.
In other words, be sure that the MySQL Server user has
permission to read the my.ini
file.
You can also make use of the example option files included with your MySQL distribution; see Section 5.1.2, “Server Configuration Defaults”.
An option file can be created and modified with any text editor,
such as Notepad. For example, if MySQL is installed in
E:\mysql
and the data directory is in
E:\mydata\data
, you can create an option
file containing a [mysqld]
section to specify
values for the basedir
and
datadir
options:
[mysqld] # set basedir to your installation path basedir=E:/mysql # set datadir to the location of your data directory datadir=E:/mydata/data
Microsoft Windows path names are specified in option files using (forward) slashes rather than backslashes. If you do use backslashes, double them:
[mysqld] # set basedir to your installation path basedir=E:\\mysql # set datadir to the location of your data directory datadir=E:\\mydata\\data
The rules for use of backslash in option file values are given in Section 4.2.2.2, “Using Option Files”.
As of MySQL 5.7.6, the ZIP archive no longer includes a
data
directory. To initialize a MySQL
installation by creating the data directory and populating the
tables in the mysql system database, initialize MySQL using
either --initialize
or
--initialize-insecure
. For
additional information, see
Section 2.10.1, “Initializing the Data Directory”.
If you would like to use a data directory in a different
location, you should copy the entire contents of the
data
directory to the new location. For
example, if you want to use E:\mydata
as
the data directory instead, you must do two things:
Move the entire data
directory and all
of its contents from the default location (for example
C:\Program Files\MySQL\MySQL Server
5.7\data
) to
E:\mydata
.
Use a --datadir
option to
specify the new data directory location each time you start
the server.
The following table shows the available servers for Windows in MySQL 5.7.
Binary | Description |
---|---|
mysqld | Optimized binary with named-pipe support |
mysqld-debug | Like mysqld, but compiled with full debugging and automatic memory allocation checking |
All of the preceding binaries are optimized for modern Intel processors, but should work on any Intel i386-class or higher processor.
Each of the servers in a distribution support the same set of
storage engines. The SHOW ENGINES
statement displays which engines a given server supports.
All Windows MySQL 5.7 servers have support for symbolic linking of database directories.
MySQL supports TCP/IP on all Windows platforms. MySQL servers on
Windows also support named pipes, if you start the server with
the named_pipe
system variable
enabled. It is necessary to enable this variable explicitly
because some users have experienced problems with shutting down
the MySQL server when named pipes were used. The default is to
use TCP/IP regardless of platform because named pipes are slower
than TCP/IP in many Windows configurations.
If you installed MySQL using the noinstall
package, you may need to initialize the data directory:
Windows distributions prior to MySQL 5.7.7 include a data
directory with a set of preinitialized accounts in the
mysql
database.
As of 5.7.7, Windows installation operations performed using
the noinstall
package do not include a
data directory. To initialize the data directory, use the
instructions at
Section 2.10.1, “Initializing the Data Directory”.
This section gives a general overview of starting the MySQL server. The following sections provide more specific information for starting the MySQL server from the command line or as a Windows service.
The information here applies primarily if you installed MySQL
using the noinstall
version, or if you wish
to configure and test MySQL manually rather than with the GUI
tools.
The MySQL server will automatically start after using MySQL Installer, and MySQL Notifier can be used to start/stop/restart at any time.
The examples in these sections assume that MySQL is installed
under the default location of C:\Program
Files\MySQL\MySQL Server 5.7
. Adjust the
path names shown in the examples if you have MySQL installed in
a different location.
Clients have two options. They can use TCP/IP, or they can use a named pipe if the server supports named-pipe connections.
MySQL for Windows also supports shared-memory connections if the
server is started with the
shared_memory
system variable
enabled. Clients can connect through shared memory by using the
--protocol=MEMORY
option.
For information about which server binary to run, see Section 2.3.4.3, “Selecting a MySQL Server Type”.
Testing is best done from a command prompt in a console window (or “DOS window”). In this way you can have the server display status messages in the window where they are easy to see. If something is wrong with your configuration, these messages make it easier for you to identify and fix any problems.
The database must be initialized before MySQL can be started. For additional information about the initialization process, see Section 2.10.1, “Initializing the Data Directory”.
To start the server, enter this command:
C:\> "C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqld" --console
For a server that includes InnoDB
support,
you should see the messages similar to those following as it
starts (the path names and sizes may differ):
InnoDB: The first specified datafile c:\ibdata\ibdata1 did not exist: InnoDB: a new database to be created! InnoDB: Setting file c:\ibdata\ibdata1 size to 209715200 InnoDB: Database physically writes the file full: wait... InnoDB: Log file c:\iblogs\ib_logfile0 did not exist: new to be created InnoDB: Setting log file c:\iblogs\ib_logfile0 size to 31457280 InnoDB: Log file c:\iblogs\ib_logfile1 did not exist: new to be created InnoDB: Setting log file c:\iblogs\ib_logfile1 size to 31457280 InnoDB: Log file c:\iblogs\ib_logfile2 did not exist: new to be created InnoDB: Setting log file c:\iblogs\ib_logfile2 size to 31457280 InnoDB: Doublewrite buffer not found: creating new InnoDB: Doublewrite buffer created InnoDB: creating foreign key constraint system tables InnoDB: foreign key constraint system tables created 011024 10:58:25 InnoDB: Started
When the server finishes its startup sequence, you should see something like this, which indicates that the server is ready to service client connections:
mysqld: ready for connections Version: '5.7.30' socket: '' port: 3306
The server continues to write to the console any further diagnostic output it produces. You can open a new console window in which to run client programs.
If you omit the --console
option,
the server writes diagnostic output to the error log in the data
directory (C:\Program Files\MySQL\MySQL Server
5.7\data
by default). The error log is
the file with the .err
extension, and may
be set using the --log-error
option.
The initial root
account in the MySQL grant
tables has no password. After starting the server, you should
set up a password for it using the instructions in
Section 2.10.4, “Securing the Initial MySQL Account”.
The MySQL server can be started manually from the command line. This can be done on any version of Windows.
MySQL Notifier can also be used to start/stop/restart the MySQL server.
To start the mysqld server from the command line, you should start a console window (or “DOS window”) and enter this command:
C:\> "C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqld"
The path to mysqld may vary depending on the install location of MySQL on your system.
You can stop the MySQL server by executing this command:
C:\> "C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqladmin" -u root shutdown
If the MySQL root
user account has a
password, you need to invoke mysqladmin
with the -p
option and supply the password
when prompted.
This command invokes the MySQL administrative utility
mysqladmin to connect to the server and tell
it to shut down. The command connects as the MySQL
root
user, which is the default
administrative account in the MySQL grant system.
Users in the MySQL grant system are wholly independent from any operating system users under Microsoft Windows.
If mysqld doesn't start, check the error log
to see whether the server wrote any messages there to indicate
the cause of the problem. By default, the error log is located
in the C:\Program Files\MySQL\MySQL Server
5.7\data
directory. It is the file with
a suffix of .err
, or may be specified by
passing in the --log-error
option. Alternatively, you can try to start the server with the
--console
option; in this case,
the server may display some useful information on the screen
that will help solve the problem.
The last option is to start mysqld with the
--standalone
and
--debug
options. In this case,
mysqld writes a log file
C:\mysqld.trace
that should contain the
reason why mysqld doesn't start. See
Section 28.5.3, “The DBUG Package”.
Use mysqld --verbose --help to display all the options that mysqld supports.
You must exercise great care when editing your system
PATH
by hand; accidental deletion or
modification of any portion of the existing
PATH
value can leave you with a
malfunctioning or even unusable system.
To make it easier to invoke MySQL programs, you can add the path
name of the MySQL bin
directory to your
Windows system PATH
environment variable:
On the Windows desktop, right-click the My Computer icon, and select .
Next select the
tab from the menu that appears, and click the button.Under System Variables, select , and then click the button. The dialogue should appear.
Place your cursor at the end of the text appearing in the
space marked Variable Value. (Use the
End key to ensure that your cursor is
positioned at the very end of the text in this space.) Then
enter the complete path name of your MySQL
bin
directory (for example,
C:\Program Files\MySQL\MySQL Server
5.7\bin
)
There must be a semicolon separating this path from any values present in this field.
Dismiss this dialogue, and each dialogue in turn, by
clicking PATH
value should now be available to any
new command shell you open, allowing you to invoke any MySQL
executable program by typing its name at the DOS prompt from
any directory on the system, without having to supply the
path. This includes the servers, the
mysql client, and all MySQL command-line
utilities such as mysqladmin and
mysqldump.
You should not add the MySQL bin
directory
to your Windows PATH
if you are running
multiple MySQL servers on the same machine.
On Windows, the recommended way to run MySQL is to install it as a Windows service, so that MySQL starts and stops automatically when Windows starts and stops. A MySQL server installed as a service can also be controlled from the command line using NET commands, or with the graphical Services utility. Generally, to install MySQL as a Windows service you should be logged in using an account that has administrator rights.
MySQL Notifier can also be used to monitor the status of the MySQL service.
The Services utility (the Windows Service Control Manager) can be found in the Windows Control Panel. To avoid conflicts, it is advisable to close the Services utility while performing server installation or removal operations from the command line.
Before installing MySQL as a Windows service, you should first stop the current server if it is running by using the following command:
C:\>"C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqladmin"
-u root shutdown
If the MySQL root
user account has a
password, you need to invoke mysqladmin
with the -p
option and supply the password
when prompted.
This command invokes the MySQL administrative utility
mysqladmin to connect to the server and tell
it to shut down. The command connects as the MySQL
root
user, which is the default
administrative account in the MySQL grant system.
Users in the MySQL grant system are wholly independent from any operating system users under Windows.
Install the server as a service using this command:
C:\> "C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqld" --install
The service-installation command does not start the server. Instructions for that are given later in this section.
To make it easier to invoke MySQL programs, you can add the path
name of the MySQL bin
directory to your
Windows system PATH
environment variable:
On the Windows desktop, right-click the My Computer icon, and select .
Next select the
tab from the menu that appears, and click the button.Under System Variables, select , and then click the button. The dialogue should appear.
Place your cursor at the end of the text appearing in the
space marked Variable Value. (Use the
End key to ensure that your cursor is
positioned at the very end of the text in this space.) Then
enter the complete path name of your MySQL
bin
directory (for example,
C:\Program Files\MySQL\MySQL Server
5.7\bin
), and there should be a
semicolon separating this path from any values present in
this field. Dismiss this dialogue, and each dialogue in
turn, by clicking until all of the
dialogues that were opened have been dismissed. You should
now be able to invoke any MySQL executable program by typing
its name at the DOS prompt from any directory on the system,
without having to supply the path. This includes the
servers, the mysql client, and all MySQL
command-line utilities such as mysqladmin
and mysqldump.
You should not add the MySQL bin
directory to your Windows PATH
if you are
running multiple MySQL servers on the same machine.
You must exercise great care when editing your system
PATH
by hand; accidental deletion or
modification of any portion of the existing
PATH
value can leave you with a
malfunctioning or even unusable system.
The following additional arguments can be used when installing the service:
You can specify a service name immediately following the
--install
option. The default service name
is MySQL
.
If a service name is given, it can be followed by a single
option. By convention, this should be
--defaults-file=
to specify the name of an option file from which the server
should read options when it starts.
file_name
The use of a single option other than
--defaults-file
is possible
but discouraged.
--defaults-file
is more
flexible because it enables you to specify multiple startup
options for the server by placing them in the named option
file.
You can also specify a --local-service
option following the service name. This causes the server to
run using the LocalService
Windows
account that has limited system privileges. If both
--defaults-file
and
--local-service
are given following the
service name, they can be in any order.
For a MySQL server that is installed as a Windows service, the following rules determine the service name and option files that the server uses:
If the service-installation command specifies no service
name or the default service name (MySQL
)
following the --install
option, the server
uses the service name of MySQL
and reads
options from the [mysqld]
group in the
standard option files.
If the service-installation command specifies a service name
other than MySQL
following the
--install
option, the server uses that
service name. It reads options from the
[mysqld]
group and the group that has the
same name as the service in the standard option files. This
enables you to use the [mysqld]
group for
options that should be used by all MySQL services, and an
option group with the service name for use by the server
installed with that service name.
If the service-installation command specifies a
--defaults-file
option after
the service name, the server reads options the same way as
described in the previous item, except that it reads options
only from the named file and ignores the standard option
files.
As a more complex example, consider the following command:
C:\>"C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqld"
--install MySQL --defaults-file=C:\my-opts.cnf
Here, the default service name (MySQL
) is
given after the --install
option. If no
--defaults-file
option had been
given, this command would have the effect of causing the server
to read the [mysqld]
group from the standard
option files. However, because the
--defaults-file
option is
present, the server reads options from the
[mysqld]
option group, and only from the
named file.
On Windows, if the server is started with the
--defaults-file
and
--install
options,
--install
must be first.
Otherwise, mysqld.exe
will attempt to start
the MySQL server.
You can also specify options as Start parameters in the Windows Services utility before you start the MySQL service.
Finally, before trying to start the MySQL service, make sure the
user variables %TEMP%
and
%TMP%
(and also %TMPDIR%
,
if it has ever been set) for the operating system user who is to
run the service are pointing to a folder to which the user has
write access. The default user for running the MySQL service is
LocalSystem
, and the default value for its
%TEMP%
and %TMP%
is
C:\Windows\Temp
, a directory
LocalSystem
has write access to by default.
However, if there are any changes to that default setup (for
example, changes to the user who runs the service or to the
mentioned user variables, or the
--tmpdir
option has been used to
put the temporary directory somewhere else), the MySQL service
might fail to run because write access to the temporary
directory has not been granted to the proper user.
After a MySQL server instance has been installed as a service,
Windows starts the service automatically whenever Windows
starts. The service also can be started immediately from the
Services utility, or by using an sc
start mysqld_service_name
or NET START
mysqld_service_name
command. SC and NET
commands are not case-sensitive.
When run as a service, mysqld has no access
to a console window, so no messages can be seen there. If
mysqld does not start, check the error log to
see whether the server wrote any messages there to indicate the
cause of the problem. The error log is located in the MySQL data
directory (for example, C:\Program Files\MySQL\MySQL
Server 5.7\data
). It is the file with a
suffix of .err
.
When a MySQL server has been installed as a service, and the
service is running, Windows stops the service automatically when
Windows shuts down. The server also can be stopped manually
using the Services
utility, the sc
stop mysqld_service_name
command, the NET START
mysqld_service_name
command, or the mysqladmin shutdown command.
You also have the choice of installing the server as a manual
service if you do not wish for the service to be started
automatically during the boot process. To do this, use the
--install-manual
option rather than the
--install
option:
C:\> "C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqld" --install-manual
To remove a server that is installed as a service, first stop it
if it is running by executing SC STOP
mysqld_service_name
or
NET STOP
mysqld_service_name
. Then
use SC DELETE
mysqld_service_name
to
remove it:
C:\> SC DELETE mysql
Alternatively, use the mysqld
--remove
option to remove the
service.
C:\> "C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqld" --remove
If mysqld is not running as a service, you can start it from the command line. For instructions, see Section 2.3.4.6, “Starting MySQL from the Windows Command Line”.
If you encounter difficulties during installation, see Section 2.3.5, “Troubleshooting a Microsoft Windows MySQL Server Installation”.
For more information about stopping or removing a Windows service, see Section 5.7.2.2, “Starting Multiple MySQL Instances as Windows Services”.
You can test whether the MySQL server is working by executing any of the following commands:
C:\>"C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqlshow"
C:\>"C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqlshow" -u root mysql
C:\>"C:\Program Files\MySQL\MySQL Server 5.7\bin\mysqladmin" version status proc
C:\>"C:\Program Files\MySQL\MySQL Server 5.7\bin\mysql" test
If mysqld is slow to respond to TCP/IP
connections from client programs, there is probably a problem
with your DNS. In this case, start mysqld
with the skip_name_resolve
system variable enabled and use only
localhost
and IP addresses in the
Host
column of the MySQL grant tables. (Be
sure that an account exists that specifies an IP address or you
may not be able to connect.)
You can force a MySQL client to use a named-pipe connection
rather than TCP/IP by specifying the
--pipe
or
--protocol=PIPE
option, or by
specifying .
(period) as the host name. Use
the --socket
option to specify
the name of the pipe if you do not want to use the default pipe
name.
If you have set a password for the root
account, deleted the anonymous account, or created a new user
account, then to connect to the MySQL server you must use the
appropriate -u
and -p
options
with the commands shown previously. See
Section 4.2.4, “Connecting to the MySQL Server Using Command Options”.
For more information about mysqlshow, see Section 4.5.7, “mysqlshow — Display Database, Table, and Column Information”.
When installing and running MySQL for the first time, you may encounter certain errors that prevent the MySQL server from starting. This section helps you diagnose and correct some of these errors.
Your first resource when troubleshooting server issues is the
error log. The MySQL server
uses the error log to record information relevant to the error
that prevents the server from starting. The error log is located
in the data directory
specified in your my.ini
file. The default
data directory location is C:\Program Files\MySQL\MySQL
Server 5.7\data
, or
C:\ProgramData\Mysql
on Windows 7 and Windows
Server 2008. The C:\ProgramData
directory is
hidden by default. You need to change your folder options to see
the directory and contents. For more information on the error log
and understanding the content, see Section 5.4.2, “The Error Log”.
For information regarding possible errors, also consult the
console messages displayed when the MySQL service is starting. Use
the SC START
mysqld_service_name
or
NET START
mysqld_service_name
command
from the command line after installing mysqld
as a service to see any error messages regarding the starting of
the MySQL server as a service. See
Section 2.3.4.8, “Starting MySQL as a Windows Service”.
The following examples show other common error messages you might encounter when installing MySQL and starting the server for the first time:
If the MySQL server cannot find the mysql
privileges database or other critical files, it displays these
messages:
System error 1067 has occurred. Fatal error: Can't open and lock privilege tables: Table 'mysql.user' doesn't exist
These messages often occur when the MySQL base or data
directories are installed in different locations than the
default locations (C:\Program Files\MySQL\MySQL
Server 5.7
and C:\Program
Files\MySQL\MySQL Server 5.7\data
,
respectively).
This situation can occur when MySQL is upgraded and installed to a new location, but the configuration file is not updated to reflect the new location. In addition, old and new configuration files might conflict. Be sure to delete or rename any old configuration files when upgrading MySQL.
If you have installed MySQL to a directory other than
C:\Program Files\MySQL\MySQL Server
5.7
, ensure that the MySQL server is
aware of this through the use of a configuration
(my.ini
) file. Put the
my.ini
file in your Windows directory,
typically C:\WINDOWS
. To determine its
exact location from the value of the WINDIR
environment variable, issue the following command from the
command prompt:
C:\> echo %WINDIR%
You can create or modify an option file with any text editor,
such as Notepad. For example, if MySQL is installed in
E:\mysql
and the data directory is
D:\MySQLdata
, you can create the option
file and set up a [mysqld]
section to
specify values for the basedir
and
datadir
options:
[mysqld] # set basedir to your installation path basedir=E:/mysql # set datadir to the location of your data directory datadir=D:/MySQLdata
Microsoft Windows path names are specified in option files using (forward) slashes rather than backslashes. If you do use backslashes, double them:
[mysqld] # set basedir to your installation path basedir=C:\\Program Files\\MySQL\\MySQL Server 5.7 # set datadir to the location of your data directory datadir=D:\\MySQLdata
The rules for use of backslash in option file values are given in Section 4.2.2.2, “Using Option Files”.
If you change the datadir
value in your MySQL
configuration file, you must move the contents of the existing
MySQL data directory before restarting the MySQL server.
If you reinstall or upgrade MySQL without first stopping and removing the existing MySQL service and install MySQL using the MySQL Installer, you might see this error:
Error: Cannot create Windows service for MySql. Error: 0
This occurs when the Configuration Wizard tries to install the service and finds an existing service with the same name.
One solution to this problem is to choose a service name other
than mysql
when using the configuration
wizard. This enables the new service to be installed
correctly, but leaves the outdated service in place. Although
this is harmless, it is best to remove old services that are
no longer in use.
To permanently remove the old mysql
service, execute the following command as a user with
administrative privileges, on the command line:
C:\> SC DELETE mysql
[SC] DeleteService SUCCESS
If the SC
utility is not available for your
version of Windows, download the delsrv
utility from
http://www.microsoft.com/windows2000/techinfo/reskit/tools/existing/delsrv-o.asp
and use the delsrv mysql
syntax.
GUI tools exist that perform most of the tasks described in this section, including:
MySQL Installer: Used to install and upgrade MySQL products.
MySQL Workbench: Manages the MySQL server and edits SQL statements.
MySQL Notifier: Starts, stops, or restarts the MySQL server, and monitors its status.
MySQL for Excel: Edits MySQL data with Microsoft Excel.
If necessary, initialize the data directory and create the MySQL
grant tables. Windows distributions prior to MySQL 5.7.7 include a
data directory with a set of preinitialized accounts in the
mysql
database. As of 5.7.7, Windows
installation operations performed by MySQL Installer initialize the data
directory automatically. For installation from a ZIP Archive
package, initialize the data directory as described at
Section 2.10.1, “Initializing the Data Directory”.
Regarding passwords, if you installed MySQL using the MySQL Installer, you
may have already assigned a password to the initial
root
account. (See
Section 2.3.3, “MySQL Installer for Windows”.) Otherwise, use the
password-assignment procedure given in
Section 2.10.4, “Securing the Initial MySQL Account”.
Before assigning a password, you might want to try running some client programs to make sure that you can connect to the server and that it is operating properly. Make sure that the server is running (see Section 2.3.4.5, “Starting the Server for the First Time”). You can also set up a MySQL service that runs automatically when Windows starts (see Section 2.3.4.8, “Starting MySQL as a Windows Service”).
These instructions assume that your current location is the MySQL
installation directory and that it has a bin
subdirectory containing the MySQL programs used here. If that is
not true, adjust the command path names accordingly.
If you installed MySQL using MySQL Installer (see
Section 2.3.3, “MySQL Installer for Windows”), the default installation
directory is C:\Program Files\MySQL\MySQL Server
5.7
:
C:\> cd "C:\Program Files\MySQL\MySQL Server 5.7"
A common installation location for installation from a ZIP archive
is C:\mysql
:
C:\> cd C:\mysql
Alternatively, add the bin
directory to your
PATH
environment variable setting. That enables
your command interpreter to find MySQL programs properly, so that
you can run a program by typing only its name, not its path name.
See Section 2.3.4.7, “Customizing the PATH for MySQL Tools”.
With the server running, issue the following commands to verify that you can retrieve information from the server. The output should be similar to that shown here.
Use mysqlshow to see what databases exist:
C:\> bin\mysqlshow
+--------------------+
| Databases |
+--------------------+
| information_schema |
| mysql |
| performance_schema |
| sys |
+--------------------+
The list of installed databases may vary, but always includes at
least mysql
and
information_schema
. Before MySQL 5.7.7, a
test
database may also be created
automatically.
The preceding command (and commands for other MySQL programs such
as mysql) may not work if the correct MySQL
account does not exist. For example, the program may fail with an
error, or you may not be able to view all databases. If you
install MySQL using MySQL Installer, the root
user is
created automatically with the password you supplied. In this
case, you should use the -u root
and
-p
options. (You must use those options if you
have already secured the initial MySQL accounts.) With
-p
, the client program prompts for the
root
password. For example:
C:\>bin\mysqlshow -u root -p
Enter password:(enter root password here)
+--------------------+ | Databases | +--------------------+ | information_schema | | mysql | | performance_schema | | sys | +--------------------+
If you specify a database name, mysqlshow displays a list of the tables within the database:
C:\> bin\mysqlshow mysql
Database: mysql
+---------------------------+
| Tables |
+---------------------------+
| columns_priv |
| db |
| engine_cost |
| event |
| func |
| general_log |
| gtid_executed |
| help_category |
| help_keyword |
| help_relation |
| help_topic |
| innodb_index_stats |
| innodb_table_stats |
| ndb_binlog_index |
| plugin |
| proc |
| procs_priv |
| proxies_priv |
| server_cost |
| servers |
| slave_master_info |
| slave_relay_log_info |
| slave_worker_info |
| slow_log |
| tables_priv |
| time_zone |
| time_zone_leap_second |
| time_zone_name |
| time_zone_transition |
| time_zone_transition_type |
| user |
+---------------------------+
Use the mysql program to select information
from a table in the mysql
database:
C:\> bin\mysql -e "SELECT User, Host, plugin FROM mysql.user" mysql
+------+-----------+-----------------------+
| User | Host | plugin |
+------+-----------+-----------------------+
| root | localhost | mysql_native_password |
+------+-----------+-----------------------+
For more information about mysql and mysqlshow, see Section 4.5.1, “mysql — The MySQL Command-Line Client”, and Section 4.5.7, “mysqlshow — Display Database, Table, and Column Information”.
The following restrictions apply to use of MySQL on the Windows platform:
Process memory
On Windows 32-bit platforms, it is not possible by default to use more than 2GB of RAM within a single process, including MySQL. This is because the physical address limit on Windows 32-bit is 4GB and the default setting within Windows is to split the virtual address space between kernel (2GB) and user/applications (2GB).
Some versions of Windows have a boot time setting to enable larger applications by reducing the kernel application. Alternatively, to use more than 2GB, use a 64-bit version of Windows.
File system aliases
When using MyISAM
tables, you cannot use
aliases within Windows link to the data files on another
volume and then link back to the main MySQL
datadir
location.
This facility is often used to move the data and index files
to a RAID or other fast solution, while retaining the main
.frm
files in the default data directory
configured with the datadir
option.
Limited number of ports
Windows systems have about 4,000 ports available for client connections, and after a connection on a port closes, it takes two to four minutes before the port can be reused. In situations where clients connect to and disconnect from the server at a high rate, it is possible for all available ports to be used up before closed ports become available again. If this happens, the MySQL server appears to be unresponsive even though it is running. Ports may be used by other applications running on the machine as well, in which case the number of ports available to MySQL is lower.
For more information about this problem, see http://support.microsoft.com/default.aspx?scid=kb;en-us;196271.
DATA DIRECTORY
and
INDEX DIRECTORY
The DATA DIRECTORY
clause of the
CREATE TABLE
statement is
supported on Windows for InnoDB
tables
only, as described in
Section 14.6.1.2, “Creating Tables Externally”. For
MyISAM
and other storage engines, the
DATA DIRECTORY
and INDEX
DIRECTORY
clauses for CREATE
TABLE
are ignored on Windows and any other platforms
with a nonfunctional realpath()
call.
You cannot drop a database that is in use by another session.
Case-insensitive names
File names are not case-sensitive on Windows, so MySQL database and table names are also not case-sensitive on Windows. The only restriction is that database and table names must be specified using the same case throughout a given statement. See Section 9.2.3, “Identifier Case Sensitivity”.
Directory and file names
On Windows, MySQL Server supports only directory and file names that are compatible with the current ANSI code pages. For example, the following Japanese directory name will not work in the Western locale (code page 1252):
datadir="C:/私たちのプロジェクトのデータ"
The same limitation applies to directory and file names
referred to in SQL statements, such as the data file path name
in LOAD DATA
.
The \
path name
separator character
Path name components in Windows are separated by the
\
character, which is also the escape
character in MySQL. If you are using LOAD
DATA
or
SELECT ... INTO
OUTFILE
, use Unix-style file names with
/
characters:
mysql>LOAD DATA INFILE 'C:/tmp/skr.txt' INTO TABLE skr;
mysql>SELECT * INTO OUTFILE 'C:/tmp/skr.txt' FROM skr;
Alternatively, you must double the \
character:
mysql>LOAD DATA INFILE 'C:\\tmp\\skr.txt' INTO TABLE skr;
mysql>SELECT * INTO OUTFILE 'C:\\tmp\\skr.txt' FROM skr;
Problems with pipes
Pipes do not work reliably from the Windows command-line
prompt. If the pipe includes the character
^Z
/ CHAR(24)
, Windows
thinks that it has encountered end-of-file and aborts the
program.
This is mainly a problem when you try to apply a binary log as follows:
C:\> mysqlbinlog binary_log_file
| mysql --user=root
If you have a problem applying the log and suspect that it is
because of a ^Z
/
CHAR(24)
character, you can use the
following workaround:
C:\>mysqlbinlog
C:\>binary_log_file
--result-file=/tmp/bin.sqlmysql --user=root --execute "source /tmp/bin.sql"
The latter command also can be used to reliably read any SQL file that may contain binary data.
For a list of macOS versions that the MySQL server supports, see https://www.mysql.com/support/supportedplatforms/database.html.
MySQL for macOS is available in a number of different forms:
Native Package Installer, which uses the native macOS installer (DMG) to walk you through the installation of MySQL. For more information, see Section 2.4.2, “Installing MySQL on macOS Using Native Packages”. You can use the package installer with macOS. The user you use to perform the installation must have administrator privileges.
Compressed TAR archive, which uses a file packaged using the Unix tar and gzip commands. To use this method, you will need to open a Terminal window. You do not need administrator privileges using this method, as you can install the MySQL server anywhere using this method. For more information on using this method, you can use the generic instructions for using a tarball, Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”.
In addition to the core installation, the Package Installer also includes Section 2.4.3, “Installing a MySQL Launch Daemon” and Section 2.4.4, “Installing and Using the MySQL Preference Pane”, both of which simplify the management of your installation.
For additional information on using MySQL on macOS, see Section 2.4.1, “General Notes on Installing MySQL on macOS”.
You should keep the following issues and notes in mind:
As of macOS 10.14 (Majave), the macOS MySQL 5.7 Installer application requires permission to control System Events so it can display a generated (temporary) MySQL root password. Choosing "Don't Allow" means this password won't be visible for use.
If previously disallowed, the fix is enabling System Events.app for Installer.app under the Security & Privacy | Automation | Privacy tab.
A launchd daemon is installed, and it includes MySQL configuration options. Consider editing it if needed, see the documentation below for additional information. Also, macOS 10.10 removed startup item support in favor of launchd daemons. The optional MySQL preference pane under macOS System Preferences uses the launchd daemon.
You may need (or want) to create a specific
mysql
user to own the MySQL directory and
data. You can do this through the Directory
Utility, and the mysql
user
should already exist. For use in single user mode, an entry
for _mysql
(note the underscore prefix)
should already exist within the system
/etc/passwd
file.
Because the MySQL package installer installs the MySQL
contents into a version and platform specific directory, you
can use this to upgrade and migrate your database between
versions. You will need to either copy the
data
directory from the old version to
the new version, or alternatively specify an alternative
datadir
value to set location of the data
directory. By default, the MySQL directories are installed
under /usr/local/
.
You might want to add aliases to your shell's resource file to make it easier to access commonly used programs such as mysql and mysqladmin from the command line. The syntax for bash is:
alias mysql=/usr/local/mysql/bin/mysql alias mysqladmin=/usr/local/mysql/bin/mysqladmin
For tcsh, use:
alias mysql /usr/local/mysql/bin/mysql alias mysqladmin /usr/local/mysql/bin/mysqladmin
Even better, add /usr/local/mysql/bin
to
your PATH
environment variable. You can do
this by modifying the appropriate startup file for your shell.
For more information, see Section 4.2.1, “Invoking MySQL Programs”.
After you have copied over the MySQL database files from the
previous installation and have successfully started the new
server, you should consider removing the old installation
files to save disk space. Additionally, you should also remove
older versions of the Package Receipt directories located in
/Library/Receipts/mysql-
.
VERSION
.pkg
Prior to OS X 10.7, MySQL server was bundled with OS X Server.
The package is located inside a disk image
(.dmg
) file that you first need to mount by
double-clicking its icon in the Finder. It should then mount the
image and display its contents.
Before proceeding with the installation, be sure to stop all running MySQL server instances by using either the MySQL Manager Application (on macOS Server), the preference pane, or mysqladmin shutdown on the command line.
To install MySQL using the package installer:
Download the disk image (.dmg
) file (the
community version is available
here) that
contains the MySQL package installer. Double-click the file to
mount the disk image and see its contents.
Double-click the MySQL installer package from the disk. It is
named according to the version of MySQL you have downloaded.
For example, for MySQL server 5.7.30 it might be
named
mysql-5.7.30-osx-
.
10.13-x86_64
.pkg
The initial wizard introduction screen references the MySQL server version to install. Click
to begin the installation.The MySQL community edition shows a copy of the relevant GNU General Public License. Click
and then to continue.From the Installation Type page you can either click to execute the installation wizard using all defaults, click to alter which components to install (MySQL server, Preference Pane, Launchd Support -- all enabled by default).
Although the
option is visible, the installation location cannot be changed.Click
to begin the installation process.After a successful installation, the installer displays a window with your temporary root password. This cannot be recovered so you must save this password for the initial login to MySQL. For example:
MySQL expires this temporary root password after the initial login and requires you to create a new password.
Summary is the final step and references a successful and complete MySQL Server installation. the wizard.
MySQL server is now installed, but it is not loaded (or started) by default. Use either launchctl from the command line, or start MySQL by clicking "Start" using the MySQL preference pane. For additional information, see Section 2.4.3, “Installing a MySQL Launch Daemon”, and Section 2.4.4, “Installing and Using the MySQL Preference Pane”. Use the MySQL Preference Pane or launchd to configure MySQL to automatically start at bootup.
When installing using the package installer, the files are
installed into a directory within /usr/local
matching the name of the installation version and platform. For
example, the installer file
mysql-5.7.30-
installs MySQL into
osx10.13-x86_64.dmg
/usr/local/mysql-5.7.30-osx10.13-x86_64/
. The following table shows the layout of the
installation directory.
Table 2.6 MySQL Installation Layout on macOS
Directory | Contents of Directory |
---|---|
bin |
mysqld server, client and utility programs |
data |
Log files, databases |
docs |
Helper documents, like the Release Notes and build information |
include |
Include (header) files |
lib |
Libraries |
man |
Unix manual pages |
mysql-test |
MySQL test suite |
share |
Miscellaneous support files, including error messages, sample configuration files, SQL for database installation |
support-files |
Scripts and sample configuration files |
/tmp/mysql.sock |
Location of the MySQL Unix socket |
During the package installer process, a symbolic link from
/usr/local/mysql
to the version/platform
specific directory created during installation will be created
automatically.
macOS uses launch daemons to automatically start, stop, and manage processes and applications such as MySQL.
By default, the installation package (DMG) on macOS installs a
launchd file named
/Library/LaunchDaemons/com.oracle.oss.mysql.mysqld.plist
that contains a plist definition similar to:
<?xml version="1.0" encoding="utf-8"?> <!DOCTYPE plist PUBLIC "-//Apple Computer//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd"> <plist version="1.0"> <dict> <key>Label</key> <string>com.oracle.oss.mysql.mysqld</string> <key>ProcessType</key> <string>Interactive</string> <key>Disabled</key> <false/> <key>RunAtLoad</key> <true/> <key>KeepAlive</key> <true/> <key>SessionCreate</key> <true/> <key>LaunchOnlyOnce</key> <false/> <key>UserName</key> <string>_mysql</string> <key>GroupName</key> <string>_mysql</string> <key>ExitTimeOut</key> <integer>600</integer> <key>Program</key> <string>/usr/local/mysql/bin/mysqld</string> <key>ProgramArguments</key> <array> <string>/usr/local/mysql/bin/mysqld</string> <string>--user=_mysql</string> <string>--basedir=/usr/local/mysql</string> <string>--datadir=/usr/local/mysql/data</string> <string>--plugin-dir=/usr/local/mysql/lib/plugin</string> <string>--log-error=/usr/local/mysql/data/mysqld.local.err</string> <string>--pid-file=/usr/local/mysql/data/mysqld.local.pid</string> </array> <key>WorkingDirectory</key> <string>/usr/local/mysql</string> </dict> </plist>
Some users report that adding a plist DOCTYPE declaration causes the launchd operation to fail, despite it passing the lint check. We suspect it's a copy-n-paste error. The md5 checksum of a file containing the above snippet is 24710a27dc7a28fb7ee6d825129cd3cf.
To enable the launchd service, you can either:
Click
from the MySQL preference pane.Or, manually load the launchd file.
shell> cd /Library/LaunchDaemons shell> sudo launchctl load -F com.oracle.oss.mysql.mysqld.plist
To configure MySQL to automatically start at bootup, you can:
shell> sudo launchctl load -w com.oracle.oss.mysql.mysqld.plist
When upgrading MySQL server, the launchd installation process will remove the old startup items that were installed with MySQL server 5.7.7 and below.
Also, upgrading will replace your existing launchd file of the same name.
Additional launchd related information:
The plist entries override my.cnf
entries, because they are passed in as command line arguments.
For additional information about passing in program options,
see Section 4.2.2, “Specifying Program Options”.
The ProgramArguments section
defines the command line options that are passed into the
program, which is the mysqld
binary in
this case.
The default plist definition is written with less
sophisticated use cases in mind. For more complicated setups,
you may want to remove some of the arguments and instead rely
on a MySQL configuration file, such as
my.cnf
.
If you edit the plist file, then uncheck the installer option when reinstalling or upgrading MySQL. Otherwise, your edited plist file will be overwritten, and all edits will be lost.
Because the default plist definition defines several
ProgramArguments, you might
remove most of these arguments and instead rely upon your
my.cnf
MySQL configuration file to define
them. For example:
<?xml version="1.0" encoding="utf-8"?> <!DOCTYPE plist PUBLIC "-//Apple Computer//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd"> <plist version="1.0"> <dict> <key>Label</key> <string>com.oracle.oss.mysql.mysqld</string> <key>ProcessType</key> <string>Interactive</string> <key>Disabled</key> <false/> <key>RunAtLoad</key> <true/> <key>KeepAlive</key> <true/> <key>SessionCreate</key> <true/> <key>LaunchOnlyOnce</key> <false/> <key>UserName</key> <string>_mysql</string> <key>GroupName</key> <string>_mysql</string> <key>ExitTimeOut</key> <integer>600</integer> <key>Program</key> <string>/usr/local/mysql/bin/mysqld</string> <key>WorkingDirectory</key> <string>/usr/local/mysql</string> <key>ProgramArguments</key> <array> <string>/usr/local/mysql/bin/mysqld</string> <string>--user=_mysql</string> </array> </dict> </plist>
In this case, the basedir
,
datadir
,
plugin_dir
,
log_error
, and
pid_file
options were removed
from the plist definition, and then you you might define them in
my.cnf
.
The MySQL Installation Package includes a MySQL preference pane that enables you to start, stop, and control automated startup during boot of your MySQL installation.
This preference pane is installed by default, and is listed under your system's System Preferences window.
To install the MySQL Preference Pane:
Download the disk image (.dmg
) file (the
community version is available
here) that
contains the MySQL package installer. Double-click the file to
mount the disk image and see its contents.
Go through the process of installing the MySQL server, as described in the documentation at Section 2.4.2, “Installing MySQL on macOS Using Native Packages”.
Click Installation Type step. The "Preference Pane" option is listed there and enabled by default; make sure it is not deselected.
at theComplete the MySQL server installation process.
The MySQL preference pane only starts and stops MySQL installation installed from the MySQL package installation that have been installed in the default location.
Once the MySQL preference pane has been installed, you can control your MySQL server instance using the preference pane. To use the preference pane, open the System Preferences... from the Apple menu. Select the MySQL preference pane by clicking the MySQL icon within the preference panes list.
The MySQL Preference Pane shows the current status of the MySQL server, showing stopped (in red) if the server is not running and running (in green) if the server has already been started. The preference pane also shows the current setting for whether the MySQL server has been set to start automatically.
To start the MySQL server using the preference pane:
Click
. You may be prompted for the username and password of a user with administrator privileges to start the MySQL server.To stop the MySQL server using the preference pane:
Click
. You may be prompted for the username and password of a user with administrator privileges to stop the MySQL server.To automatically start the MySQL server when the system boots:
Check the check box next to Automatically Start MySQL Server on Startup.
To disable automatic MySQL server startup when the system boots:
Uncheck the check box next to Automatically Start MySQL Server on Startup.
You can close the System Preferences... window once you have completed your settings.
Linux supports a number of different solutions for installing MySQL. We recommend that you use one of the distributions from Oracle, for which several methods for installation are available:
Table 2.7 Linux Installation Methods and Information
Type | Setup Method | Additional Information |
---|---|---|
Apt | Enable the MySQL Apt repository | Documentation |
Yum | Enable the MySQL Yum repository | Documentation |
Zypper | Enable the MySQL SLES repository | Documentation |
RPM | Download a specific package | Documentation |
DEB | Download a specific package | Documentation |
Generic | Download a generic package | Documentation |
Source | Compile from source | Documentation |
Docker | Use Docker Hub for MySQL Community Edition; download Docker image for MySQL Enterprise Edition from My Oracle Support | Documentation |
Oracle Unbreakable Linux Network | Use ULN channels | Documentation |
As an alternative, you can use the package manager on your system to automatically download and install MySQL with packages from the native software repositories of your Linux distribution. These native packages are often several versions behind the currently available release. You will also normally be unable to install development milestone releases (DMRs), as these are not usually made available in the native repositories. For more information on using the native package installers, see Section 2.5.8, “Installing MySQL on Linux from the Native Software Repositories”.
For many Linux installations, you will want to set up MySQL to be
started automatically when your machine starts. Many of the native
package installations perform this operation for you, but for
source, binary and RPM solutions you may need to set this up
separately. The required script, mysql.server,
can be found in the support-files
directory
under the MySQL installation directory or in a MySQL source tree.
You can install it as /etc/init.d/mysql
for
automatic MySQL startup and shutdown. See
Section 4.3.3, “mysql.server — MySQL Server Startup Script”.
The MySQL Yum repository for Oracle Linux, Red Hat Enterprise Linux, CentOS, and Fedora provides RPM packages for installing the MySQL server, client, MySQL Workbench, MySQL Utilities, MySQL Router, MySQL Shell, Connector/ODBC, Connector/Python and so on (not all packages are available for all the distributions; see Installing Additional MySQL Products and Components with Yum for details).
As a popular, open-source software, MySQL, in its original or re-packaged form, is widely installed on many systems from various sources, including different software download sites, software repositories, and so on. The following instructions assume that MySQL is not already installed on your system using a third-party-distributed RPM package; if that is not the case, follow the instructions given in Section 2.11.5, “Upgrading MySQL with the MySQL Yum Repository” or Section 2.5.2, “Replacing a Third-Party Distribution of MySQL Using the MySQL Yum Repository”.
Follow the steps below to install the latest GA version of MySQL with the MySQL Yum repository:
First, add the MySQL Yum repository to your system's repository list. This is a one-time operation, which can be performed by installing an RPM provided by MySQL. Follow these steps:
Go to the Download MySQL Yum Repository page (https://dev.mysql.com/downloads/repo/yum/) in the MySQL Developer Zone.
Select and download the release package for your platform.
Install the downloaded release package with the following
command, replacing
platform-and-version-specific-package-name
with the name of the downloaded RPM package:
shell> sudo yum localinstall platform-and-version-specific-package-name
.rpm
For an EL6-based system, the command is in the form of:
shell> sudo yum localinstall mysql57-community-release-el6-{version-number}
.noarch.rpm
For an EL7-based system:
shell> sudo yum localinstall mysql57-community-release-el7-{version-number}
.noarch.rpm
For an EL8-based system:
shell> sudo yum localinstall mysql57-community-release-el8-{version-number}
.noarch.rpm
For Fedora 29:
shell> sudo dnf install mysql57-community-release-fc29-{version-number}
.noarch.rpm
For Fedora 30:
shell> sudo dnf install mysql57-community-release-fc30-{version-number}
.noarch.rpm
For Fedora 31:
shell> sudo dnf install mysql57-community-release-fc31-{version-number}
.noarch.rpm
The installation command adds the MySQL Yum repository to your system's repository list and downloads the GnuPG key to check the integrity of the software packages. See Section 2.1.3.2, “Signature Checking Using GnuPG” for details on GnuPG key checking.
You can check that the MySQL Yum repository has been successfully added by the following command (for Fedora, replace yum in the command with dnf):
shell> yum repolist enabled | grep "mysql.*-community.*"
Once the MySQL Yum repository is enabled on your system, any system-wide update by the yum update command (or dnf upgrade for Fedora) will upgrade MySQL packages on your system and also replace any native third-party packages, if Yum finds replacements for them in the MySQL Yum repository; see Section 2.11.5, “Upgrading MySQL with the MySQL Yum Repository” and, for a discussion on some possible effects of that on your system, see Upgrading the Shared Client Libraries.
When using the MySQL Yum repository, the latest GA series (currently MySQL 5.7) is selected for installation by default. If this is what you want, you can skip to the next step, Installing MySQL.
Within the MySQL Yum repository, different release series of the MySQL Community Server are hosted in different subrepositories. The subrepository for the latest GA series (currently MySQL 5.7) is enabled by default, and the subrepositories for all other series (for example, the MySQL 5.6 series) are disabled by default. Use this command to see all the subrepositories in the MySQL Yum repository, and see which of them are enabled or disabled (for Fedora, replace yum in the command with dnf):
shell> yum repolist all | grep mysql
To install the latest release from the latest GA series, no configuration is needed. To install the latest release from a specific series other than the latest GA series, disable the subrepository for the latest GA series and enable the subrepository for the specific series before running the installation command. If your platform supports yum-config-manager, you can do that by issuing these commands, which disable the subrepository for the 5.7 series and enable the one for the 5.6 series:
shell>sudo yum-config-manager --disable mysql57-community
shell>sudo yum-config-manager --enable mysql56-community
For Fedora platforms:
shell>sudo dnf config-manager --disable mysql57-community
shell>sudo dnf config-manager --enable mysql56-community
Besides using yum-config-manager or the
dnf config-manager command, you can also
select a release series by editing manually the
/etc/yum.repos.d/mysql-community.repo
file. This is a typical entry for a release series'
subrepository in the file:
[mysql57-community] name=MySQL 5.7 Community Server baseurl=http://repo.mysql.com/yum/mysql-5.7-community/el/6/$basearch/ enabled=1 gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-mysql
Find the entry for the subrepository you want to configure,
and edit the enabled
option. Specify
enabled=0
to disable a subrepository, or
enabled=1
to enable a subrepository. For
example, to install MySQL 5.6, make sure you have
enabled=0
for the above subrepository entry
for MySQL 5.7, and have enabled=1
for the
entry for the 5.6 series:
# Enable to use MySQL 5.6 [mysql56-community] name=MySQL 5.6 Community Server baseurl=http://repo.mysql.com/yum/mysql-5.6-community/el/6/$basearch/ enabled=1 gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-mysql
You should only enable subrepository for one release series at any time. When subrepositories for more than one release series are enabled, the latest series will be used by Yum.
Verify that the correct subrepositories have been enabled and disabled by running the following command and checking its output (for Fedora, replace yum in the command with dnf):
shell> yum repolist enabled | grep mysql
(EL8 systems only) EL8-based systems such as RHEL8 and Oracle Linux 8 include a MySQL module that is enabled by default. Unless this module is disabled, it masks packages provided by MySQL repositories. To disable the included module and make the MySQL repository packages visible, use the following command (for dnf-enabled systems, replace yum in the command with dnf):
shell> sudo yum module disable mysql
Install MySQL by the following command (for Fedora, replace yum in the command with dnf):
shell> sudo yum install mysql-community-server
This installs the package for MySQL server
(mysql-community-server
) and also
packages for the components required to run the server,
including packages for the client
(mysql-community-client
), the common
error messages and character sets for client and server
(mysql-community-common
), and the shared
client libraries (mysql-community-libs
).
Start the MySQL server with the following command:
shell> sudo service mysqld start
Starting mysqld:[ OK ]
You can check the status of the MySQL server with the following command:
shell> sudo service mysqld status
mysqld (pid 3066) is running.
At the initial start up of the server, the following happens, given that the data directory of the server is empty:
The server is initialized.
SSL certificate and key files are generated in the data directory.
validate_password
is installed and enabled.
A superuser account 'root'@'localhost
is
created. A password for the superuser is set and stored in the
error log file. To reveal it, use the following command:
shell> sudo grep 'temporary password' /var/log/mysqld.log
Change the root password as soon as possible by logging in with the generated, temporary password and set a custom password for the superuser account:
shell> mysql -uroot -p
mysql> ALTER USER 'root'@'localhost' IDENTIFIED BY 'MyNewPass4!';
validate_password
is installed by default. The default password policy
implemented by validate_password
requires
that passwords contain at least one uppercase letter, one
lowercase letter, one digit, and one special character, and
that the total password length is at least 8 characters.
For more information on the postinstallation procedures, see Section 2.10, “Postinstallation Setup and Testing”.
Compatibility Information for EL7-based platforms: The following RPM packages from the native software repositories of the platforms are incompatible with the package from the MySQL Yum repository that installs the MySQL server. Once you have installed MySQL using the MySQL Yum repository, you will not be able to install these packages (and vice versa).
akonadi-mysql
You can use Yum to install and manage individual components of MySQL. Some of these components are hosted in sub-repositories of the MySQL Yum repository: for example, the MySQL Connectors are to be found in the MySQL Connectors Community sub-repository, and the MySQL Workbench in MySQL Tools Community. You can use the following command to list the packages for all the MySQL components available for your platform from the MySQL Yum repository (for Fedora, replace yum in the command with dnf):
shell> sudo yum --disablerepo=\* --enablerepo='mysql*-community*' list available
Install any packages of your choice with the following command,
replacing package-name
with name of the
package (for Fedora, replace yum in the command
with dnf):
shell> sudo yum install package-name
For example, to install MySQL Workbench on Fedora:
shell> sudo dnf install mysql-workbench-community
To install the shared client libraries (for Fedora, replace yum in the command with dnf):
shell> sudo yum install mysql-community-libs
Besides installation, you can also perform updates for MySQL products and components using the MySQL Yum repository. See Section 2.11.5, “Upgrading MySQL with the MySQL Yum Repository” for details.
For supported Yum-based platforms (see Section 2.5.1, “Installing MySQL on Linux Using the MySQL Yum Repository”, for a list), you can replace a third-party distribution of MySQL with the latest GA release (from the MySQL 5.7 series currently) from the MySQL Yum repository. According to how your third-party distribution of MySQL was installed, there are different steps to follow:
If you have installed a third-party distribution of MySQL from a native software repository (that is, a software repository provided by your own Linux distribution), follow these steps:
To avoid loss of data, always back up your database before trying to replace your MySQL installation using the MySQL Yum repository. See Chapter 7, Backup and Recovery, on how to back up your database.
Add the MySQL Yum repository to your system's repository list by following the instructions given in Adding the MySQL Yum Repository.
By design, the MySQL Yum repository will replace your native, third-party MySQL with the latest GA release (from the MySQL 5.7 series currently) from the MySQL Yum repository when you perform a yum update command (or dnf upgrade for Fedora) on the system, or a yum update mysql-server (or dnf upgrade mysql-server for Fedora).
After updating MySQL using the Yum repository, applications compiled with older versions of the shared client libraries should continue to work. However, if you want to recompile applications and dynamically link them with the updated libraries, see Upgrading the Shared Client Libraries, for some special considerations.
If you have installed a third-party distribution of MySQL from a nonnative software repository (that is, a software repository not provided by your own Linux distribution), follow these steps:
To avoid loss of data, always back up your database before trying to replace your MySQL installation using the MySQL Yum repository. See Chapter 7, Backup and Recovery, on how to back up your database.
Before you can use the MySQL Yum repository for installing MySQL, you must stop your system from receiving MySQL packages from any third-party, nonnative Yum repositories.
For example, if you have installed MariaDB using their own software repository, get a list of the installed MariaDB packages using the following command (for Fedora, replace yum in the command with dnf):
shell> yum list installed mariadb\*
MariaDB-common.i686 10.0.4-1 @mariadb
MariaDB-compat.i686 10.0.4-1 @mariadb
MariaDB-server.i686 10.0.4-1 @mariadb
From the command output, we can identify the installed
packages (MariaDB-common
,
MariaDB-compat
, and
MariaDB-server
) and the source of them (a
nonnative software repository named
mariadb
).
As another example, if you have installed Percona using their own software repository, get a list of the installed Percona packages using the following command (for Fedora, replace yum in the command with dnf):
shell> yum list installed Percona\*
Percona-Server-client-55.i686 5.5.39-rel36.0.el6 @percona-release-i386
Percona-Server-server-55.i686 5.5.39-rel36.0.el6 @percona-release-i386
Percona-Server-shared-55.i686 5.5.39-rel36.0.el6 @percona-release-i386
percona-release.noarch 0.1-3 @/percona-release-0.1-3.noarch
From the command output, we can identify the installed
packages (Percona-Server-client
,
Percona-Server-server
,
Percona-Server-shared
, and
percona-release.noarch
) and the source of
them (a nonnative software repository named
percona-release
).
If you are not sure which third-party MySQL fork you have installed, this command should reveal it and list the RPM packages installed for it, as well as the third-party repository that supplies the packages (for Fedora, replace yum in the command with dnf):
shell> yum --disablerepo=\* provides mysql\*
The next step is to stop Yum from receiving packages from the nonnative repository. If the yum-config-manager utility is supported on your platform, you can, for example, use this command for stopping delivery from MariaDB (on Fedora, use the dnf config-manager command instead of yum-config-manager):
shell> sudo yum-config-manager --disable mariadb
Use this command for stopping delivery from Percona (on Fedora, use the dnf config-manager command instead of yum-config-manager):
shell> sudo yum-config-manager --disable percona-release
You can perform the same task by removing the entry for the
software repository existing in one of the repository files
under the /etc/yum.repos.d/
directory.
This is how the entry typically looks for MariaDB:
[mariadb] name = MariaDB baseurl =[base URL for repository]
gpgkey =[URL for GPG key]
gpgcheck =1
The entry is usually found in the file
/etc/yum.repos.d/MariaDB.repo
for
MariaDB—delete the file, or remove entry from it (or
from the file in which you find the entry).
This step is not necessary for an installation that was
configured with a Yum repository release package (like
Percona) if you are going to remove the release package
(percona-release.noarch
for Percona),
as shown in the uninstall command for Percona in Step 3
below.
The nonnative third-party MySQL distribution must first be uninstalled before you can use the MySQL Yum repository to install MySQL. For the MariaDB packages found in Step 2 above, uninstall them with the following command (for Fedora, replace yum in the command with dnf):
shell> sudo yum remove MariaDB-common MariaDB-compat MariaDB-server
For the Percona packages we found in Step 2 above (for Fedora, replace yum in the command with dnf):
shell> sudo yum remove Percona-Server-client-55 Percona-Server-server-55 \
Percona-Server-shared-55.i686 percona-release
Then, install MySQL with the MySQL Yum repository by following the instructions given in Section 2.5.1, “Installing MySQL on Linux Using the MySQL Yum Repository”: .
If you have chosen to replace your third-party MySQL distribution with a newer version of MySQL from the MySQL Yum repository, remember to run mysql_upgrade after the server starts, to check and possibly resolve any incompatibilities between the old data and the upgraded software. mysql_upgrade also performs other functions; see Section 4.4.7, “mysql_upgrade — Check and Upgrade MySQL Tables” for details.
For EL7-based platforms: See Compatibility Information for EL7-based platforms.
The MySQL APT repository provides deb
packages for installing and managing the MySQL server, client, and
other components on the current Debian and Ubuntu releases.
Instructions for using the MySQL APT Repository are available in A Quick Guide to Using the MySQL APT Repository.
The MySQL SLES repository provides RPM packages for installing and managing the MySQL server, client, and other components on SUSE Enterprise Linux Server.
Instructions for using the MySQL SLES repository are available in A Quick Guide to Using the MySQL SLES Repository.
The recommended way to install MySQL on RPM-based Linux distributions is by using the RPM packages provided by Oracle. There are two sources for obtaining them, for the Community Edition of MySQL:
From the MySQL software repositories:
The MySQL Yum repository (see Section 2.5.1, “Installing MySQL on Linux Using the MySQL Yum Repository” for details).
The MySQL SLES repository (see Section 2.5.4, “Installing MySQL on Linux Using the MySQL SLES Repository” for details).
From the Download MySQL Community Server page in the MySQL Developer Zone.
RPM distributions of MySQL are also provided by other vendors. Be aware that they may differ from those built by Oracle in features, capabilities, and conventions (including communication setup), and that the installation instructions in this manual do not necessarily apply to them. The vendor's instructions should be consulted instead.
If you have such a third-party distribution of MySQL running on your system and now want to migrate to Oracle's distribution using the RPM packages downloaded from the MySQL Developer Zone, see Compatibility with RPM Packages from Other Vendors below. The preferred method of migration, however, is to use the MySQL Yum repository or MySQL SLES repository.
RPM packages for MySQL are listed in the following tables:
Table 2.8 RPM Packages for MySQL Community Edition
Package Name | Summary |
---|---|
mysql-community-server |
Database server and related tools |
mysql-community-client |
MySQL client applications and tools |
mysql-community-common |
Common files for server and client libraries |
mysql-community-devel |
Development header files and libraries for MySQL database client applications |
mysql-community-libs |
Shared libraries for MySQL database client applications |
mysql-community-libs-compat |
Shared compatibility libraries for previous MySQL installations |
mysql-community-embedded |
MySQL embedded library |
mysql-community-embedded-devel |
Development header files and libraries for MySQL as an embeddable library |
mysql-community-test |
Test suite for the MySQL server |
Table 2.9 RPM Packages for the MySQL Enterprise Edition
Package Name | Summary |
---|---|
mysql-commercial-server |
Database server and related tools |
mysql-commercial-client |
MySQL client applications and tools |
mysql-commercial-common |
Common files for server and client libraries |
mysql-commercial-devel |
Development header files and libraries for MySQL database client applications |
mysql-commercial-libs |
Shared libraries for MySQL database client applications |
mysql-commercial-libs-compat |
Shared compatibility libraries for previous MySQL installations |
mysql-commercial-embedded |
MySQL embedded library |
mysql-commercial-embedded-devel |
Development header files and libraries for MySQL as an embeddable library |
mysql-commercial-test |
Test suite for the MySQL server |
The full names for the RPMs have the following syntax:
packagename
-version
-distribution
-arch
.rpm
The distribution
and
arch
values indicate the Linux
distribution and the processor type for which the package was
built. See the table below for lists of the distribution
identifiers:
Table 2.10 MySQL Linux RPM Package Distribution Identifiers
distribution Value | Intended Use |
---|---|
el{version} where
{version} is the major Enterprise
Linux version, such as el8 |
EL6, EL7, and EL8-based platforms (for example, the corresponding versions of Oracle Linux, Red Hat Enterprise Linux, and CentOS) |
fc{version} where
{version} is the major Fedora
version, such as fc31 |
Fedora 30 and 31 |
sles12 |
SUSE Linux Enterprise Server 12 |
To see all files in an RPM package (for example,
mysql-community-server
), use the following
command:
shell> rpm -qpl mysql-community-server-version
-distribution
-arch
.rpm
The discussion in the rest of this section applies only to an installation process using the RPM packages directly downloaded from Oracle, instead of through a MySQL repository.
Dependency relationships exist among some of the packages. If you plan to install many of the packages, you may wish to download the RPM bundle tar file instead, which contains all the RPM packages listed above, so that you need not download them separately.
In most cases, you need to install the
mysql-community-server
,
mysql-community-client
,
mysql-community-libs
,
mysql-community-common
, and
mysql-community-libs-compat
packages to get a
functional, standard MySQL installation. To perform such a
standard, basic installation, go to the folder that contains all
those packages (and, preferably, no other RPM packages with
similar names), and issue the following command for platforms
other than Red Hat Enterprise Linux/Oracle
Linux/CentOS:
shell> sudo yum install mysql-community-{server,client,common,libs}-*
Replace yum with zypper for SLES, and with dnf for Fedora.
For Red Hat Enterprise Linux/Oracle Linux/CentOS systems:
shell> sudo yum install mysql-community-{server,client,common,libs}-* mysql-5.*
While it is much preferable to use a high-level package management tool like yum to install the packages, users who prefer direct rpm commands can replace the yum install command with the rpm -Uvh command; however, using rpm -Uvh instead makes the installation process more prone to failure, due to potential dependency issues the installation process might run into.
To install only the client programs, you can skip
mysql-community-server
in your list of packages
to install; issue the following command for platforms
other than Red Hat Enterprise Linux/Oracle
Linux/CentOS:
shell> sudo yum install mysql-community-{client,common,libs}-*
Replace yum with zypper for SLES, and with dnf for Fedora.
For Red Hat Enterprise Linux/Oracle Linux/CentOS systems:
shell> sudo yum install mysql-community-{client,common,libs}-* mysql-5.*
A standard installation of MySQL using the RPM packages result in files and resources created under the system directories, shown in the following table.
Table 2.11 MySQL Installation Layout for Linux RPM Packages from the MySQL Developer Zone
Files or Resources | Location |
---|---|
Client programs and scripts | /usr/bin |
mysqld server | /usr/sbin |
Configuration file | /etc/my.cnf |
Data directory | /var/lib/mysql |
Error log file |
For RHEL, Oracle Linux, CentOS or Fedora platforms:
For SLES: |
Value of secure_file_priv |
/var/lib/mysql-files |
System V init script |
For RHEL, Oracle Linux, CentOS or Fedora platforms:
For SLES: |
Systemd service |
For RHEL, Oracle Linux, CentOS or Fedora platforms:
For SLES: |
Pid file | /var/run/mysql/mysqld.pid |
Socket | /var/lib/mysql/mysql.sock |
Keyring directory | /var/lib/mysql-keyring |
Unix manual pages | /usr/share/man |
Include (header) files | /usr/include/mysql |
Libraries | /usr/lib/mysql |
Miscellaneous support files (for example, error messages, and character set files) | /usr/share/mysql |
The installation also creates a user named
mysql
and a group named
mysql
on the system.
Installation of previous versions of MySQL using older packages
might have created a configuration file named
/usr/my.cnf
. It is highly recommended that
you examine the contents of the file and migrate the desired
settings inside to the file /etc/my.cnf
file, then remove /usr/my.cnf
.
MySQL is not automatically started at the end of the installation process. For Red Hat Enterprise Linux, Oracle Linux, CentOS, and Fedora systems, use the following command to start MySQL:
shell> sudo service mysqld start
For SLES systems, the command is the same, but the service name is different:
shell> sudo service mysql start
If the operating system is systemd enabled, standard
service commands such as
stop, start,
status and restart should be
used to manage the MySQL server service. The
mysqld
service is enabled by default, and it
starts at system reboot. Notice that certain things might work
differently on systemd platforms: for example, changing the
location of the data directory might cause issues. See
Section 2.5.10, “Managing MySQL Server with systemd” for additional information.
During an upgrade installation using RPM packages, if the MySQL server is running when the upgrade occurs then the MySQL server is stopped, the upgrade occurs, and the MySQL server is restarted. One exception: if the edition also changes during an upgrade (such as community to commercial, or vice-versa), then MySQL server is not restarted.
At the initial start up of the server, the following happens, given that the data directory of the server is empty:
The server is initialized.
An SSL certificate and key files are generated in the data directory.
validate_password
is installed and enabled.
A superuser account 'root'@'localhost'
is
created. A password for the superuser is set and stored in the
error log file. To reveal it, use the following command for
RHEL, Oracle Linux, CentOS, and Fedora systems:
shell> sudo grep 'temporary password' /var/log/mysqld.log
Use the following command for SLES systems:
shell> sudo grep 'temporary password' /var/log/mysql/mysqld.log
The next step is to log in with the generated, temporary password and set a custom password for the superuser account:
shell> mysql -uroot -p
mysql> ALTER USER 'root'@'localhost' IDENTIFIED BY 'MyNewPass4!';
validate_password
is installed by default. The default password policy implemented
by validate_password
requires that passwords
contain at least one uppercase letter, one lowercase letter, one
digit, and one special character, and that the total password
length is at least 8 characters.
If something goes wrong during installation, you might find debug
information in the error log file
/var/log/mysqld.log
.
For some Linux distributions, it might be necessary to increase the limit on number of file descriptors available to mysqld. See Section B.4.2.17, “File Not Found and Similar Errors”
Compatibility with RPM Packages from Other Vendors.
If you have installed packages for MySQL from your Linux
distribution's local software repository, it is much preferable
to install the new, directly-downloaded packages from Oracle
using the package management system of your platform
(yum, dnf, or
zypper), as described above. The command
replaces old packages with new ones to ensure compatibility of
old applications with the new installation; for example, the old
mysql-libs
package is replaced with the
mysql-community-libs-compat
package, which
provides a replacement-compatible client library for
applications that were using your older MySQL installation. If
there was an older version of
mysql-community-libs-compat
on the system, it
also gets replaced.
If you have installed third-party packages for MySQL that are NOT from your Linux distribution's local software repository (for example, packages directly downloaded from a vendor other than Oracle), you should uninstall all those packages before installing the new, directly-downloaded packages from Oracle. This is because conflicts may arise between those vendor's RPM packages and Oracle's: for example, a vendor's convention about which files belong with the server and which belong with the client library may differ from that used for Oracle packages. Attempts to install an Oracle RPM may then result in messages saying that files in the RPM to be installed conflict with files from an installed package.
Installing Client Libraries from Multiple MySQL Versions.
It is possible to install multiple client library versions, such
as for the case that you want to maintain compatibility with
older applications linked against previous libraries. To install
an older client library, use the --oldpackage
option with rpm. For example, to install
mysql-community-libs-5.5
on an EL6 system
that has libmysqlclient.20
from MySQL 5.7,
use a command like this:
shell> rpm --oldpackage -ivh mysql-community-libs-5.5.50-2.el6.x86_64.rpm
Debug Package.
A special variant of MySQL Server compiled with the
debug package has been
included in the server RPM packages. It performs debugging and
memory allocation checks and produces a trace file when the
server is running. To use that debug version, start MySQL with
/usr/sbin/mysqld-debug
, instead of starting
it as a service or with /usr/sbin/mysqld
.
See Section 28.5.3, “The DBUG Package” for the debug options you can
use.
The default plugin directory for debug builds changed from
/usr/lib64/mysql/plugin
to
/usr/lib64/mysql/plugin/debug
in 5.7.21.
Previously, it was necessary to change
plugin_dir
to
/usr/lib64/mysql/plugin/debug
for debug
builds.
Rebuilding RPMs from source SRPMs. Source code SRPM packages for MySQL are available for download. They can be used as-is to rebuild the MySQL RPMs with the standard rpmbuild tool chain.
root
passwords for pre-GA releases.
For MySQL 5.7.4 and 5.7.5, the initial random
root
password is written to the
.mysql_secret
file in the directory named
by the HOME
environment variable. When trying
to access the file, bear in mind that depending on operating
system, using a command such as sudo may
cause the value of HOME
to refer to the home
directory of the root
system user
. .mysql_secret
is created with mode 600 to
be accessible only to the system user for whom it is created.
Before MySQL 5.7.4, the accounts (including
root
) created in the MySQL grant tables for
an RPM installation initially have no passwords; after starting
the server, you should assign passwords to them using the
instructions in Section 2.10, “Postinstallation Setup and Testing”."
Oracle provides Debian packages for installing MySQL on Debian or Debian-like Linux systems. The packages are available through two different channels:
The MySQL APT Repository. This is the preferred method for installing MySQL on Debian-like systems, as it provides a simple and convenient way to install and update MySQL products. For details, see Section 2.5.3, “Installing MySQL on Linux Using the MySQL APT Repository”.
The MySQL Developer Zone's Download Area. For details, see Section 2.1.2, “How to Get MySQL”. The following are some information on the Debian packages available there and the instructions for installing them:
Various Debian packages are provided in the MySQL
Developer Zone for installing different components of
MySQL on different Debian or Ubuntu platforms. The
preferred method is to use the tarball bundle, which
contains the packages needed for a basic setup of MySQL.
The tarball bundles have names in the format of
mysql-server_
.
MVER
-DVER
_CPU
.deb-bundle.tarMVER
is the MySQL version and
DVER
is the Linux distribution
version. The CPU
value
indicates the processor type or family for which the
package is built, as shown in the following table:
Table 2.12 MySQL Debian and Ubuntu Installation Packages CPU Identifiers
CPU Value |
Intended Processor Type or Family |
---|---|
i386 |
Pentium processor or better, 32 bit |
amd64 |
64-bit x86 processor |
After downloading the tarball, unpack it with the following command:
shell> tar -xvf mysql-server_MVER
-DVER
_CPU
.deb-bundle.tar
You may need to install the libaio
library if it is not already present on your system:
shell> sudo apt-get install libaio1
Preconfigure the MySQL server package with the following command:
shell> sudo dpkg-preconfigure mysql-community-server_*.deb
You will be asked to provide a password for the root user for your MySQL installation. You might also be asked other questions regarding the installation.
Make sure you remember the root password you set. Users who want to set a password later can leave the password field blank in the dialogue box and just press ; in that case, root access to the server is authenticated using the MySQL Socket Peer-Credential Authentication Plugin for connections using a Unix socket file. You can set the root password later using mysql_secure_installation.
For a basic installation of the MySQL server, install the database common files package, the client package, the client metapackage, the server package, and the server metapackage (in that order); you can do that with a single command:
shell> sudo dpkg -i mysql-{common,community-client,client,community-server,server}_*.deb
If you are being warned of unmet dependencies by dpkg, you can fix them using apt-get:
sudo apt-get -f install
Here are where the files are installed on the system:
All configuration files (like
my.cnf
) are under
/etc/mysql
All binaries, libraries, headers, etc., are under
/usr/bin
and
/usr/sbin
The data directory is
/var/lib/mysql
Debian distributions of MySQL are also provided by other vendors. Be aware that they may differ from those built by Oracle in features, capabilities, and conventions (including communication setup), and that the instructions in this manual do not necessarily apply to installing them. The vendor's instructions should be consulted instead.
The Docker deployment framework supports easy installation and configuration of MySQL Server. This section explains how to use a MySQL Server Docker image.
You need to have Docker installed on your system before you can use a MySQL Server Docker image. See Install Docker for instructions.
You need to either run docker
commands with
sudo
, or create a docker
usergroup, and then add to it any users who want to run
docker
commands. See details
here.
Because Docker containers are always run with root privileges,
you should understand the
Docker
daemon attack surface and properly mitigate the related
risks.
The instructions for using the MySQL Docker container are divided into two sections.
The MySQL Docker images maintained by the MySQL team are built specifically for Linux platforms. Other platforms are not supported, and users using these MySQL Docker images on them are doing so at their own risk. See the discussion here for some known limitations for running these containers on non-Linux operating systems.
Downloading the server image in a separate step is not strictly necessary; however, performing this step before you create your Docker container ensures your local image is up to date. To download the MySQL Community Edition image, run this command:
docker pull mysql/mysql-server:tag
The tag
is the label for the image
version you want to pull (for example, 5.5
,
5.6
, 5.7
,
8.0
, or latest
). If
:
is
omitted, the tag
latest
label is used, and the
image for the latest GA version of MySQL Community Server is
downloaded. Refer to the list of tags for available versions on
the
mysql/mysql-server
page in the Docker Hub.
You can list downloaded Docker images with this command:
shell> docker images
REPOSITORY TAG IMAGE ID CREATED SIZE
mysql/mysql-server latest 3157d7f55f8d 4 weeks ago 241MB
To download the MySQL Enterprise Edition image from the
My Oracle
Support website, sign in to your Oracle account,
download from the
tar.zip
file for the Docker image
(mysql-commercial-
),
unzip it to obtain the tarball inside
(version
_linux_x86_64_docker_tar.zipmysql-enterprise-server-
),
and then load the image by running this command:
version
.tar
docker load -i mysql-enterprise-server-version
.tar
To start a new Docker container for a MySQL Server, use the following command:
docker run --name=container_name
-d image_name
:tag
The image name can be obtained using the docker
images command, as explained in
Downloading a MySQL Server Docker Image. The
--name
option, for supplying a custom name for
your server container, is optional; if no container name is
supplied, a random one is generated.
For example, to start a new Docker container for the MySQL Community Server, use this command:
docker run --name=mysql1 -d mysql/mysql-server:5.7
To start a new Docker container for the MySQL Enterprise Server with a Docker image downloaded from My Oracle Support, use this command:
docker run --name=mysql1 -d mysql/enterprise-server:5.7
If the Docker image of the specified name and tag has not been downloaded by an earlier docker pull or docker run command, the image is now downloaded. Initialization for the container begins, and the container appears in the list of running containers when you run the docker ps command. For example:
shell> docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
a24888f0d6f4 mysql/mysql-server "/entrypoint.sh my..." 14 seconds ago Up 13 seconds (health: starting) 3306/tcp, 33060/tcp mysql1
The container initialization might take some time. When the
server is ready for use, the STATUS
of the
container in the output of the docker ps
command changes from (health: starting)
to
(healthy)
.
The -d
option used in the docker
run command above makes the container run in the
background. Use this command to monitor the output from the
container:
docker logs mysql1
Once initialization is finished, the command's output is going to contain the random password generated for the root user; check the password with, for example, this command:
shell> docker logs mysql1 2>&1 | grep GENERATED
GENERATED ROOT PASSWORD: Axegh3kAJyDLaRuBemecis&EShOs
Once the server is ready, you can run the mysql client within the MySQL Server container you just started, and connect it to the MySQL Server. Use the docker exec -it command to start a mysql client inside the Docker container you have started, like the following:
docker exec -it mysql1 mysql -uroot -p
When asked, enter the generated root password (see the last step
in Starting a MySQL Server Instance above on how
to find the password). Because the
MYSQL_ONETIME_PASSWORD
option is true by default, after you have connected a
mysql client to the server, you must reset
the server root password by issuing this statement:
mysql> ALTER USER 'root'@'localhost' IDENTIFIED BY 'password
';
Substitute password
with the password
of your choice. Once the password is reset, the server is ready
for use.
To have shell access to your MySQL Server container, use the docker exec -it command to start a bash shell inside the container:
shell> docker exec -it mysql1 bash
bash-4.2#
You can then run Linux commands inside the container. For example, to view contents in the server's data directory inside the container, use this command:
bash-4.2# ls /var/lib/mysql
auto.cnf ca.pem client-key.pem ib_logfile0 ibdata1 mysql mysql.sock.lock private_key.pem server-cert.pem sys
ca-key.pem client-cert.pem ib_buffer_pool ib_logfile1 ibtmp1 mysql.sock performance_schema public_key.pem server-key.pem
To stop the MySQL Server container we have created, use this command:
docker stop mysql1
docker stop sends a SIGTERM signal to the mysqld process, so that the server is shut down gracefully.
Also notice that when the main process of a container (mysqld in the case of a MySQL Server container) is stopped, the Docker container stops automatically.
To start the MySQL Server container again:
docker start mysql1
To stop and start again the MySQL Server container with a single command:
docker restart mysql1
To delete the MySQL container, stop it first, and then use the docker rm command:
docker stop mysql1
docker rm mysql1
If you want the
Docker
volume for the server's data directory to be deleted at
the same time, add the -v
option to the
docker rm command.
Before performing any upgrade to MySQL, follow carefully the instructions in Section 2.11, “Upgrading MySQL”. Among other instructions discussed there, it is especially important to back up your database before the upgrade.
The instructions in this section require that the server's data and configuration have been persisted on the host. See Persisting Data and Configuration Changes for details.
Follow these steps to upgrade a Docker installation of MySQL 5.6 to 5.7:
Stop the MySQL 5.6 server (container name is
mysql56
in this example):
docker stop mysql56
Download the MySQL 5.7 Server Docker image. See instructions in Downloading a MySQL Server Docker Image; make sure you use the right tag for MySQL 5.7.
Start a new MySQL 5.7 Docker container (named
mysql57
in this example) with the old
server data and configuration (with proper modifications if
needed—see Section 2.11, “Upgrading MySQL”) that have been
persisted on the host (by
bind-mounting
in this example). For the MySQL Community Server, run this
command:
docker run --name=mysql57 \
--mount type=bind,src=/path-on-host-machine/my.cnf,dst=/etc/my.cnf \
--mount type=bind,src=/path-on-host-machine/datadir,dst=/var/lib/mysql \
-d mysql/mysql-server:5.7
If needed, adjust mysql/mysql-server
to
the correct repository name—for example, replace it
with
mysql/enterprise-server
for MySQL Enterprise Edition images
downloaded from My
Oracle Support.
Wait for the server to finish startup. You can check the status of the server using the docker ps command (see Starting a MySQL Server Instance for how to do that).
Run the mysql_upgrade utility in the MySQL 5.7 Server container:
docker exec -it mysql57 mysql_upgrade -uroot -p
When prompted, enter the root password for your old MySQL 5.6 Server.
Finish the upgrade by restarting the MySQL 5.7 Server container:
docker restart mysql57
For more topics on deploying MySQL Server with Docker like server configuration, persisting data and configuration, server error log, and container environment variables, see Section 2.5.7.2, “More Topics on Deploying MySQL Server with Docker”.
Most of the sample commands below have
mysql/mysql-server
as the Docker image
repository when that has to be specified (like with the
docker pull and docker
run commands); change that if your image is from
another repository—for example, replace it with
mysql/enterprise-server
for MySQL Enterprise Edition images
downloaded from My
Oracle Support.
Docker images for MySQL are optimized for code size, which means they only include crucial components that are expected to be relevant for the majority of users who run MySQL instances in Docker containers. A MySQL Docker installation is different from a common, non-Docker installation in the following aspects:
Included binaries are limited to:
/usr/bin/my_print_defaults
/usr/bin/mysql
/usr/bin/mysql_config
/usr/bin/mysql_install_db
/usr/bin/mysql_tzinfo_to_sql
/usr/bin/mysql_upgrade
/usr/bin/mysqladmin
/usr/bin/mysqlcheck
/usr/bin/mysqldump
/usr/bin/mysqlpump
/usr/sbin/mysqld
All binaries are stripped; they contain no debug information.
When you start the MySQL Docker container, you can pass configuration options to the server through the docker run command. For example:
docker run --name mysql1 -d mysql/mysql-server:tag
--character-set-server=utf8mb4 --collation-server=utf8mb4_col
The command starts your MySQL Server with
utf8mb4
as the default character set and
utf8mb4_col
as the default collation for your
databases.
Another way to configure the MySQL Server is to prepare a configuration file and mount it at the location of the server configuration file inside the container. See Persisting Data and Configuration Changes for details.
Docker containers are in principle ephemeral, and any data or
configuration are expected to be lost if the container is
deleted or corrupted (see discussions
here).
Docker
volumes, however, provides a mechanism to persist data
created inside a Docker container. At its initialization, the
MySQL Server container creates a Docker volume for the server
data directory. The JSON output for running the docker
inspect command on the container has a
Mount
key, whose value provides information
on the data directory volume:
shell> docker inspect mysql1
...
"Mounts": [
{
"Type": "volume",
"Name": "4f2d463cfc4bdd4baebcb098c97d7da3337195ed2c6572bc0b89f7e845d27652",
"Source": "/var/lib/docker/volumes/4f2d463cfc4bdd4baebcb098c97d7da3337195ed2c6572bc0b89f7e845d27652/_data",
"Destination": "/var/lib/mysql",
"Driver": "local",
"Mode": "",
"RW": true,
"Propagation": ""
}
],
...
The output shows that the source folder
/var/lib/docker/volumes/4f2d463cfc4bdd4baebcb098c97d7da3337195ed2c6572bc0b89f7e845d27652/_data
,
in which data is persisted on the host, has been mounted at
/var/lib/mysql
, the server data directory
inside the container.
Another way to preserve data is to
bind-mount
a host directory using the --mount
option when
creating the container. The same technique can be used to
persist the configuration of the server. The following command
creates a MySQL Server container and bind-mounts both the data
directory and the server configuration file:
docker run --name=mysql1 \
--mount type=bind,src=/path-on-host-machine/my.cnf
,dst=/etc/my.cnf \
--mount type=bind,src=/path-on-host-machine/datadir
,dst=/var/lib/mysql \
-d mysql/mysql-server:tag
The command mounts
at path-on-host-machine/my.cnf
(the
server configuration file inside the container), and
/etc/my.cnf
at path-on-host-machine/datadir
(the
data directory inside the container). The following conditions
must be met for the bind-mounting to work:
/var/lib/mysql
The configuration file
must already exist, and it must contain the specification
for starting the server using the user
path-on-host-machine/my.cnf
mysql
:
[mysqld] user=mysql
You can also include other server configuration options in the file.
The data directory
must already exist. For server initialization to happen,
the directory must be empty. You can also mount a
directory prepopulated with data and start the server with
it; however, you must make sure you start the Docker
container with the same configuration as the server that
created the data, and any host files or directories
required are mounted when starting the container.
path-on-host-machine/datadir
If there are any .sh
or
.sql
scripts you want to run on the
database immediately after it has been created, you can put them
into a host directory and then mount the directory at
/docker-entrypoint-initdb.d/
inside the
container. For example:
docker run --name=mysql1 \
--mount type=bind,src=/path-on-host-machine/scripts/
,dst=/docker-entrypoint-initdb.d/ \
-d mysql/mysql-server:tag
By setting up a Docker network, you can allow multiple Docker containers to communicate with each other, so that a client application in another Docker container can access the MySQL Server in the server container. First, create a Docker network:
docker network create my-custom-net
Then, when you are creating and starting the server and the
client containers, use the --network
option to
put them on network you created. For example:
docker run --name=mysql1 --network=my-custom-net
-d mysql/mysql-server
docker run --name=myapp1 --network=my-custom-net
-d myapp
The myapp1
container can then connect to the
mysql1
container with the
mysql1
hostname and vice versa, as Docker
automatically sets up a DNS for the given container names. In
the following example, we run the
mysq
l client from inside
the myapp1
container to connect to host
mysql1
in its own container:
docker exec -it myapp1 mysql --host=mysql1 --user=myuser --password
For other networking techniques for containers, see the Docker container networking section in the Docker Documentation.
When the MySQL Server is first started with your server container, a server error log is NOT generated if either of the following conditions is true:
A server configuration file from the host has been mounted,
but the file does not contain the system variable
log_error
(see
Persisting Data and Configuration Changes on
bind-mounting a server configuration file).
A server configuration file from the host has not been
mounted, but the Docker environment variable
MYSQL_LOG_CONSOLE
is true
(the variable's default state for
MySQL 5.7 server containers is
false
). The MySQL Server's error log is
then redirected to stderr
, so that the
error log goes into the Docker container's log and is
viewable using the docker logs
mysqld-container
command.
To make MySQL Server generate an error log when either of the
two conditions is true, use the
--log-error
option to
configure the
server to generate the error log at a specific location
inside the container. To persist the error log, mount a host
file at the location of the error log inside the container as
explained in
Persisting Data and Configuration Changes. However,
you must make sure your MySQL Server inside its container has
write access to the mounted host file.
When you create a MySQL Server container, you can configure the
MySQL instance by using the --env
option
(-e
in short) and specifying one or more of the
following environment variables.
None of the variables below has any effect if the data directory you mount is not empty, as no server initialization is going to be attempted then (see Persisting Data and Configuration Changes for more details). Any pre-existing contents in the folder, including any old server settings, are not modified during the container startup.
The boolean variables including
MYSQL_RANDOM_ROOT_PASSWORD
,
MYSQL_ONETIME_PASSWORD
,
MYSQL_ALLOW_EMPTY_PASSWORD
,
and
MYSQL_LOG_CONSOLE
are made true by setting them with any strings of
nonzero lengths.
Therefore, setting them to, for example,
“0”, “false”, or
“no” does not make them false, but actually
makes them true. This is a known issue of the MySQL
Server containers.
MYSQL_RANDOM_ROOT_PASSWORD
:
When this variable is true (which is its default state,
unless
MYSQL_ROOT_PASSWORD
is set or
MYSQL_ALLOW_EMPTY_PASSWORD
is set to true), a random password for the server's root
user is generated when the Docker container is started. The
password is printed to stdout
of the
container and can be found by looking at the container’s
log (see Starting a MySQL Server Instance).
MYSQL_ONETIME_PASSWORD
:
When the variable is true (which is its default state,
unless
MYSQL_ROOT_PASSWORD
is set or
MYSQL_ALLOW_EMPTY_PASSWORD
is set to true), the root user's password is set as expired
and must be changed before MySQL can be used normally.
MYSQL_DATABASE
:
This variable allows you to specify the name of a database
to be created on image startup. If a user name and a
password are supplied with
MYSQL_USER
and
MYSQL_PASSWORD
,
the user is created and granted superuser access to this
database (corresponding to GRANT ALL
).
The specified database is created by a
CREATE DATABASE IF NOT
EXIST statement, so that the variable has no effect
if the database already exists.
MYSQL_USER
,
MYSQL_PASSWORD
:
These variables are used in conjunction to create a user and
set that user's password, and the user is granted superuser
permissions for the database specified by the
MYSQL_DATABASE
variable. Both
MYSQL_USER
and
MYSQL_PASSWORD
are required for a user to be created—if any of the
two variables is not set, the other is ignored. If both
variables are set but
MYSQL_DATABASE
is not, the user is created without any privileges.
There is no need to use this mechanism to create the
root superuser, which is created by default with the
password set by either one of the mechanisms discussed
in the descriptions for
MYSQL_ROOT_PASSWORD
and
MYSQL_RANDOM_ROOT_PASSWORD
,
unless
MYSQL_ALLOW_EMPTY_PASSWORD
is true.
MYSQL_ROOT_HOST
:
By default, MySQL creates the
'root'@'localhost'
account. This account
can only be connected to from inside the container as
described in
Connecting to MySQL Server from within the Container. To
allow root connections from other hosts, set this
environment variable. For example, the value
172.17.0.1
, which is the default Docker
gateway IP, allows connections from the host machine that
runs the container. The option accepts only one entry, but
wildcards are allowed (for example,
MYSQL_ROOT_HOST=172.*.*.*
or
MYSQL_ROOT_HOST=%
).
MYSQL_LOG_CONSOLE
:
When the variable is true (the variable's default state for
MySQL 5.7 server containers is
false
), the MySQL Server's error log is
redirected to stderr
, so that the error
log goes into the Docker container's log and is viewable
using the docker logs
mysqld-container
command.
The variable has no effect if a server configuration file from the host has been mounted (see Persisting Data and Configuration Changes on bind-mounting a configuration file).
MYSQL_ROOT_PASSWORD
:
This variable specifies a password that is set for the MySQL
root account.
Setting the MySQL root user password on the command line
is insecure. As an alternative to specifying the
password explicitly, you can set the variable with a
container file path for a password file, and then mount
a file from your host that contains the password at the
container file path. This is still not very secure, as
the location of the password file is still exposed. It
is preferable to use the default settings of
MYSQL_RANDOM_ROOT_PASSWORD
and
MYSQL_ONETIME_PASSWORD
both being true.
MYSQL_ALLOW_EMPTY_PASSWORD
.
Set it to true to allow the container to be started with a
blank password for the root user.
Setting this variable to true is insecure, because it is
going to leave your MySQL instance completely
unprotected, allowing anyone to gain complete superuser
access. It is preferable to use the default settings of
MYSQL_RANDOM_ROOT_PASSWORD
and
MYSQL_ONETIME_PASSWORD
both being true.
The MySQL Docker images provided by Oracle are built specifically for Linux platforms. Other platforms are not supported, and users running the MySQL Docker images from Oracle on them are doing so at their own risk. This section discusses some known issues for the images when used on non-Linux platforms.
Known Issues for using the MySQL Server Docker images from Oracle on Windows include:
If you are bind-mounting on the container's MySQL data
directory (see
Persisting Data and Configuration Changes for
details), you have to set the location of the server socket
file with the --socket
option
to somewhere outside of the MySQL data directory; otherwise,
the server will fail to start. This is because the way
Docker for Windows handles file mounting does not allow a
host file from being bind-mounted on the socket file.
Many Linux distributions include a version of the MySQL server, client tools, and development components in their native software repositories and can be installed with the platforms' standard package management systems. This section provides basic instructions for installing MySQL using those package management systems.
Native packages are often several versions behind the currently available release. You will also normally be unable to install development milestone releases (DMRs), as these are not usually made available in the native repositories. Before proceeding, we recommend that you check out the other installation options described in Section 2.5, “Installing MySQL on Linux”.
Distribution specific instructions are shown below:
Red Hat Linux, Fedora, CentOS
For a number of Linux distributions, you can install MySQL using the MySQL Yum repository instead of the platform's native software repository. See Section 2.5.1, “Installing MySQL on Linux Using the MySQL Yum Repository” for details.
For Red Hat and similar distributions, the MySQL distribution
is divided into a number of separate packages,
mysql
for the client tools,
mysql-server
for the server and associated
tools, and mysql-libs
for the libraries.
The libraries are required if you want to provide connectivity
from different languages and environments such as Perl, Python
and others.
To install, use the yum command to specify the packages that you want to install. For example:
root-shell> yum install mysql mysql-server mysql-libs mysql-server Loaded plugins: presto, refresh-packagekit Setting up Install Process Resolving Dependencies --> Running transaction check ---> Package mysql.x86_64 0:5.1.48-2.fc13 set to be updated ---> Package mysql-libs.x86_64 0:5.1.48-2.fc13 set to be updated ---> Package mysql-server.x86_64 0:5.1.48-2.fc13 set to be updated --> Processing Dependency: perl-DBD-MySQL for package: mysql-server-5.1.48-2.fc13.x86_64 --> Running transaction check ---> Package perl-DBD-MySQL.x86_64 0:4.017-1.fc13 set to be updated --> Finished Dependency Resolution Dependencies Resolved ================================================================================ Package Arch Version Repository Size ================================================================================ Installing: mysql x86_64 5.1.48-2.fc13 updates 889 k mysql-libs x86_64 5.1.48-2.fc13 updates 1.2 M mysql-server x86_64 5.1.48-2.fc13 updates 8.1 M Installing for dependencies: perl-DBD-MySQL x86_64 4.017-1.fc13 updates 136 k Transaction Summary ================================================================================ Install 4 Package(s) Upgrade 0 Package(s) Total download size: 10 M Installed size: 30 M Is this ok [y/N]: y Downloading Packages: Setting up and reading Presto delta metadata Processing delta metadata Package(s) data still to download: 10 M (1/4): mysql-5.1.48-2.fc13.x86_64.rpm | 889 kB 00:04 (2/4): mysql-libs-5.1.48-2.fc13.x86_64.rpm | 1.2 MB 00:06 (3/4): mysql-server-5.1.48-2.fc13.x86_64.rpm | 8.1 MB 00:40 (4/4): perl-DBD-MySQL-4.017-1.fc13.x86_64.rpm | 136 kB 00:00 -------------------------------------------------------------------------------- Total 201 kB/s | 10 MB 00:52 Running rpm_check_debug Running Transaction Test Transaction Test Succeeded Running Transaction Installing : mysql-libs-5.1.48-2.fc13.x86_64 1/4 Installing : mysql-5.1.48-2.fc13.x86_64 2/4 Installing : perl-DBD-MySQL-4.017-1.fc13.x86_64 3/4 Installing : mysql-server-5.1.48-2.fc13.x86_64 4/4 Installed: mysql.x86_64 0:5.1.48-2.fc13 mysql-libs.x86_64 0:5.1.48-2.fc13 mysql-server.x86_64 0:5.1.48-2.fc13 Dependency Installed: perl-DBD-MySQL.x86_64 0:4.017-1.fc13 Complete!
MySQL and the MySQL server should now be installed. A sample
configuration file is installed into
/etc/my.cnf
. An init script, to start and
stop the server, will have been installed into
/etc/init.d/mysqld
. To start the MySQL
server use service:
root-shell> service mysqld start
To enable the server to be started and stopped automatically during boot, use chkconfig:
root-shell> chkconfig --levels 235 mysqld on
Which enables the MySQL server to be started (and stopped) automatically at the specified the run levels.
The database tables will have been automatically created for you, if they do not already exist. You should, however, run mysql_secure_installation to set the root passwords on your server.
Debian, Ubuntu, Kubuntu
On Debian, Ubuntu, and Kubuntu, MySQL can be installed using the MySQL APT Repository instead of the platform's native software repository. See Section 2.5.3, “Installing MySQL on Linux Using the MySQL APT Repository” for details.
On Debian and related distributions, there are two packages
for MySQL in their software repositories,
mysql-client
and
mysql-server
, for the client and server
components respectively. You should specify an explicit
version, for example mysql-client-5.1
, to
ensure that you install the version of MySQL that you want.
To download and install, including any dependencies, use the apt-get command, specifying the packages that you want to install.
Before installing, make sure that you update your
apt-get
index files to ensure you are
downloading the latest available version.
A sample installation of the MySQL packages might look like this (some sections trimmed for clarity):
root-shell> apt-get install mysql-client-5.1 mysql-server-5.1 Reading package lists... Done Building dependency tree Reading state information... Done The following packages were automatically installed and are no longer required: linux-headers-2.6.28-11 linux-headers-2.6.28-11-generic Use 'apt-get autoremove' to remove them. The following extra packages will be installed: bsd-mailx libdbd-mysql-perl libdbi-perl libhtml-template-perl libmysqlclient15off libmysqlclient16 libnet-daemon-perl libplrpc-perl mailx mysql-common postfix Suggested packages: dbishell libipc-sharedcache-perl tinyca procmail postfix-mysql postfix-pgsql postfix-ldap postfix-pcre sasl2-bin resolvconf postfix-cdb The following NEW packages will be installed bsd-mailx libdbd-mysql-perl libdbi-perl libhtml-template-perl libmysqlclient15off libmysqlclient16 libnet-daemon-perl libplrpc-perl mailx mysql-client-5.1 mysql-common mysql-server-5.1 postfix 0 upgraded, 13 newly installed, 0 to remove and 182 not upgraded. Need to get 1907kB/25.3MB of archives. After this operation, 59.5MB of additional disk space will be used. Do you want to continue [Y/n]? Y Get: 1 http://gb.archive.ubuntu.com jaunty-updates/main mysql-common 5.1.30really5.0.75-0ubuntu10.5 [63.6kB] Get: 2 http://gb.archive.ubuntu.com jaunty-updates/main libmysqlclient15off 5.1.30really5.0.75-0ubuntu10.5 [1843kB] Fetched 1907kB in 9s (205kB/s) Preconfiguring packages ... Selecting previously deselected package mysql-common. (Reading database ... 121260 files and directories currently installed.) ... Processing 1 added doc-base file(s)... Registering documents with scrollkeeper... Setting up libnet-daemon-perl (0.43-1) ... Setting up libplrpc-perl (0.2020-1) ... Setting up libdbi-perl (1.607-1) ... Setting up libmysqlclient15off (5.1.30really5.0.75-0ubuntu10.5) ... Setting up libdbd-mysql-perl (4.008-1) ... Setting up libmysqlclient16 (5.1.31-1ubuntu2) ... Setting up mysql-client-5.1 (5.1.31-1ubuntu2) ... Setting up mysql-server-5.1 (5.1.31-1ubuntu2) ... * Stopping MySQL database server mysqld ...done. 2013-09-24T13:03:09.048353Z 0 [Note] InnoDB: 5.7.30 started; log sequence number 1566036 2013-09-24T13:03:10.057269Z 0 [Note] InnoDB: Starting shutdown... 2013-09-24T13:03:10.857032Z 0 [Note] InnoDB: Shutdown completed; log sequence number 1566036 * Starting MySQL database server mysqld ...done. * Checking for corrupt, not cleanly closed and upgrade needing tables. ... Processing triggers for libc6 ... ldconfig deferred processing now taking place
The apt-get command will install a number of packages, including the MySQL server, in order to provide the typical tools and application environment. This can mean that you install a large number of packages in addition to the main MySQL package.
During installation, the initial database will be created, and
you will be prompted for the MySQL root password (and
confirmation). A configuration file will have been created in
/etc/mysql/my.cnf
. An init script will
have been created in /etc/init.d/mysql
.
The server will already be started. You can manually start and stop the server using:
root-shell> service mysql [start|stop]
The service will automatically be added to the 2, 3 and 4 run levels, with stop scripts in the single, shutdown and restart levels.
The Juju deployment framework supports easy installation and configuration of MySQL servers. For instructions, see https://jujucharms.com/mysql/.
If you install MySQL using an RPM or Debian package on the following Linux platforms, server startup and shutdown is managed by systemd:
RPM package platforms:
Enterprise Linux variants version 7 and higher
SUSE Linux Enterprise Server 12 and higher
Fedora 29 and higher
Debian package platforms:
Debian 8 and higher
Ubuntu 16 and higher
If you install MySQL from a generic binary distribution on a platform that uses systemd, you can manually configure systemd support for MySQL following the instructions provided in the post-installation setup section of the MySQL 5.7 Secure Deployment Guide.
If you install MySQL from a source distribution on a platform that
uses systemd, obtain systemd support for MySQL by configuring the
distribution using the
-DWITH_SYSTEMD=1
CMake option. See
Section 2.9.7, “MySQL Source-Configuration Options”.
The following discussion covers these topics:
On platforms for which systemd support for MySQL is installed, scripts such as mysqld_safe and the System V initialization script are unnecessary and are not installed. For example, mysqld_safe can handle server restarts, but systemd provides the same capability, and does so in a manner consistent with management of other services rather than by using an application-specific program.
Because systemd has the capability of managing multiple MySQL instances on platforms for which systemd support for MySQL is installed, mysqld_multi and mysqld_multi.server are unnecessary and are not installed.
systemd provides automatic MySQL server startup and shutdown. It also enables manual server management using the systemctl command. For example:
systemctl {start|stop|restart|status} mysqld
Alternatively, use the service command (with the arguments reversed), which is compatible with System V systems:
service mysqld {start|stop|restart|status}
For the systemctl or
service commands, if the MySQL service name
is not mysqld
, use the appropriate name.
For example, use mysql
rather than
mysqld
on Debian-based and SLES systems.
Support for systemd includes these files:
mysqld.service
(RPM platforms),
mysql.service
(Debian platforms):
systemd service unit configuration file, with details about
the MySQL service.
[email protected]
(RPM platforms),
[email protected]
(Debian platforms): Like
mysqld.service
or
mysql.service
, but used for managing
multiple MySQL instances.
mysqld.tmpfiles.d
: File containing
information to support the tmpfiles
feature. This file is installed under the name
mysql.conf
.
mysqld_pre_systemd
(RPM platforms),
mysql-system-start
(Debian platforms):
Support script for the unit file. This script assists in
creating the error log file only if the log location matches
a pattern (/var/log/mysql*.log
for RPM
platforms, /var/log/mysql/*.log
for
Debian platforms). In other cases, the error log directory
must be writable or the error log must be present and
writable for the user running the mysqld
process.
To add or change systemd options for MySQL, these methods are available:
Use a localized systemd configuration file.
Arrange for systemd to set environment variables for the MySQL server process.
Set the MYSQLD_OPTS
systemd variable.
To use a localized systemd configuration file, create the
/etc/systemd/system/mysqld.service.d
directory if it does not exist. In that directory, create a file
that contains a [Service]
section listing the
desired settings. For example:
[Service] LimitNOFILE=max_open_files
PIDFile=/path/to/pid/file
Nice=nice_level
LimitCore=core_file_limit
Environment="LD_PRELOAD=/path/to/malloc/library
" Environment="TZ=time_zone_setting
"
The discussion here uses override.conf
as
the name of this file. Newer versions of systemd support the
following command, which opens an editor and permits you to edit
the file:
systemctl edit mysqld # RPM platforms systemctl edit mysql # Debian platforms
Whenever you create or change
override.conf
, reload the systemd
configuration, then tell systemd to restart the MySQL service:
systemctl daemon-reload systemctl restart mysqld # RPM platforms systemctl restart mysql # Debian platforms
With systemd, the override.conf
configuration method must be used for certain parameters, rather
than settings in a [mysqld]
or
[mysqld_safe]
group in a MySQL option file:
For some parameters, override.conf
must
be used because systemd itself must know their values and it
cannot read MySQL option files to get them.
Parameters that specify values otherwise settable only using options known to mysqld_safe must be specified using systemd because there is no corresponding mysqld parameter.
For additional information about using systemd rather than mysqld_safe, see Migrating from mysqld_safe to systemd.
You can set the following parameters in
override.conf
:
To specify the process ID file:
As of MySQL 5.7.10: Use
override.conf
and change both
PIDFile
and
ExecStart
to name the PID file path
name. Any setting of the process ID file in MySQL option
files is ignored. To modify
ExecStart
, it must first be cleared.
For example:
[Service] PIDFile=/var/run/mysqld/mysqld-custom.pid ExecStart= ExecStart=/usr/sbin/mysqld --pid-file=/var/run/mysqld/mysqld-custom.pid $MYSQLD_OPTS
Before MySQL 5.7.10: Use PIDFile
in
override.conf
rather than the
--pid-file
option for
mysqld or
mysqld_safe. systemd must know the
PID file location so that it can restart or stop the
server. If the PID file value is specified in a MySQL
option file, the value must match the
PIDFile
value or MySQL startup may
fail.
To set the number of file descriptors available to the MySQL
server, use LimitNOFILE
in
override.conf
rather than the
open_files_limit
system
variable for mysqld or
--open-files-limit
option for mysqld_safe.
To set the maximum core file size, use
LimitCore
in
override.conf
rather than the
--core-file-size
option
for mysqld_safe.
To set the scheduling priority for the MySQL server, use
Nice
in
override.conf
rather than the
--nice
option for
mysqld_safe.
Some MySQL parameters are configured using environment variables:
LD_PRELOAD
: Set this variable if the
MySQL server should use a specific memory-allocation
library.
TZ
: Set this variable to specify the
default time zone for the server.
There are multiple ways to specify environment variable values for use by the MySQL server process managed by systemd:
Use Environment
lines in the
override.conf
file. For the syntax, see
the example in the preceding discussion that describes how
to use this file.
Specify the values in the
/etc/sysconfig/mysql
file (create the
file if it does not exist). Assign values using the
following syntax:
LD_PRELOAD=/path/to/malloc/library
TZ=time_zone_setting
After modifying /etc/sysconfig/mysql
,
restart the server to make the changes effective:
systemctl restart mysqld # RPM platforms systemctl restart mysql # Debian platforms
To specify options for mysqld without
modifying systemd configuration files directly, set or unset the
MYSQLD_OPTS
systemd variable. For example:
systemctl set-environment MYSQLD_OPTS="--general_log=1" systemctl unset-environment MYSQLD_OPTS
MYSQLD_OPTS
can also be set in the
/etc/sysconfig/mysql
file.
After modifying the systemd environment, restart the server to make the changes effective:
systemctl restart mysqld # RPM platforms systemctl restart mysql # Debian platforms
For platforms that use systemd, the data directory is
initialized if empty at server startup. This might be a problem
if the data directory is a remote mount that has temporarily
disappeared: The mount point would appear to be an empty data
directory, which then would be initialized as a new data
directory. As of MySQL 5.7.20, to suppress this automatic
initialization behavior, specify the following line in the
/etc/sysconfig/mysql
file (create the file
if it does not exist):
NO_INIT=true
This section describes how to configure systemd for multiple instances of MySQL.
Because systemd has the capability of managing multiple MySQL instances on platforms for which systemd support is installed, mysqld_multi and mysqld_multi.server are unnecessary and are not installed. This is true as of MySQL 5.7.13 for RPM platforms, 5.7.19 for Debian platforms.
To use multiple-instance capability, modify the
my.cnf
option file to include configuration
of key options for each instance. These file locations are
typical:
/etc/my.cnf
or
/etc/mysql/my.cnf
(RPM platforms)
/etc/mysql/mysql.conf.d/mysqld.cnf
(Debian platforms)
For example, to manage two instances named
replica01
and replica02
,
add something like this to the option file:
RPM platforms:
[mysqld@replica01] datadir=/var/lib/mysql-replica01 socket=/var/lib/mysql-replica01/mysql.sock port=3307 log-error=/var/log/mysqld-replica01.log [mysqld@replica02] datadir=/var/lib/mysql-replica02 socket=/var/lib/mysql-replica02/mysql.sock port=3308 log-error=/var/log/mysqld-replica02.log
Debian platforms:
[mysqld@replica01] datadir=/var/lib/mysql-replica01 socket=/var/lib/mysql-replica01/mysql.sock port=3307 log-error=/var/log/mysql/replica01.log [mysqld@replica02] datadir=/var/lib/mysql-replica02 socket=/var/lib/mysql-replica02/mysql.sock port=3308 log-error=/var/log/mysql/replica02.log
The replica names shown here use @
as the
delimiter because that is the only delimiter supported by
systemd.
Instances then are managed by normal systemd commands, such as:
systemctl start mysqld@replica01 systemctl start mysqld@replica02
To enable instances to run at boot time, do this:
systemctl enable mysqld@replica01 systemctl enable mysqld@replica02
Use of wildcards is also supported. For example, this command displays the status of all replica instances:
systemctl status 'mysqld@replica*'
For management of multiple MySQL instances on the same machine, systemd automatically uses a different unit file:
[email protected]
rather than
mysqld.service
(RPM platforms)
[email protected]
rather than
mysql.service
(Debian platforms)
In the unit file, %I
and
%i
reference the parameter passed in after
the @
marker and are used to manage the
specific instance. For a command such as this:
systemctl start mysqld@replica01
systemd starts the server using a command such as this:
mysqld --defaults-group-suffix=@%I ...
The result is that the [server]
,
[mysqld]
, and
[mysqld@replica01]
option groups are read and
used for that instance of the service.
On Debian platforms, AppArmor prevents the server from reading
or writing /var/lib/mysql-replica*
, or
anything other than the default locations. To address this,
you must customize or disable the profile in
/etc/apparmor.d/usr.sbin.mysqld
.
On Debian platforms, the packaging scripts for MySQL
uninstallation cannot currently handle
mysqld@
instances. Before removing or
upgrading the package, you must stop any extra instances
manually first.
Because mysqld_safe is not installed on
platforms that use systemd to manage MySQL, options previously
specified for that program (for example, in an
[mysqld_safe]
option group) must be specified
another way:
Some mysqld_safe options are also
understood by mysqld and can be moved
from the [mysqld_safe]
option group to
the [mysqld]
group. This does
not include
--pid-file
,
--open-files-limit
, or
--nice
. To specify those
options, use the override.conf
systemd
file, described previously.
For some mysqld_safe options, there are
similar mysqld options. For example, the
mysqld_safe option for enabling
syslog
logging is
--syslog
, which is
deprecated. For mysqld, enable the
log_syslog
system variable
instead. For details, see Section 5.4.2, “The Error Log”.
mysqld_safe options not understood by
mysqld can be specified in
override.conf
or environment variables.
For example, with mysqld_safe, if the
server should use a specific memory allocation library, this
is specified using the
--malloc-lib
option. For
installations that manage the server with systemd, arrange
to set the LD_PRELOAD
environment
variable instead, as described previously.
Linux supports a number of different solutions for installing MySQL, covered in Section 2.5, “Installing MySQL on Linux”. One of the methods, covered in this section, is installing from Oracle's Unbreakable Linux Network (ULN). You can find information about Oracle Linux and ULN under http://linux.oracle.com/.
To use ULN, you need to obtain a ULN login and register the machine used for installation with ULN. This is described in detail in the ULN FAQ. The page also describes how to install and update packages. The MySQL packages are in the “MySQL for Oracle Linux 6” and “MySQL for Oracle Linux 7” channels for your system architecture on ULN.
At the time of this writing, ULN provides MySQL 5.7 for Oracle Linux 6 and Oracle Linux 7.
Once MySQL has been installed using ULN, you can find information on starting and stopping the server, and more, in this section, particularly under Section 2.5.5, “Installing MySQL on Linux Using RPM Packages from Oracle”.
If you're updating an existing MySQL installation to an installation using ULN, the recommended procedure is to export your data using mysqldump, remove the existing installation, install MySQL from ULN, and load the exported data into your freshly installed MySQL.
If the existing MySQL installation you're upgrading from is from a previous release series (prior to MySQL 5.7), make sure to read the section on upgrading MySQL, Section 2.11, “Upgrading MySQL”.
MySQL 5.7 supports Solaris 11 (Update 3 and later).
MySQL on Solaris is available in a number of different formats.
For information on installing using the native Solaris PKG format, see Section 2.7.1, “Installing MySQL on Solaris Using a Solaris PKG”.
To use a standard tar
binary installation,
use the notes provided in Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”.
Check the notes and hints at the end of this section for Solaris
specific notes that you may need before or after installation.
The installation packages have a dependency on the Oracle Developer Studio 12.5 Runtime Libraries, which must be installed before you run the MySQL installation package. See the download options for Oracle Developer Studio here. The installation package enables you to install the runtime libraries only instead of the full Oracle Developer Studio; see instructions in Installing Only the Runtime Libraries on Oracle Solaris 11.
To obtain a binary MySQL distribution for Solaris in tarball or PKG format, https://dev.mysql.com/downloads/mysql/5.7.html.
Additional notes to be aware of when installing and using MySQL on Solaris:
If you want to use MySQL with the mysql
user
and group, use the groupadd and
useradd commands:
groupadd mysql useradd -g mysql -s /bin/false mysql
If you install MySQL using a binary tarball distribution on Solaris, because the Solaris tar cannot handle long file names, use GNU tar (gtar) to unpack the distribution. If you do not have GNU tar on your system, install it with the following command:
pkg install archiver/gnu-tar
You should mount any file systems on which you intend to store
InnoDB
files with the
forcedirectio
option. (By default mounting is
done without this option.) Failing to do so will cause a
significant drop in performance when using the
InnoDB
storage engine on this platform.
If you would like MySQL to start automatically, you can copy
support-files/mysql.server
to
/etc/init.d
and create a symbolic link to
it named /etc/rc3.d/S99mysql.server
.
If too many processes try to connect very rapidly to mysqld, you should see this error in the MySQL log:
Error in accept: Protocol error
You might try starting the server with the
--back_log=50
option as a
workaround for this.
To configure the generation of core files on Solaris you should
use the coreadm command. Because of the
security implications of generating a core on a
setuid()
application, by default, Solaris
does not support core files on setuid()
programs. However, you can modify this behavior using
coreadm. If you enable
setuid()
core files for the current user,
they will be generated using the mode 600 and owned by the
superuser.
You can install MySQL on Solaris using a binary package of the native Solaris PKG format instead of the binary tarball distribution.
The installation package has a dependency on the Oracle Developer Studio 12.5 Runtime Libraries, which must be installed before you run the MySQL installation package. See the download options for Oracle Developer Studio here. The installation package enables you to install the runtime libraries only instead of the full Oracle Developer Studio; see instructions in Installing Only the Runtime Libraries on Oracle Solaris 11.
To use this package, download the corresponding
mysql-VERSION-solaris11-PLATFORM.pkg.gz
file,
then uncompress it. For example:
shell> gunzip mysql-5.7.30
-solaris11-x86_64.pkg.gz
To install a new package, use pkgadd and follow the onscreen prompts. You must have root privileges to perform this operation:
shell> pkgadd -d mysql-5.7.30
-solaris11-x86_64.pkg
The following packages are available:
1 mysql MySQL Community Server (GPL)
(i86pc) 5.7.30
Select package(s) you wish to process (or 'all' to process
all packages). (default: all) [?,??,q]:
The PKG installer installs all of the files and tools needed, and then initializes your database if one does not exist. To complete the installation, you should set the root password for MySQL as provided in the instructions at the end of the installation. Alternatively, you can run the mysql_secure_installation script that comes with the installation.
By default, the PKG package installs MySQL under the root path
/opt/mysql
. You can change only the
installation root path when using pkgadd, which
can be used to install MySQL in a different Solaris zone. If you
need to install in a specific directory, use a binary
tar file distribution.
The pkg
installer copies a suitable startup
script for MySQL into /etc/init.d/mysql
. To
enable MySQL to startup and shutdown automatically, you should
create a link between this file and the init script directories.
For example, to ensure safe startup and shutdown of MySQL you
could use the following commands to add the right links:
shell>ln /etc/init.d/mysql /etc/rc3.d/S91mysql
shell>ln /etc/init.d/mysql /etc/rc0.d/K02mysql
To remove MySQL, the installed package name is
mysql
. You can use this in combination with the
pkgrm command to remove the installation.
To upgrade when using the Solaris package file format, you must remove the existing installation before installing the updated package. Removal of the package does not delete the existing database information, only the server, binaries and support files. The typical upgrade sequence is therefore:
shell>mysqladmin shutdown
shell>pkgrm mysql
shell>pkgadd -d mysql-
shell>5.7.30
-solaris11-x86_64.pkgmysqld_safe &
shell>mysql_upgrade
You should check the notes in Section 2.11, “Upgrading MySQL” before performing any upgrade.
This section provides information about installing MySQL on variants of FreeBSD Unix.
You can install MySQL on FreeBSD by using the binary distribution provided by Oracle. For more information, see Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”.
The easiest (and preferred) way to install MySQL is to use the
mysql-server and mysql-client
ports available at http://www.freebsd.org/. Using
these ports gives you the following benefits:
A working MySQL with all optimizations enabled that are known to work on your version of FreeBSD.
Automatic configuration and build.
Startup scripts installed in
/usr/local/etc/rc.d
.
The ability to use pkg_info -L
to see which
files are installed.
The ability to use pkg_delete
to remove MySQL
if you no longer want it on your machine.
The MySQL build process requires GNU make (gmake) to work. If GNU make is not available, you must install it first before compiling MySQL.
To install using the ports system:
# cd /usr/ports/databases/mysql57-server # make ... # cd /usr/ports/databases/mysql57-client # make ...
The standard port installation places the server into
/usr/local/libexec/mysqld
, with the startup
script for the MySQL server placed in
/usr/local/etc/rc.d/mysql-server
.
Some additional notes on the BSD implementation:
To remove MySQL after installation using the ports system:
# cd /usr/ports/databases/mysql57-server # make deinstall ... # cd /usr/ports/databases/mysql57-client # make deinstall ...
If you get problems with the current date in MySQL, setting the
TZ
variable should help. See
Section 4.9, “Environment Variables”.
Building MySQL from the source code enables you to customize build parameters, compiler optimizations, and installation location. For a list of systems on which MySQL is known to run, see https://www.mysql.com/support/supportedplatforms/database.html.
Before you proceed with an installation from source, check whether Oracle produces a precompiled binary distribution for your platform and whether it works for you. We put a great deal of effort into ensuring that our binaries are built with the best possible options for optimal performance. Instructions for installing binary distributions are available in Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”.
Building MySQL with nonstandard options may lead to reduced functionality, performance, or security.
There are two methods for installing MySQL from source:
Use a standard MySQL source distribution. To obtain a standard distribution, see Section 2.1.2, “How to Get MySQL”. For instructions on building from a standard distribution, see Section 2.9.4, “Installing MySQL Using a Standard Source Distribution”.
Standard distributions are available as compressed
tar files, Zip archives, or RPM packages.
Distribution files have names of the form
mysql-
,
VERSION
.tar.gzmysql-
,
or
VERSION
.zipmysql-
,
where VERSION
.rpmVERSION
is a number like
5.7.30
. File names for source
distributions can be distinguished from those for precompiled
binary distributions in that source distribution names are
generic and include no platform name, whereas binary
distribution names include a platform name indicating the type
of system for which the distribution is intended (for example,
pc-linux-i686
or
winx64
).
Use a MySQL development tree. For information on building from one of the development trees, see Section 2.9.5, “Installing MySQL Using a Development Source Tree”.
Installation of MySQL from source requires several development tools. Some of these tools are needed no matter whether you use a standard source distribution or a development source tree. Other tool requirements depend on which installation method you use.
To install MySQL from source, the following system requirements must be satisfied, regardless of installation method:
CMake, which is used as the build framework on all platforms. CMake can be downloaded from http://www.cmake.org.
A good make program. Although some platforms come with their own make implementations, it is highly recommended that you use GNU make 3.75 or higher. It may already be available on your system as gmake. GNU make is available from http://www.gnu.org/software/make/.
A working ANSI C++ compiler. See the description of the
FORCE_UNSUPPORTED_COMPILER
.
option for some guidelines.
An SSL library is required for support of encrypted
connections, entropy for random number generation, and other
encryption-related operations. To specify the library
explicitly, use the WITH_SSL
option when you invoke CMake. For
additional information, see
Section 2.9.6, “Configuring SSL Library Support”.
The Boost C++ libraries are required to build MySQL (but not
to use it). Boost 1.59.0 must be installed. To obtain Boost
and its installation instructions, visit
the official site.
After Boost is installed, tell the build system where the
Boost files are located by defining the
WITH_BOOST
option when you
invoke CMake. For example:
cmake . -DWITH_BOOST=/usr/local/boost_1_59_0
Adjust the path as necessary to match your installation.
The ncurses library.
Sufficient free memory. If you encounter problems such as “internal compiler error” when compiling large source files, it may be that you have too little memory. If compiling on a virtual machine, try increasing the memory allocation.
Perl is needed if you intend to run test scripts. Most Unix-like systems include Perl. On Windows, you can use a version such as ActiveState Perl.
To install MySQL from a standard source distribution, one of the following tools is required to unpack the distribution file:
For a .tar.gz
compressed
tar file: GNU gunzip
to
uncompress the distribution and a reasonable
tar to unpack it. If your
tar program supports the
z
option, it can both uncompress and unpack
the file.
GNU tar is known to work. The standard
tar provided with some operating systems is
not able to unpack the long file names in the MySQL
distribution. You should download and install GNU
tar, or if available, use a preinstalled
version of GNU tar. Usually this is available as
gnutar, gtar, or as
tar within a GNU or Free Software
directory, such as /usr/sfw/bin
or
/usr/local/bin
. GNU
tar is available from
http://www.gnu.org/software/tar/.
For a .zip
Zip archive:
WinZip or another tool that can read
.zip
files.
For an .rpm
RPM package: The
rpmbuild program used to build the
distribution unpacks it.
To install MySQL from a development source tree, the following additional tools are required:
The Git revision control system is required to obtain the development source code. The GitHub Help provides instructions for downloading and installing Git on different platforms. MySQL officially joined GitHub in September, 2014. For more information about MySQL's move to GitHub, refer to the announcement on the MySQL Release Engineering blog: MySQL on GitHub
bison 2.1 or higher, available from http://www.gnu.org/software/bison/. (Version 1 is no longer supported.) Use the latest version of bison where possible; if you experience problems, upgrade to a later version, rather than revert to an earlier one.
bison is available from
http://www.gnu.org/software/bison/.
bison
for Windows can be downloaded from
http://gnuwin32.sourceforge.net/packages/bison.htm.
Download the package labeled “Complete package,
excluding sources”. On Windows, the default location
for bison is the C:\Program
Files\GnuWin32
directory. Some utilities may fail
to find bison because of the space in the
directory name. Also, Visual Studio may simply hang if there
are spaces in the path. You can resolve these problems by
installing into a directory that does not contain a space (for
example C:\GnuWin32
).
On Solaris Express, m4 must be installed in addition to bison. m4 is available from http://www.gnu.org/software/m4/.
If you have to install any programs, modify your
PATH
environment variable to include any
directories in which the programs are located. See
Section 4.2.6, “Setting Environment Variables”.
If you run into problems and need to file a bug report, please use the instructions in Section 1.7, “How to Report Bugs or Problems”.
By default, when you install MySQL after compiling it from source,
the installation step installs files under
/usr/local/mysql
. The component locations
under the installation directory are the same as for binary
distributions. See Table 2.3, “MySQL Installation Layout for Generic Unix/Linux Binary Package”,
and Section 2.3.1, “MySQL Installation Layout on Microsoft Windows”. To configure
installation locations different from the defaults, use the
options described at
Section 2.9.7, “MySQL Source-Configuration Options”.
To install MySQL from a standard source distribution:
Verify that your system satisfies the tool requirements listed at Section 2.9.2, “Source Installation Prerequisites”.
Obtain a distribution file using the instructions in Section 2.1.2, “How to Get MySQL”.
Configure, build, and install the distribution using the instructions in this section.
Perform postinstallation procedures using the instructions in Section 2.10, “Postinstallation Setup and Testing”.
MySQL uses CMake as the build framework on all platforms. The instructions given here should enable you to produce a working installation. For additional information on using CMake to build MySQL, see How to Build MySQL Server with CMake.
If you start from a source RPM, use the following command to make a binary RPM that you can install. If you do not have rpmbuild, use rpm instead.
shell> rpmbuild --rebuild --clean MySQL-VERSION
.src.rpm
The result is one or more binary RPM packages that you install as indicated in Section 2.5.5, “Installing MySQL on Linux Using RPM Packages from Oracle”.
The sequence for installation from a compressed tar file or Zip archive source distribution is similar to the process for installing from a generic binary distribution (see Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”), except that it is used on all platforms and includes steps to configure and compile the distribution. For example, with a compressed tar file source distribution on Unix, the basic installation command sequence looks like this:
# Preconfiguration setup shell>groupadd mysql
shell>useradd -r -g mysql -s /bin/false mysql
# Beginning of source-build specific instructions shell>tar zxvf mysql-
shell>VERSION
.tar.gzcd mysql-
shell>VERSION
mkdir bld
shell>cd bld
shell>cmake ..
shell>make
shell>make install
# End of source-build specific instructions # Postinstallation setup shell>cd /usr/local/mysql
shell>mkdir mysql-files
shell>chown mysql:mysql mysql-files
shell>chmod 750 mysql-files
shell>bin/mysqld --initialize --user=mysql
shell>bin/mysql_ssl_rsa_setup
shell>bin/mysqld_safe --user=mysql &
# Next command is optional shell>cp support-files/mysql.server /etc/init.d/mysql.server
A more detailed version of the source-build specific instructions is shown following.
The procedure shown here does not set up any passwords for MySQL accounts. After following the procedure, proceed to Section 2.10, “Postinstallation Setup and Testing”, for postinstallation setup and testing.
On Unix, set up the mysql
user and group that
will be used to run and execute the MySQL server and own the
database directory. For details, see
Create a mysql User and Group. Then
perform the following steps as the mysql
user, except as noted.
Pick the directory under which you want to unpack the distribution and change location into it.
Obtain a distribution file using the instructions in Section 2.1.2, “How to Get MySQL”.
Unpack the distribution into the current directory:
To unpack a compressed tar file,
tar can uncompress and unpack the
distribution if it has z
option support:
shell> tar zxvf mysql-VERSION
.tar.gz
If your tar does not have
z
option support, use
gunzip to unpack the distribution and
tar to unpack it:
shell> gunzip < mysql-VERSION
.tar.gz | tar xvf -
Alternatively, CMake can uncompress and unpack the distribution:
shell> cmake -E tar zxvf mysql-VERSION
.tar.gz
To unpack a Zip archive, use WinZip or
another tool that can read .zip
files.
Unpacking the distribution file creates a directory named
mysql-
.
VERSION
Change location into the top-level directory of the unpacked distribution:
shell> cd mysql-VERSION
Build outside of the source tree to keep the tree clean. If the
top-level source directory is named
mysql-src
under your current working
directory, you can build in a directory named
bld
at the same level. Create the directory
and go there:
shell>mkdir bld
shell>cd bld
Configure the build directory. The minimum configuration command includes no options to override configuration defaults:
shell> cmake ../mysql-src
The build directory needs not be outside the source tree.
For example, you can build in a directory named
bld
under the top-level source tree. To do
this, starting with mysql-src
as your
current working directory, create the directory
bld
and then go there:
shell>mkdir bld
shell>cd bld
Configure the build directory. The minimum configuration command includes no options to override configuration defaults:
shell> cmake ..
If you have multiple source trees at the same level (for example, to build multiple versions of MySQL), the second strategy can be advantageous. The first strategy places all build directories at the same level, which requires that you choose a unique name for each. With the second strategy, you can use the same name for the build directory within each source tree. The following instructions assume this second strategy.
On Windows, specify the development environment. For example, the following commands configure MySQL for 32-bit or 64-bit builds, respectively:
shell>cmake .. -G "Visual Studio 12 2013"
shell>cmake .. -G "Visual Studio 12 2013 Win64"
On macOS, to use the Xcode IDE:
shell> cmake .. -G Xcode
When you run cmake, you might want to add options to the command line. Here are some examples:
-DBUILD_CONFIG=mysql_release
:
Configure the source with the same build options used by
Oracle to produce binary distributions for official MySQL
releases.
-DCMAKE_INSTALL_PREFIX=
:
Configure the distribution for installation under a
particular location.
dir_name
-DCPACK_MONOLITHIC_INSTALL=1
:
Cause make package to generate a single
installation file rather than multiple files.
-DWITH_DEBUG=1
: Build the
distribution with debugging support.
For a more extensive list of options, see Section 2.9.7, “MySQL Source-Configuration Options”.
To list the configuration options, use one of the following commands:
shell>cmake .. -L
# overview shell>cmake .. -LH
# overview with help text shell>cmake .. -LAH
# all params with help text shell>ccmake ..
# interactive display
If CMake fails, you might need to reconfigure by running it again with different options. If you do reconfigure, take note of the following:
If CMake is run after it has previously
been run, it may use information that was gathered during
its previous invocation. This information is stored in
CMakeCache.txt
. When
CMake starts, it looks for that file and
reads its contents if it exists, on the assumption that the
information is still correct. That assumption is invalid
when you reconfigure.
Each time you run CMake, you must run make again to recompile. However, you may want to remove old object files from previous builds first because they were compiled using different configuration options.
To prevent old object files or configuration information from being used, run these commands in the build direcotry on Unix before re-running CMake:
shell>make clean
shell>rm CMakeCache.txt
Or, on Windows:
shell>devenv MySQL.sln /clean
shell>del CMakeCache.txt
Before asking on the
MySQL Community
Slack, check the files in the
CMakeFiles
directory for useful information
about the failure. To file a bug report, please use the
instructions in Section 1.7, “How to Report Bugs or Problems”.
On Unix:
shell>make
shell>make VERBOSE=1
The second command sets VERBOSE
to show the
commands for each compiled source.
Use gmake instead on systems where you are using GNU make and it has been installed as gmake.
On Windows:
shell> devenv MySQL.sln /build RelWithDebInfo
If you have gotten to the compilation stage, but the
distribution does not build, see
Section 2.9.8, “Dealing with Problems Compiling MySQL”, for help. If that does
not solve the problem, please enter it into our bugs database
using the instructions given in Section 1.7, “How to Report Bugs or Problems”.
If you have installed the latest versions of the required tools,
and they crash trying to process our configuration files, please
report that also. However, if you get a command not
found
error or a similar problem for required tools,
do not report it. Instead, make sure that all the required tools
are installed and that your PATH
variable is
set correctly so that your shell can find them.
On Unix:
shell> make install
This installs the files under the configured installation
directory (by default, /usr/local/mysql
).
You might need to run the command as root
.
To install in a specific directory, add a
DESTDIR
parameter to the command line:
shell> make install DESTDIR="/opt/mysql"
Alternatively, generate installation package files that you can install where you like:
shell> make package
This operation produces one or more .tar.gz
files that can be installed like generic binary distribution
packages. See Section 2.2, “Installing MySQL on Unix/Linux Using Generic Binaries”. If you run
CMake with
-DCPACK_MONOLITHIC_INSTALL=1
, the
operation produces a single file. Otherwise, it produces
multiple files.
On Windows, generate the data directory, then create a
.zip
archive installation package:
shell>devenv MySQL.sln /build RelWithDebInfo /project initial_database
shell>devenv MySQL.sln /build RelWithDebInfo /project package
You can install the resulting .zip
archive
where you like. See Section 2.3.4, “Installing MySQL on Microsoft Windows Using a
noinstall
ZIP Archive”.
The remainder of the installation process involves setting up the configuration file, creating the core databases, and starting the MySQL server. For instructions, see Section 2.10, “Postinstallation Setup and Testing”.
The accounts that are listed in the MySQL grant tables initially have no passwords. After starting the server, you should set up passwords for them using the instructions in Section 2.10, “Postinstallation Setup and Testing”.
This section describes how to install MySQL from the latest development source code, which is hosted on GitHub. To obtain the MySQL Server source code from this repository hosting service, you can set up a local MySQL Git repository.
On GitHub, MySQL Server and other MySQL projects are found on the MySQL page. The MySQL Server project is a single repository that contains branches for several MySQL series.
MySQL officially joined GitHub in September, 2014. For more information about MySQL's move to GitHub, refer to the announcement on the MySQL Release Engineering blog: MySQL on GitHub
To install MySQL from a development source tree, your system must satisfy the tool requirements listed at Section 2.9.2, “Source Installation Prerequisites”.
To set up a MySQL Git repository on your machine, use this procedure:
Clone the MySQL Git repository to your machine. The
following command clones the MySQL Git repository to a
directory named mysql-server
. The
initial download will take some time to complete, depending
on the speed of your connection.
~$ git clone https://github.com/mysql/mysql-server.git Cloning into 'mysql-server'... remote: Counting objects: 1035465, done. remote: Total 1035465 (delta 0), reused 0 (delta 0) Receiving objects: 100% (1035465/1035465), 437.48 MiB | 5.10 MiB/s, done. Resolving deltas: 100% (855607/855607), done. Checking connectivity... done. Checking out files: 100% (21902/21902), done.
When the clone operation completes, the contents of your local MySQL Git repository appear similar to the following:
~$ cd mysql-server ~/mysql-server$ ls BUILD COPYING libmysqld regex unittest BUILD-CMAKE dbug libservices scripts VERSION client Docs man sql vio cmake extra mysql-test sql-common win CMakeLists.txt include mysys storage zlib cmd-line-utils INSTALL-SOURCE packaging strings config.h.cmake INSTALL-WIN-SOURCE plugin support-files configure.cmake libmysql README tests
Use the git branch -r command to view the remote tracking branches for the MySQL repository.
~/mysql-server$ git branch -r origin/5.5 origin/5.6 origin/5.7 origin/HEAD -> origin/5.7 origin/cluster-7.2 origin/cluster-7.3 origin/cluster-7.4
To view the branches that are checked out in your local repository, issue the git branch command. When you cloned the MySQL Git repository, the MySQL 5.7 branch was checked out automatically. The asterisk identifies the 5.7 branch as the active branch.
~/mysql-server$ git branch * 5.7
To check out a different MySQL branch, run the git checkout command, specifying the branch name. For example, to check out the MySQL 5.5 branch:
~/mysql-server$ git checkout 5.5 Branch 5.5 set up to track remote branch 5.5 from origin. Switched to a new branch '5.5'
Run git branch
to verify that the MySQL
5.5 branch is present. MySQL 5.5, which is the last branch
you checked out, is marked by an asterisk indicating that it
is the active branch.
~/mysql-server$ git branch * 5.5 5.7
Use the git checkout command to switch between branches. For example:
~/mysql-server$ git checkout 5.7
To obtain changes made after your initial setup of the MySQL
Git repository, switch to the branch you want to update and
issue the git pull
command:
~/mysql-server$ git checkout 5.7 ~/mysql-server$ git pull
To examine the commit history, use the git
log
option:
~/mysql-server$ git log
You can also browse commit history and source code on the GitHub MySQL site.
If you see changes or code that you have a question about, ask on the MySQL Community Slack. For information about contributing a patch, see Contributing to MySQL Server.
After you have cloned the MySQL Git repository and have checked out the branch you want to build, you can build MySQL Server from the source code. Instructions are provided in Section 2.9.4, “Installing MySQL Using a Standard Source Distribution”, except that you skip the part about obtaining and unpacking the distribution.
Be careful about installing a build from a distribution
source tree on a production machine. The installation
command may overwrite your live release installation. If you
already have MySQL installed and do not want to overwrite
it, run CMake with values for the
CMAKE_INSTALL_PREFIX
,
MYSQL_TCP_PORT
, and
MYSQL_UNIX_ADDR
options
different from those used by your production server. For
additional information about preventing multiple servers
from interfering with each other, see
Section 5.7, “Running Multiple MySQL Instances on One Machine”.
Play hard with your new installation. For example, try to make new features crash. Start by running make test. See Section 28.1.2, “The MySQL Test Suite”.
An SSL library is required for support of encrypted connections, entropy for random number generation, and other encryption-related operations. Your system must support either OpenSSL or yaSSL:
MySQL Enterprise Edition binary distributions are compiled using OpenSSL. It is not possible to use yaSSL with MySQL Enterprise Edition.
MySQL Community Edition binary distributions are compiled using yaSSL.
MySQL Community Edition source distributions can be compiled using either OpenSSL or yaSSL.
It is possible to compile MySQL using yaSSL as an alternative to OpenSSL only prior to MySQL 5.7.28. As of MySQL 5.7.28, support for yaSSL is removed and all MySQL builds use OpenSSL.
If you compile MySQL from a source distribution, CMake configures the distribution to use the installed OpenSSL library by default.
To compile using OpenSSL, use this procedure:
Ensure that OpenSSL 1.0.1 or higher is installed on your system. If the installed OpenSSL version is lower than 1.0.1, CMake produces an error at MySQL configuration time. If it is necessary to obtain OpenSSL, visit http://www.openssl.org.
The WITH_SSL
CMake option determines which SSL library
to use for compiling MySQL (see
Section 2.9.7, “MySQL Source-Configuration Options”). The default
is -DWITH_SSL=system
, which uses
OpenSSL. To make this explicit, specify that option on the
CMake command line. For example:
cmake . -DWITH_SSL=system
That command configures the distribution to use the installed OpenSSL library. Alternatively, to explicitly specify the path name to the OpenSSL installation, use the following syntax. This can be useful if you have multiple versions of OpenSSL installed, to prevent CMake from choosing the wrong one:
cmake . -DWITH_SSL=path_name
Compile and install the distribution.
To check whether a mysqld server supports
encrypted connections, examine the value of the
have_ssl
system variable:
mysql> SHOW VARIABLES LIKE 'have_ssl';
+---------------+-------+
| Variable_name | Value |
+---------------+-------+
| have_ssl | YES |
+---------------+-------+
If the value is YES
, the server supports
encrypted connections. If the value is
DISABLED
, the server is capable of supporting
encrypted connections but was not started with the appropriate
--ssl-
options to
enable encrypted connections to be used; see
Section 6.3.1, “Configuring MySQL to Use Encrypted Connections”.
xxx
To determine whether a server was compiled using OpenSSL or yaSSL, check the existence of any of the system or status variables that are present only for OpenSSL. See Section 6.3.4, “SSL Library-Dependent Capabilities”
The CMake program provides a great deal of control over how you configure a MySQL source distribution. Typically, you do this using options on the CMake command line. For information about options supported by CMake, run either of these commands in the top-level source directory:
cmake . -LH ccmake .
You can also affect CMake using certain environment variables. See Section 4.9, “Environment Variables”.
For boolean options, the value may be specified as 1 or
ON
to enable the option, or as 0 or
OFF
to disable the option.
Many options configure compile-time defaults that can be
overridden at server startup. For example, the
CMAKE_INSTALL_PREFIX
,
MYSQL_TCP_PORT
, and
MYSQL_UNIX_ADDR
options that
configure the default installation base directory location, TCP/IP
port number, and Unix socket file can be changed at server startup
with the --basedir
,
--port
, and
--socket
options for
mysqld. Where applicable, configuration option
descriptions indicate the corresponding mysqld
startup option.
The following sections provide more information about CMake options.
The following table shows the available CMake
options. In the Default
column,
PREFIX
stands for the value of the
CMAKE_INSTALL_PREFIX
option, which
specifies the installation base directory. This value is used as
the parent location for several of the installation
subdirectories.
Table 2.13 MySQL Source-Configuration Option Reference (CMake)
Formats | Description | Default | Introduced |
---|---|---|---|
BUILD_CONFIG |
Use same build options as official releases | ||
CMAKE_BUILD_TYPE |
Type of build to produce | RelWithDebInfo |
|
CMAKE_CXX_FLAGS |
Flags for C++ Compiler | ||
CMAKE_C_FLAGS |
Flags for C Compiler | ||
CMAKE_INSTALL_PREFIX |
Installation base directory | /usr/local/mysql |
|
COMPILATION_COMMENT |
Comment about compilation environment | ||
CPACK_MONOLITHIC_INSTALL |
Whether package build produces single file | OFF |
|
DEFAULT_CHARSET |
The default server character set | latin1 |
|
DEFAULT_COLLATION |
The default server collation | latin1_swedish_ci |
|
DISABLE_PSI_COND |
Exclude Performance Schema condition instrumentation | OFF |
|
DISABLE_PSI_FILE |
Exclude Performance Schema file instrumentation | OFF |
|
DISABLE_PSI_IDLE |
Exclude Performance Schema idle instrumentation | OFF |
|
DISABLE_PSI_MEMORY |
Exclude Performance Schema memory instrumentation | OFF |
|
DISABLE_PSI_METADATA |
Exclude Performance Schema metadata instrumentation | OFF |
|
DISABLE_PSI_MUTEX |
Exclude Performance Schema mutex instrumentation | OFF |
|
DISABLE_PSI_PS |
Exclude the performance schema prepared statements | OFF |
|
DISABLE_PSI_RWLOCK |
Exclude Performance Schema rwlock instrumentation | OFF |
|
DISABLE_PSI_SOCKET |
Exclude Performance Schema socket instrumentation | OFF |
|
DISABLE_PSI_SP |
Exclude Performance Schema stored program instrumentation | OFF |
|
DISABLE_PSI_STAGE |
Exclude Performance Schema stage instrumentation | OFF |
|
DISABLE_PSI_STATEMENT |
Exclude Performance Schema statement instrumentation | OFF |
|
DISABLE_PSI_STATEMENT_DIGEST |
Exclude Performance Schema statements_digest instrumentation | OFF |
|
DISABLE_PSI_TABLE |
Exclude Performance Schema table instrumentation | OFF |
|
DISABLE_PSI_THREAD |
Exclude the performance schema thread instrumentation | OFF |
|
DISABLE_PSI_TRANSACTION |
Exclude the performance schema transaction instrumentation | OFF |
|
DOWNLOAD_BOOST |
Whether to download the Boost library | OFF |
|
DOWNLOAD_BOOST_TIMEOUT |
Timeout in seconds for downloading the Boost library | 600 |
|
ENABLED_LOCAL_INFILE |
Whether to enable LOCAL for LOAD DATA | OFF |
|
ENABLED_PROFILING |
Whether to enable query profiling code | ON |
|
ENABLE_DOWNLOADS |
Whether to download optional files | OFF |
|
ENABLE_DTRACE |
Whether to include DTrace support | ||
ENABLE_GCOV |
Whether to include gcov support | ||
ENABLE_GPROF |
Enable gprof (optimized Linux builds only) | OFF |
|
FORCE_UNSUPPORTED_COMPILER |
Whether to permit unsupported compiler | OFF |
|
IGNORE_AIO_CHECK |
With -DBUILD_CONFIG=mysql_release, ignore libaio check | OFF |
|
INSTALL_BINDIR |
User executables directory | PREFIX/bin |
|
INSTALL_DOCDIR |
Documentation directory | PREFIX/docs |
|
INSTALL_DOCREADMEDIR |
README file directory | PREFIX |
|
INSTALL_INCLUDEDIR |
Header file directory | PREFIX/include |
|
INSTALL_INFODIR |
Info file directory | PREFIX/docs |
|
INSTALL_LAYOUT |
Select predefined installation layout | STANDALONE |
|
INSTALL_LIBDIR |
Library file directory | PREFIX/lib |
|
INSTALL_MANDIR |
Manual page directory | PREFIX/man |
|
INSTALL_MYSQLKEYRINGDIR |
Directory for keyring_file plugin data file | platform specific |
5.7.11 |
INSTALL_MYSQLSHAREDIR |
Shared data directory | PREFIX/share |
|
INSTALL_MYSQLTESTDIR |
mysql-test directory | PREFIX/mysql-test |
|
INSTALL_PKGCONFIGDIR |
Directory for mysqlclient.pc pkg-config file | INSTALL_LIBDIR/pkgconfig |
|
INSTALL_PLUGINDIR |
Plugin directory | PREFIX/lib/plugin |
|
INSTALL_SBINDIR |
Server executable directory | PREFIX/bin |
|
INSTALL_SCRIPTDIR |
Scripts directory | PREFIX/scripts |
|
INSTALL_SECURE_FILE_PRIVDIR |
secure_file_priv default value | platform specific |
|
INSTALL_SECURE_FILE_PRIV_EMBEDDEDDIR |
secure_file_priv default value for libmysqld | ||
INSTALL_SHAREDIR |
aclocal/mysql.m4 installation directory | PREFIX/share |
|
INSTALL_SUPPORTFILESDIR |
Extra support files directory | PREFIX/support-files |
|
MAX_INDEXES |
Maximum indexes per table | 64 |
|
MUTEX_TYPE |
InnoDB mutex type | event |
|
MYSQLX_TCP_PORT |
TCP/IP port number used by X Plugin | 33060 |
5.7.17 |
MYSQLX_UNIX_ADDR |
Unix socket file used by X Plugin | /tmp/mysqlx.sock |
5.7.15 |
MYSQL_DATADIR |
Data directory | ||
MYSQL_MAINTAINER_MODE |
Whether to enable MySQL maintainer-specific development environment | OFF |
|
MYSQL_PROJECT_NAME |
Windows/OS X project name | MySQL |
|
MYSQL_TCP_PORT |
TCP/IP port number | 3306 |
|
MYSQL_UNIX_ADDR |
Unix socket file | /tmp/mysql.sock |
|
ODBC_INCLUDES |
ODBC includes directory | ||
ODBC_LIB_DIR |
ODBC library directory | ||
OPTIMIZER_TRACE |
Whether to support optimizer tracing | ||
REPRODUCIBLE_BUILD |
Take extra care to create a build result independent of build location and time | 5.7.19 | |
SUNPRO_CXX_LIBRARY |
Client link library on Solaris 10+ | ||
SYSCONFDIR |
Option file directory | ||
SYSTEMD_PID_DIR |
Directory for PID file under systemd | /var/run/mysqld |
|
SYSTEMD_SERVICE_NAME |
Name of MySQL service under systemd | mysqld |
|
TMPDIR |
tmpdir default value | ||
WIN_DEBUG_NO_INLINE |
Whether to disable function inlining | OFF |
|
WITHOUT_xxx_STORAGE_ENGINE |
Exclude storage engine xxx from build | ||
WITH_ASAN |
Enable AddressSanitizer | OFF |
|
WITH_ASAN_SCOPE |
Enable AddressSanitizer -fsanitize-address-use-after-scope Clang flag | OFF |
5.7.21 |
WITH_AUTHENTICATION_LDAP |
Whether to report error if LDAP authentication plugins cannot be built | OFF |
5.7.19 |
WITH_AUTHENTICATION_PAM |
Build PAM authentication plugin | OFF |
|
WITH_AWS_SDK |
Location of Amazon Web Services software development kit | 5.7.19 | |
WITH_BOOST |
The location of the Boost library sources | ||
WITH_CLIENT_PROTOCOL_TRACING |
Build client-side protocol tracing framework | ON |
|
WITH_CURL |
Location of curl library | 5.7.19 | |
WITH_DEBUG |
Whether to include debugging support | OFF |
|
WITH_DEFAULT_COMPILER_OPTIONS |
Whether to use default compiler options | ON |
|
WITH_DEFAULT_FEATURE_SET |
Whether to use default feature set | ON |
|
WITH_EDITLINE |
Which libedit/editline library to use | bundled |
|
WITH_EMBEDDED_SERVER |
Whether to build embedded server | OFF |
|
WITH_EMBEDDED_SHARED_LIBRARY |
Whether to build a shared embedded server library | OFF |
|
WITH_EXTRA_CHARSETS |
Which extra character sets to include | all |
|
WITH_GMOCK |
Path to googlemock distribution | ||
WITH_INNODB_EXTRA_DEBUG |
Whether to include extra debugging support for InnoDB. | OFF |
|
WITH_INNODB_MEMCACHED |
Whether to generate memcached shared libraries. | OFF |
|
WITH_KEYRING_TEST |
Build the keyring test program | OFF |
5.7.11 |
WITH_LDAP |
Internal use only | 5.7.29 | |
WITH_LIBEVENT |
Which libevent library to use | bundled |
|
WITH_LIBWRAP |
Whether to include libwrap (TCP wrappers) support | OFF |
|
WITH_LZ4 |
Type of LZ4 library support | bundled |
5.7.14 |
WITH_MECAB |
Compiles MeCab | ||
WITH_MSAN |
Enable MemorySanitizer | OFF |
|
WITH_MSCRT_DEBUG |
Enable Visual Studio CRT memory leak tracing | OFF |
|
WITH_NDBCLUSTER |
Build the NDB storage engine; alias for WITH_NDBCLUSTER_STORAGE_ENGINE | ON |
|
WITH_NDBCLUSTER_STORAGE_ENGINE |
Build the NDB storage engine | ON |
|
WITH_NDB_TEST |
Include NDB API test programs. | OFF |
|
WITH_NUMA |
Set NUMA memory allocation policy | 5.7.17 | |
WITH_PROTOBUF |
Which Protocol Buffers package to use | bundled |
5.7.12 |
WITH_RAPID |
Whether to build rapid development cycle plugins | ON |
5.7.12 |
WITH_SASL |
Internal use only | 5.7.29 | |
WITH_SSL |
Type of SSL support | system |
|
WITH_SYSTEMD |
Enable installation of systemd support files | OFF |
|
WITH_TEST_TRACE_PLUGIN |
Build test protocol trace plugin | OFF |
|
WITH_UBSAN |
Enable Undefined Behavior Sanitizer | OFF |
|
WITH_UNIT_TESTS |
Compile MySQL with unit tests | ON |
|
WITH_UNIXODBC |
Enable unixODBC support | OFF |
|
WITH_VALGRIND |
Whether to compile in Valgrind header files | OFF |
|
WITH_ZLIB |
Type of zlib support | bundled |
|
WITH_xxx_STORAGE_ENGINE |
Compile storage engine xxx statically into server |
This option configures a source distribution with the same build options used by Oracle to produce binary distributions for official MySQL releases.
The type of build to produce:
RelWithDebInfo
: Enable optimizations
and generate debugging information. This is the default
MySQL build type.
Debug
: Disable optimizations and
generate debugging information. This build type is also
used if the WITH_DEBUG
option is enabled. That is,
-DWITH_DEBUG=1
has the
same effect as
-DCMAKE_BUILD_TYPE=Debug
.
-DCPACK_MONOLITHIC_INSTALL=
bool
This option affects whether the make package operation produces multiple installation package files or a single file. If disabled, the operation produces multiple installation package files, which may be useful if you want to install only a subset of a full MySQL installation. If enabled, it produces a single file for installing everything.
The CMAKE_INSTALL_PREFIX
option
indicates the base installation directory. Other options with
names of the form
INSTALL_
that
indicate component locations are interpreted relative to the
prefix and their values are relative pathnames. Their values
should not include the prefix.
xxx
-DCMAKE_INSTALL_PREFIX=
dir_name
The installation base directory.
This value can be set at server startup with the
--basedir
option.
Where to install user programs.
Where to install documentation.
-DINSTALL_DOCREADMEDIR=
dir_name
Where to install README
files.
Where to install header files.
Where to install Info files.
Select a predefined installation layout:
STANDALONE
: Same layout as used for
.tar.gz
and
.zip
packages. This is the default.
RPM
: Layout similar to RPM packages.
SVR4
: Solaris package layout.
DEB
: DEB package layout
(experimental).
You can select a predefined layout but modify individual component installation locations by specifying other options. For example:
cmake . -DINSTALL_LAYOUT=SVR4 -DMYSQL_DATADIR=/var/mysql/data
The INSTALL_LAYOUT
value
determines the default value of the
secure_file_priv
,
keyring_encrypted_file_data
,
and keyring_file_data
system variables. See the descriptions of those variables in
Section 5.1.7, “Server System Variables”, and
Section 6.4.4.11, “Keyring System Variables”.
Where to install library files.
Where to install manual pages.
-DINSTALL_MYSQLKEYRINGDIR=
dir_path
The default directory to use as the location of the
keyring_file
plugin data file. The
default value is platform specific and depends on the value
of the INSTALL_LAYOUT
CMake option; see the description of the
keyring_file_data
system
variable in Section 5.1.7, “Server System Variables”.
This option was added in MySQL 5.7.11.
-DINSTALL_MYSQLSHAREDIR=
dir_name
Where to install shared data files.
-DINSTALL_MYSQLTESTDIR=
dir_name
Where to install the mysql-test
directory. To suppress installation of this directory,
explicitly set the option to the empty value
(-DINSTALL_MYSQLTESTDIR=
).
-DINSTALL_PKGCONFIGDIR=
dir_name
The directory in which to install the
mysqlclient.pc
file for use by
pkg-config. The default value is
INSTALL_LIBDIR/pkgconfig
, unless
INSTALL_LIBDIR
ends with
/mysql
, in which case that is removed
first.
The location of the plugin directory.
This value can be set at server startup with the
--plugin_dir
option.
Where to install the mysqld server.
Where to install mysql_install_db.
-DINSTALL_SECURE_FILE_PRIVDIR=
dir_name
The default value for the
secure_file_priv
system
variable. The default value is platform specific and depends
on the value of the
INSTALL_LAYOUT
CMake option; see the description of the
secure_file_priv
system
variable in Section 5.1.7, “Server System Variables”.
To set the value for the libmysqld
embedded server, use
INSTALL_SECURE_FILE_PRIV_EMBEDDEDDIR
.
-DINSTALL_SECURE_FILE_PRIV_EMBEDDEDDIR=
dir_name
The default value for the
secure_file_priv
system
variable, for the libmysqld
embedded
server.
The libmysqld
embedded server library
is deprecated as of MySQL 5.7.19 and will be removed in
MySQL 8.0.
Where to install aclocal/mysql.m4
.
-DINSTALL_SUPPORTFILESDIR=
dir_name
Where to install extra support files.
The location of the MySQL data directory.
This value can be set at server startup with the
--datadir
option.
The location of the ODBC includes directory, and may be used while configuring Connector/ODBC.
The location of the ODBC library directory, and may be used while configuring Connector/ODBC.
The default my.cnf
option file directory.
This location cannot be set at server startup, but you can
start the server with a given option file using the
--defaults-file=
option, where file_name
file_name
is the
full path name to the file.
The name of the directory in which to create the PID file
when MySQL is managed by systemd. The default is
/var/run/mysqld
; this might be changed
implicitly according to the
INSTALL_LAYOUT
value.
This option is ignored unless
WITH_SYSTEMD
is enabled.
The name of the MySQL service to use when MySQL is managed
by systemd. The default is mysqld
; this
might be changed implicitly according to the
INSTALL_LAYOUT
value.
This option is ignored unless
WITH_SYSTEMD
is enabled.
The default location to use for the
tmpdir
system variable. If
unspecified, the value defaults to
P_tmpdir
in
<stdio.h>
.
Storage engines are built as plugins. You can build a plugin as
a static module (compiled into the server) or a dynamic module
(built as a dynamic library that must be installed into the
server using the INSTALL PLUGIN
statement or the --plugin-load
option before it can be used). Some plugins might not support
static or dynamic building.
The InnoDB
,
MyISAM
,
MERGE
,
MEMORY
, and
CSV
engines are mandatory (always
compiled into the server) and need not be installed explicitly.
To compile a storage engine statically into the server, use
-DWITH_
.
Some permissible engine
_STORAGE_ENGINE=1engine
values are
ARCHIVE
, BLACKHOLE
,
EXAMPLE
, FEDERATED
,
NDB
or NDBCLUSTER
(NDB
), and
PARTITION
(partitioning support). Examples:
-DWITH_ARCHIVE_STORAGE_ENGINE=1 -DWITH_BLACKHOLE_STORAGE_ENGINE=1
WITH_NDBCLUSTER_STORAGE_ENGINE
is supported only when building NDB Cluster using the NDB
Cluster sources. It cannot be used to enable clustering
support in other MySQL source trees or distributions. In NDB
Cluster source distributions, it is enabled by default. See
Section 21.2.3.4, “Building NDB Cluster from Source on Linux”, and
Section 21.2.4.2, “Compiling and Installing NDB Cluster from Source on Windows”, for
more information.
It is not possible to compile without Performance Schema support. If it is desired to compile without particular types of instrumentation, that can be done with the following CMake options:
DISABLE_PSI_COND DISABLE_PSI_FILE DISABLE_PSI_IDLE DISABLE_PSI_MEMORY DISABLE_PSI_METADATA DISABLE_PSI_MUTEX DISABLE_PSI_PS DISABLE_PSI_RWLOCK DISABLE_PSI_SOCKET DISABLE_PSI_SP DISABLE_PSI_STAGE DISABLE_PSI_STATEMENT DISABLE_PSI_STATEMENT_DIGEST DISABLE_PSI_TABLE DISABLE_PSI_THREAD DISABLE_PSI_TRANSACTION
For example, to compile without mutex instrumentation,
configure MySQL using the
-DDISABLE_PSI_MUTEX=1
option.
To exclude a storage engine from the build, use
-DWITH_
.
Examples:
engine
_STORAGE_ENGINE=0
-DWITH_EXAMPLE_STORAGE_ENGINE=0 -DWITH_FEDERATED_STORAGE_ENGINE=0 -DWITH_PARTITION_STORAGE_ENGINE=0
It is also possible to exclude a storage engine from the build
using
-DWITHOUT_
(but
engine
_STORAGE_ENGINE=1-DWITH_
is preferred). Examples:
engine
_STORAGE_ENGINE=0
-DWITHOUT_EXAMPLE_STORAGE_ENGINE=1 -DWITHOUT_FEDERATED_STORAGE_ENGINE=1 -DWITHOUT_PARTITION_STORAGE_ENGINE=1
If neither
-DWITH_
nor
engine
_STORAGE_ENGINE-DWITHOUT_
are specified for a given storage engine, the engine is built as
a shared module, or excluded if it cannot be built as a shared
module.
engine
_STORAGE_ENGINE
A descriptive comment about the compilation environment.
-DDEFAULT_CHARSET=
charset_name
The server character set. By default, MySQL uses the
latin1
(cp1252 West European) character
set.
charset_name
may be one of
binary
, armscii8
,
ascii
, big5
,
cp1250
, cp1251
,
cp1256
, cp1257
,
cp850
, cp852
,
cp866
, cp932
,
dec8
, eucjpms
,
euckr
, gb2312
,
gbk
, geostd8
,
greek
, hebrew
,
hp8
, keybcs2
,
koi8r
, koi8u
,
latin1
, latin2
,
latin5
, latin7
,
macce
, macroman
,
sjis
, swe7
,
tis620
, ucs2
,
ujis
, utf8
,
utf8mb4
, utf16
,
utf16le
, utf32
. The
permissible character sets are listed in the
cmake/character_sets.cmake
file as the
value of CHARSETS_AVAILABLE
.
This value can be set at server startup with the
--character_set_server
option.
-DDEFAULT_COLLATION=
collation_name
The server collation. By default, MySQL uses
latin1_swedish_ci
. Use the
SHOW COLLATION
statement to
determine which collations are available for each character
set.
This value can be set at server startup with the
--collation_server
option.
Whether to exclude the Performance Schema condition
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema file
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema idle
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema memory
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema metadata
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema mutex
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema rwlock
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema socket
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema stored program
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema stage
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema statement
instrumentation. The default is OFF
(include).
-DDISABLE_PSI_STATEMENT_DIGEST=
bool
Whether to exclude the Performance Schema statement_digest
instrumentation. The default is OFF
(include).
Whether to exclude the Performance Schema table
instrumentation. The default is OFF
(include).
Exclude the performance schema prepared statements instances
instrumentation. The default is OFF
(include).
Exclude the performance schema thread instrumentation. The
default is OFF
(include).
Only disable threads when building without any instrumentation, because other instrumentations have a dependency on threads.
-DDISABLE_PSI_TRANSACTION=
bool
Exclude the performance schema transaction instrumentation.
The default is OFF
(include).
Whether to download the Boost library. The default is
OFF
.
See the WITH_BOOST
option for
additional discussion about using Boost.
-DDOWNLOAD_BOOST_TIMEOUT=
seconds
The timeout in seconds for downloading the Boost library. The default is 600 seconds.
See the WITH_BOOST
option for
additional discussion about using Boost.
Whether to download optional files. For example, with this option enabled, CMake downloads the Google Test distribution that is used by the test suite to run unit tests.
Whether to include support for DTrace probes. For information about DTrace, wee Section 5.8, “Tracing mysqld Using DTrace”
This option is deprecated because support for DTrace is deprecated in MySQL 5.7 and is removed in MySQL 8.0.
Whether to include gcov support (Linux only).
Whether to enable gprof
(optimized Linux
builds only).
This option controls the compiled-in default
LOCAL
capability for the MySQL client
library. Clients that make no explicit arrangements
therefore have LOCAL
capability disabled
or enabled according to the
ENABLED_LOCAL_INFILE
setting
specified at MySQL build time.
By default, the client library in MySQL binary distributions
is compiled with
ENABLED_LOCAL_INFILE
enabled.
If you compile MySQL from source, configure it with
ENABLED_LOCAL_INFILE
disabled
or enabled based on whether clients that make no explicit
arrangements should have LOCAL
capability
disabled or enabled, respectively.
ENABLED_LOCAL_INFILE
controls
the default for client-side LOCAL
capability. For the server, the
local_infile
system
variable controls server-side LOCAL
capability. To explicitly cause the server to refuse or
permit LOAD DATA LOCAL
statements (regardless of how client programs and libraries
are configured at build time or runtime), start
mysqld with
local_infile
disabled or
enabled, respectively.
local_infile
can also be
set at runtime. See Section 6.1.6, “Security Issues with LOAD DATA LOCAL”.
Whether to enable query profiling code (for the
SHOW PROFILE
and
SHOW PROFILES
statements).
-DFORCE_UNSUPPORTED_COMPILER=
bool
By default, CMake checks for minimum
versions of supported compilers: Visual Studio 2013
(Windows); GCC 4.4 or Clang 3.3 (Linux); Developer Studio
12.5 (Solaris server); Developer Studio 12.2 or GCC 4.4
(Solaris client library); Clang 3.3 (macOS), Clang 3.3
(FreeBSD). To disable this check, use
-DFORCE_UNSUPPORTED_COMPILER=ON
.
If the
-DBUILD_CONFIG=mysql_release
option is given on Linux, the libaio
library must be linked in by default. If you do not have
libaio
or do not want to install it, you
can suppress the check for it by specifying
-DIGNORE_AIO_CHECK=1
.
The maximum number of indexes per table. The default is 64. The maximum is 255. Values smaller than 64 are ignored and the default of 64 is used.
Whether to enable a MySQL maintainer-specific development environment. If enabled, this option causes compiler warnings to become errors.
The mutex type used by InnoDB
. Options
include:
event
: Use event mutexes. This is the
default value and the original InnoDB
mutex implementation.
sys
: Use POSIX mutexes on UNIX
systems. Use CRITICAL_SECTION
onjects
on Windows, if available.
futex
: Use Linux futexes instead of
condition variables to schedule waiting threads.
The port number on which X Plugin listens for TCP/IP connections. The default is 33060.
This value can be set at server startup with the
mysqlx_port
system
variable.
The Unix socket file path on which the server listens for
X Plugin socket connections. This must be an absolute
path name. The default is
/tmp/mysqlx.sock
.
This value can be set at server startup with the
mysqlx_port
system
variable.
For Windows or macOS, the project name to incorporate into the project file name.
The port number on which the server listens for TCP/IP connections. The default is 3306.
This value can be set at server startup with the
--port
option.
The Unix socket file path on which the server listens for
socket connections. This must be an absolute path name. The
default is /tmp/mysql.sock
.
This value can be set at server startup with the
--socket
option.
Whether to support optimizer tracing. See MySQL Internals: Tracing the Optimizer.
For builds on Linux systems, this option controls whether to take extra care to create a build result independent of build location and time.
This option was added in MySQL 5.7.19.
Whether to disable function inlining on Windows. The default is off (inlining enabled).
Whether to enable the AddressSanitizer, for compilers that support it. The default is off.
Whether to enable the AddressSanitizer
-fsanitize-address-use-after-scope
Clang
flag for use-after-scope detection. The default is off. To
use this option, -DWITH_ASAN
must also be enabled.
-DWITH_AUTHENTICATION_LDAP=
bool
Whether to report an error if the LDAP authentication plugins cannot be built:
If this option is disabled (the default), the LDAP plugins are built if the required header files and libraries are found. If they are not, CMake displays a note about it.
If this option is enabled, a failure to find the required header file andlibraries causes CMake to produce an error, preventing the server from being built.
For information about LDAP authentication, see Section 6.4.1.9, “LDAP Pluggable Authentication”. This option was added in MySQL 5.7.19.
-DWITH_AUTHENTICATION_PAM=
bool
Whether to build the PAM authentication plugin, for source trees that include this plugin. (See Section 6.4.1.7, “PAM Pluggable Authentication”.) If this option is specified and the plugin cannot be compiled, the build fails.
The location of the Amazon Web Services software development kit.
This option was added in MySQL 5.7.19.
The Boost library is required to build MySQL. These CMake options enable control over the library source location, and whether to download it automatically:
-DWITH_BOOST=
specifies the Boost library directory location. It is
also possible to specify the Boost location by setting
the path_name
BOOST_ROOT
or
WITH_BOOST
environment variable.
As of MySQL 5.7.11,
-DWITH_BOOST=system
is
permitted and indicates that the correct version of
Boost is installed on the compilation host in the
standard location. In this case, the installed version
of Boost is used rather than any version included with a
MySQL source distribution.
-DDOWNLOAD_BOOST=
specifies whether to download the Boost source if it is
not present in the specified location. The default is
bool
OFF
.
-DDOWNLOAD_BOOST_TIMEOUT=
the timeout in seconds for downloading the Boost
library. The default is 600 seconds.
seconds
For example, if you normally build MySQL placing the object
output in the bld
subdirectory of your
MySQL source tree, you can build with Boost like this:
mkdir bld cd bld cmake .. -DDOWNLOAD_BOOST=ON -DWITH_BOOST=$HOME/my_boost
This causes Boost to be downloaded into the
my_boost
directory under your home
directory. If the required Boost version is already there,
no download is done. If the required Boost version changes,
the newer version is downloaded.
If Boost is already installed locally and your compiler finds the Boost header files on its own, it may not be necessary to specify the preceding CMake options. However, if the version of Boost required by MySQL changes and the locally installed version has not been upgraded, you may have build problems. Using the CMake options should give you a successful build.
With the above settings that allow Boost download into a
specified location, when the required Boost version changes,
you need to remove the bld
folder,
recreate it, and perform the cmake step
again. Otherwise, the new Boost version might not get
downloaded, and compilation might fail.
-DWITH_CLIENT_PROTOCOL_TRACING=
bool
Whether to build the client-side protocol tracing framework into the client library. By default, this option is enabled.
For information about writing protocol trace client plugins, see Section 28.2.4.11, “Writing Protocol Trace Plugins”.
See also the
WITH_TEST_TRACE_PLUGIN
option.
The location of the curl library.
curl_type
can be
system
(use the system
curl library) or a path name to the
curl library.
This option was added in MySQL 5.7.19.
Whether to include debugging support.
Configuring MySQL with debugging support enables you to use
the --debug="d,parser_debug"
option when you start the server. This causes the Bison
parser that is used to process SQL statements to dump a
parser trace to the server's standard error output.
Typically, this output is written to the error log.
Sync debug checking for the InnoDB
storage engine is defined under
UNIV_DEBUG
and is available when
debugging support is compiled in using the
WITH_DEBUG
option. When
debugging support is compiled in, the
innodb_sync_debug
configuration option can be used to enable or disable
InnoDB
sync debug checking.
As of MySQL 5.7.18, enabling
WITH_DEBUG
also enables Debug
Sync. For a description of the Debug Sync facility and how
to use synchronization points, see
MySQL
Internals: Test Synchronization.
-DWITH_DEFAULT_FEATURE_SET=
bool
Whether to use the flags from
cmake/build_configurations/feature_set.cmake
.
Which libedit
/editline
library to use. The permitted values are
bundled
(the default) and
system
.
WITH_EDITLINE
replaces
WITH_LIBEDIT
, which has been removed.
Whether to build the libmysqld
embedded
server library.
The libmysqld
embedded server library
is deprecated as of MySQL 5.7.17 and has been removed in
MySQL 8.0.
-DWITH_EMBEDDED_SHARED_LIBRARY=
bool
Whether to build a shared libmysqld
embedded server library.
The libmysqld
embedded server library
is deprecated as of MySQL 5.7.17 and has been removed in
MySQL 8.0.
Which extra character sets to include:
all
: All character sets. This is the
default.
complex
: Complex character sets.
none
: No extra character sets.
-DWITH_INNODB_EXTRA_DEBUG=
bool
Whether to include extra InnoDB debugging support.
Enabling WITH_INNODB_EXTRA_DEBUG
turns on
extra InnoDB debug checks. This option can only be enabled
when WITH_DEBUG
is enabled.
The path to the googlemock distribution, for use with Google
Test-based unit tests. The option value is the path to the
distribution Zip file. Alternatively, set the
WITH_GMOCK
environment variable to the
path name. It is also possible to use
-DENABLE_DOWNLOADS=1
and
CMake will download the distribution from
GitHub.
If you build MySQL without the Google Test-based unit tests
(by configuring wihout
WITH_GMOCK
),
CMake displays a message indicating how
to download it.
Whether to generate memcached shared libraries
(libmemcached.so
and
innodb_engine.so
).
Whether to build the test program that accompanies the
keyring_file
plugin. The default is
OFF
. Test file source code is located in
the plugin/keyring/keyring-test
directory.
This option was added in MySQL 5.7.11.
Internal use only. This option was added in MySQL 5.7.29.
Which libevent
library to use. Permitted
values are bundled
(default),
system
, and yes
. If
you specify system
or
yes
, the system
libevent
library is used if present. If
the system library is not found, the bundled
libevent
library is used. The
libevent
library is required by
InnoDB
memcached.
Whether to include libwrap
(TCP wrappers)
support.
The WITH_LZ4
indicates the
source of zlib
support:
bundled
: Use the
LZ4
library bundled with the
distribution. This is the default.
system
: Use the system
LZ4
library. If
WITH_LZ4
is set to this
value, the lz4_decompress utility is
not built. In this case, the system
lz4 command can be used instead.
Whether to enable MemorySanitizer, for compilers that support it. The default is off.
For this option to have an effect if enabled, all libraries linked to MySQL must also have been compiled with the option enabled.
-DWITH_MECAB={disabled|system|
path_name
}
Use this option to compile the MeCab parser. If you have
installed MeCab to its default installation directory, set
-DWITH_MECAB=system
. The
system
option applies to MeCab
installations performed from source or from binaries using a
native package management utility. If you installed MeCab to
a custom installation directory, specify the path to the
MeCab installation. For example,
-DWITH_MECAB=/opt/mecab
. If the
system
option does not work, specifying
the MeCab installation path should work in all cases.
For related information, see Section 12.9.9, “MeCab Full-Text Parser Plugin”.
Whether to enable Visual Studio CRT memory leak tracing. The
default is OFF
.
Explicitly set the NUMA memory allocation policy.
CMake sets the default
WITH_NUMA
value based on
whether the current platform has NUMA
support. For platforms without NUMA support,
CMake behaves as follows:
With no NUMA option (the normal case), CMake continues normally, producing only this warning: NUMA library missing or required version not available
With -DWITH_NUMA=ON
,
CMake aborts with this error: NUMA
library missing or required version not available
This option was added in MySQL 5.7.17.
Which Protocol Buffers package to use.
protobuf_type
can be one of the
following values:
bundled
: Use the package bundled with
the distribution. This is the default.
system
: Use the package installed on
the system.
Other values are ignored, with a fallback to
bundled
.
This option was added in MySQL 5.7.12.
Whether to build the rapid development cycle plugins. When
enabled, a rapid
directory is created
in the build tree containing these plugins. When disabled,
no rapid
directory is created in the
build tree. The default is ON
, unless the
rapid
directory is removed from the
source tree, in which case the default becomes
OFF
. This option was added in MySQL
5.7.12.
Internal use only. This option was added in MySQL 5.7.29.
-DWITH_SSL={
|ssl_type
path_name
}
For support of encrypted connections, entropy for random number generation, and other encryption-related operations, MySQL must be built using an SSL library. This option specifies which SSL library to use.
ssl_type
can be one of the
following values:
yes
: Use the system OpenSSL
library if present, else the library bundled with
the distribution.
bundled
: Use the SSL library
bundled with the distribution. This is the default
prior to MySQL 5.7.28. As of 5.7.28, this is no
longer a permitted value and the default is
system
.
system
: Use the system OpenSSL
library. This is the default as of MySQL 5.7.28.
path_name
is the path name to
the OpenSSL installation to use. This can be preferable
to using the ssl_type
value
of system
because it can prevent
CMake from detecting and using an older or incorrect
OpenSSL version installed on the system. (Another
permitted way to do the same thing is to set
WITH_SSL
to system
and set the CMAKE_PREFIX_PATH
option to
path_name
.)
For additional information about configuring the SSL library, see Section 2.9.6, “Configuring SSL Library Support”.
Whether to enable installation of systemd support files. By
default, this option is disabled. When enabled, systemd
support files are installed, and scripts such as
mysqld_safe and the System V
initialization script are not installed. On platforms where
systemd is not available, enabling
WITH_SYSTEMD
results in an
error from CMake.
For more information about using systemd, see
Section 2.5.10, “Managing MySQL Server with systemd”. That section also includes
information about specifying options previously specified in
[mysqld_safe]
option groups. Because
mysqld_safe is not installed when systemd
is used, such options must be specified another way.
Whether to build the test protocol trace client plugin (see
Section 28.2.4.11.1, “Using the Test Protocol Trace Plugin”). By default,
this option is disabled. Enabling this option has no effect
unless the
WITH_CLIENT_PROTOCOL_TRACING
option is enabled. If MySQL is configured with both options
enabled, the libmysqlclient
client
library is built with the test protocol trace plugin built
in, and all the standard MySQL clients load the plugin.
However, even when the test plugin is enabled, it has no
effect by default. Control over the plugin is afforded using
environment variables; see
Section 28.2.4.11.1, “Using the Test Protocol Trace Plugin”.
Do not enable the
WITH_TEST_TRACE_PLUGIN
option if you want to use your own protocol trace plugins
because only one such plugin can be loaded at a time and
an error occurs for attempts to load a second one. If you
have already built MySQL with the test protocol trace
plugin enabled to see how it works, you must rebuild MySQL
without it before you can use your own plugins.
For information about writing trace plugins, see Section 28.2.4.11, “Writing Protocol Trace Plugins”.
Whether to enable the Undefined Behavior Sanitizer, for compilers that support it. The default is off.
If enabled, compile MySQL with unit tests. The default is ON unless the server is not being compiled.
Enables unixODBC support, for Connector/ODBC.
Whether to compile in the Valgrind header files, which
exposes the Valgrind API to MySQL code. The default is
OFF
.
To generate a Valgrind-aware debug build,
-DWITH_VALGRIND=1
normally is
combined with -DWITH_DEBUG=1
.
See
Building
Debug Configurations.
Some features require that the server be built with
compression library support, such as the
COMPRESS()
and
UNCOMPRESS()
functions, and
compression of the client/server protocol. The
WITH_ZLIB
indicates the source
of zlib
support:
bundled
: Use the
zlib
library bundled with the
distribution. This is the default.
system
: Use the system
zlib
library.
Flags for the C Compiler.
Flags for the C++ Compiler.
-DWITH_DEFAULT_COMPILER_OPTIONS=
bool
Whether to use the flags from
cmake/build_configurations/compiler_options.cmake
.
All optimization flags were carefully chosen and tested by the MySQL build team. Overriding them can lead to unexpected results and is done at your own risk.
-DSUNPRO_CXX_LIBRARY="
"
lib_name
Enable linking against libCstd
instead of
stlport4
on Solaris 10 or later. This
works only for client code because the server depends on
C++98.
To specify your own C and C++ compiler flags, for flags that do
not affect optimization, use the
CMAKE_C_FLAGS
and
CMAKE_CXX_FLAGS
CMake options.
When providing your own compiler flags, you might want to
specify CMAKE_BUILD_TYPE
as well.
For example, to create a 32-bit release build on a 64-bit Linux machine, do this:
mkdir bld cd bld cmake .. -DCMAKE_C_FLAGS=-m32 \ -DCMAKE_CXX_FLAGS=-m32 \ -DCMAKE_BUILD_TYPE=RelWithDebInfo
If you set flags that affect optimization
(-O
), you must
set the
number
CMAKE_C_FLAGS_
and/or
build_type
CMAKE_CXX_FLAGS_
options, where build_type
build_type
corresponds
to the CMAKE_BUILD_TYPE
value. To
specify a different optimization for the default build type
(RelWithDebInfo
) set the
CMAKE_C_FLAGS_RELWITHDEBINFO
and
CMAKE_CXX_FLAGS_RELWITHDEBINFO
options. For
example, to compile on Linux with -O3
and with
debug symbols, do this:
cmake .. -DCMAKE_C_FLAGS_RELWITHDEBINFO="-O3 -g" \ -DCMAKE_CXX_FLAGS_RELWITHDEBINFO="-O3 -g"
The following options are for use when building NDB Cluster with the NDB Cluster sources; they are not currently supported when using sources from the MySQL 5.6 Server tree.
Perform the build using the memcached (version 1.6 or later)
installed in the system directory indicated by
dir_name
. Files from this
installation that are used in the build include the
memcached binary, header files, and libraries, as well as
the memcached_utilities
library and the
header file engine_testapp.h
.
You must leave this option unset when building
ndbmemcache
using the bundled memcached
sources
(WITH_BUNDLED_MEMCACHED
option); in other words, the bundled sources are used by
default).
While additional CMake options—such
as for SASL authorization and for providing
dtrace
support—are available for
use when compiling memcached from
external sources, these options are currently not enabled
for the memcached sources bundled with
NDB Cluster.
-DWITH_BUNDLED_LIBEVENT={ON|OFF}
Use the libevent
included in the NDB
Cluster sources when building NDB Cluster with
ndbmemcached
support. Enabled by default.
OFF
causes the system's
libevent
to be used instead.
-DWITH_BUNDLED_MEMCACHED={ON|OFF}
Build the memcached sources included in the NDB Cluster
source tree, then use the resulting memcached server when
building the ndbmemcache
engine. In this
case, make install places the
memcached binary in the installation
bin
directory, and the
ndbmemcache
engine shared library file
ndb_engine.so
in the installation
lib
directory.
This option is ON by default.
Sets the classpath for building NDB Cluster Connector for
Java. The default is empty. This option is ignored if
-DWITH_NDB_JAVA=OFF
is used.
Enables error injection in the
NDB
kernel. For testing only;
not intended for use in building production binaries. The
default is OFF
.
-DWITH_NDBCLUSTER_STORAGE_ENGINE={ON|OFF}
Build and link in support for the
NDB
(NDBCLUSTER
) storage engine in
mysqld. The default is
ON
.
This is an alias for
WITH_NDBCLUSTER_STORAGE_ENGINE
.
Build the multithreaded data node executable
ndbmtd. The default is
ON
.
Enable binary logging by default in the mysqld built using this option. ON by default.
Enable building the debug versions of the NDB Cluster binaries. OFF by default.
Enable building NDB Cluster with Java support, including
ClusterJ
.
This option is ON by default. If you do not wish to compile
NDB Cluster with Java support, you must disable it
explicitly by specifying
-DWITH_NDB_JAVA=OFF
when running
CMake. Otherwise, if Java cannot be
found, configuration of the build fails.
Causes the NDB Cluster management server
(ndb_mgmd) that is built to use this
port
by default. If this option
is unset, the resulting management server tries to use port
1186 by default.
If enabled, include a set of NDB API test programs. The default is OFF.
The solution to many problems involves reconfiguring. If you do reconfigure, take note of the following:
If CMake is run after it has previously
been run, it may use information that was gathered during its
previous invocation. This information is stored in
CMakeCache.txt
. When
CMake starts, it looks for that file and
reads its contents if it exists, on the assumption that the
information is still correct. That assumption is invalid when
you reconfigure.
Each time you run CMake, you must run make again to recompile. However, you may want to remove old object files from previous builds first because they were compiled using different configuration options.
To prevent old object files or configuration information from being used, run the following commands before re-running CMake:
On Unix:
shell>make clean
shell>rm CMakeCache.txt
On Windows:
shell>devenv MySQL.sln /clean
shell>del CMakeCache.txt
If you build outside of the source tree, remove and recreate your build directory before re-running CMake. For instructions on building outside of the source tree, see How to Build MySQL Server with CMake.
On some systems, warnings may occur due to differences in system include files. The following list describes other problems that have been found to occur most often when compiling MySQL:
To define which C and C++ compilers to use, you can define the
CC
and CXX
environment
variables. For example:
shell>CC=gcc
shell>CXX=g++
shell>export CC CXX
To specify your own C and C++ compiler flags, use the
CMAKE_C_FLAGS
and
CMAKE_CXX_FLAGS
CMake options.
See Compiler Flags.
To see what flags you might need to specify, invoke
mysql_config with the
--cflags
and
--cxxflags
options.
To see what commands are executed during the compile stage, after using CMake to configure MySQL, run make VERBOSE=1 rather than just make.
If compilation fails, check whether the
MYSQL_MAINTAINER_MODE
option is
enabled. This mode causes compiler warnings to become errors,
so disabling it may enable compilation to proceed.
If your compile fails with errors such as any of the following, you must upgrade your version of make to GNU make:
make: Fatal error in reader: Makefile, line 18: Badly formed macro assignment
Or:
make: file `Makefile' line 18: Must be a separator (:
Or:
pthread.h: No such file or directory
Solaris and FreeBSD are known to have troublesome make programs.
GNU make 3.75 is known to work.
The sql_yacc.cc
file is generated from
sql_yacc.yy
. Normally, the build process
does not need to create sql_yacc.cc
because MySQL comes with a pregenerated copy. However, if you
do need to re-create it, you might encounter this error:
"sql_yacc.yy", line xxx
fatal: default action causes potential...
This is a sign that your version of yacc is deficient. You probably need to install a recent version of bison (the GNU version of yacc) and use that instead.
Versions of bison older than 1.75 may report this error:
sql_yacc.yy:#####: fatal error: maximum table size (32767) exceeded
The maximum table size is not actually exceeded; the error is caused by bugs in older versions of bison.
For information about acquiring or updating tools, see the system requirements in Section 2.9, “Installing MySQL from Source”.
Third-party tools that need to determine the MySQL version from
the MySQL source can read the VERSION
file in
the top-level source directory. The file lists the pieces of the
version separately. For example, if the version is MySQL
5.7.4-m14, the file looks like this:
MYSQL_VERSION_MAJOR=5 MYSQL_VERSION_MINOR=7 MYSQL_VERSION_PATCH=4 MYSQL_VERSION_EXTRA=-m14
If the source is not for a General Availablility (GA) release, the
MYSQL_VERSION_EXTRA
value will be nonempty. For
the example, the value corresponds to Milestone 14.
To construct a five-digit number from the version components, use this formula:
MYSQL_VERSION_MAJOR*10000 + MYSQL_VERSION_MINOR*100 + MYSQL_VERSION_PATCH
This section discusses tasks that you should perform after installing MySQL:
If necessary, initialize the data directory and create the MySQL grant tables. For some MySQL installation methods, data directory initialization may be done for you automatically:
Windows installation operations performed by MySQL Installer.
Installation on Linux using a server RPM or Debian distribution from Oracle.
Installation using the native packaging system on many platforms, including Debian Linux, Ubuntu Linux, Gentoo Linux, and others.
Installation on macOS using a DMG distribution.
For other platforms and installation types, you must initialize the data directory manually. These include installation from generic binary and source distributions on Unix and Unix-like system, and installation from a ZIP Archive package on Windows. For instructions, see Section 2.10.1, “Initializing the Data Directory”.
Start the server and make sure that it can be accessed. For instructions, see Section 2.10.2, “Starting the Server”, and Section 2.10.3, “Testing the Server”.
Assign passwords to the initial root
account
in the grant tables, if that was not already done during data
directory initialization. Passwords prevent unauthorized access
to the MySQL server. For instructions, see
Section 2.10.4, “Securing the Initial MySQL Account”.
Optionally, arrange for the server to start and stop automatically when your system starts and stops. For instructions, see Section 2.10.5, “Starting and Stopping MySQL Automatically”.
Optionally, populate time zone tables to enable recognition of named time zones. For instructions, see Section 5.1.12, “MySQL Server Time Zone Support”.
When you are ready to create additional user accounts, you can find information on the MySQL access control system and account management in Section 6.2, “Access Control and Account Management”.
After MySQL is installed, the data directory must be initialized,
including the tables in the mysql
system
database:
For some MySQL installation methods, data directory initialization is automatic, as described in Section 2.10, “Postinstallation Setup and Testing”.
For other installation methods, you must initialize the data directory manually. These include installation from generic binary and source distributions on Unix and Unix-like systems, and installation from a ZIP Archive package on Windows.
This section describes how to initialize the data directory manually for MySQL installation methods for which data directory initialization is not automatic. For some suggested commands that enable testing whether the server is accessible and working properly, see Section 2.10.3, “Testing the Server”.
In the examples shown here, the server is intended to run under
the user ID of the mysql
login account.
Either create the account if it does not exist (see
Create a mysql User and Group), or
substitute the name of a different existing login account that
you plan to use for running the server.
Change location to the top-level directory of your MySQL
installation, which is typically
/usr/local/mysql
(adjust the path name
for your system as necessary):
cd /usr/local/mysql
Within the directory you will find several files and
subdirectories, including the bin
subdirectory that contains the server as well as client and
utility programs.
The secure_file_priv
system
variable limits import and export operations to a specific
directory. Create a directory whose location can be
specified as the value of that variable:
mkdir mysql-files
Grant directory user and group ownership to the
mysql
user and mysql
group, and set the directory permissions appropriately:
chown mysql:mysql mysql-files chmod 750 mysql-files
Use the server to initialize the data directory, including
the mysql
database containing the initial
MySQL grant tables that determine how users are permitted to
connect to the server. For example:
bin/mysqld --initialize --user=mysql
For important information about the command, especially regarding command options you might use, see Data Directory Initialization Procedure. For details about how the server performs initialization, see Server Actions During Data Directory Initialization.
Typically, data directory initialization need be done only
after you first install MySQL. (For upgrades to an existing
installation, perform the upgrade procedure instead; see
Section 2.11, “Upgrading MySQL”.) However, the command that
initializes the data directory does not overwrite any
existing mysql
database tables, so it is
safe to run in any circumstances.
Initialization of the data directory might fail if required system libraries are missing. For example, you might see an error like this:
bin/mysqld: error while loading shared libraries: libnuma.so.1: cannot open shared object file: No such file or directory
If this happens, you must install the missing libraries manually or with your system's package manager. Then retry the data directory initialization command.
If you want to deploy the server with automatic support for secure connections, use the mysql_ssl_rsa_setup utility to create default SSL and RSA files:
bin/mysql_ssl_rsa_setup
For more information, see Section 4.4.5, “mysql_ssl_rsa_setup — Create SSL/RSA Files”.
In the absence of any option files, the server starts with
its default settings. (See
Section 5.1.2, “Server Configuration Defaults”.) To
explicitly specify options that the MySQL server should use
at startup, put them in an option file such as
/etc/my.cnf
or
/etc/mysql/my.cnf
. (See
Section 4.2.2.2, “Using Option Files”.) For example, you can use an
option file to set the
secure_file_priv
system
variable.
To arrange for MySQL to start without manual intervention at system boot time, see Section 2.10.5, “Starting and Stopping MySQL Automatically”.
Data directory initialization creates time zone tables in
the mysql
database but does not populate
them. To do so, use the instructions in
Section 5.1.12, “MySQL Server Time Zone Support”.
Change location to the top-level directory of your MySQL
installation, which is typically
/usr/local/mysql
(adjust the path name for
your system as necessary):
cd /usr/local/mysql
To initialize the data directory, invoke
mysqld with the
--initialize
or
--initialize-insecure
option,
depending on whether you want the server to generate a random
initial password for the 'root'@'localhost'
account, or to create that account with no password:
Use --initialize
for
“secure by default” installation (that is,
including generation of a random initial
root
password). In this case, the
password is marked as expired and you will need to choose a
new one.
With --initialize-insecure
,
no root
password is generated. This is
insecure; it is assumed that you will assign a password to
the account in timely fashion before putting the server into
production use.
For instructions on assigning a new
'root'@'localhost'
password, see
Post-Initialization root Password Assignment.
The server writes any messages (including any initial password) to its standard error output. This may be redirected to the error log, so look there if you do not see the messages on your screen. For information about the error log, including where it is located, see Section 5.4.2, “The Error Log”.
On Windows, use the --console
option to direct messages to the console.
On Unix and Unix-like systems, it is important for the database
directories and files to be owned by the
mysql
login account so that the server has
read and write access to them when you run it later. To ensure
this, start mysqld from the system
root
account and include the
--user
option as shown here:
bin/mysqld --initialize --user=mysql bin/mysqld --initialize-insecure --user=mysql
Alternatively, execute mysqld while logged in
as mysql
, in which case you can omit the
--user
option from the command.
On Windows, use one of these commands:
bin\mysqld --initialize --console bin\mysqld --initialize-insecure --console
It might be necessary to specify other options such as
--basedir
or
--datadir
if
mysqld cannot identify the correct locations
for the installation directory or data directory. For example
(enter the command on a single line):
bin/mysqld --initialize --user=mysql --basedir=/opt/mysql/mysql --datadir=/opt/mysql/mysql/data
Alternatively, put the relevant option settings in an option
file and pass the name of that file to
mysqld. For Unix and Unix-like systems,
suppose that the option file name is
/opt/mysql/mysql/etc/my.cnf
. Put these
lines in the file:
[mysqld] basedir=/opt/mysql/mysql datadir=/opt/mysql/mysql/data
Then invoke mysqld as follows (enter the
command on a single line with the
--defaults-file
option first):
bin/mysqld --defaults-file=/opt/mysql/mysql/etc/my.cnf --initialize --user=mysql
On Windows, suppose that C:\my.ini
contains
these lines:
[mysqld] basedir=C:\\Program Files\\MySQL\\MySQL Server 5.7 datadir=D:\\MySQLdata
Then invoke mysqld as follows (enter the
command on a single line with the
--defaults-file
option first):
bin\mysqld --defaults-file=C:\my.ini --initialize --console
The data directory initialization sequence performed by the server does not substitute for the actions performed by mysql_secure_installation and mysql_ssl_rsa_setup. See Section 4.4.4, “mysql_secure_installation — Improve MySQL Installation Security”, and Section 4.4.5, “mysql_ssl_rsa_setup — Create SSL/RSA Files”.
When invoked with the
--initialize
or
--initialize-insecure
option,
mysqld performs the following actions during
the data directory initialization sequence:
The server checks for the existence of the data directory as follows:
If no data directory exists, the server creates it.
If the data directory exists but is not empty (that is, it contains files or subdirectories), the server exits after producing an error message:
[ERROR] --initialize specified but the data directory exists. Aborting.
In this case, remove or rename the data directory and try again.
As of MySQL 5.7.11, an existing data directory is
permitted to be nonempty if every entry either has a
name that begins with a period (.
) or
is named using an
--ignore-db-dir
option.
Avoid the use of the
--ignore-db-dir
option,
which has been deprecated since MySQL 5.7.16.
Within the data directory, the server creates the
mysql
system database and its tables,
including the grant tables, time zone tables, and
server-side help tables. See
Section 5.3, “The mysql System Database”.
The server initializes the
system
tablespace and related data structures needed to
manage InnoDB
tables.
After mysqld sets up the
InnoDB
system
tablespace, certain changes to tablespace
characteristics require setting up a whole new
instance. Qualifying
changes include the file name of the first file in the
system tablespace and the number of undo logs. If you do
not want to use the default values, make sure that the
settings for the
innodb_data_file_path
and
innodb_log_file_size
configuration parameters are in place in the MySQL
configuration
file before running
mysqld. Also make sure to specify as
necessary other parameters that affect the creation and
location of InnoDB
files, such as
innodb_data_home_dir
and
innodb_log_group_home_dir
.
If those options are in your configuration file but that
file is not in a location that MySQL reads by default,
specify the file location using the
--defaults-extra-file
option when you run mysqld.
The server creates a 'root'@'localhost'
superuser account and other reserved accounts (see
Section 6.2.8, “Reserved Accounts”). Some reserved accounts
are locked and cannot be used by clients, but
'root'@'localhost'
is intended for
administrative use and you should assign it a password.
Server actions with respect to a password for the
'root'@'localhost'
account depend on how
you invoke it:
With --initialize
but not
--initialize-insecure
,
the server generates a random password, marks it as
expired, and writes a message displaying the password:
[Warning] A temporary password is generated for root@localhost: iTag*AfrH5ej
With
--initialize-insecure
,
(either with or without
--initialize
because
--initialize-insecure
implies --initialize
),
the server does not generate a password or mark it
expired, and writes a warning message:
[Warning] root@localhost is created with an empty password ! Please consider switching off the --initialize-insecure option.
For instructions on assigning a new
'root'@'localhost'
password, see
Post-Initialization root Password Assignment.
The server populates the server-side help tables used for
the HELP
statement (see
Section 13.8.3, “HELP Statement”). The server does not populate the
time zone tables. To do so manually, see
Section 5.1.12, “MySQL Server Time Zone Support”.
If the init_file
system
variable was given to name a file of SQL statements, the
server executes the statements in the file. This option
enables you to perform custom bootstrapping sequences.
When the server operates in bootstrap mode, some
functionality is unavailable that limits the statements
permitted in the file. These include statements that relate
to account management (such as CREATE
USER
or GRANT
),
replication, and global transaction identifiers.
The server exits.
After you initialize the data directory by starting the server
with --initialize
or
--initialize-insecure
, start the
server normally (that is, without either of those options) and
assign the 'root'@'localhost'
account a new
password:
Start the server. For instructions, see Section 2.10.2, “Starting the Server”.
Connect to the server:
If you used --initialize
but not
--initialize-insecure
to
initialize the data directory, connect to the server as
root
:
mysql -u root -p
Then, at the password prompt, enter the random password that the server generated during the initialization sequence:
Enter password: (enter the random root password here)
Look in the server error log if you do not know this password.
If you used
--initialize-insecure
to
initialize the data directory, connect to the server as
root
without a password:
mysql -u root --skip-password
After connecting, use an ALTER
USER
statement to assign a new
root
password:
ALTER USER 'root'@'localhost' IDENTIFIED BY 'root-password'
;
See also Section 2.10.4, “Securing the Initial MySQL Account”.
Attempts to connect to the host 127.0.0.1
normally resolve to the localhost
account.
However, this fails if the server is run with
skip_name_resolve
enabled. If
you plan to do that, make sure that an account exists that can
accept a connection. For example, to be able to connect as
root
using
--host=127.0.0.1
or
--host=::1
, create these accounts:
CREATE USER 'root'@'127.0.0.1' IDENTIFIED BY 'root-password
'; CREATE USER 'root'@'::1' IDENTIFIED BY 'root-password
';
It is possible to put those statements in a file to be
executed using the init_file
system variable, as discussed in
Server Actions During Data Directory Initialization.
This section describes how start the server on Unix and Unix-like systems. (For Windows, see Section 2.3.4.5, “Starting the Server for the First Time”.) For some suggested commands that you can use to test whether the server is accessible and working properly, see Section 2.10.3, “Testing the Server”.
Start the MySQL server like this if your installation includes mysqld_safe:
shell> bin/mysqld_safe --user=mysql &
For Linux systems on which MySQL is installed using RPM packages, server startup and shutdown is managed using systemd rather than mysqld_safe, and mysqld_safe is not installed. See Section 2.5.10, “Managing MySQL Server with systemd”.
Start the server like this if your installation includes systemd support:
shell> systemctl start mysqld
Substitute the appropriate service name if it differs from
mysqld
(for example, mysql
on SLES systems).
It is important that the MySQL server be run using an unprivileged
(non-root
) login account. To ensure this, run
mysqld_safe as root
and
include the --user
option as
shown. Otherwise, you should execute the program while logged in
as mysql
, in which case you can omit the
--user
option from the
command.
For further instructions for running MySQL as an unprivileged user, see Section 6.1.5, “How to Run MySQL as a Normal User”.
If the command fails immediately and prints mysqld
ended
, look for information in the error log (which by
default is the
file
in the data directory).
host_name
.err
If the server is unable to access the data directory it starts or
read the grant tables in the mysql
database, it
writes a message to its error log. Such problems can occur if you
neglected to create the grant tables by initializing the data
directory before proceeding to this step, or if you ran the
command that initializes the data directory without the
--user
option. Remove the
data
directory and run the command with the
--user
option.
If you have other problems starting the server, see Section 2.10.2.1, “Troubleshooting Problems Starting the MySQL Server”. For more information about mysqld_safe, see Section 4.3.2, “mysqld_safe — MySQL Server Startup Script”. For more information about systemd support, see Section 2.5.10, “Managing MySQL Server with systemd”.
This section provides troubleshooting suggestions for problems starting the server. For additional suggestions for Windows systems, see Section 2.3.5, “Troubleshooting a Microsoft Windows MySQL Server Installation”.
If you have problems starting the server, here are some things to try:
Check the error log to
see why the server does not start. Log files are located in
the data
directory (typically C:\Program
Files\MySQL\MySQL Server 5.7\data
on
Windows, /usr/local/mysql/data
for a
Unix/Linux binary distribution, and
/usr/local/var
for a Unix/Linux source
distribution). Look in the data directory for files with
names of the form
and
host_name
.err
,
where host_name
.loghost_name
is the name of
your server host. Then examine the last few lines of these
files. Use tail
to display them:
shell>tail
shell>host_name
.errtail
host_name
.log
Specify any special options needed by the storage engines
you are using. You can create a my.cnf
file and specify startup options for the engines that you
plan to use. If you are going to use storage engines that
support transactional tables (InnoDB
,
NDB
), be sure that you have
them configured the way you want before starting the server.
If you are using InnoDB
tables, see
Section 14.8, “InnoDB Configuration” for guidelines and
Section 14.15, “InnoDB Startup Options and System Variables” for option syntax.
Although storage engines use default values for options that you omit, Oracle recommends that you review the available options and specify explicit values for any options whose defaults are not appropriate for your installation.
Make sure that the server knows where to find the data directory. The mysqld server uses this directory as its current directory. This is where it expects to find databases and where it expects to write log files. The server also writes the pid (process ID) file in the data directory.
The default data directory location is hardcoded when the
server is compiled. To determine what the default path
settings are, invoke mysqld with the
--verbose
and
--help
options. If the data
directory is located somewhere else on your system, specify
that location with the
--datadir
option to
mysqld or mysqld_safe,
on the command line or in an option file. Otherwise, the
server will not work properly. As an alternative to the
--datadir
option, you can
specify mysqld the location of the base
directory under which MySQL is installed with the
--basedir
, and
mysqld looks for the
data
directory there.
To check the effect of specifying path options, invoke
mysqld with those options followed by the
--verbose
and
--help
options. For example,
if you change location to the directory where
mysqld is installed and then run the
following command, it shows the effect of starting the
server with a base directory of
/usr/local
:
shell> ./mysqld --basedir=/usr/local --verbose --help
You can specify other options such as
--datadir
as well, but
--verbose
and
--help
must be the last
options.
Once you determine the path settings you want, start the
server without --verbose
and
--help
.
If mysqld is currently running, you can find out what path settings it is using by executing this command:
shell> mysqladmin variables
Or:
shell> mysqladmin -h host_name
variables
host_name
is the name of the
MySQL server host.
Make sure that the server can access the data directory. The ownership and permissions of the data directory and its contents must allow the server to read and modify them.
If you get Errcode 13
(which means
Permission denied
) when starting
mysqld, this means that the privileges of
the data directory or its contents do not permit server
access. In this case, you change the permissions for the
involved files and directories so that the server has the
right to use them. You can also start the server as
root
, but this raises security issues and
should be avoided.
Change location to the data directory and check the
ownership of the data directory and its contents to make
sure the server has access. For example, if the data
directory is /usr/local/mysql/var
, use
this command:
shell> ls -la /usr/local/mysql/var
If the data directory or its files or subdirectories are not
owned by the login account that you use for running the
server, change their ownership to that account. If the
account is named mysql
, use these
commands:
shell>chown -R mysql /usr/local/mysql/var
shell>chgrp -R mysql /usr/local/mysql/var
Even with correct ownership, MySQL might fail to start up if there is other security software running on your system that manages application access to various parts of the file system. In this case, reconfigure that software to enable mysqld to access the directories it uses during normal operation.
Verify that the network interfaces the server wants to use are available.
If either of the following errors occur, it means that some other program (perhaps another mysqld server) is using the TCP/IP port or Unix socket file that mysqld is trying to use:
Can't start server: Bind on TCP/IP port: Address already in use Can't start server: Bind on unix socket...
Use ps to determine whether you have another mysqld server running. If so, shut down the server before starting mysqld again. (If another server is running, and you really want to run multiple servers, you can find information about how to do so in Section 5.7, “Running Multiple MySQL Instances on One Machine”.)
If no other server is running, execute the command
telnet
.
(The default MySQL port number is 3306.) Then press Enter a
couple of times. If you do not get an error message like
your_host_name
tcp_ip_port_number
telnet: Unable to connect to remote host:
Connection refused
, some other program is using
the TCP/IP port that mysqld is trying to
use. Track down what program this is and disable it, or tell
mysqld to listen to a different port with
the --port
option. In this
case, specify the same non-default port number for client
programs when connecting to the server using TCP/IP.
Another reason the port might be inaccessible is that you have a firewall running that blocks connections to it. If so, modify the firewall settings to permit access to the port.
If the server starts but you cannot connect to it, make sure
that you have an entry in /etc/hosts
that looks like this:
127.0.0.1 localhost
If you cannot get mysqld to start, try to
make a trace file to find the problem by using the
--debug
option. See
Section 28.5.3, “The DBUG Package”.
After the data directory is initialized and you have started the
server, perform some simple tests to make sure that it works
satisfactorily. This section assumes that your current location is
the MySQL installation directory and that it has a
bin
subdirectory containing the MySQL
programs used here. If that is not true, adjust the command path
names accordingly.
Alternatively, add the bin
directory to your
PATH
environment variable setting. That enables
your shell (command interpreter) to find MySQL programs properly,
so that you can run a program by typing only its name, not its
path name. See Section 4.2.6, “Setting Environment Variables”.
Use mysqladmin to verify that the server is running. The following commands provide simple tests to check whether the server is up and responding to connections:
shell>bin/mysqladmin version
shell>bin/mysqladmin variables
If you cannot connect to the server, specify a -u
root
option to connect as root
. If you
have assigned a password for the root
account
already, you'll also need to specify -p
on the
command line and enter the password when prompted. For example:
shell>bin/mysqladmin -u root -p version
Enter password:(enter root password here)
The output from mysqladmin version varies slightly depending on your platform and version of MySQL, but should be similar to that shown here:
shell> bin/mysqladmin version
mysqladmin Ver 14.12 Distrib 5.7.30, for pc-linux-gnu on i686
...
Server version 5.7.30
Protocol version 10
Connection Localhost via UNIX socket
UNIX socket /var/lib/mysql/mysql.sock
Uptime: 14 days 5 hours 5 min 21 sec
Threads: 1 Questions: 366 Slow queries: 0
Opens: 0 Flush tables: 1 Open tables: 19
Queries per second avg: 0.000
To see what else you can do with mysqladmin,
invoke it with the --help
option.
Verify that you can shut down the server (include a
-p
option if the root
account
has a password already):
shell> bin/mysqladmin -u root shutdown
Verify that you can start the server again. Do this by using mysqld_safe or by invoking mysqld directly. For example:
shell> bin/mysqld_safe --user=mysql &
If mysqld_safe fails, see Section 2.10.2.1, “Troubleshooting Problems Starting the MySQL Server”.
Run some simple tests to verify that you can retrieve information from the server. The output should be similar to that shown here.
Use mysqlshow to see what databases exist:
shell> bin/mysqlshow
+--------------------+
| Databases |
+--------------------+
| information_schema |
| mysql |
| performance_schema |
| sys |
+--------------------+
The list of installed databases may vary, but always includes at
least mysql
and
information_schema
.
If you specify a database name, mysqlshow displays a list of the tables within the database:
shell> bin/mysqlshow mysql
Database: mysql
+---------------------------+
| Tables |
+---------------------------+
| columns_priv |
| db |
| engine_cost |
| event |
| func |
| general_log |
| gtid_executed |
| help_category |
| help_keyword |
| help_relation |
| help_topic |
| innodb_index_stats |
| innodb_table_stats |
| ndb_binlog_index |
| plugin |
| proc |
| procs_priv |
| proxies_priv |
| server_cost |
| servers |
| slave_master_info |
| slave_relay_log_info |
| slave_worker_info |
| slow_log |
| tables_priv |
| time_zone |
| time_zone_leap_second |
| time_zone_name |
| time_zone_transition |
| time_zone_transition_type |
| user |
+---------------------------+
Use the mysql program to select information
from a table in the mysql
database:
shell> bin/mysql -e "SELECT User, Host, plugin FROM mysql.user" mysql
+------+-----------+-----------------------+
| User | Host | plugin |
+------+-----------+-----------------------+
| root | localhost | mysql_native_password |
+------+-----------+-----------------------+
At this point, your server is running and you can access it. To tighten security if you have not yet assigned a password to the initial account, follow the instructions in Section 2.10.4, “Securing the Initial MySQL Account”.
For more information about mysql, mysqladmin, and mysqlshow, see Section 4.5.1, “mysql — The MySQL Command-Line Client”, Section 4.5.2, “mysqladmin — Client for Administering a MySQL Server”, and Section 4.5.7, “mysqlshow — Display Database, Table, and Column Information”.
The MySQL installation process involves initializing the data
directory, including the grant tables in the
mysql
system database that define MySQL
accounts. For details, see
Section 2.10.1, “Initializing the Data Directory”.
This section describes how to assign a password to the initial
root
account created during the MySQL
installation procedure, if you have not already done so.
Alternative means for performing the process described in this section:
On Windows, you can perform the process during installation with MySQL Installer (see Section 2.3.3, “MySQL Installer for Windows”).
On all platforms, the MySQL distribution includes mysql_secure_installation, a command-line utility that automates much of the process of securing a MySQL installation.
On all platforms, MySQL Workbench is available and offers the ability to manage user accounts (see Chapter 30, MySQL Workbench ).
A password may already be assigned to the initial account under these circumstances:
On Windows, installations performed using MySQL Installer give you the option of assigning a password.
Installation using the macOS installer generates an initial random password, which the installer displays to the user in a dialog box.
Installation using RPM packages generates an initial random password, which is written to the server error log.
Installations using Debian packages give you the option of assigning a password.
For data directory initialization performed manually using mysqld --initialize, mysqld generates an initial random password, marks it expired, and writes it to the server error log. See Section 2.10.1, “Initializing the Data Directory”.
The mysql.user
grant table defines the initial
MySQL user account and its access privileges. Installation of
MySQL creates only a 'root'@'localhost'
superuser account that has all privileges and can do anything. If
the root
account has an empty password, your
MySQL installation is unprotected: Anyone can connect to the MySQL
server as root
without a
password and be granted all privileges.
The 'root'@'localhost'
account also has a row
in the mysql.proxies_priv
table that enables
granting the PROXY
privilege for
''@''
, that is, for all users and all hosts.
This enables root
to set up proxy users, as
well as to delegate to other accounts the authority to set up
proxy users. See Section 6.2.14, “Proxy Users”.
To assign a password for the initial MySQL root
account, use the following procedure. Replace
root-password
in the examples with the
password that you want to use.
Start the server if it is not running. For instructions, see Section 2.10.2, “Starting the Server”.
The initial root
account may or may not have a
password. Choose whichever of the following procedures applies:
If the root
account exists with an initial
random password that has been expired, connect to the server
as root
using that password, then choose a
new password. This is the case if the data directory was
initialized using mysqld --initialize,
either manually or using an installer that does not give you
the option of specifying a password during the install
operation. Because the password exists, you must use it to
connect to the server. But because the password is expired,
you cannot use the account for any purpose other than to
choose a new password, until you do choose one.
If you do not know the initial random password, look in the server error log.
Connect to the server as root
using the
password:
shell>mysql -u root -p
Enter password:(enter the random root password here)
Choose a new password to replace the random password:
mysql> ALTER USER 'root'@'localhost' IDENTIFIED BY 'root-password
';
If the root
account exists but has no
password, connect to the server as root
using no password, then assign a password. This is the case if
you initialized the data directory using mysqld
--initialize-insecure.
Connect to the server as root
using no
password:
shell> mysql -u root --skip-password
Assign a password:
mysql> ALTER USER 'root'@'localhost' IDENTIFIED BY 'root-password
';
After assigning the root
account a password,
you must supply that password whenever you connect to the server
using the account. For example, to connect to the server using the
mysql client, use this command:
shell>mysql -u root -p
Enter password:(enter root password here)
To shut down the server with mysqladmin, use this command:
shell>mysqladmin -u root -p shutdown
Enter password:(enter root password here)
For additional information about setting passwords, see
Section 6.2.10, “Assigning Account Passwords”. If you forget your
root
password after setting it, see
Section B.4.3.2, “How to Reset the Root Password”.
To set up additional accounts, see Section 6.2.7, “Adding Accounts, Assigning Privileges, and Dropping Accounts”.
This section discusses methods for starting and stopping the MySQL server.
Generally, you start the mysqld server in one of these ways:
Invoke mysqld directly. This works on any platform.
On Windows, you can set up a MySQL service that runs automatically when Windows starts. See Section 2.3.4.8, “Starting MySQL as a Windows Service”.
On Unix and Unix-like systems, you can invoke mysqld_safe, which tries to determine the proper options for mysqld and then runs it with those options. See Section 4.3.2, “mysqld_safe — MySQL Server Startup Script”.
On Linux systems that support systemd, you can use it to control the server. See Section 2.5.10, “Managing MySQL Server with systemd”.
On systems that use System V-style run directories (that is,
/etc/init.d
and run-level specific
directories), invoke mysql.server. This
script is used primarily at system startup and shutdown. It
usually is installed under the name mysql
.
The mysql.server script starts the server
by invoking mysqld_safe. See
Section 4.3.3, “mysql.server — MySQL Server Startup Script”.
On macOS, install a launchd daemon to enable automatic MySQL startup at system startup. The daemon starts the server by invoking mysqld_safe. For details, see Section 2.4.3, “Installing a MySQL Launch Daemon”. A MySQL Preference Pane also provides control for starting and stopping MySQL through the System Preferences. See Section 2.4.4, “Installing and Using the MySQL Preference Pane”.
On Solaris, use the service management framework (SMF) system to initiate and control MySQL startup.
systemd, the mysqld_safe and mysql.server scripts, Solaris SMF, and the macOS Startup Item (or MySQL Preference Pane) can be used to start the server manually, or automatically at system startup time. systemd, mysql.server, and the Startup Item also can be used to stop the server.
The following table shows which option groups the server and startup scripts read from option files.
Table 2.14 MySQL Startup Scripts and Supported Server Option Groups
Script | Option Groups |
---|---|
mysqld | [mysqld] , [server] ,
[mysqld- |
mysqld_safe | [mysqld] , [server] ,
[mysqld_safe] |
mysql.server | [mysqld] , [mysql.server] ,
[server] |
[mysqld-
means that groups with names like
major_version
][mysqld-5.6]
and
[mysqld-5.7]
are read by servers
having versions 5.6.x, 5.7.x, and so
forth. This feature can be used to specify options that can be
read only by servers within a given release series.
For backward compatibility, mysql.server also
reads the [mysql_server]
group and
mysqld_safe also reads the
[safe_mysqld]
group. To be current, you should
update your option files to use the
[mysql.server]
and
[mysqld_safe]
groups instead.
For more information on MySQL configuration files and their structure and contents, see Section 4.2.2.2, “Using Option Files”.
This section describes the steps to upgrade a MySQL installation.
Upgrading is a common procedure, as you pick up bug fixes within the same MySQL release series or significant features between major MySQL releases. You perform this procedure first on some test systems to make sure everything works smoothly, and then on the production systems.
In the following discussion, MySQL commands that must be run using
a MySQL account with administrative privileges include -u
on the command line to specify
the MySQL root
root
user. Commands that require a
password for root
also include a
-p
option. Because -p
is
followed by no option value, such commands prompt for the
password. Type the password when prompted and press Enter.
SQL statements can be executed using the mysql
command-line client (connect as root
to ensure
that you have the necessary privileges).
Review the information in this section before upgrading. Perform any recommended actions.
Protect your data by creating a backup. The backup should
include the mysql
system database, which
contains the MySQL system tables. See
Section 7.2, “Database Backup Methods”.
Review Section 2.11.2, “Upgrade Paths” to ensure that your intended upgrade path is supported.
Review Section 2.11.3, “Changes in MySQL 5.7” for changes that you should be aware of before upgrading. Some changes may require action.
Review Section 1.4, “What Is New in MySQL 5.7” for deprecated and removed features. An upgrade may require changes with respect to those features if you use any of them.
Review Section 1.5, “Server and Status Variables and Options Added, Deprecated, or Removed in MySQL 5.7”. If you use deprecated or removed variables, an upgrade may require configuration changes.
Review the Release Notes for information about fixes, changes, and new features.
If you use replication, review Section 16.4.3, “Upgrading a Replication Setup”.
Upgrade procedures vary by platform and how the initial installation was performed. Use the procedure that applies to your current MySQL installation:
For binary and package-based installations on non-Windows platforms, refer to Section 2.11.4, “Upgrading MySQL Binary or Package-based Installations on Unix/Linux”.
For supported Linux distributions, the preferred method for upgrading package-based installations is to use the MySQL software repositories (MySQL Yum Repository, MySQL APT Repository, and MySQL SLES Repository).
For installations on an Enterprise Linux platform or Fedora using the MySQL Yum Repository, refer to Section 2.11.5, “Upgrading MySQL with the MySQL Yum Repository”.
For installations on Ubuntu using the MySQL APT repository, refer to Section 2.11.6, “Upgrading MySQL with the MySQL APT Repository”.
For installations on SLES using the MySQL SLES repository, refer to Section 2.11.7, “Upgrading MySQL with the MySQL SLES Repository”.
For installations performed using Docker, refer to Section 2.11.9, “Upgrading a Docker Installation of MySQL”.
For installations on Windows, refer to Section 2.11.8, “Upgrading MySQL on Windows”.
If your MySQL installation contains a large amount of data
that might take a long time to convert after an in-place
upgrade, it may be useful to create a test instance for
assessing the conversions that are required and the work
involved to perform them. To create a test instance, make a
copy of your MySQL instance that contains the
mysql
database and other databases without
the data. Run the upgrade procedure on the test instance to
assess the work involved to perform the actual data
conversion.
Rebuilding and reinstalling MySQL language interfaces is
recommended when you install or upgrade to a new release of
MySQL. This applies to MySQL interfaces such as PHP
mysql
extensions and the Perl
DBD::mysql
module.
Upgrade is only supported between General Availability (GA) releases.
Upgrade from MySQL 5.6 to 5.7 is supported. Upgrading to the latest release is recommended before upgrading to the next version. For example, upgrade to the latest MySQL 5.6 release before upgrading to MySQL 5.7.
Upgrade that skips versions is not supported. For example, upgrading directly from MySQL 5.5 to 5.7 is not supported.
Upgrade within a release series is supported. For example,
upgrading from MySQL
5.7.x
to
5.7.y
is supported.
Skipping a release is also supported. For example, upgrading
from MySQL 5.7.x
to
5.7.z
is supported.
Before upgrading to MySQL 5.7, review the changes described in this section to identify those that apply to your current MySQL installation and applications. Perform any recommended actions.
Changes marked as Incompatible
change are incompatibilities with earlier versions of
MySQL, and may require your attention before
upgrading. Our aim is to avoid these changes, but
occasionally they are necessary to correct problems that would be
worse than an incompatibility between releases. If an upgrade
issue applicable to your installation involves an incompatibility,
follow the instructions given in the description. Sometimes this
involves dumping and reloading tables, or use of a statement such
as CHECK TABLE
or
REPAIR TABLE
.
For dump and reload instructions, see
Section 2.11.12, “Rebuilding or Repairing Tables or Indexes”. Any procedure that involves
REPAIR TABLE
with the
USE_FRM
option must be
done before upgrading. Use of this statement with a version of
MySQL different from the one used to create the table (that is,
using it after upgrading) may damage the table. See
Section 13.7.2.5, “REPAIR TABLE Statement”.
Incompatible change: As of
MySQL 5.7.12, the default
--early-plugin-load
value is
empty. To load the keyring_file
plugin,
you must use an explicit
--early-plugin-load
option
with a nonempty value.
In MySQL 5.7.11, the default
--early-plugin-load
value was
the name of the keyring_file
plugin
library file, so that plugin was loaded by default.
InnoDB
tablespace encryption requires the
keyring_file
plugin to be loaded prior to
InnoDB
initialization, so this change of
default --early-plugin-load
value introduces an incompatibility for upgrades from 5.7.11
to 5.7.12 or higher. Administrators who have encrypted
InnoDB
tablespaces must take explicit
action to ensure continued loading of the
keyring_file
plugin: Start the server
with an --early-plugin-load
option that names the plugin library file. For additional
information, see Section 6.4.4.1, “Keyring Plugin Installation”.
Incompatible change: The
INFORMATION_SCHEMA
has tables that
contain system and status variable information (see
Section 24.11, “The INFORMATION_SCHEMA GLOBAL_VARIABLES and SESSION_VARIABLES Tables”, and
Section 24.10, “The INFORMATION_SCHEMA GLOBAL_STATUS and SESSION_STATUS Tables”). As of MySQL 5.7.6, the
Performance Schema also contains system and status variable
tables (see
Section 25.12.13, “Performance Schema System Variable Tables”,
and
Section 25.12.14, “Performance Schema Status Variable Tables”).
The Performance Schema tables are intended to replace the
INFORMATION_SCHEMA
tables, which are
deprecated as of MySQL 5.7.6 and will be removed in a future
MySQL release.
For advice on migrating away from the
INFORMATION_SCHEMA
tables to the
Performance Schema tables, see
Section 25.20, “Migrating to Performance Schema System and Status Variable Tables”.
To assist in the migration, you can use the
show_compatibility_56
system variable, which affects how system and status
variable information is provided by the
INFORMATION_SCHEMA
and Performance Schema
tables, and also by the SHOW
VARIABLES
and SHOW
STATUS
statements.
show_compatibility_56
is
enabled by default in 5.7.6 and 5.7.7, and disabled by
default in MySQL 5.7.8.
For details about the effects of
show_compatibility_56
, see
Section 5.1.7, “Server System Variables” For better
understanding, it is strongly recommended that you read also
these sections:
Incompatible change: As of
MySQL 5.7.6, data directory initialization creates only a
single root
account,
'root'@'localhost'
. (See
Section 2.10.1, “Initializing the Data Directory”.) An attempt
to connect to the host 127.0.0.1
normally
resolves to the localhost
account.
However, this fails if the server is run with
skip_name_resolve
enabled.
If you plan to do that, make sure that an account exists
that can accept a connection. For example, to be able to
connect as root
using
--host=127.0.0.1
or
--host=::1
, create these accounts:
CREATE USER 'root'@'127.0.0.1' IDENTIFIED BY 'root-password
'; CREATE USER 'root'@'::1' IDENTIFIED BY 'root-password
';
Incompatible change: As of MySQL 5.7.6, for some Linux platforms, when MySQL is installed using RPM and Debian packages, server startup and shutdown now is managed using systemd rather than mysqld_safe, and mysqld_safe is not installed. This may require some adjustment to the manner in which you specify server options. For details, see Section 2.5.10, “Managing MySQL Server with systemd”.
Incompatible change: In
MySQL 5.7.5, the executable binary version of
mysql_install_db is located in the
bin
installation directory, whereas the
Perl version was located in the scripts
installation directory. For upgrades from an older version
of MySQL, you may find a version in both directories. To
avoid confusion, remove the version in the
scripts
directory. For fresh
installations of MySQL 5.7.5 or later,
mysql_install_db is only found in the
bin
directory, and the
scripts
directory is no longer present.
Applications that expect to find
mysql_install_db in the
scripts
directory should be updated to
look in the bin
directory instead.
The location of mysql_install_db becomes less material as of MySQL 5.7.6 because as of that version it is deprecated in favor of mysqld --initialize (or mysqld --initialize-insecure). See Section 2.10.1, “Initializing the Data Directory”
Incompatible change: In MySQL 5.7.5, these SQL mode changes were made:
Strict SQL mode for transactional storage engines
(STRICT_TRANS_TABLES
)
is now enabled by default.
Implementation of the
ONLY_FULL_GROUP_BY
SQL
mode has been made more sophisticated, to no longer
reject deterministic queries that previously were
rejected. In consequence,
ONLY_FULL_GROUP_BY
is
now enabled by default, to prohibit nondeterministic
queries containing expressions not guaranteed to be
uniquely determined within a group.
The changes to the default SQL mode result in a default
sql_mode
system
variable value with these modes enabled:
ONLY_FULL_GROUP_BY
,
STRICT_TRANS_TABLES
,
NO_ENGINE_SUBSTITUTION
.
The ONLY_FULL_GROUP_BY
mode is also now included in the modes comprised by the
ANSI
SQL mode.
If you find that having
ONLY_FULL_GROUP_BY
enabled
causes queries for existing applications to be rejected,
either of these actions should restore operation:
If it is possible to modify an offending query, do so,
either so that nondeterministic nonaggregated columns
are functionally dependent on GROUP
BY
columns, or by referring to nonaggregated
columns using
ANY_VALUE()
.
If it is not possible to modify an offending query (for
example, if it is generated by a third-party
application), set the sql_mode
system
variable at server startup to not enable
ONLY_FULL_GROUP_BY
.
For more information about SQL modes and GROUP
BY
queries, see Section 5.1.10, “Server SQL Modes”, and
Section 12.20.3, “MySQL Handling of GROUP BY”.
Incompatible change: The
Password
column of the
mysql.user
system table was removed in
MySQL 5.7.6. All credentials are stored in the
authentication_string
column, including
those formerly stored in the Password
column. If performing an in-place upgrade to MySQL 5.7.6 or
later, run mysql_upgrade as directed by
the in-place
upgrade procedure to migrate the
Password
column contents to the
authentication_string
column.
If performing a logical upgrade using a mysqldump dump file from a pre-5.7.6 MySQL installation, you must observe these conditions for the mysqldump command used to generate the dump file:
You must include the
--add-drop-table
option
You must not include the
--flush-privileges
option
As outlined in the logical upgrade procedure, load the pre-5.7.6 dump file into the 5.7.6 (or later) server before running mysql_upgrade.
Incompatible change: As of MySQL 5.7.5, support for passwords that use the older pre-4.1 password hashing format is removed, which involves the following changes. Applications that use any feature no longer supported must be modified.
The mysql_old_password
authentication
plugin that used pre-4.1 password hash values is
removed. Accounts that use this plugin are disabled at
startup and the server writes an “unknown
plugin” message to the error log. For
instructions on upgrading accounts that use this plugin,
see Section 6.4.1.3, “Migrating Away from Pre-4.1 Password Hashing and the mysql_old_password
Plugin”.
For the old_passwords
system variable, a value of 1 (produce pre-4.1 hash
values) is no longer permitted.
The --secure-auth
option to the server
and client programs is the default, but is now a no-op.
It is deprecated and will be removed in a future MySQL
release.
The --skip-secure-auth
option to the
server and client programs is no longer supported and
using it produces an error.
The secure_auth
system
variable permits only a value of 1; a value of 0 is no
longer permitted.
The OLD_PASSWORD()
function is
removed.
Incompatible change: In
MySQL 5.6.6, the 2-digit
YEAR(2)
data type was
deprecated. In MySQL 5.7.5, support for
YEAR(2)
is removed. Once you
upgrade to MySQL 5.7.5 or higher, any remaining 2-digit
YEAR(2)
columns must be
converted to 4-digit YEAR
columns to become usable again. For conversion strategies,
see Section 11.2.5, “2-Digit YEAR(2) Limitations and Migrating to 4-Digit YEAR”. Running
mysql_upgrade after upgrading is one of
the possible conversion strategies.
As of MySQL 5.7.7,
CHECK TABLE ...
FOR UPGRADE
reports a table as needing a rebuild
if it contains old temporal columns in pre-5.6.4 format
(TIME
,
DATETIME
, and
TIMESTAMP
columns without
support for fractional seconds precision) and the
avoid_temporal_upgrade
system variable is disabled. This helps
mysql_upgrade to detect and upgrade
tables containing old temporal columns. If
avoid_temporal_upgrade
is
enabled, FOR UPGRADE
ignores the old
temporal columns present in the table; consequently,
mysql_upgrade does not upgrade them.
As of MySQL 5.7.7, REPAIR
TABLE
upgrades a table if it contains old temporal
columns in pre-5.6.4 format and the
avoid_temporal_upgrade
system variable is disabled. If
avoid_temporal_upgrade
is
enabled, REPAIR TABLE
ignores
the old temporal columns present in the table and does not
upgrade them.
To check for tables that contain such temporal columns and
need a rebuild, disable
avoid_temporal_upgrade
before executing
CHECK TABLE ...
FOR UPGRADE
.
To upgrade tables that contain such temporal columns,
disable
avoid_temporal_upgrade
before executing REPAIR TABLE
or mysql_upgrade.
Incompatible change: As of
MySQL 5.7.2, the server requires account rows in the
mysql.user
system table to have a
nonempty plugin
column value and disables
accounts with an empty value. This requires that you upgrade
your mysql.user
table to fill in all
plugin
values. As of MySQL 5.7.6, use
this procedure:
If you plan to upgrade using the data directory from your existing MySQL installation:
Stop the old (MySQL 5.6) server
Upgrade the MySQL binaries in place by replacing the old binaries with the new ones
Start the MySQL 5.7 server normally (no special options)
Run mysql_upgrade to upgrade the system tables
Restart the MySQL 5.7 server
If you plan to upgrade by reloading a dump file generated from your existing MySQL installation:
To generate the dump file, run
mysqldump with the
--add-drop-table
option and without the
--flush-privileges
option
Stop the old (MySQL 5.6) server
Upgrade the MySQL binaries in place (replace the old binaries with the new ones)
Start the MySQL 5.7 server normally (no special options)
Reload the dump file (mysql <
dump_file
)
Run mysql_upgrade to upgrade the system tables
Restart the MySQL 5.7 server
Before MySQL 5.7.6, the procedure is more involved:
If you plan to upgrade using the data directory from your existing MySQL installation:
Stop the old (MySQL 5.6) server
Upgrade the MySQL binaries in place (replace the old binaries with the new ones)
Restart the server with the
--skip-grant-tables
option to disable privilege checking
Run mysql_upgrade to upgrade the system tables
Restart the server normally (without
--skip-grant-tables
)
If you plan to upgrade by reloading a dump file generated from your existing MySQL installation:
To generate the dump file, run
mysqldump without the
--flush-privileges
option
Stop the old (MySQL 5.6) server
Upgrade the MySQL binaries in place (replace the old binaries with the new ones)
Restart the server with the
--skip-grant-tables
option to disable privilege checking
Reload the dump file (mysql <
dump_file
)
Run mysql_upgrade to upgrade the system tables
Restart the server normally (without
--skip-grant-tables
)
mysql_upgrade runs by default as the
MySQL root
user. For the preceding
procedures, if the root
password is
expired when you run mysql_upgrade, you
will see a message that your password is expired and that
mysql_upgrade failed as a result. To
correct this, reset the root
password to
unexpire it and run mysql_upgrade again:
shell>mysql -u root -p
Enter password:****
<- enter root password here mysql>ALTER USER USER() IDENTIFIED BY 'root-password';
# MySQL 5.7.6 and up mysql>SET PASSWORD = PASSWORD('root-password');
# Before MySQL 5.7.6 mysql>quit
shell>mysql_upgrade -p
Enter password:****
<- enter root password here
The password-resetting statement normally does not work if
the server is started with
--skip-grant-tables
, but the
first invocation of mysql_upgrade flushes
the privileges, so when you run mysql,
the statement is accepted.
If mysql_upgrade itself expires the
root
password, you will need to reset the
password again in the same manner.
After following the preceding instructions, DBAs are advised
also to convert accounts that use the
mysql_old_password
authentication plugin
to use mysql_native_password
instead,
because support for mysql_old_password
has been removed. For account upgrade instructions, see
Section 6.4.1.3, “Migrating Away from Pre-4.1 Password Hashing and the mysql_old_password
Plugin”.
Incompatible change: It is
possible for a column DEFAULT
value to be
valid for the sql_mode
value at table-creation time but invalid for the
sql_mode
value when rows
are inserted or updated. Example:
SET sql_mode = ''; CREATE TABLE t (d DATE DEFAULT 0); SET sql_mode = 'NO_ZERO_DATE,STRICT_ALL_TABLES'; INSERT INTO t (d) VALUES(DEFAULT);
In this case, 0 should be accepted for the
CREATE TABLE
but rejected for
the INSERT
. However,
previously the server did not evaluate
DEFAULT
values used for inserts or
updates against the current sql_mode
. In
the example, the INSERT
succeeds and inserts '0000-00-00'
into
the DATE
column.
As of MySQL 5.7.2, the server applies the proper
sql_mode
checks to generate
a warning or error at insert or update time.
A resulting incompatibility for replication if you use
statement-based logging
(binlog_format=STATEMENT
)
is that if a slave is upgraded, a nonupgraded master will
execute the preceding example without error, whereas the
INSERT
will fail on the slave
and replication will stop.
To deal with this, stop all new statements on the master and
wait until the slaves catch up. Then upgrade the slaves
followed by the master. Alternatively, if you cannot stop
new statements, temporarily change to row-based logging on
the master
(binlog_format=ROW
) and
wait until all slaves have processed all binary logs
produced up to the point of this change. Then upgrade the
slaves followed by the master and change the master back to
statement-based logging.
Incompatible change:
Several changes were made to the audit log plugin for better
compatibility with Oracle Audit Vault. For upgrading
purpose, the main issue is that the default format of the
audit log file has changed: Information within
<AUDIT_RECORD>
elements previously
written using attributes now is written using subelements.
Example of old <AUDIT_RECORD>
format:
<AUDIT_RECORD TIMESTAMP="2013-04-15T15:27:27" NAME="Query" CONNECTION_ID="3" STATUS="0" SQLTEXT="SELECT 1" />
Example of new format:
<AUDIT_RECORD> <TIMESTAMP>2013-04-15T15:27:27 UTC</TIMESTAMP> <RECORD_ID>3998_2013-04-15T15:27:27</RECORD_ID> <NAME>Query</NAME> <CONNECTION_ID>3</CONNECTION_ID> <STATUS>0</STATUS> <STATUS_CODE>0</STATUS_CODE> <USER>root[root] @ localhost [127.0.0.1]</USER> <OS_LOGIN></OS_LOGIN> <HOST>localhost</HOST> <IP>127.0.0.1</IP> <COMMAND_CLASS>select</COMMAND_CLASS> <SQLTEXT>SELECT 1</SQLTEXT> </AUDIT_RECORD>
If you previously used an older version of the audit log plugin, use this procedure to avoid writing new-format log entries to an existing log file that contains old-format entries:
Stop the server.
Rename the current audit log file manually. This file will contain only old-format log entries.
Update the server and restart it. The audit log plugin will create a new log file, which will contain only new-format log entries.
For information about the audit log plugin, see Section 6.4.5, “MySQL Enterprise Audit”.
As of MySQL 5.7.7, the default connection timeout for a
replication slave was changed from 3600 seconds (one hour)
to 60 seconds (one minute). The new default is applied when
a replication slave without a setting for the
slave_net_timeout
system
variable is upgraded to MySQL 5.7. The default setting for
the heartbeat interval, which regulates the heartbeat signal
to stop the connection timeout occurring in the absence of
data if the connection is still good, is calculated as half
the value of
slave_net_timeout
. The
heartbeat interval is recorded in the slave's master info
log (the mysql.slave_master_info
table or
master.info
file), and it is not changed
automatically when the value or default setting of
slave_net_timeout
is
changed. A MySQL 5.6 slave that used the default connection
timeout and heartbeat interval, and was then upgraded to
MySQL 5.7, therefore has a heartbeat interval that is much
longer than the connection timeout.
If the level of activity on the master is such that updates
to the binary log are sent to the slave at least once every
60 seconds, this situation is not an issue. However, if no
data is received from the master, because the heartbeat is
not being sent, the connection timeout expires. The slave
therefore thinks the connection to the master has been lost
and makes multiple reconnection attempts (as controlled by
the MASTER_CONNECT_RETRY
and
MASTER_RETRY_COUNT
settings, which can
also be seen in the master info log). The reconnection
attempts spawn numerous zombie dump threads that the master
must kill, causing the master's error log to contain
multiple instances of the error
ER_RPL_ZOMBIE_ENCOUNTERED. To avoid
this issue, immediately before upgrading a replication slave
to MySQL 5.7, check whether the
slave_net_timeout
system
variable is using the default setting. If so, issue
CHANGE MASTER TO
with the
MASTER_HEARTBEAT_PERIOD
option, and set
the heartbeat interval to 30 seconds, so that it works with
the new connection timeout of 60 seconds that applies after
the upgrade.
As of MySQL 5.7.24, the zlib library version bundled with MySQL was raised from version 1.2.3 to version 1.2.11.
The zlib compressBound()
function in zlib
1.2.11 returns a slightly higher estimate of the buffer size
required to compress a given length of bytes than it did in
zlib version 1.2.3. The compressBound()
function is called by InnoDB
functions
that determine the maximum row size permitted when creating
compressed InnoDB
tables or inserting
rows into compressed InnoDB
tables. As a
result, CREATE
TABLE ... ROW_FORMAT=COMPRESSED
or
INSERT
operations with row
sizes very close to the maximum row size that were
successful in earlier releases could now fail.
If you have compressed InnoDB
tables with
large rows, it is recommended that you test compressed table
CREATE TABLE
statements on a
MySQL 5.7 test instance prior to upgrading.
Incompatible change: To
simplify InnoDB
tablespace discovery
during crash recovery, new redo log record types were
introduced in MySQL 5.7.5. This enhancement changes the redo
log format. Before performing an in-place upgrade, perform a
clean shutdown using an
innodb_fast_shutdown
setting of 0
or 1
. A
slow shutdown using
innodb_fast_shutdown=0
is a
recommended step in
In-Place Upgrade.
Incompatible change: MySQL
5.7.8 and 5.7.9 undo logs may contain insufficient
information about spatial columns, which could result in a
upgrade failure (Bug #21508582). Before performing an
in-place upgrade from MySQL 5.7.8 or 5.7.9 to 5.7.10 or
higher, perform a slow shutdown using
innodb_fast_shutdown=0
to
clear the undo logs. A slow shutdown using
innodb_fast_shutdown=0
is a
recommended step in
In-Place Upgrade.
Incompatible change: MySQL
5.7.8 undo logs may contain insufficient information about
virtual columns and virtual column indexes, which could
result in a upgrade failure (Bug #21869656). Before
performing an in-place upgrade from MySQL 5.7.8 to MySQL
5.7.9 or higher, perform a slow shutdown using
innodb_fast_shutdown=0
to
clear the undo logs. A slow shutdown using
innodb_fast_shutdown=0
is a
recommended step in
In-Place Upgrade.
Incompatible change: As of
MySQL 5.7.9, the redo log header of the first redo log file
(ib_logfile0
) includes a format version
identifier and a text string that identifies the MySQL
version that created the redo log files. This enhancement
changes the redo log format, requiring that MySQL be
shutdown cleanly using an
innodb_fast_shutdown
setting of 0
or 1
before performing an in-place upgrade to MySQL 5.7.9 or
higher. A slow shutdown using
innodb_fast_shutdown=0
is a
recommended step in
In-Place Upgrade.
In MySQL 5.7.9, DYNAMIC
replaces
COMPACT
as the implicit default row
format for InnoDB
tables. A new
configuration option,
innodb_default_row_format
,
specifies the default InnoDB
row format.
Permitted values include DYNAMIC
(the
default), COMPACT
, and
REDUNDANT
.
After upgrading to 5.7.9, any new tables that you create use
the row format defined by
innodb_default_row_format
unless you explicitly define a row format
(ROW_FORMAT
).
For existing tables that do not explicitly define a
ROW_FORMAT
option or that use
ROW_FORMAT=DEFAULT
, any operation that
rebuilds a table also silently changes the row format of the
table to the format defined by
innodb_default_row_format
.
Otherwise, existing tables retain their current row format
setting. For more information, see
Defining the Row Format of a Table.
Beginning with MySQL 5.7.6, the InnoDB
storage engine uses its own built-in (“native”)
partitioning handler for any new partitioned tables created
using InnoDB
. Partitioned
InnoDB
tables created in previous
versions of MySQL are not automatically upgraded. You can
easily upgrade such tables to use InnoDB
native partitioning in MySQL 5.7.9 or later using either of
the following methods:
To upgrade an individual table from the generic
partitioning handler to
InnoDB
native partitioning,
execute the statement
ALTER TABLE
.
table_name
UPGRADE
PARTITIONING
To upgrade all InnoDB
tables that use
the generic partitioning handler to use the native
partitioning handler instead, run
mysql_upgrade.
Incompatible change: The
GET_LOCK()
function was
reimplemented in MySQL 5.7.5 using the metadata locking
(MDL) subsystem and its capabilities have been extended:
Previously, GET_LOCK()
permitted acquisition of only one named lock at a time,
and a second GET_LOCK()
call released any existing lock. Now
GET_LOCK()
permits
acquisition of more than one simultaneous named lock and
does not release existing locks.
Applications that rely on the behavior of
GET_LOCK()
releasing any
previous lock must be modified for the new behavior.
The capability of acquiring multiple locks introduces
the possibility of deadlock among clients. The MDL
subsystem detects deadlock and returns an
ER_USER_LOCK_DEADLOCK
error when this occurs.
The MDL subsystem imposes a limit of 64 characters on lock names, so this limit now also applies to named locks. Previously, no length limit was enforced.
Locks acquired with
GET_LOCK()
now appear in
the Performance Schema
metadata_locks
table. The
OBJECT_TYPE
column says USER
LEVEL LOCK
and the
OBJECT_NAME
column indicates the lock
name.
A new function,
RELEASE_ALL_LOCKS()
permits release of all acquired named locks at once.
For more information, see Section 12.14, “Locking Functions”.
The optimizer now handles derived tables and views in the
FROM
clause in consistent fashion to
better avoid unnecessary materialization and to enable use
of pushed-down conditions that produce more efficient
execution plans. However, for statements such as
DELETE
or
UPDATE
that modify tables,
using the merge strategy for a derived table that previously
was materialized can result in an
ER_UPDATE_TABLE_USED
error:
mysql>DELETE FROM t1
->WHERE id IN (SELECT id
->FROM (SELECT t1.id
->FROM t1 INNER JOIN t2 USING (id)
->WHERE t2.status = 0) AS t);
ERROR 1093 (HY000): You can't specify target table 't1' for update in FROM clause
The error occurs when merging a derived table into the outer
query block results in a statement that both selects from
and modifies a table. (Materialization does not cause the
problem because, in effect, it converts the derived table to
a separate table.) To avoid this error, disable the
derived_merge
flag of the
optimizer_switch
system
variable before executing the statement:
SET optimizer_switch = 'derived_merge=off';
The derived_merge
flag controls whether
the optimizer attempts to merge subqueries and views in the
FROM
clause into the outer query block,
assuming that no other rule prevents merging. By default,
the flag is on
to enable merging. Setting
the flag to off
prevents merging and
avoids the error just described. For more information, see
Section 8.2.2.4, “Optimizing Derived Tables and View References with Merging or
Materialization”.
Some keywords may be reserved in MySQL 5.7 that were not reserved in MySQL 5.6. See Section 9.3, “Keywords and Reserved Words”. This can cause words previously used as identifiers to become illegal. To fix affected statements, use identifier quoting. See Section 9.2, “Schema Object Names”.
After upgrading, it is recommended that you test optimizer hints specified in application code to ensure that the hints are still required to achieve the desired optimization strategy. Optimizer enhancements can sometimes render certain optimizer hints unnecessary. In some cases, an unnecessary optimizer hint may even be counterproductive.
In UNION
statements, to apply
ORDER BY
or LIMIT
to
an individual SELECT
, place
the clause inside the parentheses that enclose the
SELECT
:
(SELECT a FROM t1 WHERE a=10 AND B=1 ORDER BY a LIMIT 10) UNION (SELECT a FROM t2 WHERE a=11 AND B=2 ORDER BY a LIMIT 10);
Previous versions of MySQL may permit such statements without parentheses. In MySQL 5.7, the requirement for parentheses is enforced.
This section describes how to upgrade MySQL binary and package-based installations on Unix/Linux. In-place and logical upgrade methods are described.
An in-place upgrade involves shutting down the old MySQL server, replacing the old MySQL binaries or packages with the new ones, restarting MySQL on the existing data directory, and upgrading any remaining parts of the existing installation that require upgrading.
If you upgrade an installation originally produced by installing multiple RPM packages, upgrade all the packages, not just some. For example, if you previously installed the server and client RPMs, do not upgrade just the server RPM.
For some Linux platforms, MySQL installation from RPM or Debian packages includes systemd support for managing MySQL server startup and shutdown. On these platforms, mysqld_safe is not installed. In such cases, use systemd for server startup and shutdown instead of the methods used in the following instructions. See Section 2.5.10, “Managing MySQL Server with systemd”.
To perform an in-place upgrade:
If you use XA transactions with InnoDB
,
run XA
RECOVER
before upgrading to check for uncommitted
XA transactions. If results are returned, either commit or
rollback the XA transactions by issuing an
XA
COMMIT
or
XA
ROLLBACK
statement.
Configure MySQL to perform a slow shutdown by setting
innodb_fast_shutdown
to
0
. For example:
mysql -u root -p --execute="SET GLOBAL innodb_fast_shutdown=0"
With a slow shutdown, InnoDB
performs a
full purge and change buffer merge before shutting down,
which ensures that data files are fully prepared in case of
file format differences between releases.
Shut down the old MySQL server. For example:
mysqladmin -u root -p shutdown
Upgrade the MySQL binary installation or packages. If upgrading a binary installation, unpack the new MySQL binary distribution package. See Obtain and Unpack the Distribution. For package-based installations, install the new packages.
Start the MySQL 5.7 server, using the existing data directory. For example:
mysqld_safe --user=mysql --datadir=/path/to/existing-datadir
&
Run mysql_upgrade. For example:
mysql_upgrade -u root -p
mysql_upgrade examines all tables in all
databases for incompatibilities with the current version of
MySQL. mysql_upgrade also upgrades the
mysql
system database so that you can
take advantage of new privileges or capabilities.
mysql_upgrade does not upgrade the contents of the time zone tables or help tables. For upgrade instructions, see Section 5.1.12, “MySQL Server Time Zone Support”, and Section 5.1.13, “Server-Side Help Support”.
Shut down and restart the MySQL server to ensure that any changes made to the system tables take effect. For example:
mysqladmin -u root -p shutdown
mysqld_safe --user=mysql --datadir=/path/to/existing-datadir
&
A logical upgrade involves exporting SQL from the old MySQL instance using a backup or export utility such as mysqldump or mysqlpump, installing the new MySQL server, and applying the SQL to your new MySQL instance.
For some Linux platforms, MySQL installation from RPM or Debian packages includes systemd support for managing MySQL server startup and shutdown. On these platforms, mysqld_safe is not installed. In such cases, use systemd for server startup and shutdown instead of the methods used in the following instructions. See Section 2.5.10, “Managing MySQL Server with systemd”.
To perform a logical upgrade:
Review the information in Section 2.11.1, “Before You Begin”.
Export your existing data from the previous MySQL installation:
mysqldump -u root -p --add-drop-table --routines --events --all-databases --force > data-for-upgrade.sql
Use the --routines
and
--events
options with
mysqldump (as shown above) if your
databases include stored programs. The
--all-databases
option
includes all databases in the dump, including the
mysql
database that holds the system
tables.
If you have tables that contain generated columns, use the
mysqldump utility provided with MySQL
5.7.9 or higher to create your dump files. The
mysqldump utility provided in earlier
releases uses incorrect syntax for generated column
definitions (Bug #20769542). You can use the
INFORMATION_SCHEMA.COLUMNS
table to identify tables with generated columns.
Shut down the old MySQL server. For example:
mysqladmin -u root -p shutdown
Install MySQL 5.7. For installation instructions, see Chapter 2, Installing and Upgrading MySQL.
Initialize a new data directory, as described at Section 2.10.1, “Initializing the Data Directory”. For example:
mysqld --initialize --datadir=/path/to/5.7-datadir
Copy the temporary 'root'@'localhost'
password displayed to your screen or written to your error
log for later use.
Start the MySQL 5.7 server, using the new data directory. For example:
mysqld_safe --user=mysql --datadir=/path/to/5.7-datadir
&
Reset the root
password:
shell>mysql -u root -p
Enter password:****
<- enter temporary root password
mysql> ALTER USER USER() IDENTIFIED BY 'your new password
';
Load the previously created dump file into the new MySQL server. For example:
mysql -u root -p --force < data-for-upgrade.sql
It is not recommended to load a dump file when GTIDs are
enabled on the server
(gtid_mode=ON
), if your
dump file includes system tables.
mysqldump issues DML instructions for
the system tables which use the non-transactional MyISAM
storage engine, and this combination is not permitted when
GTIDs are enabled. Also be aware that loading a dump file
from a server with GTIDs enabled, into another server with
GTIDs enabled, causes different transaction identifiers to
be generated.
Run mysql_upgrade. For example:
mysql_upgrade -u root -p
mysql_upgrade examines all tables in all
databases for incompatibilities with the current version of
MySQL. mysql_upgrade also upgrades the
mysql
system database so that you can
take advantage of new privileges or capabilities.
mysql_upgrade does not upgrade the contents of the time zone tables or help tables. For upgrade instructions, see Section 5.1.12, “MySQL Server Time Zone Support”, and Section 5.1.13, “Server-Side Help Support”.
Shut down and restart the MySQL server to ensure that any changes made to the system tables take effect. For example:
mysqladmin -u root -p shutdown
mysqld_safe --user=mysql --datadir=/path/to/5.7-datadir
&
For supported Yum-based platforms (see Section 2.5.1, “Installing MySQL on Linux Using the MySQL Yum Repository”, for a list), you can perform an in-place upgrade for MySQL (that is, replacing the old version and then running the new version using the old data files) with the MySQL Yum repository.
Before performing any update to MySQL, follow carefully the instructions in Section 2.11, “Upgrading MySQL”. Among other instructions discussed there, it is especially important to back up your database before the update.
The following instructions assume you have installed MySQL with the MySQL Yum repository or with an RPM package directly downloaded from MySQL Developer Zone's MySQL Download page; if that is not the case, following the instructions in Section 2.5.2, “Replacing a Third-Party Distribution of MySQL Using the MySQL Yum Repository”.
By default, the MySQL Yum repository updates MySQL to the latest version in the release series you have chosen during installation (see Selecting a Release Series for details), which means, for example, a 5.6.x installation will not be updated to a 5.7.x release automatically. To update to another release series, you need to first disable the subrepository for the series that has been selected (by default, or by yourself) and enable the subrepository for your target series. To do that, see the general instructions given in Selecting a Release Series. For upgrading from MySQL 5.6 to 5.7, perform the reverse of the steps illustrated in Selecting a Release Series, disabling the subrepository for the MySQL 5.6 series and enabling that for the MySQL 5.7 series.
As a general rule, to upgrade from one release series to another, go to the next series rather than skipping a series. For example, if you are currently running MySQL 5.5 and wish to upgrade to 5.7, upgrade to MySQL 5.6 first before upgrading to 5.7.
For important information about upgrading from MySQL 5.6 to 5.7, see Upgrading from MySQL 5.6 to 5.7.
Upgrade MySQL and its components by the following command, for platforms that are not dnf-enabled:
sudo yum update mysql-server
For platforms that are dnf-enabled:
sudo dnf upgrade mysql-server
Alternatively, you can update MySQL by telling Yum to update everything on your system, which might take considerably more time. For platforms that are not dnf-enabled:
sudo yum update
For platforms that are dnf-enabled:
sudo dnf upgrade
The MySQL server always restarts after an update by Yum. Once the server restarts, run mysql_upgrade to check and possibly resolve any incompatibilities between the old data and the upgraded software. mysql_upgrade also performs other functions; see Section 4.4.7, “mysql_upgrade — Check and Upgrade MySQL Tables” for details.
You can also update only a specific component. Use the following command to list all the installed packages for the MySQL components (for dnf-enabled systems, replace yum in the command with dnf):
sudo yum list installed | grep "^mysql"
After identifying the package name of the component of your
choice, update the package with the following command, replacing
package-name
with the name of the
package. For platforms that are not dnf-enabled:
sudo yum update package-name
For dnf-enabled platforms:
sudo dnf upgrade package-name
After updating MySQL using the Yum repository, applications compiled with older versions of the shared client libraries should continue to work.
If you recompile applications and dynamically link them with the updated libraries: As typical with new versions of shared libraries where there are differences or additions in symbol versioning between the newer and older libraries (for example, between the newer, standard 5.7 shared client libraries and some older—prior or variant—versions of the shared libraries shipped natively by the Linux distributions' software repositories, or from some other sources), any applications compiled using the updated, newer shared libraries will require those updated libraries on systems where the applications are deployed. And, as expected, if those libraries are not in place, the applications requiring the shared libraries will fail. So, be sure to deploy the packages for the shared libraries from MySQL on those systems. To do this, add the MySQL Yum repository to the systems (see Adding the MySQL Yum Repository) and install the latest shared libraries using the instructions given in Installing Additional MySQL Products and Components with Yum.
On Debian and Ubuntu platforms, to perform an in-place upgrade of MySQL and its components, use the MySQL APT repository. See Upgrading MySQL with the MySQL APT Repository in A Quick Guide to Using the MySQL APT Repository.
On the SUSE Linux Enterprise Server (SLES) platform, to perform an in-place upgrade of MySQL and its components, use the MySQL SLES repository. See Upgrading MySQL with the MySQL SLES Repository in A Quick Guide to Using the MySQL SLES Repository.
There are two approaches for upgrading MySQL on Windows:
The approach you select depends on how the existing installation was performed. Before proceeding, review Section 2.11, “Upgrading MySQL” for additional information on upgrading MySQL that is not specific to Windows.
Whichever approach you choose, always back up your current MySQL installation before performing an upgrade. See Section 7.2, “Database Backup Methods”.
Upgrades between milestone releases (or from a milestone release to a GA release) are not supported. Significant development changes take place in milestone releases and you may encounter compatibility issues or problems starting the server. For instructions on how to perform a logical upgrade with a milestone release, see Logical Upgrade.
MySQL Installer does not support upgrades between Community releases and Commercial releases. If you require this type of upgrade, perform it using the ZIP archive approach.
Performing an upgrade with MySQL Installer is the best approach when the current server installation was performed with it and the upgrade is within the current release series. MySQL Installer does not support upgrades between release series, such as from 5.6 to 5.7, and it does not provide an upgrade indicator to prompt you to upgrade. For instructions on upgrading between release series, see Upgrading MySQL Using the Windows ZIP Distribution.
To perform an upgrade using MySQL Installer:
Start MySQL Installer.
From the dashboard, click Catalog to download the latest changes to the catalog. The installed server can be upgraded only if the dashboard displays an arrow next to the version number of the server.
Click Upgrade. All products that have a newer version now appear in a list.
MySQL Installer deselects the server upgrade option for milestone releases (Pre-Release) in the same release series. In addition, it displays a warning to indicate that the upgrade is not supported, identifies the risks of continuing, and provides a summary of the steps to perform a logical upgrade manually. You can reselect server upgrade and proceed at your own risk.
Deselect all but the MySQL server product, unless you intend to upgrade other products at this time, and click
.Click
to start the download. When the download finishes, click to begin the upgrade operation.Configure the server.
To perform an upgrade using the Windows ZIP archive distribution:
Download the latest Windows ZIP Archive distribution of MySQL from https://dev.mysql.com/downloads/.
If the server is running, stop it. If the server is installed as a service, stop the service with the following command from the command prompt:
C:\> SC STOP mysqld_service_name
Alternatively, use NET STOP
mysqld_service_name
.
If you are not running the MySQL server as a service, use mysqladmin to stop it. For example, before upgrading from MySQL 5.6 to 5.7, use mysqladmin from MySQL 5.6 as follows:
C:\> "C:\Program Files\MySQL\MySQL Server 5.6\bin\mysqladmin" -u root shutdown
If the MySQL root
user account has a
password, invoke mysqladmin with the
-p
option and enter the password when
prompted.
Extract the ZIP archive. You may either overwrite your
existing MySQL installation (usually located at
C:\mysql
), or install it into a
different directory, such as C:\mysql5
.
Overwriting the existing installation is recommended.
Restart the server. For example, use the SC START
mysqld_service_name
or
NET START
mysqld_service_name
command if you run MySQL as a service, or invoke
mysqld directly otherwise.
As Administrator, run mysql_upgrade to check your tables, attempt to repair them if necessary, and update your grant tables if they have changed so that you can take advantage of any new capabilities. See Section 4.4.7, “mysql_upgrade — Check and Upgrade MySQL Tables”.
If you encounter errors, see Section 2.3.5, “Troubleshooting a Microsoft Windows MySQL Server Installation”.
It is preferable to use the MySQL Yum repository or MySQL SLES Repository to upgrade MySQL on RPM-based platforms. However, if you have to upgrade MySQL using the RPM packages downloaded directly from the MySQL Developer Zone (see Section 2.5.5, “Installing MySQL on Linux Using RPM Packages from Oracle” for information on the packages), go to the folder that contains all the downloaded packages (and, preferably, no other RPM packages with similar names), and issue the following command:
yum install mysql-community-{server,client,common,libs}-*
Replace yum with zypper for SLES systems, and with dnf for dnf-enabled systems.
While it is much preferable to use a high-level package management tool like yum to install the packages, users who preferred direct rpm commands can replace the yum install command with the rpm -Uvh command; however, using rpm -Uvh instead makes the installation process more prone to failure, due to potential dependency issues the installation process might run into.
For an upgrade installation using RPM packages, the MySQL server is automatically restarted at the end of the installation if it was running when the upgrade installation began. If the server was not running when the upgrade installation began, you have to restart the server yourself after the upgrade installation is completed; do that with, for example, the follow command:
service mysqld start
Once the server restarts, run mysql_upgrade to check and possibly resolve any incompatibilities between the old data and the upgraded software. mysql_upgrade also performs other functions; see Section 4.4.7, “mysql_upgrade — Check and Upgrade MySQL Tables” for details.
Because of the dependency relationships among the RPM packages, all of the installed packages must be of the same version. Therefore, always update all your installed packages for MySQL. For example, do not just update the server without also upgrading the client, the common files for server and client libraries, and so on.
Migration and Upgrade from installations by older RPM packages. Some older versions of MySQL Server RPM packages have names in the form of MySQL-* (for example, MySQL-server-* and MySQL-client-*). The latest versions of RPMs, when installed using the standard package management tool (yum, dnf, or zypper), seamlessly upgrade those older installations, making it unnecessary to uninstall those old packages before installing the new ones. Here are some differences in behavior between the older and the current RPM packages:
Table 2.15 Differences Between the Previous and the Current RPM Packages for Installing MySQL
Feature | Behavior of Previous Packages | Behavior of Current Packages |
---|---|---|
Service starts after installation is finished | Yes | No, unless it is an upgrade installation, and the server was running when the upgrade began. |
Service name | mysql | For RHEL, Oracle Linux, CentOS, and Fedora: mysqld For SLES: mysql |
Error log file | At
/var/lib/mysql/ |
For RHEL, Oracle Linux, CentOS, and Fedora: at
For SLES: at
|
Shipped with the /etc/my.cnf file |
No | Yes |
Multilib support | No | Yes |
Installation of previous versions of MySQL using older
packages might have created a configuration file named
/usr/my.cnf
. It is highly recommended
that you examine the contents of the file and migrate the
desired settings inside to the file
/etc/my.cnf
file, then remove
/usr/my.cnf
.
Upgrading to MySQL Enterprise Server. Upgrading from a community version to a commercial version of MySQL requires that you first uninstall the community version and then install the commercial version. In this case, you must restart the server manually after the upgrade.
Interoperability with operating system native MySQL packages.
Many Linux distributions ship MySQL as an integrated part of the
operating system. The latest versions of RPMs from Oracle, when
installed using the standard package management tool
(yum, dnf, or
zypper), will seamlessly upgrade and replace
the MySQL version that comes with the operating system, and the
package manager will automatically replace system compatibility
packages such as
mysql-community-libs-compat
with relevant
new versions.
Upgrading from non-native MySQL packages. If you have installed MySQL with third-party packages NOT from your Linux distribution's native software repository (for example, packages directly downloaded from the vendor), you will need to uninstall all those packages before you can upgrade using the packages from Oracle.
If problems occur, such as that the new
mysqld server does not start, verify that
you do not have an old my.cnf
file from
your previous installation. You can check this with the
--print-defaults
option (for
example, mysqld --print-defaults). If this
command displays anything other than the program name, you
have an active my.cnf
file that affects
server or client operation.
If, after an upgrade, you experience problems with compiled
client programs, such as Commands out of
sync
or unexpected core dumps, you probably have
used old header or library files when compiling your programs.
In this case, check the date for your
mysql.h
file and
libmysqlclient.a
library to verify that
they are from the new MySQL distribution. If not, recompile
your programs with the new headers and libraries.
Recompilation might also be necessary for programs compiled
against the shared client library if the library major version
number has changed (for example, from
libmysqlclient.so.15
to
libmysqlclient.so.16
).
If you have created a user-defined function (UDF) with a given
name and upgrade MySQL to a version that implements a new
built-in function with the same name, the UDF becomes
inaccessible. To correct this, use DROP
FUNCTION
to drop the UDF, and then use
CREATE FUNCTION
to re-create
the UDF with a different nonconflicting name. The same is true
if the new version of MySQL implements a built-in function
with the same name as an existing stored function. See
Section 9.2.5, “Function Name Parsing and Resolution”, for the rules
describing how the server interprets references to different
kinds of functions.
This section describes how to rebuild or repair tables or indexes, which may be necessitated by:
Changes to how MySQL handles data types or character sets. For example, an error in a collation might have been corrected, necessitating a table rebuild to update the indexes for character columns that use the collation.
Required table repairs or upgrades reported by
CHECK TABLE
,
mysqlcheck, or
mysql_upgrade.
Methods for rebuilding a table include:
If you are rebuilding tables because a different version of MySQL will not handle them after a binary (in-place) upgrade or downgrade, you must use the dump-and-reload method. Dump the tables before upgrading or downgrading using your original version of MySQL. Then reload the tables after upgrading or downgrading.
If you use the dump-and-reload method of rebuilding tables only for the purpose of rebuilding indexes, you can perform the dump either before or after upgrading or downgrading. Reloading still must be done afterward.
If you need to rebuild an InnoDB
table
because a CHECK TABLE
operation
indicates that a table upgrade is required, use
mysqldump to create a dump file and
mysql to reload the file. If the
CHECK TABLE
operation indicates
that there is a corruption or causes InnoDB
to fail, refer to Section 14.22.2, “Forcing InnoDB Recovery” for
information about using the
innodb_force_recovery
option to
restart InnoDB
. To understand the type of
problem that CHECK TABLE
may be
encountering, refer to the InnoDB
notes in
Section 13.7.2.2, “CHECK TABLE Statement”.
To rebuild a table by dumping and reloading it, use mysqldump to create a dump file and mysql to reload the file:
mysqldumpdb_name
t1 > dump.sql mysqldb_name
< dump.sql
To rebuild all the tables in a single database, specify the database name without any following table name:
mysqldumpdb_name
> dump.sql mysqldb_name
< dump.sql
To rebuild all tables in all databases, use the
--all-databases
option:
mysqldump --all-databases > dump.sql mysql < dump.sql
To rebuild a table with ALTER
TABLE
, use a “null” alteration; that is,
an ALTER TABLE
statement that
“changes” the table to use the storage engine that
it already has. For example, if t1
is an
InnoDB
table, use this statement:
ALTER TABLE t1 ENGINE = InnoDB;
If you are not sure which storage engine to specify in the
ALTER TABLE
statement, use
SHOW CREATE TABLE
to display the
table definition.
The REPAIR TABLE
method is only
applicable to MyISAM
,
ARCHIVE
, and CSV
tables.
You can use REPAIR TABLE
if the
table checking operation indicates that there is a corruption or
that an upgrade is required. For example, to repair a
MyISAM
table, use this statement:
REPAIR TABLE t1;
mysqlcheck --repair provides command-line
access to the REPAIR TABLE
statement. This can be a more convenient means of repairing
tables because you can use the
--databases
or
--all-databases
option to
repair all tables in specific databases or all databases,
respectively:
mysqlcheck --repair --databases db_name
...
mysqlcheck --repair --all-databases
In cases where you need to transfer databases between different architectures, you can use mysqldump to create a file containing SQL statements. You can then transfer the file to the other machine and feed it as input to the mysql client.
Use mysqldump --help to see what options are available.
The easiest (although not the fastest) way to move a database between two machines is to run the following commands on the machine on which the database is located:
mysqladmin -h 'other_hostname
' createdb_name
mysqldumpdb_name
| mysql -h 'other_hostname
'db_name
If you want to copy a database from a remote machine over a slow network, you can use these commands:
mysqladmin createdb_name
mysqldump -h 'other_hostname
' --compressdb_name
| mysqldb_name
You can also store the dump in a file, transfer the file to the target machine, and then load the file into the database there. For example, you can dump a database to a compressed file on the source machine like this:
mysqldump --quickdb_name
| gzip >db_name
.gz
Transfer the file containing the database contents to the target machine and run these commands there:
mysqladmin createdb_name
gunzip <db_name
.gz | mysqldb_name
You can also use mysqldump and
mysqlimport to transfer the database. For large
tables, this is much faster than simply using
mysqldump. In the following commands,
DUMPDIR
represents the full path name
of the directory you use to store the output from
mysqldump.
First, create the directory for the output files and dump the database:
mkdirDUMPDIR
mysqldump --tab=DUMPDIR
db_name
Then transfer the files in the DUMPDIR
directory to some corresponding directory on the target machine
and load the files into MySQL there:
mysqladmin createdb_name
# create database catDUMPDIR
/*.sql | mysqldb_name
# create tables in database mysqlimportdb_name
DUMPDIR
/*.txt # load data into tables
Do not forget to copy the mysql
database
because that is where the grant tables are stored. You might have
to run commands as the MySQL root
user on the
new machine until you have the mysql
database
in place.
After you import the mysql
database on the new
machine, execute mysqladmin flush-privileges so
that the server reloads the grant table information.
You can copy the .frm
,
.MYI
, and .MYD
files
for MyISAM
tables between different
architectures that support the same floating-point format.
(MySQL takes care of any byte-swapping issues.) See
Section 15.2, “The MyISAM Storage Engine”.
This section describes the steps to downgrade a MySQL installation.
Downgrading is a less common operation than upgrade. Downgrading is typically performed because of a compatibility or performance issue that occurs on a production system, and was not uncovered during initial upgrade verification on the test systems. As with the upgrade procedure Section 2.11, “Upgrading MySQL”), perform and verify the downgrade procedure on some test systems first, before using it on a production system.
In the following discussion, MySQL commands that must be run using
a MySQL account with administrative privileges include -u
on the command line to specify
the MySQL root
root
user. Commands that require a
password for root
also include a
-p
option. Because -p
is
followed by no option value, such commands prompt for the
password. Type the password when prompted and press Enter.
SQL statements can be executed using the mysql
command-line client (connect as root
to ensure
that you have the necessary privileges).
Review the information in this section before downgrading. Perform any recommended actions.
Protect your data by taking a backup. The backup should
include the mysql
database, which contains
the MySQL system tables. See Section 7.2, “Database Backup Methods”.
Review Section 2.12.2, “Downgrade Paths” to ensure that your intended downgrade path is supported.
Review Section 2.12.3, “Downgrade Notes” for items that may require action before downgrading.
The downgrade procedures described in the following sections assume you are downgrading with data files created or modified by the newer MySQL version. However, if you did not modify your data after upgrading, downgrading using backups taken before upgrading to the new MySQL version is recommended. Many of the changes described in Section 2.12.3, “Downgrade Notes” that require action are not applicable when downgrading using backups taken before upgrading to the new MySQL version.
Use of new features, new configuration options, or new configuration option values that are not supported by a previous release may cause downgrade errors or failures. Before downgrading, reverse changes resulting from the use of new features and remove configuration settings that are not supported by the release you are downgrading to.
Downgrade is only supported between General Availability (GA) releases.
Downgrade from MySQL 5.7 to 5.6 is supported using the logical downgrade method.
Downgrade that skips versions is not supported. For example, downgrading directly from MySQL 5.7 to 5.5 is not supported.
Downgrade within a release series is supported. For example,
downgrading from MySQL
5.7.z
to
5.7.y
is supported.
Skipping a release is also supported. For example, downgrading
from MySQL 5.7.z
to
5.7.x
is supported.
Before downgrading from MySQL 5.7, review the information in this section. Some items may require action before downgrading.
In MySQL 5.7.13, system table columns that store user@host
string values were increased in length. Before downgrading to
a previous release, ensure that there are no user@host values
that exceed the previous 77 character length limit, and
perform the following mysql
system table
alterations:
ALTER TABLE mysql.proc MODIFY definer char(77) CHARACTER SET utf8 COLLATE utf8_bin NOT NULL DEFAULT ''; ALTER TABLE mysql.event MODIFY definer char(77) CHARACTER SET utf8 COLLATE utf8_bin NOT NULL DEFAULT ''; ALTER TABLE mysql.tables_priv MODIFY Grantor char(77) COLLATE utf8_bin NOT NULL DEFAULT ''; ALTER TABLE mysql.procs_priv MODIFY Grantor char(77) COLLATE utf8_bin NOT NULL DEFAULT '';
The maximum length of MySQL user names was increased from 16
characters to 32 characters in MySQL 5.7.8. Before downgrading
to a previous release, ensure that there are no user names
greater than 16 characters in length, and perform the
following mysql
system table alterations:
ALTER TABLE mysql.tables_priv MODIFY User char(16) NOT NULL default ''; ALTER TABLE mysql.columns_priv MODIFY User char(16) NOT NULL default ''; ALTER TABLE mysql.user MODIFY User char(16) NOT NULL default ''; ALTER TABLE mysql.db MODIFY User char(16) NOT NULL default ''; ALTER TABLE mysql.procs_priv MODIFY User char(16) binary DEFAULT '' NOT NULL;
The Password
column of the
mysql.user
system table was removed in
MySQL 5.7.6. All credentials are stored in the
authentication_string
column, including
those formerly stored in the Password
column. To make the mysql.user
table
compatible with previous releases, perform the following
alterations before downgrading:
ALTER TABLE mysql.user ADD Password char(41) character set latin1 collate latin1_bin NOT NULL default '' AFTER user; UPDATE mysql.user SET password = authentication_string WHERE LENGTH(authentication_string) = 41 AND plugin = 'mysql_native_password'; UPDATE mysql.user SET authentication_string = '' WHERE LENGTH(authentication_string) = 41 AND plugin = 'mysql_native_password';
The help_*
and
time_zone*
system tables changed from
MyISAM
to InnoDB
in
MySQL 5.7.5. Before downgrading to a previous release, change
each affected table back to MyISAM
by
running the following statements:
ALTER TABLE mysql.help_category ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.help_keyword ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.help_relation ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.help_topic ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.time_zone ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.time_zone_leap_second ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.time_zone_name ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.time_zone_transition ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.time_zone_transition_type ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT;
The plugin
and servers
system tables changed from MyISAM
to
InnoDB
in MySQL 5.7.6. Before downgrading
to a previous release, change each affected table back to
MyISAM
by running the following statements:
ALTER TABLE mysql.plugin ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT; ALTER TABLE mysql.servers ENGINE='MyISAM' STATS_PERSISTENT=DEFAULT;
The definition of the plugin
column in the
mysql.user
system table differs in MySQL
5.7. Before downgrading to a MySQL 5.6 server for versions
5.6.23 and higher, alter the plugin
column
definition using this statement:
ALTER TABLE mysql.user MODIFY plugin CHAR(64) COLLATE utf8_bin DEFAULT 'mysql_native_password';
Before downgrading to a MySQL 5.6.22 server or older, alter
the plugin
column definition using this
statement:
ALTER TABLE mysql.user MODIFY plugin CHAR(64) COLLATE utf8_bin DEFAULT '';
As of MySQL 5.7.7, the sys
schema is
installed by default during data directory installation.
Before downgrading to a previous version, it is recommended
that you drop the sys
schema:
DROP DATABASE sys;
If you are downgrading to a release that includes the
sys
schema,
mysql_upgrade recreates the
sys
schema in a compatible form. The
sys
schema is not included in MySQL 5.6.
As of MySQL 5.7.5, the FIL_PAGE_FLUSH_LSN
field, written to the first page of each
InnoDB
system tablespace file and to
InnoDB
undo tablespace files, is only
written to the first file of the InnoDB
system tablespace (page number 0:0). As a result, if you have
a multiple-file system tablespace and decide to downgrade from
MySQL 5.7 to MySQL 5.6, you may encounter an invalid message
on MySQL 5.6 startup stating that the log sequence
numbers x
and
y
in ibdata files do not match the
log sequence number y
in the
ib_logfiles. If you encounter this message,
restart MySQL 5.6. The invalid message should no longer
appear.
To simplify InnoDB
tablespace discovery
during crash recovery, new redo log record types were
introduced in MySQL 5.7.5. This enhancement changes the redo
log format. Before performing an in-place downgrade from MySQL
5.7.5 or later, perform a clean shutdown using an
innodb_fast_shutdown
setting
of 0
or 1
. A slow
shutdown using
innodb_fast_shutdown=0
is a
recommended step in
In-Place Downgrade.
MySQL 5.7.8 and 5.7.9 undo logs could contain insufficient
information about spatial columns (Bug #21508582). Before
performing an in-place downgrade from MySQL 5.7.10 or higher
to MySQL 5.7.9 or earlier, perform a slow shutdown using
innodb_fast_shutdown=0
to
clear the undo logs. A slow shutdown using
innodb_fast_shutdown=0
is a
recommended step in
In-Place Downgrade.
MySQL 5.7.8 undo logs could contain insufficient information
about virtual columns and virtual column indexes (Bug
#21869656). Before performing an in-place downgrade from MySQL
5.7.9 or later to MySQL 5.7.8 or earlier, perform a slow
shutdown using
innodb_fast_shutdown=0
to
clear the undo logs. A slow shutdown using
innodb_fast_shutdown=0
is a
recommended step in
In-Place Downgrade.
As of MySQL 5.7.9, the redo log header of the first redo log
file (ib_logfile0
) includes a format
version identifier and a text string that identifies the MySQL
version that created the redo log files. This enhancement
changes the redo log format. To prevent older versions of
MySQL from starting on redo log files created in MySQL 5.7.9
or later, the checksum for redo log checkpoint pages was
changed. As a result, you must perform a slow shutdown of
MySQL (using innodb_fast_shutdown=0) and remove the redo log
files (the ib_logfile*
files) before
performing an in-place downgrade. A slow shutdown using
innodb_fast_shutdown=0
and
removing the redo log files are recommended steps in
In-Place Downgrade.
Support for sending the server error log to
syslog
in MySQL 5.7.5 and up differs from
older versions. If you use syslog
and
downgrade to a version older than 5.7.5, you must stop using
the relevant mysqld system variables and
use the corresponding mysqld_safe command
options instead. Suppose that you use
syslog
by setting these system variables in
the [mysqld]
group of an option file:
[mysqld] log_syslog=ON log_syslog_tag=mytag
To downgrade, remove those settings and add option settings in
the [mysqld_safe]
option file group:
[mysqld_safe] syslog syslog-tag=mytag
syslog
-related system variables that have
no corresponding mysqld_safe option cannot
be used after a downgrade.
A trigger can have triggers for different combinations of
trigger event (INSERT
,
UPDATE
,
DELETE
) and action time
(BEFORE
, AFTER
), but
before MySQL 5.7.2 cannot have multiple triggers that have the
same trigger event and action time. MySQL 5.7.2 lifts this
limitation and multiple triggers are permitted. This change
has implications for downgrades.
If you downgrade a server that supports multiple triggers to an older version that does not, the downgrade has these effects:
For each table that has triggers, all trigger definitions
remain in the .TRG
file for the
table. However, if there are multiple triggers with the
same trigger event and action time, the server executes
only one of them when the trigger event occurs. For
information about .TRG
files, see
Table
Trigger Storage.
If triggers for the table are added or dropped subsequent
to the downgrade, the server rewrites the table's
.TRG
file. The rewritten file retains
only one trigger per combination of trigger event and
action time; the others are lost.
To avoid these problems, modify your triggers before downgrading. For each table that has multiple triggers per combination of trigger event and action time, convert each such set of triggers to a single trigger as follows:
For each trigger, create a stored routine that contains
all the code in the trigger. Values accessed using
NEW
and OLD
can be
passed to the routine using parameters. If the trigger
needs a single result value from the code, you can put the
code in a stored function and have the function return the
value. If the trigger needs multiple result values from
the code, you can put the code in a stored procedure and
return the values using OUT
parameters.
Drop all triggers for the table.
Create one new trigger for the table that invokes the stored routines just created. The effect for this trigger is thus the same as the multiple triggers it replaces.
This section describes how to downgrade MySQL binary and package-based installations on Unix/Linux. In-place and logical downgrade methods are described.
In-place downgrade involves shutting down the new MySQL version, replacing the new MySQL binaries or packages with the old ones, and restarting the old MySQL version on the existing data directory.
In-place downgrade is supported for downgrades between GA releases within the same release series.
In-place downgrade is not supported for MySQL APT, SLES, and Yum repository installations.
For some Linux platforms, MySQL installation from RPM or Debian packages includes systemd support for managing MySQL server startup and shutdown. On these platforms, mysqld_safe is not installed. In such cases, use systemd for server startup and shutdown instead of the methods used in the following instructions. See Section 2.5.10, “Managing MySQL Server with systemd”.
To perform an in-place downgrade:
Review the information in Section 2.12.1, “Before You Begin”.
If you use XA transactions with InnoDB
,
run XA
RECOVER
before downgrading to check for
uncommitted XA transactions. If results are returned, either
commit or rollback the XA transactions by issuing an
XA
COMMIT
or
XA
ROLLBACK
statement.
Configure MySQL to perform a slow shutdown by setting
innodb_fast_shutdown
to
0
. For example:
mysql -u root -p --execute="SET GLOBAL innodb_fast_shutdown=0"
With a slow shutdown, InnoDB
performs a
full purge and change buffer merge before shutting down,
which ensures that data files are fully prepared in case of
file format differences between releases.
Shut down the newer MySQL server. For example:
mysqladmin -u root -p shutdown
After the slow shutdown, remove the
InnoDB
redo log files (the
ib_logfile*
files) from the
data
directory to avoid downgrade
issues related to redo log file format changes that may have
occurred between releases.
rm ib_logfile*
Downgrade the MySQL binaries or packages in-place by replacing the newer binaries or packages with the older ones.
Start the older (downgraded) MySQL server, using the existing data directory. For example:
mysqld_safe --user=mysql --datadir=/path/to/existing-datadir
Run mysql_upgrade. For example:
mysql_upgrade -u root -p
mysql_upgrade examines all tables in all databases for incompatibilities with the current version of MySQL, and attempts to repair the tables if problems are found.
Shut down and restart the MySQL server to ensure that any changes made to the system tables take effect. For example:
mysqladmin -u root -p shutdown
mysqld_safe --user=mysql --datadir=/path/to/existing-datadir
Logical downgrade involves using mysqldump to dump all tables from the new MySQL version, and then loading the dump file into the old MySQL version.
Logical downgrades are supported for downgrades between releases within the same release series and for downgrades to the previous release level. Only downgrades between General Availability (GA) releases are supported. Before proceeding, review Section 2.12.1, “Before You Begin”.
For some Linux platforms, MySQL installation from RPM or Debian packages includes systemd support for managing MySQL server startup and shutdown. On these platforms, mysqld_safe is not installed. In such cases, use systemd for server startup and shutdown instead of the methods used in the following instructions. See Section 2.5.10, “Managing MySQL Server with systemd”.
For MySQL APT, SLES, and Yum repository installations, only downgrades to the previous release level are supported. Where the instructions call for initializing an older instance, use the package management utility to remove MySQL 5.7 packages and install MySQL 5.6 packages.
To perform a logical downgrade:
Review the information in Section 2.12.1, “Before You Begin”.
Dump all databases. For example:
mysqldump -u root -p --add-drop-table --routines --events --all-databases --force > data-for-downgrade.sql
Shut down the newer MySQL server. For example:
mysqladmin -u root -p shutdown
To initialize a MySQL 5.7 instance, use
mysqld with the
--initialize
or
--initialize-insecure
option.
mysqld --initialize --user=mysql
Start the older MySQL server, using the new data directory. For example:
mysqld_safe --user=mysql --datadir=/path/to/new-datadir
Load the dump file into the older MySQL server. For example:
mysql -u root -p --force < data-for-upgrade.sql
Run mysql_upgrade. For example:
mysql_upgrade -u root -p
mysql_upgrade examines all tables in all databases for incompatibilities with the current version of MySQL, and attempts to repair the tables if problems are found.
Shut down and restart the MySQL server to ensure that any changes made to the system tables take effect. For example:
mysqladmin -u root -p shutdown
mysqld_safe --user=mysql --datadir=/path/to/new-datadir
If you downgrade from one release series to another, there may be incompatibilities in table storage formats. In this case, use mysqldump to dump your tables before downgrading. After downgrading, reload the dump file using mysql or mysqlimport to re-create your tables. For examples, see Section 2.11.13, “Copying MySQL Databases to Another Machine”.
A typical symptom of a downward-incompatible table format change when you downgrade is that you cannot open tables. In that case, use the following procedure:
Stop the older MySQL server that you are downgrading to.
Restart the newer MySQL server you are downgrading from.
Dump any tables that were inaccessible to the older server by using mysqldump to create a dump file.
Stop the newer MySQL server and restart the older one.
Reload the dump file into the older server. Your tables should be accessible.
The Perl DBI
module provides a generic interface
for database access. You can write a DBI
script
that works with many different database engines without change. To
use DBI
, you must install the
DBI
module, as well as a DataBase Driver (DBD)
module for each type of database server you want to access. For
MySQL, this driver is the DBD::mysql
module.
Perl support is not included with MySQL distributions. You can obtain the necessary modules from http://search.cpan.org for Unix, or by using the ActiveState ppm program on Windows. The following sections describe how to do this.
The DBI
/DBD
interface requires
Perl 5.6.0, and 5.6.1 or later is preferred. DBI does not
work if you have an older version of Perl. You should use
DBD::mysql
4.009 or higher. Although earlier
versions are available, they do not support the full functionality
of MySQL 5.7.
MySQL Perl support requires that you have installed MySQL client programming support (libraries and header files). Most installation methods install the necessary files. If you install MySQL from RPM files on Linux, be sure to install the developer RPM as well. The client programs are in the client RPM, but client programming support is in the developer RPM.
The files you need for Perl support can be obtained from the CPAN (Comprehensive Perl Archive Network) at http://search.cpan.org.
The easiest way to install Perl modules on Unix is to use the
CPAN
module. For example:
shell>perl -MCPAN -e shell
cpan>install DBI
cpan>install DBD::mysql
The DBD::mysql
installation runs a number of
tests. These tests attempt to connect to the local MySQL server
using the default user name and password. (The default user name
is your login name on Unix, and ODBC
on
Windows. The default password is “no password.”) If
you cannot connect to the server with those values (for example,
if your account has a password), the tests fail. You can use
force install DBD::mysql
to ignore the failed
tests.
DBI
requires the
Data::Dumper
module. It may be installed; if
not, you should install it before installing
DBI
.
It is also possible to download the module distributions in the form of compressed tar archives and build the modules manually. For example, to unpack and build a DBI distribution, use a procedure such as this:
Unpack the distribution into the current directory:
shell> gunzip < DBI-VERSION
.tar.gz | tar xvf -
This command creates a directory named
DBI-
.
VERSION
Change location into the top-level directory of the unpacked distribution:
shell> cd DBI-VERSION
Build the distribution and compile everything:
shell>perl Makefile.PL
shell>make
shell>make test
shell>make install
The make test command is important because it
verifies that the module is working. Note that when you run that
command during the DBD::mysql
installation to
exercise the interface code, the MySQL server must be running or
the test fails.
It is a good idea to rebuild and reinstall the
DBD::mysql
distribution whenever you install a
new release of MySQL. This ensures that the latest versions of the
MySQL client libraries are installed correctly.
If you do not have access rights to install Perl modules in the system directory or if you want to install local Perl modules, the following reference may be useful: http://learn.perl.org/faq/perlfaq8.html#How-do-I-keep-my-own-module-library-directory-
On Windows, you should do the following to install the MySQL
DBD
module with ActiveState Perl:
Get ActiveState Perl from http://www.activestate.com/Products/ActivePerl/ and install it.
Open a console window.
If necessary, set the HTTP_proxy
variable.
For example, you might try a setting like this:
C:\> set HTTP_proxy=my.proxy.com:3128
Start the PPM program:
C:\> C:\perl\bin\ppm.pl
If you have not previously done so, install
DBI
:
ppm> install DBI
If this succeeds, run the following command:
ppm> install DBD-mysql
This procedure should work with ActiveState Perl 5.6 or higher.
If you cannot get the procedure to work, you should install the ODBC driver instead and connect to the MySQL server through ODBC:
use DBI; $dbh= DBI->connect("DBI:ODBC:$dsn",$user,$password) || die "Got error $DBI::errstr when connecting to $dsn\n";
If Perl reports that it cannot find the
../mysql/mysql.so
module, the problem is
probably that Perl cannot locate the
libmysqlclient.so
shared library. You should
be able to fix this problem by one of the following methods:
Copy libmysqlclient.so
to the directory
where your other shared libraries are located (probably
/usr/lib
or /lib
).
Modify the -L
options used to compile
DBD::mysql
to reflect the actual location
of libmysqlclient.so
.
On Linux, you can add the path name of the directory where
libmysqlclient.so
is located to the
/etc/ld.so.conf
file.
Add the path name of the directory where
libmysqlclient.so
is located to the
LD_RUN_PATH
environment variable. Some
systems use LD_LIBRARY_PATH
instead.
Note that you may also need to modify the -L
options if there are other libraries that the linker fails to
find. For example, if the linker cannot find
libc
because it is in /lib
and the link command specifies -L/usr/lib
, change
the -L
option to -L/lib
or add
-L/lib
to the existing link command.
If you get the following errors from
DBD::mysql
, you are probably using
gcc (or using an old binary compiled with
gcc):
/usr/bin/perl: can't resolve symbol '__moddi3' /usr/bin/perl: can't resolve symbol '__divdi3'
Add -L/usr/lib/gcc-lib/... -lgcc
to the link
command when the mysql.so
library gets built
(check the output from make for
mysql.so
when you compile the Perl client).
The -L
option should specify the path name of the
directory where libgcc.a
is located on your
system.
Another cause of this problem may be that Perl and MySQL are not both compiled with gcc. In this case, you can solve the mismatch by compiling both with gcc.