Table of Contents
This chapter describes how to obtain and install MySQL:
Determine whether your platform is supported. Please note that not all supported systems are equally suitable for running MySQL. On some platforms it is much more robust and efficient than others. See Section 2.1.1, “Operating Systems Supported by MySQL”, for details.
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. We also provide public access to our current source tree for those who want to see our most recent developments and help us test new code. To determine which version and type of distribution you should use, see Section 2.1.2, “Choosing Which MySQL Distribution to Install”.
Download the distribution that you want to
install. For a list of sites from which you can
obtain MySQL, see Section 2.1.3, “How to Get MySQL”. You can
verify the integrity of the distribution using the instructions
in Section 2.1.4, “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, “Standard MySQL Installation Using a Binary Distribution”. To install MySQL from a source distribution or from the current development source tree, use the instructions in Section 2.8, “MySQL Installation Using a Source Distribution”.
Note: If you plan to upgrade an existing version of MySQL to a newer version rather than installing MySQL for the first time, see Section 2.10, “Upgrading MySQL”, for information about upgrade procedures and about issues that you should consider before upgrading.
If you encounter installation difficulties, see Section 2.12, “Operating System-Specific Notes”, for information on solving problems for particular platforms.
Perform any necessary post-installation setup. After installing MySQL, read Section 2.9, “Post-Installation Setup and Testing”. This section contains important information about making sure the MySQL server is working properly. It also describes how to secure the initial MySQL user accounts, which have no passwords until you assign passwords. 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”.
Before installing MySQL, you should do the following:
Determine whether or not MySQL runs on your platform.
Choose a distribution to install.
Download the distribution and verify its integrity.
This section contains the information necessary to carry out these steps. After doing so, you can use the instructions in later sections of the chapter to install the distribution that you choose.
This section lists the operating systems on which you can expect to be able to run MySQL.
We use GNU Autoconf, so it is possible to port MySQL to all modern systems that have a C++ compiler and a working implementation of POSIX threads. (Thread support is needed for the server. To compile only the client code, the only requirement is a C++ compiler.) We use and develop the software ourselves primarily on Linux (SuSE and Red Hat), FreeBSD, and Sun Solaris (versions 8 and 9).
MySQL has been reported to compile successfully on the following combinations of operating system and thread package. Note that for many operating systems, native thread support works only in the latest versions.
AIX 4.x, 5.x with native threads. See Section 2.12.5.3, “IBM-AIX notes”.
Amiga.
BSDI 2.x with the MIT-pthreads package. See Section 2.12.4.4, “BSD/OS Version 2.x Notes”.
BSDI 3.0, 3.1 and 4.x with native threads. See Section 2.12.4.4, “BSD/OS Version 2.x Notes”.
Digital Unix 4.x with native threads. See Section 2.12.5.5, “Alpha-DEC-UNIX Notes (Tru64)”.
FreeBSD 2.x with the MIT-pthreads package. See Section 2.12.4.1, “FreeBSD Notes”.
FreeBSD 3.x and 4.x with native threads. See Section 2.12.4.1, “FreeBSD Notes”.
FreeBSD 4.x with LinuxThreads. See Section 2.12.4.1, “FreeBSD Notes”.
HP-UX 10.20 with the DCE threads or the MIT-pthreads package. See Section 2.12.5.1, “HP-UX Version 10.20 Notes”.
HP-UX 11.x with the native threads. See Section 2.12.5.2, “HP-UX Version 11.x Notes”.
Linux 2.0+ with LinuxThreads 0.7.1+ or
glibc
2.0.7+ for various CPU
architectures. See Section 2.12.1, “Linux Notes”.
Mac OS X. See Section 2.12.2, “Mac OS X Notes”.
NetBSD 1.3/1.4 Intel and NetBSD 1.3 Alpha (requires GNU make). See Section 2.12.4.2, “NetBSD Notes”.
Novell NetWare 6.0. See Section 2.6, “Installing MySQL on NetWare”.
OpenBSD > 2.5 with native threads. OpenBSD < 2.5 with the MIT-pthreads package. See Section 2.12.4.3, “OpenBSD 2.5 Notes”.
OS/2 Warp 3, FixPack 29 and OS/2 Warp 4, FixPack 4. See Section 2.12.6, “OS/2 Notes”.
SCO OpenServer 5.0.X with a recent port of the FSU Pthreads package. See Section 2.12.5.8, “SCO UNIX and OpenServer 5.0.x Notes”.
SCO UnixWare 7.1.x. See Section 2.12.5.10, “SCO UnixWare 7.1.x and OpenUNIX 8.0.0 Notes”.
SCO Openserver 6.0.x. See Section 2.12.5.9, “SCO OpenServer 6.0.x Notes”.
SGI Irix 6.x with native threads. See Section 2.12.5.7, “SGI Irix Notes”.
Solaris 2.5 and above with native threads on SPARC and x86. See Section 2.12.3, “Solaris Notes”.
SunOS 4.x with the MIT-pthreads package. See Section 2.12.3, “Solaris Notes”.
Tru64 Unix. See Section 2.12.5.5, “Alpha-DEC-UNIX Notes (Tru64)”.
Windows 9x, Me, NT, 2000, XP, and 2003. See Section 2.3, “Installing MySQL on Windows”.
Not all platforms are equally well-suited for running MySQL. How well a certain platform is suited for a high-load mission-critical MySQL server is determined by the following factors:
General stability of the thread library. A platform may have an excellent reputation otherwise, but MySQL is only as stable as the thread library it calls, even if everything else is perfect.
The capability of the kernel and the thread library to take advantage of symmetric multi-processor (SMP) systems. In other words, when a process creates a thread, it should be possible for that thread to run on a different CPU than the original process.
The capability of the kernel and the thread library to run
many threads that acquire and release a mutex over a short
critical region frequently without excessive context
switches. If the implementation of
pthread_mutex_lock()
is too anxious to
yield CPU time, this hurts MySQL tremendously. If this issue
is not taken care of, adding extra CPUs actually makes MySQL
slower.
General filesystem stability and performance.
If your tables are big, the ability of the filesystem to deal with large files at all and to deal with them efficiently.
Our level of expertise here at MySQL AB with the platform. If we know a platform well, we enable platform-specific optimizations and fixes at compile time. We can also provide advice on configuring your system optimally for MySQL.
The amount of testing we have done internally for similar configurations.
The number of users that have successfully run MySQL on the platform in similar configurations. If this number is high, the chances of encountering platform-specific surprises are much smaller.
Based on the preceding criteria, the best platforms for running
MySQL at this point are x86 with SuSE Linux using a 2.4 or 2.6
kernel, and ReiserFS (or any similar Linux distribution) and
SPARC with Solaris (2.7-9). FreeBSD comes third, but we really
hope it joins the top club once the thread library is improved.
We also hope that at some point we are able to include into the
top category all other platforms on which MySQL currently
compiles and runs, but not quite with the same level of
stability and performance. This requires some effort on our part
in cooperation with the developers of the operating systems and
library components that MySQL depends on. If you are interested
in improving one of those components, are in a position to
influence its development, and need more detailed instructions
on what MySQL needs to run better, send an email message to the
MySQL internals
mailing list. See
Section 1.7.1, “MySQL Mailing Lists”.
Please note that the purpose of the preceding comparison is not to say that one operating system is better or worse than another in general. We are talking only about choosing an OS for the specific purpose of running MySQL. With this in mind, the result of this comparison would be different if we considered more factors. In some cases, the reason one OS is better than the other could simply be that we have been able to put more effort into testing and optimizing for a particular platform. We are just stating our observations to help you decide which platform to use for running MySQL.
When preparing to install MySQL, you should decide which version to use. MySQL development occurs in several release series, and you can pick the one that best fits your needs. After deciding which version to install, you can choose a distribution format. Releases are available in binary or source format.
The first decision to make is whether you want to use a production (stable) release or a development release. In the MySQL development process, multiple release series co-exist, each at a different stage of maturity:
MySQL 5.2 is the next development release series and is the series in which new features are to be implemented. Alpha releases will be made available in the near future to allow widespread testing by interested users.
MySQL 5.1 is the current stable (production-quality) release series. New releases are issued for bugfixes only; no new features are being added that could effect stability.
MySQL 5.0 is the previous stable (production-quality) release series. New releases are issued for critical bugfixes and security fixes. No significant new features are to be added to this series.
MySQL 4.0 and 3.23 are the old stable (production-quality) release series. These versions are now retired, so new releases are issued only to fix extremely critical bugs (primarily security issues).
We do not believe in a complete freeze, as this also leaves out bugfixes and other fixes that must be done. By “somewhat frozen” we mean that we may add small things that should not affect anything that currently works in a production release. Naturally, relevant bugfixes from an earlier series propagate to later series.
Normally, if you are beginning to use MySQL for the first time or trying to port it to some system for which there is no binary distribution, we recommend going with the production release series. Currently this is MySQL 5.1. All MySQL releases, even those from development series, are checked with the MySQL benchmarks and an extensive test suite before being issued.
If you are running an older system and want to upgrade, but do not want to take the chance of having a non-seamless upgrade, you should upgrade to the latest version in the same release series you are using (where only the last part of the version number is newer than yours). We have tried to fix only fatal bugs and make only small, relatively “safe” changes to that version.
If you want to use new features not present in the production release series, you can use a version from a development series. Note that development releases are not as stable as production releases.
If you want to use the very latest sources containing all current patches and bugfixes, you can use one of our BitKeeper repositories. These are not “releases” as such, but are available as previews of the code on which future releases are to be based.
The MySQL naming scheme uses release names that consist of three numbers and a suffix; for example, mysql-5.0.9-beta. The numbers within the release name are interpreted as follows:
The first number (5) is the major version and describes the file format. All MySQL 5 releases have the same file format.
The second number (0) is the release level. Taken together, the major version and release level constitute the release series number.
The third number (9) is the version number within the release series. This is incremented for each new release. Usually you want the latest version for the series you have chosen.
For each minor update, the last number in the version string is incremented. When there are major new features or minor incompatibilities with previous versions, the second number in the version string is incremented. When the file format changes, the first number is increased.
Release names also include a suffix to indicates 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:
alpha indicates that the release contains new features that have not been thoroughly tested. Known bugs should be documented in the News section. See Appendix D, MySQL Change History. Most alpha releases implement new commands and extensions. Active development that may involve major code changes can occur in an alpha release. However, we do conduct testing before issuing a release.
beta means that the release is intended to be feature-complete and that all new code has been tested. No major new features that are added. There should be no known critical bugs. A version changes from alpha to beta when there have been no reported fatal bugs within an alpha version for at least a month and we have no plans to add any new features that could make previously implemented features unreliable.
All API's, externally visible structures and columns for SQL commands will not change during future beta, release candidate, or production releases.
rc is a release candidate; that is, a beta that has been around for a while and seems to work well. Only minor fixes are added. (A release candidate is what formerly was known as a gamma release.)
If there is no suffix, it means that the version has been run for a while at many different sites with no reports of critical repeatable bugs other than platform-specific bugs. Only critical bugfixes are applied to the release. This is what we call a production (stable) or “General Availability” (GA) release.
MySQL uses a naming scheme that is slightly different from most other products. In general, it is usually safe to use any version that has been out for a couple of weeks without being replaced by a new version within the same release series.
All releases of MySQL are run through our standard tests and benchmarks to ensure that they are relatively safe to use. Because the standard tests are extended over time to check for all previously found bugs, the test suite keeps getting better.
All releases have been tested at least with:
An internal test suite
The mysql-test
directory contains an
extensive set of test cases. We run these tests for
virtually every server binary. See
Section 27.1.2, “MySQL Test Suite”, for more information
about this test suite.
The MySQL benchmark suite
This suite runs a range of common queries. It is also a test to see whether the latest batch of optimizations actually made the code faster. See Section 7.1.4, “The MySQL Benchmark Suite”.
The crash-me
test
This test tries to determine what features the database supports and what its capabilities and limitations are. See Section 7.1.4, “The MySQL Benchmark Suite”.
Another test is that we use the newest MySQL version in our internal production environment, on at least one machine. We have more than 100GB of data to work with.
After choosing which version of MySQL to install, you should decide whether to use a binary distribution or a source distribution. In most cases, you should probably use a binary distribution, if one exists for your platform. Binary distributions are available in native format for many platforms, such as RPM files for Linux or DMG package installers for Mac OS X. Distributions also are available as Zip archives or compressed tar files.
Reasons to choose a binary distribution include the following:
Binary distributions generally are easier to install than source distributions.
To satisfy different user requirements, we provide two different binary versions: one compiled with the non-transactional storage engines (a small, fast binary), and one configured with the most important extended options like transaction-safe tables. Both versions are compiled from the same source distribution. All native MySQL clients can connect to servers from either MySQL version.
The extended MySQL binary distribution is marked with the
-max
suffix and is configured with the
same options as mysqld-max. See
Section 5.1.2, “The mysqld-max Extended MySQL Server”.
If you want to use the MySQL-Max
RPM,
you must first install the standard
MySQL-server
RPM.
Under some circumstances, you may be better off installing MySQL from a source distribution:
You want to install MySQL at some explicit location. The standard binary distributions are ready to run at any place, but you may want to have even more flexibility to place MySQL components where you want.
You want to configure mysqld with some extra features that are not included in the standard binary distributions. Here is a list of the most common extra options that you may want to use:
--with-innodb
(enabled by default for
all MySQL 5.1 binary releases)
--with-berkeley-db
(not available on
all platforms)
--with-libwrap
--with-named-z-libs
(this is done for
some of the binaries)
--with-debug[=full]
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 have a special compiler (such as
pgcc
) or want to use compiler options
that are better optimized for your processor. Binary
distributions are compiled with options that should work
on a variety of processors from the same processor family.
You want to use the latest sources from one of the BitKeeper repositories to have access to all current bugfixes. For example, if you have found a bug and reported it to the MySQL development team, the bugfix is committed to the source repository and you can access it there. The bugfix does not appear in a release until a release actually is issued.
You want to read (or modify) the C and C++ code that makes up MySQL. For this purpose, you should get a source distribution, because the source code is always the ultimate manual.
Source distributions contain more tests and examples than binary distributions.
MySQL is evolving quite rapidly and we want to share new developments with other MySQL users. We try to produce a new release whenever we have new and useful features that others also seem to have a need for.
We also try to help users who request features that are easy to implement. We take note of what our licensed users want, and we especially take note of what our support customers want and try to help them in this regard.
No one is required to download a new release. The News section tells you if the new release has something you really want. See Appendix D, MySQL Change History.
We use the following policy when updating MySQL:
Releases are issued within each series. For each release, the last number in the version is one more than the previous release within the same series.
Production (stable) releases are meant to appear about 1-2 times a year. However, if small bugs are found, a release with only bugfixes is issued.
Working releases/bugfixes to old releases are meant to appear about every 4-8 weeks.
Binary distributions for some platforms are made by us for major releases. Other people may make binary distributions for other systems, but probably less frequently.
We make fixes available as soon as we have identified and corrected small or non-critical but annoying bugs. The fixes are available immediately from our public BitKeeper repositories, and will be included in the next release.
If by any chance a fatal bug is found in a release, our policy is to fix it in a new release as soon as possible. (We would like other companies to do this, too!)
We put a lot of time and effort into making our releases bug-free. We haven't released a single MySQL version with any known fatal repeatable bugs. (A “fatal” bug is something that crashes MySQL under normal usage, produces incorrect answers for normal queries, or has a security problem.)
We have documented all open problems, bugs, and issues that are dependent on design decisions. See Section A.8, “Known Issues in MySQL”.
Our aim is to fix everything that is fixable without making a stable MySQL version less stable. In certain cases, this means we can fix an issue in the development versions, but not in the stable (production) version. Naturally, we document such issues so that users are aware of them.
Here is a description of how our build process works:
We monitor bugs from our customer support list, the bugs database at http://bugs.mysql.com/, and the MySQL external mailing lists.
All reported bugs for live versions are entered into the bugs database.
When we fix a bug, we always try to make a test case for it and include it into our test system to ensure that the bug can never recur without being detected. (About 90% of all fixed bugs have test cases.)
We create test cases for all new features we add to MySQL.
Before we start to build a new MySQL release, we ensure that all reported repeatable bugs for that MySQL version (3.23.x, 4.0.x, 4.1.x, 5.0.x, and so on) are fixed. If something is impossible to fix (due to some internal design decision in MySQL), we document this in the manual. See Section A.8, “Known Issues in MySQL”.
We do a build on all platforms for which we support binaries (15+ platforms) and run our test suite and benchmark suite on all of them.
We do not publish a binary for a platform for which the test or benchmark suite fails. If the problem is due to a general error in the source, we fix it and do the build plus tests on all systems again from scratch.
The build and test process takes 2-3 days. If we receive a report regarding a fatal bug during this process (for example, one that causes a core dump), we fix the problem and restart the build process.
After publishing the binaries on
http://dev.mysql.com/, we send out an
announcement message to the mysql
and
announce
mailing lists. See
Section 1.7.1, “MySQL Mailing Lists”. The announcement message
contains a list of all changes to the release and any
known problems with the release. The
Known Problems section in
the release notes has been needed for only a handful of
releases.
To quickly give our users access to the latest MySQL features, we produce a new MySQL release every 4-8 weeks. Source code snapshots are built daily and are available at http://downloads.mysql.com/snapshots.php.
If, despite our best efforts, we receive any bug reports
after the release is made a critical problem with that
build on a specific platform, we fix it at once and build
a new 'a'
release for that platform.
Thanks to our large user base, any such problems are found
and resolved very quickly.
Our track record for making stable releases is quite good.
In the last 150 releases, we had to do a new build for
fewer than 10 of them. In three of these cases, the bug
was a faulty glibc
library on one of
our build machines that took us a long time to track down.
As a service of MySQL AB, we provide a set of binary distributions of MySQL that are compiled on systems at our site or on systems where supporters of MySQL kindly have given us access to their machines.
In addition to the binaries provided in platform-specific
package formats, we offer binary distributions for a number of
platforms in the form of compressed tar
files (.tar.gz
files). See
Section 2.2, “Standard MySQL Installation Using a Binary Distribution”.
For Windows distributions, see Section 2.3, “Installing MySQL on Windows”.
These distributions are generated using the script
Build-tools/Do-compile
, which compiles the
source code and creates the binary tar.gz
archive using
scripts/make_binary_distribution.
These binaries are configured and built with the following
compilers and options. This information can also be obtained
by looking at the variables COMP_ENV_INFO
and CONFIGURE_LINE
inside the script
bin/mysqlbug of every binary
tar file distribution.
The following binaries are built on MySQL AB development systems:
Linux 2.4.xx x86 with gcc 2.95.3:
CFLAGS="-O2 -mcpu=pentiumpro" CXX=gcc
CXXFLAGS="-O2 -mcpu=pentiumpro -felide-constructors"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --enable-assembler --disable-shared
--with-client-ldflags=-all-static
--with-mysqld-ldflags=-all-static
Linux 2.4.x x86 with icc (Intel C++ Compiler 8.1 or later releases):
CC=icc CXX=icpc CFLAGS="-O3 -unroll2 -ip -mp
-no-gcc -restrict" CXXFLAGS="-O3 -unroll2 -ip -mp -no-gcc
-restrict" ./configure --prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --enable-assembler --disable-shared
--with-client-ldflags=-all-static
--with-mysqld-ldflags=-all-static --with-embedded-server
--with-innodb
Note that versions 8.1 and newer of the Intel compiler
have separate drivers for 'pure' C
(icc
) and C++
(icpc
); if you use
icc version 8.0 or older for building
MySQL, you will need to set CXX=icc
.
Linux 2.4.xx Intel Itanium 2 with ecc (Intel C++ Itanium Compiler 7.0):
CC=ecc CFLAGS="-O2 -tpp2 -ip -nolib_inline"
CXX=ecc CXXFLAGS="-O2 -tpp2 -ip -nolib_inline" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client
--enable-local-infile
Linux 2.4.xx Intel Itanium with ecc (Intel C++ Itanium Compiler 7.0):
CC=ecc CFLAGS=-tpp1 CXX=ecc CXXFLAGS=-tpp1
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile
Linux 2.4.xx alpha with ccc
(Compaq C
V6.2-505 / Compaq C++ V6.3-006):
CC=ccc CFLAGS="-fast -arch generic" CXX=cxx
CXXFLAGS="-fast -arch generic -noexceptions -nortti"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --with-mysqld-ldflags=-non_shared
--with-client-ldflags=-non_shared
--disable-shared
Linux 2.x.xx ppc with gcc 2.95.4:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
--with-embedded-server --with-innodb
Linux 2.4.xx s390 with gcc 2.95.3:
CFLAGS="-O2" CXX=gcc CXXFLAGS="-O2
-felide-constructors" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--disable-shared --with-client-ldflags=-all-static
--with-mysqld-ldflags=-all-static
Linux 2.4.xx x86_64 (AMD64) with gcc 3.2.1:
CXX=gcc ./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
Sun Solaris 8 x86 with gcc 3.2.3:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
--with-innodb
Sun Solaris 8 SPARC with gcc 3.2:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --enable-assembler
--with-named-z-libs=no --with-named-curses-libs=-lcurses
--disable-shared
Sun Solaris 8 SPARC 64-bit with gcc 3.2:
CC=gcc CFLAGS="-O3 -m64 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -m64 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --with-named-z-libs=no
--with-named-curses-libs=-lcurses
--disable-shared
Sun Solaris 9 SPARC with gcc 2.95.3:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --enable-assembler
--with-named-curses-libs=-lcurses
--disable-shared
Sun Solaris 9 SPARC with cc-5.0
(Sun
Forte 5.0):
CC=cc-5.0 CXX=CC ASFLAGS="-xarch=v9" CFLAGS="-Xa
-xstrconst -mt -D_FORTEC_ -xarch=v9" CXXFLAGS="-noex -mt
-D_FORTEC_ -xarch=v9" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--enable-assembler --with-named-z-libs=no
--enable-thread-safe-client --disable-shared
IBM AIX 4.3.2 ppc with gcc 3.2.3:
CFLAGS="-O2 -mcpu=powerpc -Wa,-many " CXX=gcc
CXXFLAGS="-O2 -mcpu=powerpc -Wa,-many -felide-constructors
-fno-exceptions -fno-rtti" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--with-named-z-libs=no --disable-shared
IBM AIX 4.3.3 ppc with xlC_r
(IBM
Visual Age C/C++ 6.0):
CC=xlc_r CFLAGS="-ma -O2 -qstrict -qoptimize=2
-qmaxmem=8192" CXX=xlC_r CXXFLAGS ="-ma -O2 -qstrict
-qoptimize=2 -qmaxmem=8192" ./configure
--prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --with-named-z-libs=no
--disable-shared --with-innodb
IBM AIX 5.1.0 ppc with gcc 3.3:
CFLAGS="-O2 -mcpu=powerpc -Wa,-many" CXX=gcc
CXXFLAGS="-O2 -mcpu=powerpc -Wa,-many -felide-constructors
-fno-exceptions -fno-rtti" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--with-named-z-libs=no --disable-shared
IBM AIX 5.2.0 ppc with xlC_r
(IBM
Visual Age C/C++ 6.0):
CC=xlc_r CFLAGS="-ma -O2 -qstrict -qoptimize=2
-qmaxmem=8192" CXX=xlC_r CXXFLAGS="-ma -O2 -qstrict
-qoptimize=2 -qmaxmem=8192" ./configure
--prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --with-named-z-libs=no
--disable-shared --with-embedded-server
--with-innodb
HP-UX 10.20 pa-risc1.1 with gcc 3.1:
CFLAGS="-DHPUX -I/opt/dce/include -O3 -fPIC"
CXX=gcc CXXFLAGS="-DHPUX -I/opt/dce /include
-felide-constructors -fno-exceptions -fno-rtti -O3 -fPIC"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --with-pthread
--with-named-thread-libs=-ldce --with-lib-ccflags=-fPIC
--disable-shared
HP-UX 11.00 pa-risc with aCC
(HP ANSI
C++ B3910B A.03.50):
CC=cc CXX=aCC CFLAGS=+DAportable
CXXFLAGS=+DAportable ./configure --prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
--with-embedded-server --with-innodb
HP-UX 11.11 pa-risc2.0 64bit with aCC
(HP ANSI C++ B3910B A.03.33):
CC=cc CXX=aCC CFLAGS=+DD64 CXXFLAGS=+DD64
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
HP-UX 11.11 pa-risc2.0 32bit with aCC
(HP ANSI C++ B3910B A.03.33):
CC=cc CXX=aCC CFLAGS="+DAportable"
CXXFLAGS="+DAportable" ./configure
--prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
--with-innodb
HP-UX 11.22 ia64 64bit with aCC
(HP
aC++/ANSI C B3910B A.05.50):
CC=cc CXX=aCC CFLAGS="+DD64 +DSitanium2"
CXXFLAGS="+DD64 +DSitanium2" ./configure
--prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
--with-embedded-server --with-innodb
Apple Mac OS X 10.2 powerpc with gcc 3.1:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
FreeBSD 4.7 i386 with gcc 2.95.4:
CFLAGS=-DHAVE_BROKEN_REALPATH ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--enable-assembler --with-named-z-libs=not-used
--disable-shared
FreeBSD 4.7 i386 using LinuxThreads with gcc 2.95.4:
CFLAGS="-DHAVE_BROKEN_REALPATH -D__USE_UNIX98
-D_REENTRANT -D_THREAD_SAFE
-I/usr/local/include/pthread/linuxthreads"
CXXFLAGS="-DHAVE_BROKEN_REALPATH -D__USE_UNIX98
-D_REENTRANT -D_THREAD_SAFE
-I/usr/local/include/pthread/linuxthreads" ./configure
--prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--enable-thread-safe-client --enable-local-infile
--enable-assembler
--with-named-thread-libs="-DHAVE_GLIBC2_STYLE_GETHOSTBYNAME_R
-D_THREAD_SAFE -I /usr/local/include/pthread/linuxthreads
-L/usr/local/lib -llthread -llgcc_r" --disable-shared
--with-embedded-server --with-innodb
QNX Neutrino 6.2.1 i386 with gcc 2.95.3qnx-nto 20010315:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
The following binaries are built on third-party systems kindly provided to MySQL AB by other users. These are provided only as a courtesy; MySQL AB does not have full control over these systems, so we can provide only limited support for the binaries built on them.
SCO Unix 3.2v5.0.7 i386 with gcc 2.95.3:
CFLAGS="-O3 -mpentium" LDFLAGS=-static CXX=gcc
CXXFLAGS="-O3 -mpentium -felide-constructors" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--with-named-z-libs=no --enable-thread-safe-client
--disable-shared
SCO UnixWare 7.1.4 i386 with CC 3.2:
CC=cc CFLAGS="-O" CXX=CC ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--with-named-z-libs=no --enable-thread-safe-client
--disable-shared --with-readline
SCO OpenServer 6.0.0 i386 with CC 3.2:
CC=cc CFLAGS="-O" CXX=CC ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--with-named-z-libs=no --enable-thread-safe-client
--disable-shared --with-readline
Compaq Tru64 OSF/1 V5.1 732 alpha with
cc/cxx
(Compaq C V6.3-029i / DIGITAL
C++ V6.1-027):
CC="cc -pthread" CFLAGS="-O4 -ansi_alias
-ansi_args -fast -inline speed -speculate all" CXX="cxx
-pthread" CXXFLAGS="-O4 -ansi_alias -fast -inline speed
-speculate all -noexceptions -nortti" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--with-named-thread-libs="-lpthread -lmach -lexc -lc"
--disable-shared
--with-mysqld-ldflags=-all-static
SGI Irix 6.5 IP32 with gcc 3.0.1:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXXFLAGS="-O3 -fno-omit-frame-pointer -felide-constructors
-fno-exceptions -fno-rtti" ./configure
--prefix=/usr/local/mysql --with-extra-charsets=complex
--enable-thread-safe-client --enable-local-infile
--disable-shared
FreeBSD/sparc64 5.0 with gcc 3.2.1:
CFLAGS=-DHAVE_BROKEN_REALPATH ./configure
--prefix=/usr/local/mysql
--localstatedir=/usr/local/mysql/data
--libexecdir=/usr/local/mysql/bin
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --disable-shared
--with-innodb
The following compile options have been used for binary packages that MySQL AB provided in the past. These binaries no longer are being updated, but the compile options are listed here for reference purposes.
Linux 2.2.xx SPARC with egcs 1.1.2:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer"
CXX=gcc CXXFLAGS="-O3 -fno-omit-frame-pointer
-felide-constructors -fno-exceptions -fno-rtti"
./configure --prefix=/usr/local/mysql
--with-extra-charsets=complex --enable-thread-safe-client
--enable-local-infile --enable-assembler
--disable-shared
Linux 2.2.x with x686 with gcc 2.95.2:
CFLAGS="-O3 -mpentiumpro" CXX=gcc CXXFLAGS="-O3
-mpentiumpro -felide-constructors -fno-exceptions
-fno-rtti" ./configure --prefix=/usr/local/mysql
--enable-assembler --with-mysqld-ldflags=-all-static
--disable-shared --with-extra-charsets=complex
SunOS 4.1.4 2 sun4c with gcc 2.7.2.1:
CC=gcc CXX=gcc CXXFLAGS="-O3
-felide-constructors" ./configure
--prefix=/usr/local/mysql --disable-shared
--with-extra-charsets=complex --enable-assembler
SunOS 5.5.1 (and above) sun4u with egcs 1.0.3a or 2.90.27 or
gcc 2.95.2 and newer: CC=gcc
CFLAGS="-O3" CXX=gcc CXXFLAGS="-O3 -felide-constructors
-fno-exceptions -fno-rtti" ./configure
--prefix=/usr/local/mysql --with-low-memory
--with-extra-charsets=complex --enable-assembler
SunOS 5.6 i86pc with gcc 2.8.1:
CC=gcc CXX=gcc CXXFLAGS=-O3 ./configure
--prefix=/usr/local/mysql --with-low-memory
--with-extra-charsets=complex
BSDI BSD/OS 3.1 i386 with gcc 2.7.2.1:
CC=gcc CXX=gcc CXXFLAGS=-O ./configure
--prefix=/usr/local/mysql
--with-extra-charsets=complex
BSDI BSD/OS 2.1 i386 with gcc 2.7.2:
CC=gcc CXX=gcc CXXFLAGS=-O3 ./configure
--prefix=/usr/local/mysql
--with-extra-charsets=complex
AIX 4.2 with gcc 2.7.2.2:
CC=gcc CXX=gcc CXXFLAGS=-O3 ./configure
--prefix=/usr/local/mysql
--with-extra-charsets=complex
Anyone who has more optimal options for any of the preceding
configurations listed can always mail them to the MySQL
internals
mailing list. See
Section 1.7.1, “MySQL Mailing Lists”.
The RPM distributions for MySQL 5.1 releases which we make available through our Web site are generated by MySQL AB.
If you want to compile a debug version of MySQL, you should
add --with-debug
or
--with-debug=full
to the preceding
configure commands and remove any
-fomit-frame-pointer
options.
Check the MySQL downloads page (http://dev.mysql.com/downloads/) for information about the current version and for downloading instructions. For a complete up-to-date list of MySQL download mirror sites, see http://dev.mysql.com/downloads/mirrors.html. There you can also find information about becoming a MySQL mirror site and how to report a bad or out-of-date mirror.
Our main mirror is located at http://mirrors.sunsite.dk/mysql/.
After you have downloaded the MySQL package that suits your needs and before you attempt to install it, you should make sure that it is intact and has not been tampered with. MySQL AB offers 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. If you repeatedly cannot
successfully verify the integrity of the package, please notify
us about such incidents, including the full package name and the
download site you have been using, at
<webmaster@mysql.com>
or
<build@mysql.com>
. Do not report downloading
problems using the bug-reporting system.
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 with the following command, where
package_name
is the name of the package you
downloaded:
shell> md5sum package_name
Example:
shell> md5sum mysql-standard-5.1.5-alpha-linux-i686.tar.gz aaab65abbec64d5e907dcd41b8699945 mysql-standard-5.1.5-alpha-linux-i686.tar.gz
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.
Note: Make sure to verify the
checksum of the archive file
(for example, the .zip
or
.tar.gz
file) and not of the files that are
contained inside of the archive.
Note that not all operating systems support the md5sum command. On some, it is simply called md5 and others 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 download the source code from http://www.gnu.org/software/textutils/ as well. If you have OpenSSL installed, you can also use the command openssl md5 package_name instead. A DOS/Windows implementation of the md5 command line utility is available from http://www.fourmilab.ch/md5/. winMd5Sum is a graphical MD5 checking tool which can be obtained from http://www.nullriver.com/index/products/winmd5sum.
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.
MySQL AB 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. See http://www.gnupg.org/ for more information about GnuPG and how to obtain and install it on your system. Most Linux distributions ship with GnuPG installed by default. For more information about GnuPG, see http://www.openpgp.org/.
To verify the signature for a specific package, you first need
to obtain a copy of MySQL AB's public GPG build key. You can
download the key from
http://www.keyserver.net/. The key that you
want to obtain is named build@mysql.com
.
Alternatively, you can cut and paste the key directly from the
following text:
Key ID: pub 1024D/5072E1F5 2003-02-03 MySQL Package signing key (www.mysql.com) <build@mysql.com> Fingerprint: A4A9 4068 76FC BD3C 4567 70C8 8C71 8D3B 5072 E1F5 Public Key (ASCII-armored): -----BEGIN PGP PUBLIC KEY BLOCK----- Version: GnuPG v1.0.6 (GNU/Linux) Comment: For info see http://www.gnupg.org mQGiBD4+owwRBAC14GIfUfCyEDSIePvEW3SAFUdJBtoQHH/nJKZyQT7h9bPlUWC3 RODjQReyCITRrdwyrKUGku2FmeVGwn2u2WmDMNABLnpprWPkBdCk96+OmSLN9brZ fw2vOUgCmYv2hW0hyDHuvYlQA/BThQoADgj8AW6/0Lo7V1W9/8VuHP0gQwCgvzV3 BqOxRznNCRCRxAuAuVztHRcEAJooQK1+iSiunZMYD1WufeXfshc57S/+yeJkegNW hxwR9pRWVArNYJdDRT+rf2RUe3vpquKNQU/hnEIUHJRQqYHo8gTxvxXNQc7fJYLV K2HtkrPbP72vwsEKMYhhr0eKCbtLGfls9krjJ6sBgACyP/Vb7hiPwxh6rDZ7ITnE kYpXBACmWpP8NJTkamEnPCia2ZoOHODANwpUkP43I7jsDmgtobZX9qnrAXw+uNDI QJEXM6FSbi0LLtZciNlYsafwAPEOMDKpMqAK6IyisNtPvaLd8lH0bPAnWqcyefep rv0sxxqUEMcM3o7wwgfN83POkDasDbs3pjwPhxvhz6//62zQJ7Q7TXlTUUwgUGFj a2FnZSBzaWduaW5nIGtleSAod3d3Lm15c3FsLmNvbSkgPGJ1aWxkQG15c3FsLmNv bT6IXQQTEQIAHQUCPj6jDAUJCWYBgAULBwoDBAMVAwIDFgIBAheAAAoJEIxxjTtQ cuH1cY4AnilUwTXn8MatQOiG0a/bPxrvK/gCAJ4oinSNZRYTnblChwFaazt7PF3q zIhMBBMRAgAMBQI+PqPRBYMJZgC7AAoJEElQ4SqycpHyJOEAn1mxHijft00bKXvu cSo/pECUmppiAJ41M9MRVj5VcdH/KN/KjRtW6tHFPYhMBBMRAgAMBQI+QoIDBYMJ YiKJAAoJELb1zU3GuiQ/lpEAoIhpp6BozKI8p6eaabzF5MlJH58pAKCu/ROofK8J Eg2aLos+5zEYrB/LsrkCDQQ+PqMdEAgA7+GJfxbMdY4wslPnjH9rF4N2qfWsEN/l xaZoJYc3a6M02WCnHl6ahT2/tBK2w1QI4YFteR47gCvtgb6O1JHffOo2HfLmRDRi Rjd1DTCHqeyX7CHhcghj/dNRlW2Z0l5QFEcmV9U0Vhp3aFfWC4Ujfs3LU+hkAWzE 7zaD5cH9J7yv/6xuZVw411x0h4UqsTcWMu0iM1BzELqX1DY7LwoPEb/O9Rkbf4fm Le11EzIaCa4PqARXQZc4dhSinMt6K3X4BrRsKTfozBu74F47D8Ilbf5vSYHbuE5p /1oIDznkg/p8kW+3FxuWrycciqFTcNz215yyX39LXFnlLzKUb/F5GwADBQf+Lwqq a8CGrRfsOAJxim63CHfty5mUc5rUSnTslGYEIOCR1BeQauyPZbPDsDD9MZ1ZaSaf anFvwFG6Llx9xkU7tzq+vKLoWkm4u5xf3vn55VjnSd1aQ9eQnUcXiL4cnBGoTbOW I39EcyzgslzBdC++MPjcQTcA7p6JUVsP6oAB3FQWg54tuUo0Ec8bsM8b3Ev42Lmu QT5NdKHGwHsXTPtl0klk4bQk4OajHsiy1BMahpT27jWjJlMiJc+IWJ0mghkKHt92 6s/ymfdf5HkdQ1cyvsz5tryVI3Fx78XeSYfQvuuwqp2H139pXGEkg0n6KdUOetdZ Whe70YGNPw1yjWJT1IhMBBgRAgAMBQI+PqMdBQkJZgGAAAoJEIxxjTtQcuH17p4A n3r1QpVC9yhnW2cSAjq+kr72GX0eAJ4295kl6NxYEuFApmr1+0uUq/SlsQ== =YJkx -----END PGP PUBLIC KEY BLOCK-----
You can import the build key into your personal public GPG
keyring by using gpg --import. For example,
if you save the key in a file named
mysql_pubkey.asc
, the import command
looks like this:
shell> gpg --import mysql_pubkey.asc
See the GPG documentation for more information on how to work with public keys.
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. For example:
Distribution file | mysql-standard-5.1.5-alpha-linux-i686.tar.gz |
Signature file | mysql-standard-5.1.5-alpha-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
Example:
shell> gpg --verify mysql-standard-5.1.5-alpha-linux-i686.tar.gz.asc gpg: Signature made Tue 12 Jul 2005 23:35:41 EST using DSA key ID 5072E1F5 gpg: Good signature from "MySQL Package signing key (www.mysql.com) <build@mysql.com>"
The Good signature
message indicates that
everything is all right. You can ignore any insecure
memory
warning you might obtain.
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-5.1.5-alpha-0.i386.rpm
MySQL-server-5.1.5-alpha-0.i386.rpm: md5 gpg OK
Note: 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,
it maintains its own 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 as described in the previous section.
Then use rpm --import to import the key.
For example, if you have the public key stored in a file named
mysql_pubkey.asc
, import it using this
command:
shell> rpm --import mysql_pubkey.asc
If you need to obtain the MySQL public key, see
Section 2.1.4.2, “Signature Checking Using GnuPG
”.
This section describes the default layout of the directories created by installing binary or source distributions provided by MySQL AB. If you install a distribution provided by another vendor, some other layout might be used.
For MySQL 5.1 on Windows, the default installation
directory is C:\Program Files\MySQL\MySQL Server
5.1
. (Some Windows users prefer to
install to the older default installation directory
C:\mysql
. However, the layout of the
subdirectories remains the same.) The installation directory has
the following subdirectories:
Directory | Contents of Directory |
bin | Client programs and the mysqld server |
data | Log files, databases |
Docs | Documentation |
examples | Example programs and scripts |
include | Include (header) files |
lib | Libraries |
scripts | Utility scripts |
share | Error message files |
Installations created from MySQL AB's Linux RPM distributions result in files under the following system directories:
Directory | Contents of Directory |
/usr/bin | Client programs and scripts |
/usr/sbin | The mysqld server |
/var/lib/mysql | Log files, databases |
/usr/share/doc/packages | Documentation |
/usr/include/mysql | Include (header) files |
/usr/lib/mysql | Libraries |
/usr/share/mysql | Error message and character set files |
/usr/share/sql-bench | Benchmarks |
On Unix, a tar file binary distribution is
installed by unpacking it at the installation location you
choose (typically /usr/local/mysql
) and
creates the following directories in that location:
Directory | Contents of Directory |
bin | Client programs and the mysqld server |
data | Log files, databases |
docs | Documentation, ChangeLog |
include | Include (header) files |
lib | Libraries |
scripts | mysql_install_db |
share/mysql | Error message files |
sql-bench | Benchmarks |
A source distribution is installed after you configure and
compile it. By default, the installation step installs files
under /usr/local
, in the following
subdirectories:
Directory | Contents of Directory |
bin | Client programs and scripts |
include/mysql | Include (header) files |
info | Documentation in Info format |
lib/mysql | Libraries |
libexec | The mysqld server |
share/mysql | Error message files |
sql-bench | Benchmarks and crash-me test |
var | Databases and log files |
Within its installation directory, the layout of a source installation differs from that of a binary installation in the following ways:
The mysqld server is installed in the
libexec
directory rather than in the
bin
directory.
The data directory is var
rather than
data
.
mysql_install_db is installed in the
bin
directory rather than in the
scripts
directory.
The header file and library directories are
include/mysql
and
lib/mysql
rather than
include
and lib
.
You can create your own binary installation from a compiled
source distribution by executing the
scripts/make_binary_distribution
script
from the top directory of the source distribution.
The next several sections cover the installation of MySQL on platforms where we offer packages using the native packaging format of the respective platform. (This is also known as performing a “binary install.”) However, binary distributions of MySQL are available for many other platforms as well. See Section 2.7, “Installing MySQL on Other Unix-Like Systems”, for generic installation instructions for these packages that apply to all platforms.
See Section 2.1, “General Installation Issues”, for more information on what other binary distributions are available and how to obtain them.
A native Windows version of MySQL has been available from MySQL AB since version 3.21 and represents a sizable percentage of the daily downloads of MySQL. This section describes the process for installing MySQL on Windows.
The installer for the Windows version of MySQL, combined with a GUI Configuration Wizard, automatically installs MySQL, creates an option file, starts the server, and secures the default user accounts.
If you are upgrading an existing installation of MySQL prior to version 4.1.5, you must perform the following steps:
Obtain and install the distribution.
Set up an option file if necessary.
Select the server that you want to use.
Start the server.
Assign passwords to the initial MySQL accounts.
This process also must be followed with newer MySQL installations where the installation package does not include an installer.
MySQL 5.1 for Windows is available in three distribution formats:
The binary distribution contains a setup program that installs everything you need so that you can start the server immediately.
The source distribution contains all the code and support files for building the executables using the Visual Studio 2003 compiler system.
Generally speaking, you should use the binary distribution. It is simpler to use than the others, and you need no additional tools to get MySQL up and running.
This section describes how to install MySQL on Windows using a binary distribution. To install using a source distribution, see Section 2.8.6, “Installing MySQL from Source on Windows”.
To run MySQL on Windows, you need the following:
A 32-bit Windows operating system such as 9x, Me, NT, 2000, XP, or Windows Server 2003.
A Windows NT-based operating system (NT, 2000, XP, 2003) permits you to run the MySQL server as a service. The use of a Windows NT-based operating system is strongly recommended. See Section 2.3.12, “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
variable or accessing the
Service Control Manager.
TCP/IP protocol support.
A copy of the MySQL binary distribution for Windows, which can be downloaded from http://dev.mysql.com/downloads/. See Section 2.1.3, “How to Get MySQL”.
Note: If you download the distribution via FTP, we recommend the use of an adequate FTP client with a resume feature to avoid corruption of files during the download process.
A tool that can read .zip
files, to
unpack the distribution file.
Enough space on the hard drive to unpack, install, and create the databases in accordance with your requirements (generally a minimum of 200 megabytes is recommended.)
You may also have the following optional requirements:
If you plan to connect to the MySQL server via ODBC, you also need a Connector/ODBC driver. See Section 26.1, “MySQL Connector/ODBC”.
If you need tables with a size larger than 4GB, install
MySQL on an NTFS or newer filesystem. Don't forget to use
MAX_ROWS
and
AVG_ROW_LENGTH
when you create tables.
See Section 13.1.5, “CREATE TABLE
Syntax”.
For MySQL 5.1, there are three installation packages to choose from when installing MySQL on Windows. The packages are as follows:
The Essentials Package:
This package has a filename similar to
mysql-essential-5.1.5-alpha-win32.msi
and contains the minimum set of files needed to install
MySQL on Windows, including the Configuration Wizard. This
package does not include optional components such as the
embedded server and benchmark suite.
The Complete Package: This
package has a filename similar to
mysql-5.1.5-alpha-win32.zip
and
contains all files needed for a complete Windows
installation, including the Configuration Wizard. This
package includes optional components such as the embedded
server and benchmark suite.
The Noinstall Archive: This
package has a filename similar to
mysql-noinstall-5.1.5-alpha-win32.zip
and contains all the files found in the Complete install
package, with the exception of the Configuration Wizard.
This package does not include an automated installer, and
must be manually installed and configured.
The Essentials package is recommended for most users.
Your choice of install package affects the installation process you must follow. If you choose to install either the Essentials or Complete install packages, see Section 2.3.3, “Installing MySQL with the Automated Installer”. If you choose to install MySQL from the Noinstall archive, see Section 2.3.6, “Installing MySQL from a Noinstall Zip Archive”.
New MySQL users can use the MySQL Installation Wizard and MySQL Configuration Wizard to install MySQL on Windows. These are designed to install and configure MySQL in such a way that new users can immediately get started using MySQL.
The MySQL Installation Wizard and MySQL Configuration Wizard are available in the Essentials and Complete install packages, and are recommended for most standard MySQL installations. Exceptions include users who need to install multiple instances of MySQL on a single server and advanced users who want complete control of server configuration.
MySQL Installation Wizard is an installer for the MySQL server that uses the latest installer technologies for Microsoft Windows. The MySQL Installation Wizard, in combination with the MySQL Configuration Wizard, allows a user to install and configure a MySQL server that is ready for use immediately after installation.
The MySQL Installation Wizard is the standard installer for all MySQL 5.1 server distributions. Users of previous versions of MySQL need to shut down and remove their existing MySQL installations manually before installing MySQL with the MySQL Installation Wizard. See Section 2.3.4.7, “Upgrading MySQL”, for more information on upgrading from a previous version.
Microsoft has included an improved version of their Microsoft Windows Installer (MSI) in the recent versions of Windows. MSI has become the de-facto standard for application installations on Windows 2000, Windows XP, and Windows Server 2003. The MySQL Installation Wizard makes use of this technology to provide a smoother and more flexible installation process.
The Microsoft Windows Installer Engine was updated with the release of Windows XP; those using a previous version of Windows can reference this Microsoft Knowledge Base article for information on upgrading to the latest version of the Windows Installer Engine.
In addition, Microsoft has introduced the WiX (Windows Installer XML) toolkit recently. This is the first highly acknowledged Open Source project from Microsoft. We have switched to WiX because it is an Open Source project and it allows us to handle the complete Windows installation process in a flexible manner using scripts.
Improving the MySQL Installation Wizard depends on the support and feedback of users like you. If you find that the MySQL Installation Wizard is lacking some feature important to you, or if you discover a bug, please use our MySQL Bug System to request features or report problems.
The MySQL server installation packages can be downloaded from http://dev.mysql.com/downloads/. If the package you download is contained within a Zip archive, you need to extract the archive first.
The process for starting the wizard depends on the contents of
the installation package you download. If there is a
setup.exe
file present, double-click it
to start the installation process. If there is a
.msi
file present, double-click it to
start the installation process.
There are three installation types available: Typical, Complete, and Custom.
The Typical installation type installs the MySQL server, the mysql command-line client, and the command-line utilities. The command-line clients and utilities include mysqldump, myisamchk, and several other tools to help you manage the MySQL server.
The Complete installation type installs all components included in the installation package. The full installation package includes components such as the embedded server library, the benchmark suite, support scripts, and documentation.
The Custom installation type gives you complete control over which packages you wish to install and the installation path that is used. See Section 2.3.4.4, “The Custom Install Dialog”, for more information on performing a custom install.
If you choose the Typical or Complete installation types and click the button, you advance to the confirmation screen to verify your choices and begin the installation. If you choose the Custom installation type and click the button, you advance to the custom installation dialog, described in Section 2.3.4.4, “The Custom Install Dialog”.
If you wish to change the installation path or the specific components that are installed by the MySQL Installation Wizard, you should choose the Custom installation type.
All available components are listed in a tree view on the left side of the custom install dialog. Components that are not installed have a red X icon; components that are installed have a gray icon. To change whether a component is installed, click on that component's icon and choose a new option from the drop-down list that appears.
You can change the default installation path by clicking the
button to the right of the displayed installation path.After choosing your installation components and installation path, click the
button to advance to the confirmation dialog.Once you choose an installation type and optionally choose your installation components, you advance to the confirmation dialog. Your installation type and installation path are displayed for you to review.
To install MySQL if you are satisfied with your settings, click the
button. To change your settings, click the button. To exit the MySQL Installation Wizard without installing MySQL, click the button.After installation is complete, you are given the option of registering with the MySQL web site. Registration gives you access to post in the MySQL forums at forums.mysql.com, along with the ability to report bugs at bugs.mysql.com and to subscribe to the newsletter. The final screen of the installer provides a summary of the installation and gives you the option to launch the MySQL Configuration Wizard, which you can use to create a configuration file, install the MySQL service, and configure security.
Once you click the
button, the MySQL Installation Wizard begins the installation process and makes certain changes to your system which are described in the sections that follow.Changes to the Registry
The MySQL Installation Wizard creates one Windows registry key
in a typical install situation, located in
HKEY_LOCAL_MACHINE\SOFTWARE\MySQL AB
.
The MySQL Installation Wizard creates a key named after the
major version of the server that is being installed, such as
MySQL Server 5.1
. It contains
two string values, Location
and
Version
. The Location
string contains the path to the installation directory. In a
default installation it contains C:\Program
Files\MySQL\MySQL Server 5.1\
. The
Version
string contains the release number.
For example, for an installation of MySQL Server
5.1.5-alpha the key contains a value of
5.1.5-alpha
.
These registry keys are used to help external tools identify
the installed location of the MySQL server, preventing a
complete scan of the hard-disk to determine the installation
path of the MySQL server. The registry keys are not required
to run the server and when using the
noinstall
Zip archive the registry keys are
not created.
Changes to the Start Menu
The MySQL Installation Wizard creates a new entry in the Windows
menu under a common MySQL menu heading named after the major version of MySQL that you have installed. For example, if you install MySQL 5.1, the MySQL Installation Wizard creates a section in the menu.The following entries are created within the new
menu section:
mysql command-line
client and is configured to connect as the
root
user. The shortcut prompts for a
root
user password when connecting.
: This is a shortcut to the MySQL Configuration Wizard. Use this shortcut to configure a newly installed server, or to re-configure an existing server.
: This is a link to the MySQL server documentation that is stored locally in the MySQL server installation directory. This option is not available when the MySQL server is installed using the Essentials installation package.
Changes to the File System
The MySQL Installation Wizard by default installs the MySQL
5.1 server to C:\
, where
Program
Files
\MySQL\MySQL Server
5.1
Program Files
is the default
location for applications in your system, and
5.1
is the major
version of your MySQL server. This is the new recommended
location for the MySQL server, replacing the previous default
location c:\mysql
.
By default, all MySQL applications are stored in a common
directory at C:\
, where
Program
Files
\MySQLProgram Files
is the default
location for applications in your Windows installation. A
typical MySQL installation on a developer machine may look
like this:
C:\Program Files\MySQL\MySQL Server 5.1 C:\Program Files\MySQL\MySQL Administrator 1.0 C:\Program Files\MySQL\MySQL Query Browser 1.0
This approach makes it easier to manage and maintain all MySQL applications installed on a particular system.
The MySQL Installation Wizard can perform server upgrades automatically using the upgrade capabilities of MSI. That means you do not need to remove a previous installation manually before installing a new release. The installer automatically shuts down and removes the previous MySQL service before installing the new version.
Automatic upgrades are available only when upgrading between installations that have the same major and minor version numbers. For example, you can upgrade automatically from MySQL 4.1.5 to MySQL 4.1.6, but not from MySQL 5.0 to MySQL 5.1.
The MySQL Configuration Wizard helps automate the process of
configuring your server under Windows. The MySQL Configuration
Wizard creates a custom my.ini
file by
asking you a series of questions and then applying your
responses to a template to generate a
my.ini
file that is tuned to your
installation.
The MySQL Configuration Wizard is included with the MySQL 5.1 server, and is currently available for Windows users only.
The MySQL Configuration Wizard is to a large extent the result of feedback MySQL AB has received from many users over a period of several years. However, if you find that it lacks some feature important to you, or if you discover a bug, please use our MySQL Bug System to request features or report problems.
The MySQL Configuration Wizard is typically launched from the MySQL Installation Wizard, as the MySQL Installation Wizard exits. You can also launch the MySQL Configuration Wizard by clicking the
entry in the section of the Windows menu.
In addition, you can navigate to the bin
directory of your MySQL installation and launch the
MySQLInstanceConfig.exe
file directly.
If the MySQL Configuration Wizard detects an existing
my.ini
file, you have the option of
either re-configuring your existing server, or removing the
server instance by deleting the my.ini
file and stopping and removing the MySQL service.
To reconfigure an existing server, choose the
my.ini
file is renamed to
my
,
where timestamp
.ini.baktimestamp
is the date and
time the existing my.ini
file was
created. To remove the existing server instance, choose the
option and click
the button.
If you choose the my.ini
file. The server installation
and its data
folder are not removed.
If you choose the
option, you advance to the dialog where you can choose the type of installation you wish to configure.When you start the MySQL Configuration Wizard for a new MySQL installation, or choose the
option for an existing installation, you advance to the dialog.There are two configuration types available:
and . The option is intended for new users who want to get started with MySQL quickly without having to make many decisions in regards to server configuration. The option is intended for advanced users who want more fine-grained control over server configuration.If you are new to MySQL and need a server configured as a single-user developer machine the
should suit your needs. Choosing the option causes the MySQL Configuration Wizard to set all configuration options automatically with the exception of and .The
sets options that may be incompatible with systems where there are existing MySQL installations. If you have an existing MySQL installation on your system in addition to the installation you wish to configure, the option is recommended.To complete the Section 2.3.5.11, “The Service Options Dialog”, and Section 2.3.5.12, “The Security Options Dialog”, respectively.
, please refer to the sections on and inThere are three different server types available to choose from, and the server type you choose affects the decisions the MySQL Configuration Wizard makes with regards to memory, disk, and processor usage.
: Choose this option for a typical desktop workstation where MySQL is intended only for personal use. It is assumed that many other desktop applications are running. The MySQL server is configured to use minimal system resources.
: Choose this option for a server machine where the MySQL server is running alongside other server applications such as FTP, email, and web servers. The MySQL server is configured to use a moderate portion of the system resources.
: Choose this option for a server machine that is intended to run only the MySQL server. It is assumed that no other applications are running. The MySQL server is configured to use all available system resources.
The InnoDB
storage engine is available and what
percentage of the server resources are available to
InnoDB
.
InnoDB
and
MyISAM
storage engines and divides
resources evenly between the two. This option is
recommended for users that use both storage engines on a
regular basis.
InnoDB
and
MyISAM
storage engines, but dedicates
most server resources to the InnoDB
storage engine. This option is recommended for users that
use InnoDB
almost exclusively and make
only minimal use of MyISAM
.
InnoDB
storage engine completely and
dedicates all server resources to the
MyISAM
storage engine. This option is
recommended for users who do not use
InnoDB
.
Some users may want to locate the InnoDB
tablespace files in a different location than the MySQL server
data directory. Placing the tablespace files in a separate
location can be desirable if your system has a higher capacity
or higher performance storage device available, such as a RAID
storage system.
To change the default location for the
InnoDB
tablespace files, choose a new drive
from the drop-down list of drive letters and choose a new path
from the drop-down list of paths. To create a custom path,
click the button.
If you are modifying the configuration of an existing server, you must click the
button before you change the path. In this situation you must move the existing tablespace files to the new location manually before starting the server.It is important to set a limit to the number of concurrent connections to the MySQL server that can be established to prevent the server from running out of resources. The
dialog allows you to choose the expected usage of your server, and sets the limit for concurrent connections accordingly. It is also possible to set the concurrent connection limit manually.: Choose this option if your server does not require a large number of concurrent connections. The maximum number of connections is set at 100, with an average of 20 concurrent connections assumed.
: Choose this option if your server requires a large number of concurrent connections. The maximum number of connections is set at 500.
: Choose this option to set the maximum number of concurrent connections to the server manually. Choose the number of concurrent connections from the drop-down box provided, or enter the maximum number of connections into the drop-down box if the number you desire is not listed.
Use the
dialog to enable or disable TCP/IP networking and to configure the port number that is used to connect to the MySQL server.TCP/IP networking is enabled by default. To disable TCP/IP networking, uncheck the box next to the
option.Port 3306 is used by default. To change the port used to access MySQL, choose a new port number from the drop-down box or type a new port number directly into the drop-down box. If the port number you choose is in use you are prompted to confirm your choice of port number.
Set the If you run applications that rely on MySQL's old “forgiving” behavior make sure to either adapt those applications or to disable strict mode. For more information about strict mode, see Section 5.3.2, “The Server SQL Mode”.
to either enable or disable strict mode. Enabling strict mode (default) will make MySQL behave more like other database management systems.The MySQL server supports multiple character sets and it is possible to set a default server character set that is applied to all tables, columns, and databases unless overridden. Use the
dialog to change the default character set of the MySQL server.
Latin1
as the default server character set.
Latin1
is used for English and many
Western European languages.
utf8
as the default server
character set. utf8
can store
characters from many different languages in a single
character set.
: Choose this option if you want to pick the server's default character set manually. Choose the desired character set from the provided drop-down list.
On Windows NT-based platforms, the MySQL server can be installed as a service. When installed as a service, the MySQL server can be started automatically during system startup, and even restarted automatically by Windows in the event of a service failure.
The MySQL Configuration Wizard installs the MySQL server as a
service by default, using the service name
MySQL
. If you do not wish to install the
service, uncheck the box next to the option. You can change the
service name by picking a new service name from the drop-down
box provided or by entering a new service name into the
drop-down box.
To install the MySQL server as a service but not have it started automatically at startup, uncheck the box next to the
option.
It is strongly recommended that you set a
root
password for your MySQL server, and
the MySQL Configuration Wizard requires you set a
root
password by default. If you do not
wish to set a root
password, uncheck the
box next to the option.
To set the root
password, enter the desired
password into both the and
boxes. If you are reconfiguring an existing server, you also
need to enter the existing root
password
into the box.
To prevent root
logins from across the
network, check the box next to the option. This increases
the security of your root
account.
To create an anonymous user account, check the box next to the
option. Creating an anonymous account can decrease server security and cause login and permission difficulties. For this reason, it is not recommended.The final dialog in the MySQL Configuration Wizard is the
. To start the configuration process, click the . To return to a previous dialog, click the button. To exit the MySQL Configuration Wizard without configuring the server, click the button.After you click the
button, the MySQL Configuration Wizard performs a series of tasks whose progress is displayed onscreen as the tasks are performed.
The MySQL Configuration Wizard first determines configuration
file options based on your choices using a template prepared
by MySQL AB developers and engineers. This template is named
my-template.ini
and is located in your
server installation directory.
The MySQL Configuration Wizard then writes these options to a
my.ini
file. The final location of the
my.ini
file is displayed next to the
Write configuration file task.
If you chose to create a service for the MySQL server the MySQL Configuration Wizard creates and starts the service. If you are re-configuring an existing service, the MySQL Configuration Wizard restarts the service to apply your configuration changes.
If you chose to set a root
password, the
MySQL Configuration Wizard connects to the server, sets your
new root
password and applies any other
security settings you may have selected.
After the MySQL Configuration Wizard has completed its tasks, a summary is displayed. Click the
button to exit the MySQL Configuration Wizard.
The MySQL Configuration Wizard places the
my.ini
file in the installation directory
for the MySQL server. This helps associate configuration files
with particular server instances.
To ensure that the MySQL server knows where to look for the
my.ini
file, an argument similar to this
is passed to the MySQL server as part of the service
installation: --defaults-file="
, where
C:\Program
Files\MySQL\MySQL Server
5.1
\my.ini"C:\Program Files\MySQL\MySQL Server
5.1
is replaced with the
installation path to the MySQL Server.
The --defaults-file
instructs the MySQL
server to read the specified file for configuration options.
To modify the my.ini
file, open it with a
text editor and make any necessary changes. You can also
modify the server configuration with the
MySQL
Administrator utility.
MySQL clients and utilities such as the
mysql command-line client and
mysqldump are not able to locate the
my.ini
file located in the server
installation directory. To configure the client and utility
applications, create a new my.ini
file in
the C:\WINDOWS
or
C:\WINNT
directory as is applicable to
your Windows version.
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 is as follows:
Extract the archive to the desired install directory.
Create an option file.
Choose a MySQL server type.
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 2.3.15, “Upgrading MySQL on Windows”, before beginning the upgrade process.
If you are using a Windows NT-based operating system such as Windows NT, Windows 2000, Windows XP, or Windows Server 2003, 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
, and
the MySQL Installation Wizard installs MySQL to
C:\Program Files\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 2.3.8, “Creating an Option File”.
Extract the install archive to the chosen installation location using your preferred zip archive 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 5.1
and
C:\Program Files\MySQL\MySQL Server
5.1\data
).
You need to tune the server settings.
When the MySQL server starts on Windows, it looks for options in
two files: the my.ini
file in the Windows
directory, and the C:\my.cnf
file. The
Windows directory typically is named something like
C:\WINDOWS
or
C:\WINNT
. 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 first in the my.ini
file, and then in the my.cnf
file. However,
to avoid confusion, it's 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.
You can also make use of the example option files included with
your MySQL distribution. Look in your install directory for
files such as my-small.cnf
,
my-medium.cnf
, my-large.cnf, and
my-huge.cnf
, which you can rename and copy
to the appropriate location for use as a base configuration
file.
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
parameters:
[mysqld] # set basedir to your installation path basedir=E:/mysql # set datadir to the location of your data directory datadir=E:/mydata/data
Note that Windows pathnames are specified in option files using (forward) slashes rather than backslashes. If you do use backslashes, you must 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
On Windows, the MySQL installer places the data directory
directly under the directory where you install MySQL. 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 MySQL is
installed in C:\Program Files\MySQL\MySQL Server
5.1
the data directory is by default in
C:\Program Files\MySQL\MySQL Server
5.1\data
. 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 C:\Program Files\MySQL\MySQL
Server 5.1\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 MySQL 5.1 servers for Windows:
Binary | Description |
mysqld-debug | Compiled with full debugging and automatic memory allocation checking,
as well as InnoDB and
BDB tables. |
mysqld | Optimized binary with InnoDB support. |
mysqld-nt | Optimized binary for Windows NT, 2000, and XP with support for named pipes. |
mysqld-max | Optimized binary with support for InnoDB and
BDB tables. |
mysqld-max-nt | Like mysqld-max, but compiled with support for named pipes. |
All of the preceding binaries are optimized for modern Intel processors, but should work on any Intel i386-class or higher processor.
All Windows MySQL 5.1 servers have support for symbolic linking of database directories.
MySQL supports TCP/IP on all Windows platforms. The
mysqld-nt and mysql-max-nt
servers support named pipes on Windows NT, 2000, XP, and 2003.
However, the default is to use TCP/IP regardless of platform.
(Named pipes are slower than TCP/IP in many Windows
configurations.)
Use of named pipes is subject to these conditions:
Named pipes are enabled only if you start the server with
the --enable-named-pipe
option. It is
necessary to use this option explicitly because some users
have experienced problems with shutting down the MySQL
server when named pipes were used.
Named pipe connections are allowed only by the mysqld-nt or mysqld-max-nt servers, and only if the server is run on a version of Windows that supports named pipes (NT, 2000, XP, 2003).
These servers can be run on Windows 98 or Me, but only if TCP/IP is installed; named pipe connections cannot be used.
These servers can not be run on Windows 95.
Note: Most of the examples in reference manual use mysqld as the server name. If you choose to use a different server, such as mysqld-nt, make the appropriate substitutions in the commands that are shown in the examples.
The information in this section 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.
On Windows 95, 98, or Me, MySQL clients always connect to the server using TCP/IP. (This allows any machine on your network to connect to your MySQL server.) Because of this, you must make sure that TCP/IP support is installed on your machine before starting MySQL. You can find TCP/IP on your Windows CD-ROM.
Note that if you are using an old Windows 95 release (for example, OSR2), it is likely that you have an old Winsock package; MySQL requires Winsock 2. You can get the newest Winsock from http://www.microsoft.com/. Windows 98 has the new Winsock 2 library, so it is unnecessary to update the library.
On NT-based systems such as Windows NT, 2000, XP, or 2003, clients have two options. They can use TCP/IP, or they can use a named pipe if the server supports named pipe connections. To get MySQL to work with TCP/IP on Windows NT 4, you must install service pack 3 (or newer).
MySQL for Windows also supports shared-memory connections if
started with the --shared-memory
option.
Clients can connect through shared memory by using the
--protocol=memory
option.
For information about which server binary to run, see Section 2.3.9, “Selecting a MySQL Server type”.
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 examples in these sections assume that MySQL is installed
under the default location of C:\Program
Files\MySQL\MySQL Server 5.1
. Adjust the
pathnames shown in the examples if you have MySQL installed in a
different location.
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.
To start the server, enter this command:
C:\> C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqld --console
For servers that include InnoDB
support, you
should see the following messages as the server starts:
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: '5.1.5-alpha' 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
5.1\data
by default). The error log is
the file with the .err
extension.
Note: 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 2.9, “Post-Installation Setup and Testing”.
The MySQL server can be started manually from the command line. This can be done on any version of Windows.
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 5.1\bin\mysqld
The path used in the preceding example may vary depending on the install location of MySQL on your system.
On non-NT versions of Windows, this starts mysqld in the background. That is, after the server starts, you should see another command prompt. If you start the server this way on Windows NT, 2000, XP, or 2003, the server runs in the foreground and no command prompt appears until the server exits. Because of this, you should open another console window to run client programs while the server is running.
You can stop the MySQL server by executing this command:
C:\> C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqladmin -u root shutdown
This 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. Note that
users in the MySQL grant system are wholly independent from any
login users under 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. The error log is located in the
C:\Program Files\MySQL\MySQL Server
5.1\data
directory. It is the file with
a suffix of .err
. You can also try to start
the server as mysqld --console; in this case,
you may get some useful information on the screen that may help
solve the problem.
The last option is to start mysqld with
--standalone --debug
. In this case,
mysqld writes a log file
C:\mysqld.trace
that should contain the
reason why mysqld doesn't start. See
Section E.1.2, “Creating Trace Files”.
Use mysqld --verbose --help to display all the options that mysqld understands.
On the NT family (Windows NT, 2000, XP, 2003), the recommended way to run MySQL is to install it as a Windows service, whereby 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.
The Services utility (the Windows Service Control Manager) can be found in the Windows Control Panel (under on Windows 2000, XP, and Server 2003). It is advisable to close the Services utility while performing server installation or removal operations from the command line. This prevents a number of errors.
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 5.1\bin\mysqladmin -u root shutdown
Note: If the MySQL
root
user account has a password, you need to
invoke this command as C:\Program Files\MySQL\MySQL
Server 5.1\bin\mysqladmin -u root -p
shutdown and supply the password when prompted.
This invokes the MySQL administrative utility
mysqladmin, which connects to the server and
tells it to shut down. The command connects as the MySQL
root
user, which is the default
administrative account in the MySQL grant system. Note that
users in the MySQL grant system are wholly independent from any
login users under Windows.
Install the server as a service using this command:
C:\> mysqld --install
If you have problems installing mysqld as a service using just the server name, try installing it using its full pathname. For example:
C:\> C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqld --install
You can also add the path to the mysql bin
directory to your Windows system PATH
environment variable:
On the Windows desktop, right-click on 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 to your MySQL
bin
directory (for example,
C:\Program Files\MySQL\MySQL Server
5.1\bin
), Note that 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.
Note that you should not add the MySQL
bin
directory to your Windows
PATH
if you are running multiple MySQL
servers on the same machine.
Warning: You must exercise
great care when editing your system PATH
by
hand; the accidentally deletion or modification of any portion
of the existing PATH
value can leave you with
a malfunctioning or even unusable system.
The service-installation command does not start the server. Instructions for that are given later in this section.
The following additional arguments are available in MySQL 5.1 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
It is possible to use a single option other than
--defaults-file
, but this is 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. This account is
available only for Windows XP or newer. 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 a 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 group that has the
same name as the service, and reads options from the
standard option files.
The server also reads options from the
[mysqld]
group from the standard option
files. This allows you to use the
[mysqld]
group for options that should be
used by all MySQL services, and an option group with the
same name as a service 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 only from the
[mysqld]
group of 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 5.1\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, but only from the
named file.
You can also specify options as Start parameters in the Windows Services utility before you start the MySQL service.
Once a MySQL server 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 the command NET START MySQL. The NET command is 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 5.1\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 by
using the Services
utility, the command
NET STOP MySQL, or the command
mysqladmin shutdown.
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 5.1\bin\mysqld --install-manual
To remove a server that is installed as a service, first stop it
if it is running by executing NET STOP MYSQL.
Then use the --remove
option to remove it:
C:\> C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqld --remove
If mysqld is not running as a service, you can start it from the command line. For instructions, see Section 2.3.11, “Starting MySQL from the Windows Command Line”.
Please see Section 2.3.14, “Troubleshooting a MySQL Installation Under Windows”, if you encounter difficulties during installation.
You can test whether the MySQL server is working by executing any of the following commands:
C:\>C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqlshow
C:\>C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqlshow -u root mysql
C:\>C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqladmin version status proc
C:\>C:\Program Files\MySQL\MySQL Server 5.1\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
option and use
only localhost
and IP numbers in the
Host
column of the MySQL grant tables.
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.
When installing and running MySQL for the first time, you may encounter certain errors that prevent the MySQL server from starting. The purpose of this section is to help 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 is preventing 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 5.1\data
. See
Section 5.11.1, “The Error Log”.
Another source of information regarding possible errors is the console messages displayed when the MySQL service is starting. Use the NET START mysql 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 2.3.12, “Starting MySQL as a Windows Service”.
The following are examples of some of the more common error messages you may encounter when installing MySQL and starting the server for the first time:
System error 1067 has occurred. Fatal error: Can't open privilege tables: Table 'mysql.host' doesn't exist
These messages occur when the MySQL server cannot find the
mysql
privileges database or other
critical files. This error is often encountered when the
MySQL base or data directories are installed in different
locations than the default locations
(C:\mysql
and C:\Program
Files\MySQL\MySQL Server 5.1\data
,
respectively).
One situation when this may occur is when MySQL is upgraded and installed to a new location, but the configuration file is not updated to reflect the new install location. In addition there may be old and new configuration files that 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
5.1
you need to ensure that the
MySQL server is aware of this through the use of a
configuration (my.ini
) file. The
my.ini
file needs to be located in your
Windows directory, typically C:\WINNT
or C:\WINDOWS
. You can determine its
exact location from the value of the
WINDIR
environment variable by issuing
the following command from the command prompt:
C:\> echo %WINDIR%
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
D:\MySQLdata
, you can create the option
file and set up a [mysqld]
section to
specify values for the basedir and datadir parameters:
[mysqld] # set basedir to your installation path basedir=E:/mysql # set datadir to the location of your data directory datadir=D:/MySQLdata
Note that Windows pathnames are specified in option files using (forward) slashes rather than backslashes. If you do use backslashes, you must double them:
[mysqld] # set basedir to your installation path basedir=C:\\Program Files\\MySQL\\MySQL Server 5.1 # set datadir to the location of your data directory datadir=D:\\MySQLdata
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.
Error: Cannot create Windows service for MySql. Error: 0
This error is encountered when you re-install or upgrade MySQL without first stopping and removing the existing MySQL service and install MySQL using the MySQL Configuration Wizard. This happens because when the Configuration Wizard tries to install the service it 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 will allow 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.
This section lists some of the steps you should take when upgrading MySQL on Windows.
You should always back up your current MySQL installation before performing an upgrade. See Section 5.9.1, “Database Backups”.
Download the latest Windows distribution of MySQL from http://dev.mysql.com/downloads/.
Before upgrading MySQL, you must stop the server.
If the server is installed as a service, stop the service with the following command from the command prompt:
C:\> NET STOP MYSQL
If you are not running the MySQL server as a service, use the following command to stop the server:
C:\> C:\Program Files\MySQL\MySQL Server 5.1\bin\mysqladmin -u root shutdown
When upgrading to MySQL 5.1 from a version previous to 4.1.5, or when upgrading from a version of MySQL installed from a Zip archive to a version of MySQL installed with the MySQL Installation Wizard, you must manually remove the previous installation and MySQL service (if the server is installed as a service).
To remove the MySQL service, use the following command:
C:\> C:\mysql\bin\mysqld --remove
If you do not remove the existing service, the MySQL Installation Wizard may fail to properly install the new MySQL service.
If you are using the MySQL Installation Wizard, start the wizard as described in Section 2.3.4, “Using the MySQL Installation Wizard”.
If you are installing MySQL from a Zip archive, extract the
archive. You may either overwrite your existing MySQL
installation (usually located at
C:\mysql
), or install it into a
different directory, such as C:\mysql4
.
Overwriting the existing installation is recommended.
Restart the server. For example, use NET START MySQL if you run MySQL as a service, or invoke mysqld directly otherwise.
Refer to Section 2.10, “Upgrading MySQL”, for additional information on upgrading MySQL that is not specific to Windows.
If you encounter errors, see Section 2.3.14, “Troubleshooting a MySQL Installation Under Windows”.
MySQL for Windows has proven itself to be very stable. The Windows version of MySQL has the same features as the corresponding Unix version, with the following exceptions:
Windows 95 and threads
Windows 95 leaks about 200 bytes of main memory for each thread creation. Each connection in MySQL creates a new thread, so you shouldn't run mysqld for an extended time on Windows 95 if your server handles many connections! Other versions of Windows don't suffer from this bug.
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. Note that 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, see http://support.microsoft.com/default.aspx?scid=kb;en-us;196271.
Concurrent reads
MySQL depends on the pread()
and
pwrite()
system calls to be able to mix
INSERT
and SELECT
.
Currently we use mutexes to emulate
pread()
and pwrite()
.
We intend to replace the file level interface with a virtual
interface in the future so that we can use the
readfile()
/writefile()
interface on NT, 2000, and XP to get more speed. The current
implementation limits the number of open files MySQL
5.1 can use to 2,048, which means that you
cannot run as many concurrent threads on Windows NT, 2000,
XP, and 2003 as on Unix.
Blocking read
MySQL uses a blocking read for each connection, which has the following implications if named pipe connections are enabled:
A connection is not disconnected automatically after eight hours, as happens with the Unix version of MySQL.
If a connection hangs, it is not possible to break it without killing MySQL.
mysqladmin kill does not work on a sleeping connection.
mysqladmin shutdown cannot abort as long as there are sleeping connections.
We plan to fix this problem in the future.
ALTER
TABLE
While you are executing an ALTER TABLE
statement, the table is locked from being used by other
threads. This has to do with the fact that on Windows, you
can't delete a file that is in use by another thread. In the
future, we may find some way to work around this problem.
DROP
TABLE
DROP TABLE
on a table that is in use by a
MERGE
table does not work on Windows
because the MERGE
handler does the table
mapping hidden from the upper layer of MySQL. Because
Windows does not allow dropping files that are open, you
first must flush all MERGE
tables (with
FLUSH TABLES
) or drop the
MERGE
table before dropping the table.
DATA DIRECTORY
and
INDEX DIRECTORY
The DATA DIRECTORY
and INDEX
DIRECTORY
options for CREATE
TABLE
are ignored on Windows, because Windows
doesn't support symbolic links. These options also are
ignored on systems that have a non-functional
realpath()
call.
DROP
DATABASE
You cannot drop a database that is in use by some thread.
Killing MySQL from the Task Manager
You cannot kill MySQL from the Task Manager or with the shutdown utility in Windows 95. You must stop it with mysqladmin shutdown.
Case-insensitive names
Filenames 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 9.2.2, “Identifier Case Sensitivity”.
The ‘\
’
pathname separator character
Pathname components in Windows are separated by the
‘\
’ character, which is also
the escape character in MySQL. If you are using
LOAD DATA INFILE
or SELECT ...
INTO OUTFILE
, use Unix-style filenames 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 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-name | 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 binary-log-file --result-file=/tmp/bin.sql
C:\>mysql --user=root --execute "source /tmp/bin.sql"
The latter command also can be used to reliably read in any SQL file that may contain binary data.
Access denied for
user
error
If you attempt to run a MySQL client program to connect to a
server running on the same machine, but get the error
Access denied for user
'
, this means that MySQL cannot resolve your
hostname properly.
some-user
'@'unknown' to database
'mysql'
To fix this, you should create a file named
\windows\hosts
containing the following
information:
127.0.0.1 localhost
Here are some open issues for anyone who might want to help us improve MySQL on Windows:
Add macros to use the faster thread-safe increment/decrement methods provided by Windows.
The recommended way to install MySQL on Linux is by using the RPM
packages. The MySQL RPMs are currently built on a SuSE Linux 7.3
system, but should work on most versions of Linux that support
rpm and use glibc
. To obtain
RPM packages, see Section 2.1.3, “How to Get MySQL”.
MySQL AB does provide some platform-specific RPMs; the difference between a platform-specific RPM and a generic RPM is that the platform-specific RPMs are built on the targeted platform and are linked dynamically whereas the generic RPM is linked statically with LinuxThreads.
Note: RPM distributions of MySQL often are provided by other vendors. Be aware that they may differ in features and capabilities from those built by MySQL AB, and that the instructions in this manual do not necessarily apply to installing them. The vendor's instructions should be consulted instead.
If you have problems with an RPM file (for example, if you receive
the error “Sorry, the host
'
”), see Section 2.12.1.2, “Linux Binary Distribution Notes”.
xxxx
' could not be looked
up
In most cases, you only need to install the
MySQL-server
and
MySQL-client
packages to get a functional MySQL
installation. The other packages are not required for a standard
installation. If you want to run a MySQL-Max server that has
additional capabilities, you should also install the
MySQL-Max
RPM. However, you should do so only
after installing the
MySQL-server
RPM. See
Section 5.1.2, “The mysqld-max Extended MySQL Server”.
If you get a dependency failure when trying to install MySQL
packages (for example, “error: removing these
packages would break dependencies: libmysqlclient.so.10 is needed
by ...
”), you should also install the package
MySQL-shared-compat
, which includes both the
shared libraries for backward compatibility
(libmysqlclient.so.12
for MySQL 4.0 and
libmysqlclient.so.10
for MySQL 3.23).
Many Linux distributions still ship with MySQL 3.23 and they
usually link applications dynamically to save disk space. If these
shared libraries are in a separate package (for example,
MySQL-shared
), it is sufficient to simply leave
this package installed and just upgrade the MySQL server and
client packages (which are statically linked and do not depend on
the shared libraries). For distributions that include the shared
libraries in the same package as the MySQL server (for example,
Red Hat Linux), you could either install our 3.23
MySQL-shared
RPM, or use the
MySQL-shared-compat
package instead.
The following RPM packages are available:
MySQL-server-
VERSION
.i386.rpm
The MySQL server. You need this unless you only want to
connect to a MySQL server running on another machine. Note:
Server RPM files were called
MySQL-
before MySQL 4.0.10. That is, they did not have
VERSION
.i386.rpm-server
in the name.
MySQL-Max-
VERSION
.i386.rpm
The MySQL-Max server. This server has additional capabilities
that the one provided in the MySQL-server
RPM does not. You must install the
MySQL-server
RPM first, because the
MySQL-Max
RPM depends on it.
MySQL-client-
VERSION
.i386.rpm
The standard MySQL client programs. You probably always want to install this package.
MySQL-bench-
VERSION
.i386.rpm
Tests and benchmarks. Requires Perl and the
DBD::mysql
module.
MySQL-devel-
VERSION
.i386.rpm
The libraries and include files that are needed if you want to compile other MySQL clients, such as the Perl modules.
MySQL-shared-
VERSION
.i386.rpm
This package contains the shared libraries
(libmysqlclient.so*
) that certain languages
and applications need to dynamically load and use MySQL.
MySQL-shared-compat-
VERSION
.i386.rpm
This package includes the shared libraries for both MySQL 3.23
and MySQL 4.0. Install this package instead of
MySQL-shared
if you have applications
installed that are dynamically linked against MySQL 3.23 but
you want to upgrade to MySQL 4.0 without breaking the library
dependencies. This package has been available since MySQL
4.0.13.
MySQL-embedded-
VERSION
.i386.rpm
The embedded MySQL server library (from MySQL 4.0).
MySQL-
VERSION
.src.rpm
This contains the source code for all of the previous packages. It can also be used to rebuild the RPMs on other architectures (for example, Alpha or SPARC).
To see all files in an RPM package (for example, a
MySQL-server
RPM), run:
shell> rpm -qpl MySQL-server-VERSION
.i386.rpm
To perform a standard minimal installation, run:
shell>rpm -i MySQL-server-
shell>VERSION
.i386.rpmrpm -i MySQL-client-
VERSION
.i386.rpm
To install just the client package, run:
shell> rpm -i MySQL-client-VERSION
.i386.rpm
RPM provides a feature to verify the integrity and authenticity of
packages before installing them. If you would like to learn more
about this feature, see
Section 2.1.4, “Verifying Package Integrity Using MD5 Checksums or GnuPG
”.
The server RPM places data under the
/var/lib/mysql
directory. The RPM also
creates a login account for a user named mysql
(if one does not exist) to use for running the MySQL server, and
creates the appropriate entries in
/etc/init.d/
to start the server
automatically at boot time. (This means that if you have performed
a previous installation and have made changes to its startup
script, you may want to make a copy of the script so that you
don't lose it when you install a newer RPM.) See
Section 2.9.2.2, “Starting and Stopping MySQL Automatically”, for more information on how
MySQL can be started automatically on system startup.
If you want to install the MySQL RPM on older Linux distributions
that do not support initialization scripts in
/etc/init.d
(directly or via a symlink), you
should create a symbolic link that points to the location where
your initialization scripts actually are installed. For example,
if that location is /etc/rc.d/init.d
, use
these commands before installing the RPM to create
/etc/init.d
as a symbolic link that points
there:
shell>cd /etc
shell>ln -s rc.d/init.d .
However, all current major Linux distributions should support the
new directory layout that uses /etc/init.d
,
because it is required for LSB (Linux Standard Base) compliance.
If the RPM files that you install include
MySQL-server
, the mysqld
server should be up and running after installation. You should be
able to start using MySQL.
If something goes wrong, you can find more information in the binary installation section. See Section 2.7, “Installing MySQL on Other Unix-Like Systems”.
Note: 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 2.9, “Post-Installation Setup and Testing”.
You can install MySQL on Mac OS X 10.2.x (“Jaguar”) and up using a Mac OS X binary package in PKG format instead of the binary tarball distribution. Please note that older versions of Mac OS X (for example, 10.1.x) are not supported by this package.
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.
To obtain MySQL, see Section 2.1.3, “How to Get MySQL”.
Note: Before proceeding with the installation, be sure to shut down all running MySQL server instances by either using the MySQL Manager Application (on Mac OS X Server) or via mysqladmin shutdown on the command line.
To actually install the MySQL PKG file, double-click on the package icon. This launches the Mac OS X Package Installer, which guides you through the installation of MySQL.
Due to a bug in the Mac OS X package installer, you may see this error message in the destination disk selection dialog:
You cannot install this software on this disk. (null)
If this error occurs, simply click the Go Back
button once to return to the previous screen. Then click
Continue
to advance to the destination disk
selection again, and you should be able to choose the destination
disk correctly. We have reported this bug to Apple and it is
investigating this problem.
The Mac OS X PKG of MySQL installs itself into
/usr/local/mysql-
and also installs a symbolic link,
VERSION
/usr/local/mysql
, pointing to the new
location. If a directory named
/usr/local/mysql
exists, it is renamed to
/usr/local/mysql.bak
first. Additionally, the
installer creates the grant tables in the mysql
database by executing mysql_install_db after
the installation.
The installation layout is similar to that of a
tar file binary distribution; all MySQL
binaries are located in the directory
/usr/local/mysql/bin
. The MySQL socket file
is created as /tmp/mysql.sock
by default. See
Section 2.1.5, “Installation Layouts”.
MySQL installation requires a Mac OS X user account named
mysql
. A user account with this name should
exist by default on Mac OS X 10.2 and up.
If you are running Mac OS X Server, you have a version of MySQL installed. The versions of MySQL that ship with Mac OS X Server versions are shown in the following table:
Mac OS X Server Version | MySQL Version |
10.2-10.2.2 | 3.23.51 |
10.2.3-10.2.6 | 3.23.53 |
10.3 | 4.0.14 |
10.3.2 | 4.0.16 |
10.4.0 | 4.1.10a |
This manual section covers the installation of the official MySQL Mac OS X PKG only. Make sure to read Apple's help information about installing MySQL: Run the “Help View” application, select “Mac OS X Server” help, do a search for “MySQL,” and read the item entitled “Installing MySQL.”
For pre-installed versions of MySQL on Mac OS X Server, note especially that you should start mysqld with safe_mysqld instead of mysqld_safe if MySQL is older than version 4.0.
If you previously used Marc Liyanage's MySQL packages for Mac OS X from http://www.entropy.ch, you can simply follow the update instructions for packages using the binary installation layout as given on his pages.
If you are upgrading from Marc's 3.23.xx versions or from the Mac OS X Server version of MySQL to the official MySQL PKG, you also need to convert the existing MySQL privilege tables to the current format, because some new security privileges have been added. See Section 2.10.2, “Upgrading the Grant Tables”.
If you would like to automatically start up MySQL during system startup, you also need to install the MySQL Startup Item. For MySQL 5.1, it is part of the Mac OS X installation disk images as a separate installation package. Simply double-click the MySQLStartupItem.pkg icon and follow the instructions to install it.
Note that the Startup Item need be installed only once! There is no need to install it each time you upgrade the MySQL package later.
The Startup Item for MySQL 5.1 is installed into
/Library/StartupItems/MySQLCOM
. (Before MySQL
4.1.2, the location was
/Library/StartupItems/MySQL
, but that
collided with the MySQL Startup Item installed by Mac OS X
Server.) Startup Item installation adds a variable
MYSQLCOM=-YES-
to the system configuration file
/etc/hostconfig
. If you would like to disable
the automatic startup of MySQL, simply change this variable to
MYSQLCOM=-NO-
.
On Mac OS X Server, the default MySQL installation uses the
variable MYSQL
in the
/etc/hostconfig
file. The MySQL AB Startup
Item installer disables this variable by setting it to
MYSQL=-NO-
. This avoids boot time conflicts
with the MYSQLCOM
variable used by the MySQL AB
Startup Item. However, it does not shut down a running MySQL
server. You should do that yourself.
After the installation, you can start up MySQL by running the following commands in a terminal window. You must have administrator privileges to perform this task.
If you have installed the Startup Item:
shell> sudo /Library/StartupItems/MySQLCOM/MySQLCOM start
(Enter your password, if necessary)
(Press Control-D or enter "exit" to exit the shell)
If you don't use the Startup Item, enter the following command sequence:
shell>cd /usr/local/mysql
shell>sudo ./bin/mysqld_safe
(Enter your password, if necessary) (Press Control-Z) shell>bg
(Press Control-D or enter "exit" to exit the shell)
You should be able to connect to the MySQL server, for example, by
running /usr/local/mysql/bin/mysql
.
Note: 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 2.9, “Post-Installation Setup and Testing”.
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 tcsh is:
alias mysql /usr/local/mysql/bin/mysql alias mysqladmin /usr/local/mysql/bin/mysqladmin
For bash, 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. For example, add the
following line to your $HOME/.tcshrc
file if
your shell is tcsh:
setenv PATH ${PATH}:/usr/local/mysql/bin
If no .tcshrc
file exists in your home
directory, create it with a text editor.
If you are upgrading an existing installation, please note that installing a new MySQL PKG does not remove the directory of an older installation. Unfortunately, the Mac OS X Installer does not yet offer the functionality required to properly upgrade previously installed packages.
To use your existing databases with the new installation, you'll
need to copy the contents of the old data directory to the new
data directory. Make sure that neither the old server nor the new
one is running when you do this. 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
Porting MySQL to NetWare was an effort spearheaded by Novell. Novell customers should be pleased to note that NetWare 6.5 ships with bundled MySQL binaries, complete with an automatic commercial use license for all servers running that version of NetWare.
MySQL for NetWare is compiled using a combination of Metrowerks CodeWarrior for NetWare and special cross-compilation versions of the GNU autotools.
The latest binary packages for NetWare can be obtained at http://dev.mysql.com/downloads/. See Section 2.1.3, “How to Get MySQL”.
In order to host MySQL, the NetWare server must meet these requirements:
Latest Support Pack of NetWare 6.5 installed.
The system must meet Novell's minimum requirements to run the respective version of NetWare.
MySQL data, as well as the binaries themselves, must be installed on an NSS volume; traditional volumes are not supported.
To install MySQL for NetWare, use the following procedure:
If you are upgrading from a prior installation, stop the MySQL server. This is done from the server console, using the following command:
SERVER: mysqladmin -u root shutdown
Log on to the target server from a client machine with access to the location where you are installing MySQL.
Extract the binary package Zip file onto the server. Be sure
to allow the paths in the Zip file to be used. It is safe to
simply extract the file to SYS:\
.
If you are upgrading from a prior installation, you may need
to copy the data directory (for example,
SYS:MYSQL\DATA
), as well as
my.cnf
, if you have customized it. You
can then delete the old copy of MySQL.
You might want to rename the directory to something more
consistent and easy to use. The examples iin this manual use
SYS:MYSQL
to refer to the installation
directory.
Note that MySQL installation on NetWare does not detect if a
version of MySQL is already installed outside the NetWare
release. Therefore, if you have installed the latest MySQL
version from the Web (for example, MySQL 4.1 or later) in
SYS:\MYSQL
, you must rename the folder
before upgrading the NetWare server; otherwise, files in
SYS:\MySQL
are overwritten by the MySQL
version present in NetWare Support Pack.
At the server console, add a search path for the directory containing the MySQL NLMs. For example:
SERVER: SEARCH ADD SYS:MYSQL\BIN
Initialize the data directory and the grant tables, if needed, by executing mysql_install_db at the server console.
Start the MySQL server using mysqld_safe at the server console.
To finish the installation, you should also add the following
commands to autoexec.ncf
. For example, if
your MySQL installation is in SYS:MYSQL
and you want MySQL to start automatically, you could add these
lines:
#Starts the MySQL 5.1.x database server SEARCH ADD SYS:MYSQL\BIN MYSQLD_SAFE
If you are running MySQL on NetWare 6.0, we strongly suggest
that you use the --skip-external-locking
option on the command line:
#Starts the MySQL 5.1.x database server SEARCH ADD SYS:MYSQL\BIN MYSQLD_SAFE --skip-external-locking
It is also necessary to use CHECK TABLE
and
REPAIR TABLE
instead of
myisamchk, because
myisamchk makes use of external locking.
External locking is known to have problems on NetWare 6.0; the
problem has been eliminated in NetWare 6.5.
mysqld_safe on NetWare provides a screen presence. When you unload (shut down) the mysqld_safe NLM, the screen does not by default go away. Instead, it prompts for user input:
*<NLM has terminated; Press any key to close the screen>*
If you want NetWare to close the screen automatically instead,
use the --autoclose
option to
mysqld_safe. For example:
#Starts the MySQL 5.1.x database server SEARCH ADD SYS:MYSQL\BIN MYSQLD_SAFE --autoclose
When installing MySQL version 5.1 either for the first time or upgrading from a previous version, download and install the latest and appropriate Perl module and PHP extension:
Perl for NetWare: http://forge.novell.com/modules/xfcontent/downloads.php/perl/Modules/
PHP for NetWare: http://forge.novell.com/modules/xfcontent/downloads.php/php/Modules/
(The PHP 5 Extension for MySQL 4.1 should also work with MYSQL 5.1.)
The behavior of mysqld_safe on NetWare is described further in Section 5.1.3, “mysqld_safe — MySQL Server Startup Script”.
If there was an existing installation of MySQL on the server, be
sure to check for existing MySQL startup commands in
autoexec.ncf
, and edit or delete them as
necessary.
Note: 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 2.9, “Post-Installation Setup and Testing”.
This section covers the installation of MySQL binary distributions
that are provided for various platforms in the form of compressed
tar files (files with a
.tar.gz
extension). See
Section 2.1.2.5, “MySQL Binaries Compiled by MySQL AB”, for a detailed list.
To obtain MySQL, see Section 2.1.3, “How to Get MySQL”.
MySQL tar file binary distributions have names
of the form
mysql-
,
where VERSION
-OS
.tar.gz
is a
number (for example, VERSION
5.1.5-alpha
), and
OS
indicates the type of operating
system for which the distribution is intended (for example,
pc-linux-i686
).
In addition to these generic packages, we also offer binaries in platform-specific package formats for selected platforms. See Section 2.2, “Standard MySQL Installation Using a Binary Distribution”, for more information on how to install these.
You need the following tools to install a MySQL tar file binary distribution:
GNU gunzip
to uncompress the distribution.
A reasonable tar to unpack the distribution. GNU tar is known to work. Some operating systems come with a pre-installed version of tar that is known to have problems. For example, Mac OS X tar and Sun tar are known to have problems with long filenames. On Mac OS X, you can use the pre-installed gnutar program. On other systems with a deficient tar, you should install GNU tar first.
If you run into problems and need to file a bug report, please use the instructions in Section 1.8, “How to Report Bugs or Problems”.
The basic commands which you must execute to install and use a MySQL binary distribution are:
shell>groupadd mysql
shell>useradd -g mysql mysql
shell>cd /usr/local
shell>gunzip <
shell>/path/to/mysql-VERSION-OS
.tar.gz | tar xvf -ln -s
shell>full-path-to-mysql-VERSION-OS
mysqlcd mysql
shell>scripts/mysql_install_db --user=mysql
shell>chown -R root .
shell>chown -R mysql data
shell>chgrp -R mysql .
shell>bin/mysqld_safe --user=mysql &
Note: This procedure does not set up any passwords for MySQL accounts. After following the procedure, proceed to Section 2.9, “Post-Installation Setup and Testing”.
A more detailed version of the preceding description for installing a binary distribution follows:
Add a login user and group for mysqld to run as:
shell>groupadd mysql
shell>useradd -g mysql mysql
These commands add the mysql
group and the
mysql
user. The syntax for
useradd and groupadd may
differ slightly on different versions of Unix. They may also
be called adduser and
addgroup.
You might want to call the user and group something else
instead of mysql
. If so, substitute the
appropriate name in the following steps.
Pick the directory under which you want to unpack the
distribution, and change location into it. In the following
example, we unpack 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 need to perform the installation
as root
.)
shell> cd /usr/local
Obtain a distribution file from one of the sites listed in Section 2.1.3, “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. Then create a symbolic link to that directory:
shell>gunzip <
shell>/path/to/mysql-VERSION-OS
.tar.gz | tar xvf -ln -s
full-path-to-mysql-VERSION-OS
mysql
The tar command creates a directory named
mysql-
.
The VERSION
-OS
ln
command makes a symbolic link to
that directory. This lets you refer more easily to the
installation directory as
/usr/local/mysql
.
With GNU tar, no separate invocation of
gunzip
is necessary. You can replace the
first line with the following alternative command to
uncompress and extract the distribution:
shell> tar zxvf /path/to/mysql-VERSION-OS
.tar.gz
Change location into the installation directory:
shell> cd mysql
You can find several files and subdirectories in the
mysql
directory. The most important for
installation purposes are the bin
and
scripts
subdirectories.
bin
This directory contains client programs and the server.
You should add the full pathname of this directory to your
PATH
environment variable so that your
shell finds the MySQL programs properly. See
Appendix F, Environment Variables.
scripts
This directory contains the
mysql_install_db script used to
initialize the mysql
database
containing the grant tables that store the server access
permissions.
If you have not installed MySQL before, you must create the MySQL grant tables:
shell> scripts/mysql_install_db --user=mysql
If you run the command as root
, you should
use the --user
option as shown. The value of
the option should be the name of the login account that you
created in the first step to use for running the server. If
you run the command while logged in as that user, you can omit
the --user
option.
After creating or updating the grant tables, you need to restart the server manually.
Change the ownership of program binaries to
root
and ownership of the data directory to
the user that you run mysqld as. Assuming
that you are located in the installation directory
(/usr/local/mysql
), the commands look
like this:
shell>chown -R root .
shell>chown -R mysql data
shell>chgrp -R mysql .
The first command changes the owner attribute of the files to
the root
user. The second changes the owner
attribute of the data directory to the
mysql
user. The third changes the group
attribute to the mysql
group.
If you would like MySQL to start automatically when you boot
your machine, you can copy
support-files/mysql.server
to the location
where your system has its startup files. More information can
be found in the support-files/mysql.server
script itself and in Section 2.9.2.2, “Starting and Stopping MySQL Automatically”.
You can set up new accounts using the
bin/mysql_setpermission script if you
install the DBI
and
DBD::mysql
Perl modules. For instructions,
see Section 2.13, “Perl Installation Notes”.
If you would like to use mysqlaccess and
have the MySQL distribution in some non-standard location, you
must change the location where mysqlaccess
expects to find the mysql client. Edit the
bin/mysqlaccess
script at approximately
line 18. Search for a line that looks like this:
$MYSQL = '/usr/local/bin/mysql'; # path to mysql executable
Change the path to reflect the location where
mysql actually is stored on your system. If
you do not do this, a Broken pipe
error
will occur when you run mysqlaccess.
After everything has been unpacked and installed, you should test your distribution.
You can start the MySQL server with the following command:
shell> bin/mysqld_safe --user=mysql &
More information about mysqld_safe is given in Section 5.1.3, “mysqld_safe — MySQL Server Startup Script”.
Note: 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 2.9, “Post-Installation Setup and Testing”.
Before you proceed with the source installation, check first to see whether our binary is available for your platform and whether it works for you. We put a lot of effort into making sure that our binaries are built with the best possible options.
To obtain a source distribution for MySQL, Section 2.1.3, “How to Get MySQL”.
MySQL source distributions are provided as compressed
tar archives and have names of the form
mysql-
,
where VERSION
.tar.gzVERSION
is a number like
5.1.5-alpha
.
You need the following tools to build and install MySQL from source:
GNU gunzip
to uncompress the distribution.
A reasonable tar to unpack the distribution. GNU tar is known to work. Some operating systems come with a pre-installed version of tar that is known to have problems. For example, Mac OS X tar and Sun tar are known to have problems with long filenames. On Mac OS X, you can use the pre-installed gnutar program. On other systems with a deficient tar, you should install GNU tar first.
A working ANSI C++ compiler. gcc 2.95.2 or
later, egcs 1.0.2 or later or egcs
2.91.66, SGI C++, and SunPro C++ are some of the
compilers that are known to work. libg++
is
not needed when using gcc.
gcc 2.7.x has a bug that makes it
impossible to compile some perfectly legal C++ files, such as
sql/sql_base.cc
. If you have only
gcc 2.7.x, you must upgrade your
gcc to be able to compile MySQL.
gcc 2.8.1 is also known to have problems on
some platforms, so it should be avoided if a new compiler
exists for the platform.
gcc 2.95.2 or later is recommended when compiling MySQL 3.23.x.
A good make program. GNU make is always recommended and is sometimes required. If you have problems, we recommend trying GNU make 3.75 or newer.
If you are using a version of gcc recent enough
to understand the -fno-exceptions
option, it is
very important that you use this option.
Otherwise, you may compile a binary that crashes randomly. We also
recommend that you use -felide-constructors
and
-fno-rtti
along with
-fno-exceptions
. When in doubt, do the following:
CFLAGS="-O3" CXX=gcc CXXFLAGS="-O3 -felide-constructors \ -fno-exceptions -fno-rtti" ./configure \ --prefix=/usr/local/mysql --enable-assembler \ --with-mysqld-ldflags=-all-static
On most systems, this gives you a fast and stable binary.
If you run into problems and need to file a bug report, please use the instructions in Section 1.8, “How to Report Bugs or Problems”.
The basic commands you must execute to install a MySQL source distribution are:
shell>groupadd mysql
shell>useradd -g mysql mysql
shell>gunzip < mysql-
shell>VERSION
.tar.gz | tar -xvf -cd mysql-
shell>VERSION
./configure --prefix=/usr/local/mysql
shell>make
shell>make install
shell>cp support-files/my-medium.cnf /etc/my.cnf
shell>cd /usr/local/mysql
shell>bin/mysql_install_db --user=mysql
shell>chown -R root .
shell>chown -R mysql var
shell>chgrp -R mysql .
shell>bin/mysqld_safe --user=mysql &
If you start from a source RPM, do the following:
shell> rpmbuild --rebuild --clean MySQL-VERSION
.src.rpm
This makes a binary RPM that you can install. For older versions of RPM, you may have to replace the command rpmbuild with rpm instead.
Note: This procedure does not set up any passwords for MySQL accounts. After following the procedure, proceed to Section 2.9, “Post-Installation Setup and Testing”, for post-installation setup and testing.
A more detailed version of the preceding description for installing MySQL from a source distribution follows:
Add a login user and group for mysqld to run as:
shell>groupadd mysql
shell>useradd -g mysql mysql
These commands add the mysql
group and
the mysql
user. The syntax for
useradd and groupadd
may differ slightly on different versions of Unix. They may
also be called adduser and
addgroup.
You might want to call the user and group something else
instead of mysql
. If so, substitute the
appropriate name in the following steps.
Pick the directory under which you want to unpack the distribution, and change location into it.
Obtain a distribution file from one of the sites listed in Section 2.1.3, “How to Get MySQL”.
Unpack the distribution into the current directory:
shell> gunzip < /path/to/mysql-VERSION
.tar.gz | tar xvf -
This command creates a directory named
mysql-
.
VERSION
With GNU tar, no separate invocation of
gunzip
is necessary. You can use the
following alternative command to uncompress and extract the
distribution:
shell> tar zxvf /path/to/mysql-VERSION-OS
.tar.gz
Change location into the top-level directory of the unpacked distribution:
shell> cd mysql-VERSION
Note that currently you must configure and build MySQL from this top-level directory. You cannot build it in a different directory.
Configure the release and compile everything:
shell>./configure --prefix=/usr/local/mysql
shell>make
When you run configure, you might want to specify some options. Run ./configure --help for a list of options. Section 2.8.2, “Typical configure Options”, discusses some of the more useful options.
If configure fails and you are going to
send mail to a MySQL mailing list to ask for assistance,
please include any lines from
config.log
that you think can help
solve the problem. Also include the last couple of lines of
output from configure. To file a bug
report, please use the instructions at
Section 1.8, “How to Report Bugs or Problems”.
If the compile fails, see Section 2.8.4, “Dealing with Problems Compiling MySQL”, for help.
Install the distribution:
shell> make install
If you want to set up an option file, use one of those
present in the support-files
directory
as a template. For example:
shell> cp support-files/my-medium.cnf /etc/my.cnf
You might need to run these commands as
root
.
If you want to configure support for
InnoDB
tables, you should edit the
/etc/my.cnf
file, remove the
#
character before the option lines that
start with innodb_...
, and modify the
option values to be what you want. See
Section 4.3.2, “Using Option Files”, and
Section 15.2.3, “InnoDB
Configuration”.
Change location into the installation directory:
shell> cd /usr/local/mysql
If you haven't installed MySQL before, you must create the MySQL grant tables:
shell> bin/mysql_install_db --user=mysql
If you run the command as root
, you
should use the --user
option as shown. The
value of the option should be the name of the login account
that you created in the first step to use for running the
server. If you run the command while logged in as that user,
you can omit the --user
option.
Note that you must restart the server manually after using mysql_install_db to create the grant tables for MySQL.
Change the ownership of program binaries to
root
and ownership of the data directory
to the user that you run mysqld as.
Assuming that you are located in the installation directory
(/usr/local/mysql
), the commands look
like this:
shell>chown -R root .
shell>chown -R mysql var
shell>chgrp -R mysql .
The first command changes the owner attribute of the files
to the root
user. The second changes the
owner attribute of the data directory to the
mysql
user. The third changes the group
attribute to the mysql
group.
If you would like MySQL to start automatically when you boot
your machine, you can copy
support-files/mysql.server
to the
location where your system has its startup files. More
information can be found in the
support-files/mysql.server
script
itself; see also Section 2.9.2.2, “Starting and Stopping MySQL Automatically”.
You can set up new accounts using the
bin/mysql_setpermission script if you
install the DBI
and
DBD::mysql
Perl modules. For
instructions, see Section 2.13, “Perl Installation Notes”.
After everything has been installed, you should initialize and test your distribution using this command:
shell> /usr/local/mysql/bin/mysqld_safe --user=mysql &
If that command fails immediately and prints mysqld
ended
, you can find some information in the
file in the data directory.
host_name
.err
More information about mysqld_safe is given in Section 5.1.3, “mysqld_safe — MySQL Server Startup Script”.
Note: 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 2.9, “Post-Installation Setup and Testing”.
The configure script gives you a great deal of control over how you configure a MySQL source distribution. Typically you do this using options on the configure command line. You can also affect configure using certain environment variables. See Appendix F, Environment Variables. For a list of options supported by configure, run this command:
shell> ./configure --help
Some of the more commonly used configure options are described here:
To compile just the MySQL client libraries and client
programs and not the server, use the
--without-server
option:
shell> ./configure --without-server
If you don't have a C++ compiler, mysql
cannot be compiled (it is the one client program that
requires C++). In this case, you can remove the code in
configure that tests for the C++ compiler
and then run ./configure with the
--without-server
option. The compile step
should still try to build mysql, but you
can ignore any warnings about mysql.cc
.
(If make stops, try make
-k to tell it to continue with the rest of the
build even if errors occur.)
If you want to build the embedded MySQL library
(libmysqld.a
) you should use the
--with-embedded-server
option.
If you don't want your log files and database directories
located under /usr/local/var
, use a
configure command something like one of
these:
shell>./configure --prefix=/usr/local/mysql
shell>./configure --prefix=/usr/local \
--localstatedir=/usr/local/mysql/data
The first command changes the installation prefix so that
everything is installed under
/usr/local/mysql
rather than the
default of /usr/local
. The second
command preserves the default installation prefix, but
overrides the default location for database directories
(normally /usr/local/var
) and changes
it to /usr/local/mysql/data
. After you
have compiled MySQL, you can change these options with
option files. See Section 4.3.2, “Using Option Files”.
If you are using Unix and you want the MySQL socket located
somewhere other than the default location (normally in the
directory /tmp
or
/var/run
), use a
configure command like this:
shell>./configure \
--with-unix-socket-path=/usr/local/mysql/tmp/mysql.sock
The socket filename must be an absolute pathname. You can
also change the location of mysql.sock
later by using a MySQL option file. See
Section A.4.5, “How to Protect or Change the MySQL Socket File /tmp/mysql.sock
”.
If you want to compile statically linked programs (for example, to make a binary distribution, to get more speed, or to work around problems with some Red Hat Linux distributions), run configure like this:
shell>./configure --with-client-ldflags=-all-static \
--with-mysqld-ldflags=-all-static
If you are using gcc and don't have
libg++
or libstdc++
installed, you can tell configure to use
gcc as your C++ compiler:
shell> CC=gcc CXX=gcc ./configure
When you use gcc as your C++ compiler, it
does not attempt to link in libg++
or
libstdc++
. This may be a good idea to do
even if you have these libraries installed, because some
versions of them have caused strange problems for MySQL
users in the past.
The following list indicates some compilers and environment variable settings that are commonly used with each one.
gcc 2.7.2:
CC=gcc CXX=gcc CXXFLAGS="-O3 -felide-constructors"
egcs 1.0.3a:
CC=gcc CXX=gcc CXXFLAGS="-O3 -felide-constructors \ -fno-exceptions -fno-rtti"
gcc 2.95.2:
CFLAGS="-O3 -mpentiumpro" CXX=gcc CXXFLAGS="-O3 -mpentiumpro \ -felide-constructors -fno-exceptions -fno-rtti"
pgcc
2.90.29 or newer:
CFLAGS="-O3 -mpentiumpro -mstack-align-double" CXX=gcc \ CXXFLAGS="-O3 -mpentiumpro -mstack-align-double \ -felide-constructors -fno-exceptions -fno-rtti"
In most cases, you can get a reasonably optimized MySQL binary by using the options from the preceding list and adding the following options to the configure line:
--prefix=/usr/local/mysql --enable-assembler \ --with-mysqld-ldflags=-all-static
The full configure line would, in other words, be something like the following for all recent gcc versions:
CFLAGS="-O3 -mpentiumpro" CXX=gcc CXXFLAGS="-O3 -mpentiumpro \ -felide-constructors -fno-exceptions -fno-rtti" ./configure \ --prefix=/usr/local/mysql --enable-assembler \ --with-mysqld-ldflags=-all-static
The binaries we provide on the MySQL Web site at http://www.mysql.com/ are all compiled with full optimization and should be perfect for most users. See Section 2.1.2.5, “MySQL Binaries Compiled by MySQL AB”. There are some configuration settings you can tweak to make an even faster binary, but these are only for advanced users. See Section 7.5.4, “How Compiling and Linking Affects the Speed of MySQL”.
If the build fails and produces errors about your compiler
or linker not being able to create the shared library
libmysqlclient.so.
(where N
N
is a version number),
you can work around this problem by giving the
--disable-shared
option to
configure. In this case,
configure does not build a shared
libmysqlclient.so.
library.
N
By default, MySQL uses the latin1
(cp1252
West European) character set. To change the default set, use
the --with-charset
option:
shell> ./configure --with-charset=CHARSET
CHARSET
may be one of
big5
, cp1251
,
cp1257
, czech
,
danish
, dec8
,
dos
, euc_kr
,
gb2312
, gbk
,
german1
, hebrew
,
hp8
, hungarian
,
koi8_ru
, koi8_ukr
,
latin1
, latin2
,
sjis
, swe7
,
tis620
, ujis
,
usa7
, or win1251ukr
.
See Section 5.10.1, “The Character Set Used for Data and Sorting”.
The default collation may also be specified. MySQL uses the
latin1_swedish_ci
collation by default.
To change this, use the --with-collation
option:
shell> ./configure --with-collation=COLLATION
To change both the character set and the collation, use both
the --with-charset
and
--with-collation
options. The collation
must be a legal collation for the character set. (Use the
SHOW COLLATION
statement to determine
which collations are available for each character set.)
If you want to convert characters between the server and the
client, you should look at the SET CHARACTER
SET
statement. See Section 13.5.3, “SET
Syntax”.
Warning: If you change
character sets after having created any tables, you must run
myisamchk -r -q
--set-character-set=charset
on every table. Your indexes may be
sorted incorrectly otherwise. (This can happen if you
install MySQL, create some tables, and then reconfigure
MySQL to use a different character set and reinstall it.)
With the configure option
--with-extra-charsets=
,
you can define which additional character sets should be
compiled into the server. LIST
LIST
is
one of the following:
a list of character set names separated by spaces
complex
- to include all character
sets that can't be dynamically loaded
all
- to include all character sets
into the binaries
To configure MySQL with debugging code, use the
--with-debug
option:
shell> ./configure --with-debug
This causes a safe memory allocator to be included that can find some errors and that provides output about what is happening. See Section E.1, “Debugging a MySQL Server”.
If your client programs are using threads, you also must
compile a thread-safe version of the MySQL client library
with the --enable-thread-safe-client
configure option. This creates a
libmysqlclient_r
library with which you
should link your threaded applications. See
Section 25.2.15, “How to Make a Threaded Client”.
It is possible to build MySQL with large table support using
the --with-big-tables
option.
This option causes the variables used to keep table row
counts to be stored using unsigned long
long
rather than unsigned long
.
What this does is to allow tables to hold up to
approximately 1.844E+19
((232)2)
rows rather than 232 (~4.295E+09)
rows. Previously it was necessary to pass
-DBIG_TABLES
to the compiler manually in
order to enable this feature.
Options that pertain to particular systems can be found in the system-specific section of this manual. See Section 2.12, “Operating System-Specific Notes”.
Caution: You should read this section only if you are interested in helping us test our new code. If you just want to get MySQL up and running on your system, you should use a standard release distribution (either a binary or source distribution).
To obtain our most recent development source tree, use these instructions:
Download the BitKeeper free client from http://www.bitmover.com/bk-client.shar.
On Unix, install the free client like this:
shell>sh bk-client.shar
shell>cd bk_client-1.1
shell>make all
shell>PATH=$PWD:$PATH
On Windows, install it like this:
Download and install Cygwin from http://cygwin.com.
Make sure gcc and make have been installed under Cygwin. You can test this by issuing which gcc and which make commands. If either one is not installed, run Cygwin's package manager, select gcc, make, or both, and install them.
Under Cygwin, perform these steps:
shell>sh bk-client.shar
shell>cd bk_client-1.1
Then edit the Makefile
and change
the line that reads $(CC) $(CFLAGS) -o sfio -lz
sfio.c
to this:
$(CC) $(CFLAGS) -o sfio sfio.c -lz
Now run the make command and set the path:
shell>make all
shell>PATH=$PWD:$PATH
After the BitKeeper free client has been installed, first go to the directory you want to work from, and then use the following command to make a local copy of the MySQL 5.1 branch:
shell> sfioball -r+ bk://mysql.bkbits.net/mysql-5.1-new mysql-5.1
Normally, you do not have to build the documentation
yourself because we already provide it in a number of
formats at http://dev.mysql.com/doc/. The formats you
can download there (HTML, PDF, etc.) are built on a daily
basis, so you gain little by creating them yourself from the
DocBook XML base format in the mysqldoc
tree. If you would like to copy the documentation
repository, anyway, use the following command:
shell> sfioball -r+ bk://mysql.bkbits.net/mysqldoc mysqldoc
In the preceding example, the source tree is set up in the
mysql-5.1/
subdirectory of
your current directory.
The initial download of the source tree may take a while, depending on the speed of your connection. Please be patient.
To update the local copy of the MySQL 5.1 repository, use this command:
shell> update bk://mysql.bkbits.net/mysql-5.1-new
You need GNU make, autoconf 2.58 (or newer), automake 1.8, libtool 1.5, and m4 to run the next set of commands. Even though many operating systems come with their own implementation of make, chances are high that the compilation fails with strange error messages. Therefore, it is highly recommended that you use GNU make (sometimes named gmake) instead.
Fortunately, a large number of operating systems ship with the GNU toolchain preinstalled or supply installable packages of these. In any case, they can also be downloaded from the following locations:
To configure MySQL 5.1, you also need GNU bison 1.75 or later. Older versions of bison may report this error:
sql_yacc.yy:#####: fatal error: maximum table size (32767) exceeded
Note: The maximum table size is not actually exceeded; the error is caused by bugs in older versions of bison.
The following example shows the typical commands required to
configure a source tree. The first cd
command changes location into the top-level directory of the
tree; replace mysql-5.1
with the appropriate directory name.
shell>cd mysql-5.1
shell>aclocal; autoheader
shell>libtoolize --automake --force
shell>automake --force --add-missing; autoconf
shell>(cd storage/innobase; aclocal; autoheader; autoconf; automake)
shell>(cd storage/bdb/dist; sh s_all)
shell>./configure # Add your favorite options here
shell>make
Or you can use BUILD/autorun.sh as a shortcut for the following sequence of commands:
shell>aclocal; autoheader
shell>libtoolize --automake --force
shell>automake --force --add-missing; autoconf
shell>(cd storage/innobase; aclocal; autoheader; autoconf; automake)
shell>(cd storage/bdb/dist; sh s_all)
The command lines that change directory into the
innobase
and
bdb/dist
directories are used to
configure the InnoDB
and Berkeley DB
(BDB
) storage engines. You can omit these
command lines if you to not require
InnoDB
or BDB
support.
Note: Beginning with MySQL
5.1, code specific to storage engines has been moved under a
storage
directory. For example,
InnoDB
code is now found in
storage/innobase
and
NDBCluster
code is in
storage/ndb
.
If you get some strange errors during this stage, verify that you really have libtool installed.
A collection of our standard configuration scripts is
located in the BUILD/
subdirectory. You
may find it more convenient to use the
BUILD/compile-pentium-debug
script than
the preceding set of shell commands. To compile on a
different architecture, modify the script by removing flags
that are Pentium-specific.
When the build is done, run make install.
Be careful with this on a production machine; the command
may overwrite your live release installation. If you have
another installation of MySQL, we recommend that you run
./configure with different values for the
--prefix
, --with-tcp-port
,
and --unix-socket-path
options than those
used for your production server.
Play hard with your new installation and try to make the new features crash. Start by running make test. See Section 27.1.2, “MySQL Test Suite”.
If you have gotten to the make stage and
the distribution does not compile, please report it in our
bugs database at http://bugs.mysql.com/. If
you have installed the latest versions of the required GNU
tools, and they crash trying to process our configuration
files, please report that also. However, if you execute
aclocal
and get a command not
found
error or a similar problem, do not report
it. Instead, make sure that all the necessary tools are
installed and that your PATH
variable is
set correctly so that your shell can find them.
After the initial copying of the repository
(sfioball
) to obtain the source tree, you
should update the repository (update
)
periodically to get updates.
You can examine the change history for the tree with all the
diffs by viewing the BK/ChangeLog
file
in the source tree and looking at the
ChangeSet
descriptions listed there. To
examine a particular changeset, you would have to use the
sfioball command to extract two
particular revisions of the source tree, and then use an
external diff command to compare them. If
you see some funny diffs or code that you have a question
about, do not hesitate to send email to the MySQL
internals
mailing list. See
Section 1.7.1, “MySQL Mailing Lists”. Also, if you think you have
a better idea on how to do something, send an email message
to the same address with a patch.
The BitKeeper free client is shipped with its source code. The only documentation available for the free client is the source code itself.
You can also browse changesets, comments, and source code online. To browse this information for MySQL 5.1, go to http://mysql.bkbits.net:8080/mysql-5.1.
All MySQL programs compile cleanly for us with no warnings on Solaris or Linux using gcc. On other systems, warnings may occur due to differences in system include files. See Section 2.8.5, “MIT-pthreads Notes”, for warnings that may occur when using MIT-pthreads. For other problems, check the following list.
The solution to many problems involves reconfiguring. If you do need to reconfigure, take note of the following:
If configure is run after it has
previously been run, it may use information that was
gathered during its previous invocation. This information is
stored in config.cache
. When
configure starts up, 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 configure, 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 configuration information or object files from being used, run these commands before re-running configure:
shell>rm config.cache
shell>make clean
Alternatively, you can run make distclean.
The following list describes some of the problems when compiling MySQL that have been found to occur most often:
If you get errors such as the ones shown here when compiling
sql_yacc.cc
, you probably have run out
of memory or swap space:
Internal compiler error: program cc1plus got fatal signal 11 Out of virtual memory Virtual memory exhausted
The problem is that gcc requires a huge
amount of memory to compile sql_yacc.cc
with inline functions. Try running
configure with the
--with-low-memory
option:
shell> ./configure --with-low-memory
This option causes -fno-inline
to be added
to the compile line if you are using gcc
and -O0
if you are using something else.
You should try the --with-low-memory
option
even if you have so much memory and swap space that you
think you can't possibly have run out. This problem has been
observed to occur even on systems with generous hardware
configurations and the --with-low-memory
option usually fixes it.
By default, configure picks
c++ as the compiler name and GNU
c++ links with -lg++
. If
you are using gcc, that behavior can
cause problems during configuration such as this:
configure: error: installation or configuration problem: C++ compiler cannot create executables.
You might also observe problems during compilation related
to g++, libg++
, or
libstdc++
.
One cause of these problems is that you may not have
g++, or you may have
g++ but not libg++
, or
libstdc++
. Take a look at the
config.log
file. It should contain the
exact reason why your C++ compiler didn't work. To work
around these problems, you can use gcc as
your C++ compiler. Try setting the environment variable
CXX
to "gcc -O3"
. For
example:
shell> CXX="gcc -O3" ./configure
This works because gcc compiles C++
sources as well as g++ does, but does not
link in libg++
or
libstdc++
by default.
Another way to fix these problems is to install
g++, libg++
, and
libstdc++
. We would, however, like to
recommend that you not use libg++
or
libstdc++
with MySQL because this only
increases the binary size of mysqld
without giving you any benefits. Some versions of these
libraries have also caused strange problems for MySQL users
in the past.
If your compile fails with errors such as any of the following, you must upgrade your version of make to GNU make:
making all in mit-pthreads 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.
If you want to define flags to be used by your C or C++
compilers, do so by adding the flags to the
CFLAGS
and CXXFLAGS
environment variables. You can also specify the compiler
names this way using CC
and
CXX
. For example:
shell>CC=gcc
shell>CFLAGS=-O3
shell>CXX=gcc
shell>CXXFLAGS=-O3
shell>export CC CFLAGS CXX CXXFLAGS
See Section 2.1.2.5, “MySQL Binaries Compiled by MySQL AB”, for a list of flag definitions that have been found to be useful on various systems.
If you get errors such as those shown here when compiling
mysqld, configure did
not correctly detect the type of the last argument to
accept()
,
getsockname()
, or
getpeername()
:
cxx: Error: mysqld.cc, line 645: In this statement, the referenced type of the pointer value ''length'' is ''unsigned long'', which is not compatible with ''int''. new_sock = accept(sock, (struct sockaddr *)&cAddr, &length);
To fix this, edit the config.h
file
(which is generated by configure). Look
for these lines:
/* Define as the base type of the last arg to accept */ #define SOCKET_SIZE_TYPE XXX
Change XXX
to size_t
or int
, depending on your operating
system. (Note that you have to do this each time you run
configure because
configure regenerates
config.h
.)
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 pre-generated 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 bison (the GNU version of yacc) and use that instead.
On Debian Linux 3.0, you need to install
gawk
instead of the default
mawk
if you want to compile MySQL
5.1 with Berkeley DB support.
If you need to debug mysqld or a MySQL
client, run configure with the
--with-debug
option, and then recompile and
link your clients with the new client library. See
Section E.2, “Debugging a MySQL Client”.
If you get a compilation error on Linux (for example, SuSE Linux 8.1 or Red Hat Linux 7.3) similar to the following one:
libmysql.c:1329: warning: passing arg 5 of `gethostbyname_r' from incompatible pointer type libmysql.c:1329: too few arguments to function `gethostbyname_r' libmysql.c:1329: warning: assignment makes pointer from integer without a cast make[2]: *** [libmysql.lo] Error 1
By default, the configure script attempts to determine the correct number of arguments by using g++ the GNU C++ compiler. This test yields wrong results if g++ is not installed. There are two ways to work around this problem:
Make sure that the GNU C++ g++ is
installed. On some Linux distributions, the required
package is called gpp
; on others, it
is named gcc-c++.
Use gcc as your C++ compiler by
setting the CXX
environment variable
to gcc:
export CXX="gcc"
Please note that you need to run configure again afterward.
This section describes some of the issues involved in using MIT-pthreads.
On Linux, you should not use MIT-pthreads. Use the installed LinuxThreads implementation instead. See Section 2.12.1, “Linux Notes”.
If your system does not provide native thread support, you need to build MySQL using the MIT-pthreads package. This includes older FreeBSD systems, SunOS 4.x, Solaris 2.4 and earlier, and some others. See Section 2.1.1, “Operating Systems Supported by MySQL”.
MIT-pthreads is not part of the MySQL 5.1 source distribution. If you require this package, you need to download it separately from http://www.mysql.com/Downloads/Contrib/pthreads-1_60_beta6-mysql.tar.gz
After downloading, extract this source archive into the top
level of the MySQL source directory. It creates a new
subdirectory named mit-pthreads
.
On most systems, you can force MIT-pthreads to be used by
running configure with the
--with-mit-threads
option:
shell> ./configure --with-mit-threads
Building in a non-source directory is not supported when using MIT-pthreads because we want to minimize our changes to this code.
The checks that determine whether to use MIT-pthreads occur
only during the part of the configuration process that deals
with the server code. If you have configured the
distribution using --without-server
to
build only the client code, clients do not know whether
MIT-pthreads is being used and use Unix socket connections
by default. Because Unix socket files do not work under
MIT-pthreads on some platforms, this means you need to use
-h
or --host
when you run
client programs.
When MySQL is compiled using MIT-pthreads, system locking is
disabled by default for performance reasons. You can tell
the server to use system locking with the
--external-locking
option. This is needed
only if you want to be able to run two MySQL servers against
the same data files, which is not recommended.
Sometimes the pthread bind()
command
fails to bind to a socket without any error message (at
least on Solaris). The result is that all connections to the
server fail. For example:
shell> mysqladmin version
mysqladmin: connect to server at '' failed;
error: 'Can't connect to mysql server on localhost (146)'
The solution to this is to kill the mysqld server and restart it. This has happened to us only when we have forcibly stopped the server and restarted it immediately.
With MIT-pthreads, the sleep()
system
call isn't interruptible with SIGINT
(break). This is only noticeable when you run
mysqladmin --sleep. You must wait for the
sleep()
call to terminate before the
interrupt is served and the process stops.
When linking, you may receive warning messages like these (at least on Solaris); they can be ignored:
ld: warning: symbol `_iob' has differing sizes: (file /my/local/pthreads/lib/libpthread.a(findfp.o) value=0x4; file /usr/lib/libc.so value=0x140); /my/local/pthreads/lib/libpthread.a(findfp.o) definition taken ld: warning: symbol `__iob' has differing sizes: (file /my/local/pthreads/lib/libpthread.a(findfp.o) value=0x4; file /usr/lib/libc.so value=0x140); /my/local/pthreads/lib/libpthread.a(findfp.o) definition taken
Some other warnings also can be ignored:
implicit declaration of function `int strtoll(...)' implicit declaration of function `int strtoul(...)'
We have not been able to make readline
work with MIT-pthreads. (This is not necessary, but may be
of interest to some.)
These instructions describe how to build MySQL binaries from source for version 5.1 on Windows. Instructions are provided for building binaries from a standard source distribution or from the BitKeeper tree that contains the latest development source.
Note: The instructions in this document are strictly for users who want to test MySQL on Windows from the latest source distribution or from the BitKeeper tree. For production use, MySQL AB does not advise using a MySQL server built by yourself from source. Normally, it is best to use precompiled binary distributions of MySQL that are built specifically for optimal performance on Windows by MySQL AB. Instructions for installing a binary distributions are available in Section 2.3, “Installing MySQL on Windows”.
To build MySQL on Windows from source, you need the following compiler and resources available on your Windows system:
Visual Studio 2003 compiler system (VC++ 7.0).
Between 3 and 5 GB disk space.
Windows 2000 or higher.
The exact system requirements can be found here: http://msdn.microsoft.com/vstudio/productinfo/sysreqs/default.aspx
You also need a MySQL source distribution for Windows. There are two ways you can obtain a source distribution for MySQL 5.1:
Obtain a source distribution packaged by MySQL AB. Prepackaged source distributions are available from http://dev.mysql.com/downloads/.
You can package a source distribution yourself from the latest BitKeeper developer source tree. If you plan to do this, you must create the package on a Unix system and then transfer it to your Windows system. (The reason for this is that some of the configuration and build steps require tools that work only on Unix.) The BitKeeper approach thus requires:
A system running Unix, or a Unix-like system such as Linux.
BitKeeper 3.0 installed on that system. See Section 2.8.3, “Installing from the Development Source Tree”, for instructions how to download and install BitKeeper.
If you are using a Windows source distribution, you can go directly to Section 2.8.6.1, “Building MySQL Using VC++”. To build from the BitKeeper tree, proceed to Section 2.8.6.2, “Creating a Windows Source Package from the Latest Development Source”.
If you find something not working as expected, or you have
suggestions about ways to improve the current build process on
Windows, please send a message to the win32
mailing list. See Section 1.7.1, “MySQL Mailing Lists”.
Note: VC++ workspace files for MySQL 4.1 and above are compatible with Microsoft Visual Studio 2003 editions and tested by MySQL AB staff before each release.
Follow this procedure to build MySQL:
Create a work directory (for example,
C:\workdir
).
Unpack the source distribution in the aforementioned
directory using WinZip or another
Windows tool that can read .zip
files.
Start Visual Studio.
From the
, select .
Open the mysql.dsw
workspace you find
in the work directory.
From the
menu, select the menu.Click over the screen selecting
and click .Press F7 to begin the build of the debug server, libraries, and some client applications.
Compile the release version in the same way.
Debug versions of the programs and libraries are placed in
the client_debug
and
lib_debug
directories. Release
versions of the programs and libraries are placed in the
client_release
and
lib_release
directories. Note that if
you want to build both debug and release versions, you can
select the option
from the menu.
Test the server. The server built using the preceding
instructions expects that the MySQL base directory and
data directory are C:\mysql
and
C:\mysql\data
by default. If you want
to test your server using the source tree root directory
and its data directory as the base directory and data
directory, you need to tell the server their pathnames.
You can either do this on the command line with the
--basedir
and --datadir
options, or place appropriate options in an option file
(the my.ini
file in your Windows
directory or C:\my.cnf
). If you have
an existing data directory elsewhere that you want to use,
you can specify its pathname instead.
Start your server from the
client_release
or
client_debug
directory, depending on
which server you want to use. The general server startup
instructions are at
Section 2.3, “Installing MySQL on Windows”. You need to adapt
the instructions appropriately if you want to use a
different base directory or data directory.
When the server is running in standalone fashion or as a
service based on your configuration, try to connect to it
from the mysql interactive command-line
utility that exists in your
client_release
or
client_debug
directory.
When you are satisfied that the programs you have built are working correctly, stop the server. Then install MySQL as follows:
Create the directories where you want to install MySQL.
For example, to install into
C:\mysql
, use these commands:
C:\>mkdir C:\mysql
C:\>mkdir C:\mysql\bin
C:\>mkdir C:\mysql\data
C:\>mkdir C:\mysql\share
C:\>mkdir C:\mysql\scripts
If you want to compile other clients and link them to MySQL, you should also create several additional directories:
C:\>mkdir C:\mysql\include
C:\>mkdir C:\mysql\lib
C:\>mkdir C:\mysql\lib\debug
C:\>mkdir C:\mysql\lib\opt
If you want to benchmark MySQL, create this directory:
C:\> mkdir C:\mysql\sql-bench
Benchmarking requires Perl support. See Section 2.13, “Perl Installation Notes”.
From the workdir
directory, copy into
the C:\mysql
directory the following
directories:
C:\>cd \workdir
C:\workdir>copy client_release\*.exe C:\mysql\bin
C:\workdir>copy client_debug\mysqld.exe C:\mysql\bin\mysqld-debug.exe
C:\workdir>xcopy scripts\*.* C:\mysql\scripts /E
C:\workdir>xcopy share\*.* C:\mysql\share /E
If you want to compile other clients and link them to MySQL, you should also copy several libraries and header files:
C:\workdir>copy lib_debug\mysqlclient.lib C:\mysql\lib\debug
C:\workdir>copy lib_debug\libmysql.* C:\mysql\lib\debug
C:\workdir>copy lib_debug\zlib.* C:\mysql\lib\debug
C:\workdir>copy lib_release\mysqlclient.lib C:\mysql\lib\opt
C:\workdir>copy lib_release\libmysql.* C:\mysql\lib\opt
C:\workdir>copy lib_release\zlib.* C:\mysql\lib\opt
C:\workdir>copy include\*.h C:\mysql\include
C:\workdir>copy libmysql\libmysql.def C:\mysql\include
If you want to benchmark MySQL, you should also do this:
C:\workdir> xcopy sql-bench\*.* C:\mysql\bench /E
Set up and start the server in the same way as for the binary Windows distribution. See Section 2.3, “Installing MySQL on Windows”.
To create a Windows source package from the current BitKeeper source tree, use the following instructions. Please note that this procedure must be performed on a system running a Unix or Unix-like operating system. For example, the procedure is known to work well on Linux.
Copy the BitKeeper source tree for MySQL 5.1. For more information on how to copy the source tree, see the instructions in Section 2.8.3, “Installing from the Development Source Tree”.
Configure and build the distribution so that you have a server binary to work with. One way to do this is to run the following command in the top-level directory of your source tree:
shell> ./BUILD/compile-pentium-max
After making sure that the build process completed successfully, run the following utility script from top-level directory of your source tree:
shell> ./scripts/make_win_src_distribution
This script creates a Windows source package to be used on your Windows system. You can supply different options to the script based on your needs. It accepts the following options:
--help
Display a help message.
--debug
Print information about script operations, do not create package.
--tmp
Specify the temporary location.
--suffix
Suffix name for the package.
--dirname
Directory name to copy files (intermediate).
--silent
Do not print verbose list of files processed.
--tar
Create tar.gz
package instead of
.zip
package.
By default, make_win_src_distribution
creates a Zip-format archive with the name
mysql-
,
where VERSION
-win-src.zipVERSION
represents the
version of your MySQL source tree.
Copy or upload to your Windows machine the Windows source package that you have just created. To compile it, use the instructions in Section 2.8.6.1, “Building MySQL Using VC++”.
In your source files, you should include
my_global.h
before
mysql.h
:
#include <my_global.h> #include <mysql.h>
my_global.h
includes any other files needed
for Windows compatibility (such as
windows.h
) if you compile your program on
Windows.
You can either link your code with the dynamic
libmysql.lib
library, which is just a
wrapper to load in libmysql.dll
on demand,
or link with the static mysqlclient.lib
library.
The MySQL client libraries are compiled as threaded libraries, so you should also compile your code to be multi-threaded.
After installing MySQL, there are some issues you should address. For example, on Unix, you should initialize the data directory and create the MySQL grant tables. On all platforms, an important security concern is that the initial accounts in the grant tables have no passwords. You should assign passwords to prevent unauthorized access to the MySQL server. You can create time zone tables to enable recognition of named time zones. (Currently, these tables can be populated only on Unix. This problem will be addressed soon for Windows.)
The following sections include post-installation procedures that are specific to Windows systems and to Unix systems. Another section, Section 2.9.2.3, “Starting and Troubleshooting the MySQL Server”, applies to all platforms; it describes what to do if you have trouble getting the server to start. Section 2.9.3, “Securing the Initial MySQL Accounts”, also applies to all platforms. You should follow its instructions to make sure that you have properly protected your MySQL accounts by assigning passwords to them.
When you are ready to create additional user accounts, you can find information on the MySQL access control system and account management in Section 5.7, “The MySQL Access Privilege System”, and Section 5.8, “MySQL User Account Management”.
On Windows, the data directory and the grant tables do not have
to be created. MySQL Windows distributions include the grant
tables with a set of preinitialized accounts in the
mysql
database under the data directory. You
do not run the mysql_install_db script that
is used on Unix. However, if you did not install MySQL using the
Windows Installation Wizard, you should assign passwords to the
accounts. See
Section 2.3.4.1, “Introduction to the Installation Wizard”. The
procedure for this is given in
Section 2.9.3, “Securing the Initial MySQL Accounts”.
Before setting up passwords, 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 the server is running (see Section 2.3.10, “Starting the Server for the First Time”), and then issue the following commands to verify that you can retrieve information from the server. The output should be similar to what is shown here:
C:\>C:\mysql\bin\mysqlshow
+-----------+ | Databases | +-----------+ | mysql | | test | +-----------+ C:\>C:\mysql\bin\mysqlshow mysql
Database: mysql +--------------+ | Tables | +--------------+ | columns_priv | | db | | func | | host | | tables_priv | | user | +--------------+ C:\>C:\mysql\bin\mysql -e "SELECT Host,Db,User FROM db" mysql
+------+-------+------+ | host | db | user | +------+-------+------+ | % | test% | | +------+-------+------+
If you are running a version of Windows that supports services and you want the MySQL server to run automatically when Windows starts, see Section 2.3.12, “Starting MySQL as a Windows Service”.
After installing MySQL on Unix, you need to initialize the grant tables, start the server, and make sure that the server works okay. You may also wish to arrange for the server to be started and stopped automatically when your system starts and stops. You should also assign passwords to the accounts in the grant tables.
On Unix, the grant tables are set up by the mysql_install_db program. For some installation methods, this program is run for you automatically:
If you install MySQL on Linux using RPM distributions, the server RPM runs mysql_install_db.
If you install MySQL on Mac OS X using a PKG distribution, the installer runs mysql_install_db.
Otherwise, you'll need to run mysql_install_db yourself.
The following procedure describes how to initialize the grant tables (if that has not previously been done) and then start the server. It also suggests some commands that you can use to test whether the server is accessible and working properly. For information about starting and stopping the server automatically, see Section 2.9.2.2, “Starting and Stopping MySQL Automatically”.
After you complete the procedure and have the server running, you should assign passwords to the accounts created by mysql_install_db. Instructions for doing so are given in Section 2.9.3, “Securing the Initial MySQL Accounts”.
In the examples shown here, the server runs under the user ID of
the mysql
login account. This assumes that
such an account exists. Either create the account if it does not
exist, or substitute the name of a different existing login
account that you plan to use for running the server.
Change location into the top-level directory of your MySQL
installation, represented here by
BASEDIR
:
shell> cd BASEDIR
BASEDIR
is likely to be something
like /usr/local/mysql
or
/usr/local
. The following steps assume
that you are located in this directory.
If necessary, run the mysql_install_db program to set up the initial MySQL grant tables containing the privileges that determine how users are allowed to connect to the server. You'll need to do this if you used a distribution type that doesn't run the program for you.
Typically, mysql_install_db needs to be run only the first time you install MySQL, so you can skip this step if you are upgrading an existing installation, However, mysql_install_db does not overwrite any existing privilege tables, so it should be safe to run in any circumstances.
To initialize the grant tables, use one of the following
commands, depending on whether
mysql_install_db is located in the
bin
or scripts
directory:
shell>bin/mysql_install_db --user=mysql
shell>scripts/mysql_install_db --user=mysql
The mysql_install_db script creates the
data directory, the mysql
database that
holds all database privileges, and the
test
database that you can use to test
MySQL. The script also creates privilege table entries for
root
accounts and anonymous-user
accounts. The accounts have no passwords initially. A
description of their initial privileges is given in
Section 2.9.3, “Securing the Initial MySQL Accounts”. Briefly, these
privileges allow the MySQL root
user to
do anything, and allow anybody to create or use databases
with a name of test
or starting with
test_
.
It is important to make sure that the database directories
and files are 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, the
--user
option should be used as shown if
you run mysql_install_db as
root
. Otherwise, you should execute the
script while logged in as mysql
, in which
case you can omit the --user
option from
the command.
mysql_install_db creates several tables
in the mysql
database, including
user
, db
,
host
, tables_priv
,
columns_priv
, and
func
, as well as others. See
Section 5.7, “The MySQL Access Privilege System”, for a complete listing
and description of these.
If you don't want to have the test
database, you can remove it with mysqladmin -u root
drop test after starting the server.
If you have problems with mysql_install_db, see Section 2.9.2.1, “Problems Running mysql_install_db”.
Start the MySQL server:
shell> bin/mysqld_safe --user=mysql &
It is important that the MySQL server be run using an
unprivileged (non-root
) login account. To
ensure this, the --user
option should be
used as shown if you run mysql_safe
as
system root
. Otherwise, you should
execute the script while logged in to the system as
mysql
, in which case you can omit the
--user
option from the command.
Further instructions for running MySQL as an unprivileged user are given in Section A.3.2, “How to Run MySQL as a Normal User”.
If you neglected to create the grant tables before proceeding to this step, the following message appears in the error log file when you start the server:
mysqld: Can't find file: 'host.frm'
If you have other problems starting the server, see Section 2.9.2.3, “Starting and Troubleshooting the MySQL Server”.
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
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 8.41 Distrib 5.1.5-alpha, for pc-linux-gnu on i686
Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult AB
This software comes with ABSOLUTELY NO WARRANTY. This is free software,
and you are welcome to modify and redistribute it under the GPL license
Server version 5.1.5-alpha-Max
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:
shell> bin/mysqladmin -u root shutdown
Verify that you can restart the server. Do this by using mysqld_safe or by invoking mysqld directly. For example:
shell> bin/mysqld_safe --user=mysql --log &
If mysqld_safe fails, see Section 2.9.2.3, “Starting and Troubleshooting the MySQL Server”.
Run some simple tests to verify that you can retrieve information from the server. The output should be similar to what is shown here:
shell>bin/mysqlshow
+-----------+ | Databases | +-----------+ | mysql | | test | +-----------+ shell>bin/mysqlshow mysql
Database: mysql +---------------------------+ | Tables | +---------------------------+ | columns_priv | | db | | func | | help_category | | help_keyword | | help_relation | | help_topic | | host | | proc | | procs_priv | | tables_priv | | time_zone | | time_zone_leap_second | | time_zone_name | | time_zone_transition | | time_zone_transition_type | | user | +---------------------------+ shell>bin/mysql -e "SELECT Host,Db,User FROM db" mysql
+------+--------+------+ | host | db | user | +------+--------+------+ | % | test | | | % | test_% | | +------+--------+------+
There is a benchmark suite in the
sql-bench
directory (under the MySQL
installation directory) that you can use to compare how
MySQL performs on different platforms. The benchmark suite
is written in Perl. It uses the Perl DBI module to provide a
database-independent interface to the various databases, and
some other additional Perl modules are required to run the
benchmark suite. You must have the following modules
installed:
DBI DBD::mysql Data::Dumper Data::ShowTable
These modules can be obtained from CPAN (http://www.cpan.org/). See also Section 2.13.1, “Installing Perl on Unix”.
The sql-bench/Results
directory
contains the results from many runs against different
databases and platforms. To run all tests, execute these
commands:
shell>cd sql-bench
shell>perl run-all-tests
If you don't have the sql-bench
directory, you probably installed MySQL using RPM files
other than the source RPM. (The source RPM includes the
sql-bench
benchmark directory.) In this
case, you must first install the benchmark suite before you
can use it. There are separate benchmark RPM files named
mysql-bench-
that contain benchmark code and data.
VERSION
-i386.rpm
If you have a source distribution, there are also tests in
its tests
subdirectory that you can
run. For example, to run
auto_increment.tst
, execute this
command from the top-level directory of your source
distribution:
shell> mysql -vvf test < ./tests/auto_increment.tst
The expected result of the test can be found in the
./tests/auto_increment.res
file.
At this point, you should have the server running. However, none of the initial MySQL accounts have a password, so you should assign passwords using the instructions found in Section 2.9.3, “Securing the Initial MySQL Accounts”.
The MySQL 5.1 installation procedure creates time
zone tables in the mysql
database. However,
you must populate the tables manually. Instructions for doing
this are given in Section 5.10.8, “MySQL Server Time Zone Support”.
The purpose of the mysql_install_db script is to generate new MySQL privilege tables. It does not overwrite existing MySQL privilege tables, and it does not affect any other data.
If you want to re-create your privilege tables, first stop the
mysqld server if it's running. Then rename
the mysql
directory under the data
directory to save it, and then run
mysql_install_db. For example:
shell>mv mysql-data-directory/mysql mysql-data-directory/mysql-old
shell>mysql_install_db --user=mysql
This section lists problems you might encounter when you run mysql_install_db:
mysql_install_db fails to install the grant tables
You may find that mysql_install_db fails to install the grant tables and terminates after displaying the following messages:
Starting mysqld daemon with databases from XXXXXX mysqld ended
In this case, you should examine the error log file very
carefully. The log should be located in the directory
XXXXXX
named by the error message,
and should indicate why mysqld didn't
start. If you do not understand what happened, include the
log when you post a bug report. See
Section 1.8, “How to Report Bugs or Problems”.
There is a mysqld process running
This indicates that the server is running, in which case the grant tables have probably been created. If so, there is no need to run mysql_install_db at all because it needs to be run only once (when you install MySQL the first time).
Installing a second mysqld server does not work when one server is running
This can happen when you have an existing MySQL installation, but want to put a new installation in a different location. For example, you might have a production installation, but you want to create a second installation for testing purposes. Generally the problem that occurs when you try to run a second server is that it tries to use a network interface that is in use by the first server. In this case, you should see one of the following error messages:
Can't start server: Bind on TCP/IP port: Address already in use Can't start server: Bind on unix socket...
For instructions on setting up multiple servers, see Section 5.12, “Running Multiple MySQL Servers on the Same Machine”.
You do not have write access to
/tmp
If you do not have write access to create temporary files
or a Unix socket file in the default location (the
/tmp
directory), an error occurs when
you run mysql_install_db or the
mysqld server.
You can specify different temporary directory and Unix socket file locations by executing these commands prior to starting mysql_install_db or mysqld:
shell>TMPDIR=/
shell>some_tmp_dir
/MYSQL_UNIX_PORT=/
shell>some_tmp_dir
/mysql.sockexport TMPDIR MYSQL_UNIX_PORT
should be the full pathname to some directory for which
you have write permission.
some_tmp_dir
After this, you should be able to run mysql_install_db and start the server with these commands:
shell>bin/mysql_install_db --user=mysql
shell>bin/mysqld_safe --user=mysql &
If mysql_install_db is located in the
scripts
directory, modify the first
command to scripts/mysql_install_db
.
See Section A.4.5, “How to Protect or Change the MySQL Socket File /tmp/mysql.sock
”, and
Appendix F, Environment Variables.
There are some alternatives to running the mysql_install_db script as it is provided in the MySQL distribution:
If you want the initial privileges to be different from
the standard defaults, you can modify
mysql_install_db before you run it.
However, it is preferable to use GRANT
and REVOKE
to change the privileges
after the grant tables have been set
up. In other words, you can run
mysql_install_db, and then use
mysql -u root mysql
to connect to the
server as the MySQL root
user so that
you can issue the necessary GRANT
and
REVOKE
statements.
If you want to install MySQL on several machines with the
same privileges, you can put the GRANT
and REVOKE
statements in a file and
execute the file as a script using
mysql
after running
mysql_install_db. For example:
shell>bin/mysql_install_db --user=mysql
shell>bin/mysql -u root < your_script_file
By doing this, you can avoid having to issue the statements manually on each machine.
It is possible to re-create the grant tables completely
after they have previously been created. You might want to
do this if you're just learning how to use
GRANT
and REVOKE
and
have made so many modifications after running
mysql_install_db that you want to wipe
out the tables and start over.
To re-create the grant tables, remove all the
.frm
, .MYI
, and
.MYD
files in the directory
containing the mysql
database. (This is
the directory named mysql
under the
data directory, which is listed as the
datadir
value when you run
mysqld --help.) Then run the
mysql_install_db script again.
You can start mysqld manually using the
--skip-grant-tables
option and add the
privilege information yourself using
mysql:
shell>bin/mysqld_safe --user=mysql --skip-grant-tables &
shell>bin/mysql mysql
From mysql, manually execute the SQL commands contained in mysql_install_db. Make sure that you run mysqladmin flush-privileges or mysqladmin reload afterward to tell the server to reload the grant tables.
Note that by not using mysql_install_db, you not only have to populate the grant tables manually, you also have to create them first.
Generally, you start the mysqld server in one of these ways:
By invoking mysqld directly. This works on any platform.
By running the MySQL server as a Windows service. This can be done on versions of Windows that support services (such as NT, 2000, XP, and 2003). The service can be set to start the server automatically when Windows starts, or as a manual service that you start on request. For instructions, see Section 2.3.12, “Starting MySQL as a Windows Service”.
By invoking mysqld_safe, which tries to determine the proper options for mysqld and then runs it with those options. This script is used on systems based on BSD Unix. See Section 5.1.3, “mysqld_safe — MySQL Server Startup Script”.
By invoking mysql.server. This script
is used primarily at system startup and shutdown on
systems that use System V-style run directories, where it
usually is installed under the name
mysql
. The
mysql.server script starts the server
by invoking mysqld_safe. See
Section 5.1.4, “mysql.server — MySQL Server Startup Script”.
On Mac OS X, you can install a separate MySQL Startup Item package to enable the automatic startup of MySQL on system startup. The Startup Item starts the server by invoking mysql.server. See Section 2.5, “Installing MySQL on Mac OS X”, for details.
The mysql.server and mysqld_safe scripts and the Mac OS X Startup Item can be used to start the server manually, or automatically at system startup time. mysql.server and the Startup Item also can be used to stop the server.
To start or stop the server manually using the
mysql.server script, invoke it with
start
or stop
arguments:
shell>mysql.server start
shell>mysql.server stop
Before mysql.server starts the server, it
changes location to the MySQL installation directory, and then
invokes mysqld_safe. If you want the server
to run as some specific user, add an appropriate
user
option to the
[mysqld]
group of the
/etc/my.cnf
option file, as shown later
in this section. (It is possible that you will need to edit
mysql.server if you've installed a binary
distribution of MySQL in a non-standard location. Modify it to
cd
into the proper directory before it runs
mysqld_safe. If you do this, your modified
version of mysql.server may be overwritten
if you upgrade MySQL in the future, so you should make a copy
of your edited version that you can reinstall.)
mysql.server stop brings down the server by sending a signal to it. You can also stop the server manually by executing mysqladmin shutdown.
To start and stop MySQL automatically on your server, you need
to add start and stop commands to the appropriate places in
your /etc/rc*
files.
If you use the Linux server RPM package
(MySQL-server-
),
the mysql.server script is installed in the
VERSION
.rpm/etc/init.d
directory with the name
mysql
. You need not install it manually.
See Section 2.4, “Installing MySQL on Linux”, for more information on the
Linux RPM packages.
Some vendors provide RPM packages that install a startup script under a different name such as mysqld.
If you install MySQL from a source distribution or using a
binary distribution format that does not install
mysql.server automatically, you can install
it manually. The script can be found in the
support-files
directory under the MySQL
installation directory or in a MySQL source tree.
To install mysql.server manually, copy it
to the /etc/init.d
directory with the
name mysql, and then make it executable. Do
this by changing location into the appropriate directory where
mysql.server is located and executing these
commands:
shell>cp mysql.server /etc/init.d/mysql
shell>chmod +x /etc/init.d/mysql
Older Red Hat systems use the
/etc/rc.d/init.d
directory rather than
/etc/init.d
. Adjust the preceding
commands accordingly. Alternatively, first create
/etc/init.d
as a symbolic link that
points to /etc/rc.d/init.d
:
shell>cd /etc
shell>ln -s rc.d/init.d .
After installing the script, the commands needed to activate
it to run at system startup depend on your operating system.
On Linux, you can use chkconfig
:
shell> chkconfig --add mysql
On some Linux systems, the following command also seems to be necessary to fully enable the mysql script:
shell> chkconfig --level 345 mysql on
On FreeBSD, startup scripts generally should go in
/usr/local/etc/rc.d/
. The
rc(8)
manual page states that scripts in
this directory are executed only if their basename matches the
*.sh
shell filename pattern. Any other
files or directories present within the directory are silently
ignored. In other words, on FreeBSD, you should install the
mysql.server
script as
/usr/local/etc/rc.d/mysql.server.sh
to
enable automatic startup.
As an alternative to the preceding setup, some operating
systems also use /etc/rc.local
or
/etc/init.d/boot.local
to start
additional services on startup. To start up MySQL using this
method, you could append a command like the one following to
the appropriate startup file:
/bin/sh -c 'cd /usr/local/mysql; ./bin/mysqld_safe --user=mysql &'
For other systems, consult your operating system documentation to see how to install startup scripts.
You can add options for mysql.server in a
global /etc/my.cnf
file. A typical
/etc/my.cnf
file might look like this:
[mysqld] datadir=/usr/local/mysql/var socket=/var/tmp/mysql.sock port=3306 user=mysql [mysql.server] basedir=/usr/local/mysql
The mysql.server script understands the
following options: basedir
,
datadir
, and pid-file
.
If specified, they must be placed in an
option file, not on the command line.
mysql.server understands only
start
and stop
as
command-line arguments.
The following table shows which option groups the server and each startup script read from option files:
Script | Option Groups |
mysqld | [mysqld] , [server] ,
[mysqld-major-version] |
mysql.server | [mysqld] , [mysql.server] ,
[server] |
mysqld_safe | [mysqld] , [server] ,
[mysqld_safe] |
[mysqld-major-version]
means that groups
with names like [mysqld-5.0]
and [mysqld-5.1]
are read by
servers having versions 5.0.x,
5.1.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. However, you should
update your option files to use the
[mysql.server]
and
[mysqld_safe]
groups instead when using
MySQL 5.1.
If you have problems starting the server, here are some things you can try:
Specify any special options needed by the storage engines you are using.
Make sure that the server knows where to find the data directory.
Make sure the server can use the data directory. The ownership and permissions of the data directory and its contents must be set such that the server can access and modify them.
Check the error log to see why the server does not start.
Verify that the network interfaces the server wants to use are available.
Some storage engines have options that control their behavior.
You can create a my.cnf
file and set
startup options for the engines you plan to use. If you are
going to use storage engines that support transactional tables
(InnoDB
, BDB
), be sure
that you have them configured the way you want before starting
the server:
If you are using InnoDB
tables, refer
to the InnoDB
-specific startup options.
InnoDB
uses default values for its
configuration options if you specify none. See
Section 15.2.3, “InnoDB
Configuration”.
If you are using BDB
(Berkeley DB)
tables, you should familiarize yourself with the different
BDB
-specific startup options. See
Section 15.5.3, “BDB
Startup Options”.
When the mysqld server starts, it changes location to the data directory. This is where it expects to find databases and where it expects to write log files. On Unix, the server also writes the pid (process ID) file in the data directory.
The data directory location is hardwired in when the server is
compiled. This is where the server looks for the data
directory by default. If the data directory is located
somewhere else on your system, the server does not work
properly. You can find out what the default path settings are
by invoking mysqld with the
--verbose
and --help
options.
If the defaults don't match the MySQL installation layout on your system, you can override them by specifying options on the command line to mysqld or mysqld_safe. You can also list the options in an option file.
To specify the location of the data directory explicitly, use
the --datadir
option. However, normally you
can tell mysqld the location of the base
directory under which MySQL is installed and it looks for the
data directory there. You can do this with the
--basedir
option.
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 into 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 note that
--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.
If you get Errcode 13
(which means
Permission denied
) when starting
mysqld, this means that the access
privileges of the data directory or its contents do not allow
the 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 can raise security issues
and should be avoided.
On Unix, change location into 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 account that you use for running the server, change their ownership to that account:
shell>chown -R mysql /usr/local/mysql/var
shell>chgrp -R mysql /usr/local/mysql/var
If the server fails to start up correctly, check the error log
file to see whether you can find out why. Log files are
located in the data directory (typically C:\Program
Files\MySQL\MySQL Server 5.1\data
on
Windows, /usr/local/mysql/data
for a Unix
binary distribution, and /usr/local/var
for a Unix 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.
On Unix, you can use tail
to display them:
shell>tail
shell>host_name
.errtail
host_name
.log
The error log contains information that indicates why the server couldn't start. For example, you might see something like this in the log:
000729 14:50:10 bdb: Recovery function for LSN 1 27595 failed 000729 14:50:10 bdb: warning: ./test/t1.db: No such file or directory 000729 14:50:10 Can't init databases
This means that you did not start mysqld
with the --bdb-no-recover
option and Berkeley
DB found something wrong with its own log files when it tried
to recover your databases. To be able to continue, you should
move the old Berkeley DB log files from the database directory
to some other place, where you can later examine them. The
BDB
log files are named in sequence
beginning with log.0000000001
, where the
number increases over time.
If you are running mysqld with
BDB
table support and
mysqld dumps core at startup, this could be
due to problems with the BDB
recovery log.
In this case, you can try starting mysqld
with --bdb-no-recover
. If that helps, you
should remove all BDB
log files from the
data directory and try starting mysqld
again without the --bdb-no-recover
option.
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 5.12, “Running Multiple MySQL Servers on the Same Machine”.)
If no other server is running, try to execute the command
telnet your-host-name tcp-ip-port-number
.
(The default MySQL port number is 3306.) Then press Enter a
couple of times. If you don't get an error message like
telnet: Unable to connect to remote host: Connection
refused
, some other program is using the TCP/IP port
that mysqld is trying to use. You'll need
to track down what program this is and disable it, or else
tell mysqld to listen to a different port
with the --port
option. In this case, you'll
also need to specify the port number for client programs when
connecting to the server via 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 allow access to the port.
If the server starts but you can't connect to it, you should
make sure that you have an entry in
/etc/hosts
that looks like this:
127.0.0.1 localhost
This problem occurs only on systems that do not have a working thread library and for which MySQL must be configured to use MIT-pthreads.
If you cannot get mysqld to start, you can
try to make a trace file to find the problem by using the
--debug
option. See
Section E.1.2, “Creating Trace Files”.
See Section 2.3.14, “Troubleshooting a MySQL Installation Under Windows”, for more information on troubleshooting Windows installations.
Part of the MySQL installation process is to set up the
mysql
database containing the grant tables:
Windows distributions contain preinitialized grant tables that are installed automatically.
On Unix, the grant tables are populated by the mysql_install_db program. Some installation methods run this program for you. Others require that you execute it manually. For details, see Section 2.9.2, “Unix Post-Installation Procedures”.
The grant tables define the initial MySQL user accounts and their access privileges. These accounts are set up as follows:
Accounts with the username root
are
created. These are superuser accounts that can do anything.
The initial root
account passwords are
empty, so anyone can connect to the MySQL server as
root
— without a
password — and be granted all privileges.
On Windows, one root
account is
created; this account allows connecting from the local
host only.
On Unix, both root
accounts are for
connections from the local host. Connections must be
made from the local host by specifying a hostname of
localhost
for one account, or the
actual hostname or IP number for the other.
Two anonymous-user accounts are created, each with an empty username. The anonymous accounts have no passwords, so anyone can use them to connect to the MySQL server.
On Windows, one anonymous account is for connections
from the local host. It has all privileges, just like
the root
accounts. The other is for
connections from any host and has all privileges for the
test
database or other databases with
names that start with test
.
On Unix, both anonymous accounts are for connections
from the local host. Connections must be made from the
local host by specifying a hostname of
localhost
for one account, or the
actual hostname or IP number for the other. These
accounts have all privileges for the
test
database or other databases with
names that start with test_
.
As noted, none of the initial accounts have passwords. This means that your MySQL installation is unprotected until you do something about it:
If you want to prevent clients from connecting as anonymous users without a password, you should either assign passwords to the anonymous accounts or else remove them.
You should assign passwords to the MySQL
root
accounts.
The following instructions describe how to set up passwords for
the initial MySQL accounts, first for the anonymous accounts and
then for the root
accounts. Replace
“newpwd
” in the examples
with the actual password that you want to use. The instructions
also cover how to remove the anonymous accounts, should you
prefer not to allow anonymous access at all.
You might want to defer setting the passwords until later, so that you don't need to specify them while you perform additional setup or testing. However, be sure to set them before using your installation for any real production work.
To assign passwords to the anonymous accounts, you can use
either SET PASSWORD
or
UPDATE
. In both cases, be sure to encrypt the
password using the PASSWORD()
function.
To use SET PASSWORD
on Windows, do this:
shell>mysql -u root
mysql>SET PASSWORD FOR ''@'localhost' = PASSWORD('
mysql>newpwd
');SET PASSWORD FOR ''@'%' = PASSWORD('
newpwd
');
To use SET PASSWORD
on Unix, do this:
shell>mysql -u root
mysql>SET PASSWORD FOR ''@'localhost' = PASSWORD('
mysql>newpwd
');SET PASSWORD FOR ''@'
host_name
' = PASSWORD('newpwd
');
In the second SET PASSWORD
statement, replace
host_name
with the name of the server
host. This is the name that is specified in the
Host
column of the
non-localhost
record for
root
in the user
table. If
you don't know what hostname this is, issue the following
statement before using SET PASSWORD
:
mysql> SELECT Host, User FROM mysql.user;
Look for the record that has root
in the
User
column and something other than
localhost
in the Host
column. Then use that Host
value in the
second SET PASSWORD
statement.
The other way to assign passwords to the anonymous accounts is
by using UPDATE
to modify the
user
table directly. Connect to the server as
root
and issue an UPDATE
statement that assigns a value to the
Password
column of the appropriate
user
table records. The procedure is the same
for Windows and Unix. The following UPDATE
statement assigns a password to both anonymous accounts at once:
shell>mysql -u root
mysql>UPDATE mysql.user SET Password = PASSWORD('
->newpwd
')WHERE User = '';
mysql>FLUSH PRIVILEGES;
After you update the passwords in the user
table directly using UPDATE
, you must tell
the server to re-read the grant tables with FLUSH
PRIVILEGES
. Otherwise, the change goes unnoticed until
you restart the server.
If you prefer to remove the anonymous accounts instead, do so as follows:
shell>mysql -u root
mysql>DELETE FROM mysql.user WHERE User = '';
mysql>FLUSH PRIVILEGES;
The DELETE
statement applies both to Windows
and to Unix. On Windows, if you want to remove only the
anonymous account that has the same privileges as
root
, do this instead:
shell>mysql -u root
mysql>DELETE FROM mysql.user WHERE Host='localhost' AND User='';
mysql>FLUSH PRIVILEGES;
This account allows anonymous access but has full privileges, so removing it improves security.
You can assign passwords to the root
accounts
in several ways. The following discussion demonstrates three
methods:
Use the SET PASSWORD
statement
Use the mysqladmin command-line client program
Use the UPDATE
statement
To assign passwords using SET PASSWORD
,
connect to the server as root
and issue two
SET PASSWORD
statements. Be sure to encrypt
the password using the PASSWORD()
function.
For Windows, do this:
shell>mysql -u root
mysql>SET PASSWORD FOR 'root'@'localhost' = PASSWORD('
mysql>newpwd
');SET PASSWORD FOR 'root'@'%' = PASSWORD('
newpwd
');
For Unix, do this:
shell>mysql -u root
mysql>SET PASSWORD FOR 'root'@'localhost' = PASSWORD('
mysql>newpwd
');SET PASSWORD FOR 'root'@'
host_name
' = PASSWORD('newpwd
');
In the second SET PASSWORD
statement, replace
host_name
with the name of the server
host. This is the same hostname that you used when you assigned
the anonymous account passwords.
To assign passwords to the root
accounts
using mysqladmin, execute the following
commands:
shell> mysqladmin -u root password "newpwd
" shell> mysqladmin -u root -hhost_name
password "newpwd
"
These commands apply both to Windows and to Unix. In the second
command, replace host_name
with the
name of the server host. The double quotes around the password
are not always necessary, but you should use them if the
password contains spaces or other characters that are special to
your command interpreter.
You can also use UPDATE
to modify the
user
table directly. The following
UPDATE
statement assigns a password to both
root
accounts at once:
shell>mysql -u root
mysql>UPDATE mysql.user SET Password = PASSWORD('
->newpwd
')WHERE User = 'root';
mysql>FLUSH PRIVILEGES;
The UPDATE
statement applies both to Windows
and to Unix.
After the passwords have been set, you must supply the appropriate password whenever you connect to the server. For example, if you want to use mysqladmin to shut down the server, you can do so using this command:
shell>mysqladmin -u root -p shutdown
Enter password:(enter root password here)
Note: If you forget your
root
password after setting it up, the
procedure for resetting it is covered in
Section A.4.1, “How to Reset the Root Password”.
To set up new accounts, you can use the GRANT
statement. For instructions, see Section 5.8.2, “Adding New User Accounts to MySQL”.
As a general rule, we recommend that when upgrading from one release series to another, you should go to the next series rather than skipping a series. For example, if you currently are running MySQL 3.23 and wish to upgrade to a newer series, upgrade to MySQL 4.0 rather than to 5.0 or 5.1.
The following items form a checklist of things you should do whenever you perform an upgrade:
Before upgrading from MySQL 5.0 to 5.1, read Section 2.10.1, “Upgrading from MySQL 5.0”, as well as Appendix D, MySQL Change History. These provide information about features that are new or different in MySQL 5.1 as opposed to those found in MySQL 5.0. If you wish to upgrade from a release series previous to MySQL 5.0, you should upgrade to each next release series in turn until you have reached MySQL 5.0, and then proceed with the upgrade to MySQL 5.1. For information on upgrading from MySQL 5.0, see the MySQL 5.0 Reference Manual; for ealrier releases, see the MySQL 4.1 Reference Manual.
Before you perform an upgrade, back up your databases.
If you are running MySQL Server on Windows, see Section 2.3.15, “Upgrading MySQL on Windows”.
An upgrade to MySQL 5.1 from 5.0
involves changes to the grant tables that are stored in the
mysql
database; columns and tables were
added to support new features. To take advantage of these
features, be sure that your grant tables are up to date. The
procedure for upgrading the grant tables is described in
Section 2.10.2, “Upgrading the Grant Tables”. You may want to use
mysqldump to dump your tables before
upgrading; after upgrading, you can reload the dump file using
mysql or mysqlimport
to
re-create and repopulate your tables.
If you are using replication, see Section 6.7, “Upgrading a Replication Setup”, for information on upgrading your replication setup.
If you install a MySQL-Max distribution that includes a server named mysqld-max, and then upgrade later to a non-Max version of MySQL, mysqld_safe still attempts to run the old mysqld-max server. If you perform such an upgrade, you should remove the old mysqld-max server manually to ensure that mysqld_safe runs the new mysqld server.
You can always move the MySQL format files and data files between
different versions on the same architecture as long as you stay
within versions for the same release series of MySQL. The current
production release series is 5.1. If you change the
character set when running MySQL, you must run myisamchk
-r -q
--set-character-set=charset
on all MyISAM
tables. Otherwise, your indexes
may not be ordered correctly, because changing the character set
may also change the sort order.
If you are cautious about using new versions, you can always rename your old mysqld before installing a newer one. For example, if you are using MySQL 5.0.13 and want to upgrade to 5.1.10, rename your current server from mysqld to mysqld-5.0.13. If your new mysqld then does something unexpected, you can simply shut it down and restart with your old mysqld.
If, after an upgrade, you experience problems with recompiled
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, you
should 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.
If problems occur, such as that the new mysqld
server does not start or that you cannot connect without a
password, 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 displays anything other than the program name, you have an
active my.cnf
file that affects server or
client operation.
It is a good idea to rebuild and reinstall the Perl
DBD::mysql
module whenever you install a new
release of MySQL. The same applies to other MySQL interfaces as
well, such as the PHP mysql
extension and the
Python MySQLdb
module.
When upgrading a 5.0 installation to
5.0.10 or above note that it is
necessary to run
mysql_fix_privilege_tables (or the
mysql_fix_privilege_tables.sql
script on
Windows). Otherwise, creating stored procedures might not work.
The procedure for doing this is described in
Section 2.10.2, “Upgrading the Grant Tables”.
Note: It is good practice to back up your data before installing any new version of software. Although MySQL worked very hard to ensure a high level of quality, you should protect your data by making a backup. MySQL generally recommends that you dump and reload your tables from any previous version to upgrade to 5.1.
In general, you should do the following when upgrading to MySQL 5.1 from 5.0:
Check the items in the change list found later in this section to see whether any of them might affect your applications. Note particularly any that are marked Incompatible change; these result in incompatibilities with earlier versions of MySQL, and may require your attention before you upgrade.
Read the MySQL 5.1 change history to see what significant new features you can use in 5.1. See Section D.1, “Changes in release 5.1.x (Development)”.
If you are running MySQL Server on Windows, see Section 2.3.15, “Upgrading MySQL on Windows”.
If you are using replication, see Section 6.7, “Upgrading a Replication Setup”, for information on upgrading your replication setup.
The following list describes changes that may affect applications and that you should watch out for when upgrading to version 5.1.
Server Changes:
Incompatible change: MySQL
5.1 implements support for a plugin API that
allows the loading and unloading of components at runtime,
without restarting the server. Section 27.2, “The MySQL Plugin Interface”.
The plugin API requires the mysql.plugin
table. When upgrading from an older version of MySQL, you
should run the mysql_fix_privilege_tables
command to create this table. See
Section 2.10.2, “Upgrading the Grant Tables”.
Plugins are installed in the directory named by the
plugin_dir
system variable. This variable
also controls the location from which the server loads
user-defined functions (UDFs), which is a change from
earlier versions of MySQL. That is, all UDF library files
now must be installed in the plugin directory. When
upgrading from an older version of MySQL, you must migrate
your UDF files to the plugin directory.
The table_cache
system variable was
renamed to table_open_cache
. Any scripts
that refer to table_cache
should be
updated to use the new name.
SQL Changes:
Some keywords are reserved in MySQL 5.1 that were not reserved in MySQL 5.0. See Section 9.6, “Treatment of Reserved Words in MySQL”.
The INSTALL PLUGIN
and UNINSTALL
PLUGIN
statements that are used for the plugin API
are new. So is the WITH PARSER
clause for
FULLTEXT
index creation that associates a
parser plugin with a full-text index.
Section 27.2, “The MySQL Plugin Interface”.
Some releases introduce changes to the structure of the grant
tables (the tables in the mysql
database) to
add new privileges or to support new features. To make sure that
your grant tables are current when you update to a new version
of MySQL, you should run the
mysql_fix_privilege_tables script to update
your grant tables as well. The procedure for doing this is
described at Section 5.4, “mysql_fix_privilege_tables — Upgrade MySQL System Tables”.
If you are upgrading from MySQL 4.1 or earlier, the grant table
upgrade procedure adds view-related columns for the
CREATE VIEW
and SHOW VIEW
privileges. These privileges exist at the global and database
levels. In such cases, the MySQL 5.1 version of
mysql_fix_privilege_tables copies the
Create_priv
value in the
user
table to the
Create_view_priv
and
Show_view_priv
columns.
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 15.1, “The MyISAM
Storage Engine”.
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. If you are moving the data to a newer version of MySQL, you should use mysqldump --opt to take advantage of any optimizations that result in a dump file that is smaller and can be processed more quickly.
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:
shell>mysqladmin -h '
shell>other_hostname
' createdb_name
mysqldump --opt
db_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:
shell>mysqladmin create
shell>db_name
mysqldump -h '
other_hostname
' --opt --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:
shell> mysqldump --quick db_name
| gzip > db_name
.gz
Transfer the file containing the database contents to the target machine and run these commands there:
shell>mysqladmin create
shell>db_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 pathname
of the directory you use to store the output from
mysqldump.
First, create the directory for the output files and dump the database:
shell>mkdir
shell>DUMPDIR
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:
shell>mysqladmin create
shell>db_name
# create databasecat
shell>DUMPDIR
/*.sql | mysqldb_name
# create tables in databasemysqlimport
db_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.
This section describes what you should do to downgrade to an older MySQL version in the unlikely case that the previous version worked better than the new one.
If you are downgrading within the same release series (for example, from 5.0.13 to 5.0.12) the general rule is that you just have to install the new binaries on top of the old ones. There is no need to do anything with the databases. As always, however, it is always a good idea to make a backup.
The following items form a checklist of things you should do whenever you perform a downgrade:
Read the upgrading section for the release series from which you are downgrading to be sure that it does not have any features you really need. Section 2.10, “Upgrading MySQL”.
If there is a downgrading section for that version, you should read that as well.
In most cases, you can move the MySQL format files and data files between different versions on the same architecture as long as you stay within versions for the same release series of MySQL.
If you downgrade from one release series to another, there may be
incompatibilities in table storage formats. In this case, you can
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 2.10.3, “Copying MySQL Databases to Another Machine”.
The normal symptom of a downward-incompatible table format change when you downgrade is that you can't 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.
This section discusses issues that have been found to occur on Linux. The first few subsections describe general operating system-related issues, problems that can occur when using binary or source distributions, and post-installation issues. The remaining subsections discuss problems that occur with Linux on specific platforms.
Note that most of these problems occur on older versions of Linux. If you are running a recent version, you may see none of them.
MySQL needs at least Linux version 2.0.
Warning: We have seen some strange problems with Linux 2.2.14 and MySQL on SMP systems. We also have reports from some MySQL users that they have encountered serious stability problems using MySQL with kernel 2.2.14. If you are using this kernel, you should upgrade to 2.2.19 (or newer) or to a 2.4 kernel. If you have a multiple-CPU box, you should seriously consider using 2.4 because it gives you a significant speed boost. Your system should be more stable.
When using LinuxThreads, you should see a minimum of three mysqld processes running. These are in fact threads. There is one thread for the LinuxThreads manager, one thread to handle connections, and one thread to handle alarms and signals.
The Linux-Intel binary and RPM releases of MySQL are configured for the highest possible speed. We are always trying to use the fastest stable compiler available.
The binary release is linked with -static
,
which means you do not normally need to worry about which
version of the system libraries you have. You need not install
LinuxThreads, either. A program linked with
-static
is slightly larger than a dynamically
linked program, but also slightly faster (3-5%). However, one
problem with a statically linked program is that you can't use
user-defined functions (UDFs). If you are going to write or
use UDFs (this is something for C or C++ programmers only),
you must compile MySQL yourself using dynamic linking.
A known issue with binary distributions is that on older Linux
systems that use libc
(such as Red Hat 4.x
or Slackware), you get some (non-fatal) issues with hostname
resolution. If your system uses libc
rather
than glibc2
, you probably will encounter
some difficulties with hostname resolution and
getpwnam()
. This happens because
glibc
(unfortunately) depends on some
external libraries to implement hostname resolution and
getpwent()
, even when compiled with
-static
. These problems manifest themselves
in two ways:
You may see the following error message when you run mysql_install_db:
Sorry, the host 'xxxx
' could not be looked up
You can deal with this by executing
mysql_install_db --force, which does
not execute the resolveip test in
mysql_install_db. The downside is that
you cannot use hostnames in the grant tables: except for
localhost
, you must use IP numbers
instead. If you are using an old version of MySQL that
does not support --force
, you must
manually remove the resolveip
test in
mysql_install
using a text editor.
You also may see the following error when you try to run
mysqld with the --user
option:
getpwnam: No such file or directory
To work around this, start mysqld by
using the su
command rather than by
specifying the --user
option. This causes
the system itself to change the user ID of the
mysqld process so that
mysqld need not do so.
Another solution, which solves both problems, is not to use a
binary distribution. Obtain a MySQL source distribution (in
RPM or tar.gz
format) and install that
instead.
On some Linux 2.2 versions, you may get the error
Resource temporarily unavailable
when
clients make a great many new connections to a
mysqld server over TCP/IP. The problem is
that Linux has a delay between the time that you close a
TCP/IP socket and the time that the system actually frees it.
There is room for only a finite number of TCP/IP slots, so you
encounter the resource-unavailable error if clients attempt
too many new TCP/IP connections over a short period of time.
For example, you may see the error when you run the MySQL
test-connect
benchmark over TCP/IP.
We have inquired about this problem a few times on different Linux mailing lists but have never been able to find a suitable resolution. The only known “fix” is for clients to use persistent connections, or, if you are running the database server and clients on the same machine, to use Unix socket file connections rather than TCP/IP connections.
The following notes regarding glibc
apply
only to the situation when you build MySQL yourself. If you
are running Linux on an x86 machine, in most cases it is much
better for you to use our binary. We link our binaries against
the best patched version of glibc
we can
find and with the best compiler options, in an attempt to make
it suitable for a high-load server. For a typical user, even
for setups with a lot of concurrent connections or tables
exceeding the 2GB limit, our binary is the best choice in most
cases. After reading the following text, if you are in doubt
about what to do, try our binary first to see whether it meets
your needs. If you discover that it is not good enough, you
may want to try your own build. In that case, we would
appreciate a note about it so that we can build a better
binary next time.
MySQL uses LinuxThreads on Linux. If you are using an old
Linux version that doesn't have glibc2
, you
must install LinuxThreads before trying to compile MySQL. You
can obtain LinuxThreads from
http://dev.mysql.com/downloads/os-linux.html.
Note that glibc
versions before and
including version 2.1.1 have a fatal bug in
pthread_mutex_timedwait()
handling, which
is used when INSERT DELAYED
statements are
issued. We recommend that you not use INSERT
DELAYED
before upgrading glibc
.
Note that Linux kernel and the LinuxThread library can by default handle a maximum of 1,024 threads. If you plan to have more than 1,000 concurrent connections, you need to make some changes to LinuxThreads, as follows:
Increase PTHREAD_THREADS_MAX
in
sysdeps/unix/sysv/linux/bits/local_lim.h
to 4096 and decrease STACK_SIZE
in
linuxthreads/internals.h
to 256KB.
The paths are relative to the root of
glibc
. (Note that MySQL is not stable
with 600-1000 connections if STACK_SIZE
is the default of 2MB.)
Recompile LinuxThreads to produce a new
libpthread.a
library, and relink
MySQL against it.
Additional information about circumventing thread limits in LinuxThreads can be found at http://www.volano.com/linuxnotes.html.
There is another issue that greatly hurts MySQL performance,
especially on SMP systems. The mutex implementation in
LinuxThreads in glibc
2.1 is very poor for
programs with many threads that hold the mutex only for a
short time. This produces a paradoxical result: If you link
MySQL against an unmodified LinuxThreads, removing processors
from an SMP actually improves MySQL performance in many cases.
We have made a patch available for glibc
2.1.3 to correct this behavior
(http://www.mysql.com/Downloads/Linux/linuxthreads-2.1-patch).
With glibc
2.2.2, MySQL uses the adaptive
mutex, which is much better than even the patched one in
glibc
2.1.3. Be warned, however, that under
some conditions, the current mutex code in
glibc
2.2.2 overspins, which hurts MySQL
performance. The likelihood that this condition occurs can be
reduced by re-nicing the mysqld process to
the highest priority. We have also been able to correct the
overspin behavior with a patch, available at
http://www.mysql.com/Downloads/Linux/linuxthreads-2.2.2.patch.
It combines the correction of overspin, maximum number of
threads, and stack spacing all in one. You need to apply it in
the linuxthreads
directory with
patch -p0
</tmp/linuxthreads-2.2.2.patch
. We hope it is
included in some form in future releases of
glibc
2.2. In any case, if you link against
glibc
2.2.2, you still need to correct
STACK_SIZE
and
PTHREAD_THREADS_MAX
. We hope that the
defaults is corrected to some more acceptable values for
high-load MySQL setup in the future, so that the commands
needed to produce your own build can be reduced to
./configure; make; make install.
We recommend that you use these patches to build a special
static version of libpthread.a
and use it
only for statically linking against MySQL. We know that these
patches are safe for MySQL and significantly improve its
performance, but we cannot say anything about their effects on
other applications. If you link other applications that
require LinuxThreads against the patched static version of the
library, or build a patched shared version and install it on
your system, you do so at your own risk.
If you experience any strange problems during the installation of MySQL, or with some common utilities hanging, it is very likely that they are either library or compiler related. If this is the case, using our binary resolves them.
If you link your own MySQL client programs, you may see the following error at runtime:
ld.so.1: fatal: libmysqlclient.so.#: open failed: No such file or directory
This problem can be avoided by one of the following methods:
If you are using the Fujitsu compiler
(fcc/FCC
), you may have some problems
compiling MySQL because the Linux header files are very
gcc oriented. The following
configure line should work with
fcc/FCC:
CC=fcc CFLAGS="-O -K fast -K lib -K omitfp -Kpreex -D_GNU_SOURCE \ -DCONST=const -DNO_STRTOLL_PROTO" \ CXX=FCC CXXFLAGS="-O -K fast -K lib \ -K omitfp -K preex --no_exceptions --no_rtti -D_GNU_SOURCE \ -DCONST=const -Dalloca=__builtin_alloca -DNO_STRTOLL_PROTO \ '-D_EXTERN_INLINE=static __inline'" \ ./configure \ --prefix=/usr/local/mysql --enable-assembler \ --with-mysqld-ldflags=-all-static --disable-shared \ --with-low-memory
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 2.9.2.2, “Starting and Stopping MySQL Automatically”.
If MySQL cannot open enough files or connections, it may be that you have not configured Linux to handle enough files.
In Linux 2.2 and onward, you can check the number of allocated file handles as follows:
shell>cat /proc/sys/fs/file-max
shell>cat /proc/sys/fs/dquot-max
shell>cat /proc/sys/fs/super-max
If you have more than 16MB of memory, you should add something
like the following to your init scripts (for example,
/etc/init.d/boot.local
on SuSE Linux):
echo 65536 > /proc/sys/fs/file-max echo 8192 > /proc/sys/fs/dquot-max echo 1024 > /proc/sys/fs/super-max
You can also run the echo
commands from the
command line as root
, but these settings
are lost the next time your computer restarts.
Alternatively, you can set these parameters on startup by
using the sysctl
tool, which is used by
many Linux distributions (including SuSE Linux 8.0 and later).
Put the following values into a file named
/etc/sysctl.conf
:
# Increase some values for MySQL fs.file-max = 65536 fs.dquot-max = 8192 fs.super-max = 1024
You should also add the following to
/etc/my.cnf
:
[mysqld_safe] open-files-limit=8192
This should allow the server a limit of 8,192 for the combined number of connections and open files.
The STACK_SIZE
constant in LinuxThreads
controls the spacing of thread stacks in the address space. It
needs to be large enough so that there is plenty of room for
each individual thread stack, but small enough to keep the
stack of some threads from running into the global
mysqld data. Unfortunately, as we have
experimentally discovered, the Linux implementation of
mmap()
successfully unmaps a mapped region
if you ask it to map out an address currently in use, zeroing
out the data on the entire page instead of returning an error.
So, the safety of mysqld or any other
threaded application depends on the “gentlemanly”
behavior of the code that creates threads. The user must take
measures to make sure that the number of running threads at
any given time is sufficiently low for thread stacks to stay
away from the global heap. With mysqld, you
should enforce this behavior by setting a reasonable value for
the max_connections
variable.
If you build MySQL yourself, you can patch LinuxThreads for
better stack use. See Section 2.12.1.3, “Linux Source Distribution Notes”. If
you do not want to patch LinuxThreads, you should set
max_connections
to a value no higher than
500. It should be even less if you have a large key buffer,
large heap tables, or some other things that make
mysqld allocate a lot of memory, or if you
are running a 2.2 kernel with a 2GB patch. If you are using
our binary or RPM version, you can safely set
max_connections
at 1500, assuming no large
key buffer or heap tables with lots of data. The more you
reduce STACK_SIZE
in LinuxThreads the more
threads you can safely create. We recommend values between
128KB and 256KB.
If you use a lot of concurrent connections, you may suffer from a “feature” in the 2.2 kernel that attempts to prevent fork bomb attacks by penalizing a process for forking or cloning a child. This causes MySQL not to scale well as you increase the number of concurrent clients. On single-CPU systems, we have seen this manifest as very slow thread creation; it may take a long time to connect to MySQL (as long as one minute), and it may take just as long to shut it down. On multiple-CPU systems, we have observed a gradual drop in query speed as the number of clients increases. In the process of trying to find a solution, we have received a kernel patch from one of our users who claimed it helped for his site. This patch is available at http://www.mysql.com/Downloads/Patches/linux-fork.patch. We have done rather extensive testing of this patch on both development and production systems. It has significantly improved MySQL performance without causing any problems and we recommend it to our users who still run high-load servers on 2.2 kernels.
This issue has been fixed in the 2.4 kernel, so if you are not satisfied with the current performance of your system, rather than patching your 2.2 kernel, it might be easier to upgrade to 2.4. On SMP systems, upgrading also gives you a nice SMP boost in addition to fixing the fairness bug.
We have tested MySQL on the 2.4 kernel on a two-CPU machine and found MySQL scales much better. There was virtually no slowdown on query throughput all the way up to 1,000 clients, and the MySQL scaling factor (computed as the ratio of maximum throughput to the throughput for one client) was 180%. We have observed similar results on a four-CPU system: Virtually no slowdown as the number of clients was increased up to 1,000, and a 300% scaling factor. Based on these results, for a high-load SMP server using a 2.2 kernel, we definitely recommend upgrading to the 2.4 kernel at this point.
We have discovered that it is essential to run the
mysqld process with the highest possible
priority on the 2.4 kernel to achieve maximum performance.
This can be done by adding a renice -20 $$
command to mysqld_safe. In our testing on a
four-CPU machine, increasing the priority resulted in a 60%
throughput increase with 400 clients.
We are currently also trying to collect more information on
how well MySQL performs with a 2.4 kernel on four-way and
eight-way systems. If you have access such a system and have
done some benchmarks, please send an email message to
<benchmarks@mysql.com>
with the results. We will
review them for inclusion in the manual.
If you see a dead mysqld server process with ps, this usually means that you have found a bug in MySQL or you have a corrupted table. See Section A.4.2, “What to Do If MySQL Keeps Crashing”.
To get a core dump on Linux if mysqld dies
with a SIGSEGV
signal, you can start
mysqld with the
--core-file
option. Note that you also
probably need to raise the core file size by adding
ulimit -c 1000000 to
mysqld_safe or starting
mysqld_safe with
--core-file-size=1000000
. See
Section 5.1.3, “mysqld_safe — MySQL Server Startup Script”.
MySQL requires libc
5.4.12 or newer. It is
known to work with libc
5.4.46.
glibc
2.0.6 and later should also work.
There have been some problems with the
glibc
RPMs from Red Hat, so if you have
problems, check whether there are any updates. The
glibc
2.0.7-19 and 2.0.7-29 RPMs are known
to work.
If you are using Red Hat 8.0 or a new glibc
2.2.x library, you may see mysqld die in
gethostbyaddr()
. This happens because the
new glibc
library requires a stack size
greater than 128KB for this call. To fix the problem, start
mysqld with the
--thread-stack=192K
option. (Use -O
thread_stack=192K
before MySQL 4.) This stack size is
the default on MySQL 4.0.10 and above, so you should not see
the problem.
If you are using gcc 3.0 and above to
compile MySQL, you must install the
libstdc++v3
library before compiling MySQL;
if you don't do this, you get an error about a missing
__cxa_pure_virtual
symbol during linking.
On some older Linux distributions, configure may produce an error like this:
Syntax error in sched.h. Change _P to __P in the /usr/include/sched.h file. See the Installation chapter in the Reference Manual.
Just do what the error message says. Add an extra underscore
to the _P
macro name that has only one
underscore, and then try again.
You may get some warnings when compiling. Those shown here can be ignored:
mysqld.cc -o objs-thread/mysqld.o mysqld.cc: In function `void init_signals()': mysqld.cc:315: warning: assignment of negative value `-1' to `long unsigned int' mysqld.cc: In function `void * signal_hand(void *)': mysqld.cc:346: warning: assignment of negative value `-1' to `long unsigned int'
If mysqld always dumps core when it starts,
the problem may be that you have an old
/lib/libc.a
. Try renaming it, and then
remove sql/mysqld
and do a new
make install and try again. This problem
has been reported on some Slackware installations.
If you get the following error when linking
mysqld, it means that your
libg++.a
is not installed correctly:
/usr/lib/libc.a(putc.o): In function `_IO_putc': putc.o(.text+0x0): multiple definition of `_IO_putc'
You can avoid using libg++.a
by running
configure like this:
shell> CXX=gcc ./configure
In some implementations, readdir_r()
is
broken. The symptom is that the SHOW
DATABASES
statement always returns an empty set.
This can be fixed by removing
HAVE_READDIR_R
from
config.h
after configuring and before
compiling.
We have tested MySQL 5.1 on Alpha with our benchmarks and test suite, and it appears to work well.
We currently build the MySQL binary packages on SuSE Linux 7.0 for AXP, kernel 2.4.4-SMP, Compaq C compiler (V6.2-505) and Compaq C++ compiler (V6.3-006) on a Compaq DS20 machine with an Alpha EV6 processor.
You can find the preceding compilers at http://www.support.compaq.com/alpha-tools/. By using these compilers rather than gcc, we get about 9-14% better MySQL performance.
For MySQL on Alpha, we use the -arch generic
flag to our compile options, which ensures that the binary
runs on all Alpha processors. We also compile statically to
avoid library problems. The configure
command looks like this:
CC=ccc CFLAGS="-fast -arch generic" CXX=cxx \ CXXFLAGS="-fast -arch generic -noexceptions -nortti" \ ./configure --prefix=/usr/local/mysql --disable-shared \ --with-extra-charsets=complex --enable-thread-safe-client \ --with-mysqld-ldflags=-non_shared --with-client-ldflags=-non_shared
If you want to use egcs, the following configure line worked for us:
CFLAGS="-O3 -fomit-frame-pointer" CXX=gcc \ CXXFLAGS="-O3 -fomit-frame-pointer -felide-constructors \ -fno-exceptions -fno-rtti" \ ./configure --prefix=/usr/local/mysql --disable-shared
Some known problems when running MySQL on Linux-Alpha:
Debugging threaded applications like MySQL does not work
with gdb 4.18
. You should use
gdb 5.1 instead.
If you try linking mysqld statically
when using gcc, the resulting image
dumps core at startup time. In other words, do
not use
--with-mysqld-ldflags=-all-static
with
gcc.
MySQL should work on MkLinux with the newest
glibc
package (tested with
glibc
2.0.7).
To get MySQL to work on Qube2 (Linux Mips), you need the
newest glibc
libraries.
glibc-2.0.7-29C2
is known to work. You must
also use the egcs C++ compiler
(egcs 1.0.2-9, gcc
2.95.2 or newer).
To get MySQL to compile on Linux IA-64, we use the following configure command for building with gcc 2.96:
CC=gcc \ CFLAGS="-O3 -fno-omit-frame-pointer" \ CXX=gcc \ CXXFLAGS="-O3 -fno-omit-frame-pointer -felide-constructors \ -fno-exceptions -fno-rtti" \ ./configure --prefix=/usr/local/mysql \ "--with-comment=Official MySQL binary" \ --with-extra-charsets=complex
On IA-64, the MySQL client binaries use shared libraries. This
means that if you install our binary distribution at a
location other than /usr/local/mysql
, you
need to add the path of the directory where you have
libmysqlclient.so
installed either to the
/etc/ld.so.conf
file or to the value of
your LD_LIBRARY_PATH
environment variable.
See Section A.3.1, “Problems Linking to the MySQL Client Library”.
On Mac OS X, tar cannot handle long
filenames. If you need to unpack a .tar.gz
distribution, use gnutar instead.
MySQL should work without major problems on Mac OS X 10.x (Darwin).
Known issues:
The connection times (wait_timeout
,
interactive_timeout
and
net_read_timeout
) values are not
honored.
This is probably a signal handling problem in the thread library where the signal doesn't break a pending read and we hope that a future update to the thread libraries will fix this.
Our binary for Mac OS X is compiled on Darwin 6.3 with the following configure line:
CC=gcc CFLAGS="-O3 -fno-omit-frame-pointer" CXX=gcc \ CXXFLAGS="-O3 -fno-omit-frame-pointer -felide-constructors \ -fno-exceptions -fno-rtti" \ ./configure --prefix=/usr/local/mysql \ --with-extra-charsets=complex --enable-thread-safe-client \ --enable-local-infile --disable-shared
For current versions of Mac OS X Server, no operating system changes are necessary before compiling MySQL. Compiling for the Server platform is the same as for the client version of Mac OS X.
For older versions (Mac OS X Server 1.2, a.k.a. Rhapsody), you must first install a pthread package before trying to configure MySQL.
On Solaris, you may run into trouble even before you get the MySQL distribution unpacked, as the Solaris tar cannot handle long filenames. This means that you may see errors when you try to unpack MySQL.
If this occurs, you must use GNU tar (gtar) to unpack the distribution. You can find a precompiled copy for Solaris at http://dev.mysql.com/downloads/os-solaris.html.
Sun native threads work only on Solaris 2.5 and higher. For Solaris 2.4 and earlier, MySQL automatically uses MIT-pthreads. See Section 2.8.5, “MIT-pthreads Notes”.
If you get the following error from configure, it means that you have something wrong with your compiler installation:
checking for restartable system calls... configure: error can not run test programs while cross compiling
In this case, you should upgrade your compiler to a newer
version. You may also be able to solve this problem by inserting
the following row into the config.cache
file:
ac_cv_sys_restartable_syscalls=${ac_cv_sys_restartable_syscalls='no'}
If you are using Solaris on a SPARC, the recommended compiler is gcc 2.95.2 or 3.2. You can find this at http://gcc.gnu.org/. Note that egcs 1.1.1 and gcc 2.8.1 do not work reliably on SPARC.
The recommended configure line when using gcc 2.95.2 is:
CC=gcc CFLAGS="-O3" \ CXX=gcc CXXFLAGS="-O3 -felide-constructors -fno-exceptions -fno-rtti" \ ./configure --prefix=/usr/local/mysql --with-low-memory \ --enable-assembler
If you have an UltraSPARC system, you can get 4% better
performance by adding -mcpu=v8
-Wa,-xarch=v8plusa
to the CFLAGS
and
CXXFLAGS
environment variables.
If you have Sun's Forte 5.0 (or newer) compiler, you can run configure like this:
CC=cc CFLAGS="-Xa -fast -native -xstrconst -mt" \ CXX=CC CXXFLAGS="-noex -mt" \ ./configure --prefix=/usr/local/mysql --enable-assembler
To create a 64-bit binary with Sun's Forte compiler, use the following configuration options:
CC=cc CFLAGS="-Xa -fast -native -xstrconst -mt -xarch=v9" \ CXX=CC CXXFLAGS="-noex -mt -xarch=v9" ASFLAGS="-xarch=v9" \ ./configure --prefix=/usr/local/mysql --enable-assembler
To create a 64-bit Solaris binary using gcc,
add -m64
to CFLAGS
and
CXXFLAGS
and remove
--enable-assembler
from the
configure line.
In the MySQL benchmarks, we obtained a 4% speed increase on
UltraSPARC when using Forte 5.0 in 32-bit mode, as compared to
using gcc 3.2 with the -mcpu
flag.
If you create a 64-bit mysqld binary, it is 4% slower than the 32-bit binary, but can handle more threads and memory.
When using Solaris 10 for x86_64, you should mount any
filesystems 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 get a problem with fdatasync
or
sched_yield
, you can fix this by adding
LIBS=-lrt
to the configure
line
For compilers older than WorkShop 5.3, you might have to edit the configure script. Change this line:
#if !defined(__STDC__) || __STDC__ != 1
To this:
#if !defined(__STDC__)
If you turn on __STDC__
with the
-Xc
option, the Sun compiler can't compile with
the Solaris pthread.h
header file. This is
a Sun bug (broken compiler or broken include file).
If mysqld issues the following error message
when you run it, you have tried to compile MySQL with the Sun
compiler without enabling the -mt
multi-thread
option:
libc internal error: _rmutex_unlock: rmutex not held
Add -mt
to CFLAGS
and
CXXFLAGS
and recompile.
If you are using the SFW version of gcc
(which comes with Solaris 8), you must add
/opt/sfw/lib
to the environment variable
LD_LIBRARY_PATH
before running
configure.
If you are using the gcc available from
sunfreeware.com
, you may have many problems.
To avoid this, you should recompile gcc and
GNU binutils
on the machine where you are
running them.
If you get the following error when compiling MySQL with gcc, it means that your gcc is not configured for your version of Solaris:
shell> gcc -O3 -g -O2 -DDBUG_OFF -o thr_alarm ...
./thr_alarm.c: In function `signal_hand':
./thr_alarm.c:556: too many arguments to function `sigwait'
The proper thing to do in this case is to get the newest version of gcc and compile it with your current gcc compiler. At least for Solaris 2.5, almost all binary versions of gcc have old, unusable include files that break all programs that use threads, and possibly other programs as well.
Solaris does not provide static versions of all system libraries
(libpthreads
and libdl
),
so you cannot compile MySQL with --static
. If
you try to do so, you get one of the following errors:
ld: fatal: library -ldl: not found undefined reference to `dlopen' cannot find -lrt
If you link your own MySQL client programs, you may see the following error at runtime:
ld.so.1: fatal: libmysqlclient.so.#: open failed: No such file or directory
This problem can be avoided by one of the following methods:
If you have problems with configure trying to
link with -lz
when you don't have
zlib
installed, you have two options:
If you want to be able to use the compressed communication
protocol, you need to get and install
zlib
from ftp.gnu.org
.
Run configure with the
--with-named-z-libs=no
option when building
MySQL.
If you are using gcc and have problems with
loading user-defined functions (UDFs) into MySQL, try adding
-lgcc
to the link line for the UDF.
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.
(Use -O back_log=50
before MySQL 4.)
Solaris doesn't support core files for
setuid()
applications, so you can't get a
core file from mysqld if you are using the
--user
option.
Normally, you can use a Solaris 2.6 binary on Solaris 2.7 and 2.8. Most of the Solaris 2.6 issues also apply for Solaris 2.7 and 2.8.
MySQL should be able to detect new versions of Solaris automatically and enable workarounds for the following problems.
Solaris 2.7 / 2.8 has some bugs in the include files. You may see the following error when you use gcc:
/usr/include/widec.h:42: warning: `getwc' redefined /usr/include/wchar.h:326: warning: this is the location of the previous definition
If this occurs, you can fix the problem by copying
/usr/include/widec.h
to
.../lib/gcc-lib/os/gcc-version/include
and
changing line 41 from this:
#if !defined(lint) && !defined(__lint)
To this:
#if !defined(lint) && !defined(__lint) && !defined(getwc)
Alternatively, you can edit
/usr/include/widec.h
directly. Either
way, after you make the fix, you should remove
config.cache
and run
configure again.
If you get the following errors when you run
make, it's because
configure didn't detect the
curses.h
file (probably because of the
error in /usr/include/widec.h
):
In file included from mysql.cc:50: /usr/include/term.h:1060: syntax error before `,' /usr/include/term.h:1081: syntax error before `;'
The solution to this problem is to do one of the following:
Configure with CFLAGS=-DHAVE_CURSES_H
CXXFLAGS=-DHAVE_CURSES_H ./configure
.
Edit /usr/include/widec.h
as
indicated in the preceding discussion and re-run
configure.
Remove the #define HAVE_TERM
line from
the config.h
file and run
make again.
If your linker cannot find -lz
when linking
client programs, the problem is probably that your
libz.so
file is installed in
/usr/local/lib
. You can fix this problem
by one of the following methods:
Add /usr/local/lib
to
LD_LIBRARY_PATH
.
Add a link to libz.so
from
/lib
.
If you are using Solaris 8, you can install the optional
zlib
from your Solaris 8 CD
distribution.
Run configure with the
--with-named-z-libs=no
option when
building MySQL.
On Solaris 8 on x86, mysqld dumps core if
you remove the debug symbols using strip
.
If you are using gcc or egcs on Solaris x86 and you experience problems with core dumps under load, you should use the following configure command:
CC=gcc CFLAGS="-O3 -fomit-frame-pointer -DHAVE_CURSES_H" \ CXX=gcc \ CXXFLAGS="-O3 -fomit-frame-pointer -felide-constructors \ -fno-exceptions -fno-rtti -DHAVE_CURSES_H" \ ./configure --prefix=/usr/local/mysql
This avoids problems with the libstdc++
library and with C++ exceptions.
If this doesn't help, you should compile a debug version and run it with a trace file or under gdb. See Section E.1.3, “Debugging mysqld under gdb”.
This section provides information about using MySQL on variants of BSD Unix.
FreeBSD 4.x or newer is recommended for running MySQL, because
the thread package is much more integrated. To get a secure
and stable system, you should use only FreeBSD kernels that
are marked -RELEASE
.
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.
It is recommended you use MIT-pthreads on FreeBSD 2.x, and native threads on FreeBSD 3 and up. It is possible to run with native threads on some late 2.2.x versions, but you may encounter problems shutting down mysqld.
Unfortunately, certain function calls on FreeBSD are not yet
fully thread-safe. Most notably, this includes the
gethostbyname()
function, which is used by
MySQL to convert hostnames into IP addresses. Under certain
circumstances, the mysqld process suddenly
causes 100% CPU load and is unresponsive. If you encounter
this problem, try to start MySQL using the
--skip-name-resolve
option.
Alternatively, you can link MySQL on FreeBSD 4.x against the LinuxThreads library, which avoids a few of the problems that the native FreeBSD thread implementation has. For a very good comparison of LinuxThreads versus native threads, see Jeremy Zawodny's article FreeBSD or Linux for your MySQL Server? at http://jeremy.zawodny.com/blog/archives/000697.html.
Known problem when using LinuxThreads on FreeBSD is:
The connection times (wait_timeout
,
interactive_timeout
and
net_read_timeout
) values are not
honored. The symptom is that persistent connections can
hang for a very long time without getting closed down and
that a 'kill' for a thread will not take affect until the
thread does it a new command
This is probably a signal handling problem in the thread library where the signal doesn't break a pending read. This is supposed to be fixed in FreeBSD 5.0
The MySQL build process requires GNU make (gmake) to work. If GNU make is not available, you must install it first before compiling MySQL.
The recommended way to compile and install MySQL on FreeBSD with gcc (2.95.2 and up) is:
CC=gcc CFLAGS="-O2 -fno-strength-reduce" \ CXX=gcc CXXFLAGS="-O2 -fno-rtti -fno-exceptions \ -felide-constructors -fno-strength-reduce" \ ./configure --prefix=/usr/local/mysql --enable-assembler gmake gmake install cd /usr/local/mysql bin/mysql_install_db --user=mysql bin/mysqld_safe &
If you notice that configure uses MIT-pthreads, you should read the MIT-pthreads notes. See Section 2.8.5, “MIT-pthreads Notes”.
If you get an error from make install that
it can't find /usr/include/pthreads
,
configure didn't detect that you need
MIT-pthreads. To fix this problem, remove
config.cache
, and then re-run
configure with the
--with-mit-threads
option.
Be sure that your name resolver setup is correct. Otherwise,
you may experience resolver delays or failures when connecting
to mysqld. Also make sure that the
localhost
entry in the
/etc/hosts
file is correct. The file
should start with a line similar to this:
127.0.0.1 localhost localhost.your.domain
FreeBSD is known to have a very low default file handle limit.
See Section A.2.17, “File Not Found”. Start the
server by using the --open-files-limit
option
for mysqld_safe, or raise the limits for
the mysqld user in
/etc/login.conf
and rebuild it with
cap_mkdb /etc/login.conf
. Also be sure that
you set the appropriate class for this user in the password
file if you are not using the default (use chpass
mysqld-user-name
). See
Section 5.1.3, “mysqld_safe — MySQL Server Startup Script”.
FreeBSD limits the size of a process to 512MB, even if you have much more RAM available on the system. So you may get an error such as this:
Out of memory (Needed 16391 bytes)
In current versions of FreeBSD (at least 4.x and greater), you
may increase this limit by adding the following entries to the
/boot/loader.conf
file and rebooting the
machine (these are not settings that can be changed at run
time with the sysctl command):
kern.maxdsiz="1073741824" # 1GB kern.dfldsiz="1073741824" # 1GB kern.maxssiz="134217728" # 128MB
For older versions of FreeBSD, you must recompile your kernel
in order to change the maximum data segment size for a
process. In this case, you should look at the
MAXDSIZ
option in the
LINT
config file for more information.
If you get problems with the current date in MySQL, setting
the TZ
variable should help. See
Appendix F, Environment Variables.
To compile on NetBSD, you need GNU make.
Otherwise, the build process fails when
make tries to run lint
on C++ files.
On OpenBSD 2.5, you can compile MySQL with native threads with the following options:
CFLAGS=-pthread CXXFLAGS=-pthread ./configure --with-mit-threads=no
If you get the following error when compiling MySQL, your ulimit value for virtual memory is too low:
item_func.h: In method `Item_func_ge::Item_func_ge(const Item_func_ge &)': item_func.h:28: virtual memory exhausted make[2]: *** [item_func.o] Error 1
Try using ulimit -v 80000 and run make again. If this doesn't work and you are using bash, try switching to csh or sh; some BSDI users have reported problems with bash and ulimit.
If you are using gcc, you may also use have
to use the --with-low-memory
flag for
configure to be able to compile
sql_yacc.cc
.
If you get problems with the current date in MySQL, setting
the TZ
variable should help. See
Appendix F, Environment Variables.
Upgrade to BSD/OS 3.1. If that is not possible, install BSDIpatch M300-038.
Use the following command when configuring MySQL:
env CXX=shlicc++ CC=shlicc2 \ ./configure \ --prefix=/usr/local/mysql \ --localstatedir=/var/mysql \ --without-perl \ --with-unix-socket-path=/var/mysql/mysql.sock
The following is also known to work:
env CC=gcc CXX=gcc CXXFLAGS=-O3 \ ./configure \ --prefix=/usr/local/mysql \ --with-unix-socket-path=/var/mysql/mysql.sock
You can change the directory locations if you wish, or just use the defaults by not specifying any locations.
If you have problems with performance under heavy load, try
using the --skip-thread-priority
option to
mysqld. This runs all threads with the same
priority. On BSDI 3.1, this gives better performance, at least
until BSDI fixes its thread scheduler.
If you get the error virtual memory
exhausted
while compiling, you should try using
ulimit -v 80000 and running
make again. If this doesn't work and you
are using bash, try switching to
csh or sh; some BSDI
users have reported problems with bash and
ulimit.
BSDI 4.x has some thread-related bugs. If you want to use MySQL on this, you should install all thread-related patches. At least M400-023 should be installed.
On some BSDI 4.x systems, you may get problems with shared
libraries. The symptom is that you can't execute any client
programs, for example, mysqladmin. In this
case, you need to reconfigure not to use shared libraries with
the --disable-shared
option to configure.
Some customers have had problems on BSDI 4.0.1 that the mysqld binary after a while can't open tables. This occurs because some library/system-related bug causes mysqld to change current directory without having asked for that to happen.
The fix is to either upgrade MySQL to at least version 3.23.34
or, after running configure, remove the
line #define HAVE_REALPATH
from
config.h
before running
make.
Note that this means that you can't symbolically link a database directories to another database directory or symbolic link a table to another database on BSDI. (Making a symbolic link to another disk is okay).
There are a couple of small problems when compiling MySQL on HP-UX. We recommend that you use gcc instead of the HP-UX native compiler, because gcc produces better code.
We recommend using gcc 2.95 on HP-UX. Don't
use high optimization flags (such as -O6
)
because they may not be safe on HP-UX.
The following configure line should work with gcc 2.95:
CFLAGS="-I/opt/dce/include -fpic" \ CXXFLAGS="-I/opt/dce/include -felide-constructors -fno-exceptions \ -fno-rtti" \ CXX=gcc \ ./configure --with-pthread \ --with-named-thread-libs='-ldce' \ --prefix=/usr/local/mysql --disable-shared
The following configure line should work with gcc 3.1:
CFLAGS="-DHPUX -I/opt/dce/include -O3 -fPIC" CXX=gcc \ CXXFLAGS="-DHPUX -I/opt/dce/include -felide-constructors \ -fno-exceptions -fno-rtti -O3 -fPIC" \ ./configure --prefix=/usr/local/mysql \ --with-extra-charsets=complex --enable-thread-safe-client \ --enable-local-infile --with-pthread \ --with-named-thread-libs=-ldce --with-lib-ccflags=-fPIC --disable-shared
Because of some critical bugs in the standard HP-UX libraries, you should install the following patches before trying to run MySQL on HP-UX 11.0:
PHKL_22840 Streams cumulative PHNE_22397 ARPA cumulative
This solves the problem of getting
EWOULDBLOCK
from recv()
and EBADF
from accept()
in threaded applications.
If you are using gcc 2.95.1 on an unpatched HP-UX 11.x system, you may get the following error:
In file included from /usr/include/unistd.h:11, from ../include/global.h:125, from mysql_priv.h:15, from item.cc:19: /usr/include/sys/unistd.h:184: declaration of C function ... /usr/include/sys/pthread.h:440: previous declaration ... In file included from item.h:306, from mysql_priv.h:158, from item.cc:19:
The problem is that HP-UX does not define
pthreads_atfork()
consistently. It has
conflicting prototypes in
/usr/include/sys/unistd.h
:184 and
/usr/include/sys/pthread.h
:440.
One solution is to copy
/usr/include/sys/unistd.h
into
mysql/include
and edit
unistd.h
and change it to match the
definition in pthread.h
. Look for this
line:
extern int pthread_atfork(void (*prepare)(), void (*parent)(), void (*child)());
Change it to look like this:
extern int pthread_atfork(void (*prepare)(void), void (*parent)(void), void (*child)(void));
After making the change, the following configure line should work:
CFLAGS="-fomit-frame-pointer -O3 -fpic" CXX=gcc \ CXXFLAGS="-felide-constructors -fno-exceptions -fno-rtti -O3" \ ./configure --prefix=/usr/local/mysql --disable-shared
If you are using HP-UX compiler, you can use the following command (which has been tested with cc B.11.11.04):
CC=cc CXX=aCC CFLAGS=+DD64 CXXFLAGS=+DD64 ./configure \ --with-extra-character-set=complex
You can ignore any errors of the following type:
aCC: warning 901: unknown option: `-3': use +help for online documentation
If you get the following error from configure, verify that you don't have the path to the K&R compiler before the path to the HP-UX C and C++ compiler:
checking for cc option to accept ANSI C... no configure: error: MySQL requires an ANSI C compiler (and a C++ compiler). Try gcc. See the Installation chapter in the Reference Manual.
Another reason for not being able to compile is that you
didn't define the +DD64
flags as just
described.
Another possibility for HP-UX 11 is to use the MySQL binaries provided at http://dev.mysql.com/downloads/, which we have built and tested ourselves. We have also received reports that the HP-UX 10.20 binaries supplied by MySQL can be run successfully on HP-UX 11. If you encounter problems, you should be sure to check your HP-UX patch level.
Automatic detection of xlC
is missing from
Autoconf, so a number of variables need to be set before
running configure. The following example
uses the IBM compiler:
export CC="xlc_r -ma -O3 -qstrict -qoptimize=3 -qmaxmem=8192 " export CXX="xlC_r -ma -O3 -qstrict -qoptimize=3 -qmaxmem=8192" export CFLAGS="-I /usr/local/include" export LDFLAGS="-L /usr/local/lib" export CPPFLAGS=$CFLAGS export CXXFLAGS=$CFLAGS ./configure --prefix=/usr/local \ --localstatedir=/var/mysql \ --sbindir='/usr/local/bin' \ --libexecdir='/usr/local/bin' \ --enable-thread-safe-client \ --enable-large-files
The preceding options are used to compile the MySQL distribution that can be found at http://www-frec.bull.com/.
If you change the -O3
to -O2
in the preceding configure line, you must
also remove the -qstrict
option. This is a
limitation in the IBM C compiler.
If you are using gcc or
egcs to compile MySQL, you
must use the
-fno-exceptions
flag, because the exception
handling in gcc/egcs is
not thread-safe! (This is tested with egcs
1.1.) There are also some known problems with IBM's assembler
that may cause it to generate bad code when used with
gcc.
We recommend the following configure line with egcs and gcc 2.95 on AIX:
CC="gcc -pipe -mcpu=power -Wa,-many" \ CXX="gcc -pipe -mcpu=power -Wa,-many" \ CXXFLAGS="-felide-constructors -fno-exceptions -fno-rtti" \ ./configure --prefix=/usr/local/mysql --with-low-memory
The -Wa,-many
option is necessary for the
compile to be successful. IBM is aware of this problem but is
in no hurry to fix it because of the workaround that is
available. We don't know if the
-fno-exceptions
is required with
gcc 2.95, but because MySQL doesn't use
exceptions and the option generates faster code, we recommend
that you should always use it with egcs /
gcc.
If you get a problem with assembler code, try changing the
-mcpu=
option
to match your CPU. Typically xxx
power2
,
power
, or powerpc
may
need to be used. Alternatively, you might need to use
604
or 604e
. We are not
positive but suspect that power
would
likely be safe most of the time, even on a power2 machine.
If you don't know what your CPU is, execute a uname
-m
command. It produces a string that looks like
000514676700
, with a format of
xxyyyyyymmss
where xx
and ss
are always 00
,
yyyyyy
is a unique system ID and
mm
is the ID of the CPU Planar. A chart of
these values can be found at
http://www16.boulder.ibm.com/pseries/en_US/cmds/aixcmds5/uname.htm.
This gives you a machine type and a machine model you can use to determine what type of CPU you have.
If you have problems with signals (MySQL dies unexpectedly under high load), you may have found an OS bug with threads and signals. In this case, you can tell MySQL not to use signals by configuring as follows:
CFLAGS=-DDONT_USE_THR_ALARM CXX=gcc \ CXXFLAGS="-felide-constructors -fno-exceptions -fno-rtti \ -DDONT_USE_THR_ALARM" \ ./configure --prefix=/usr/local/mysql --with-debug \ --with-low-memory
This doesn't affect the performance of MySQL, but has the side effect that you can't kill clients that are “sleeping” on a connection with mysqladmin kill or mysqladmin shutdown. Instead, the client dies when it issues its next command.
On some versions of AIX, linking with
libbind.a
makes
getservbyname()
dump core. This is an AIX
bug and should be reported to IBM.
For AIX 4.2.1 and gcc, you have to make the following changes.
After configuring, edit config.h
and
include/my_config.h
and change the line
that says this:
#define HAVE_SNPRINTF 1
to this:
#undef HAVE_SNPRINTF
And finally, in mysqld.cc
, you need to
add a prototype for initgroups()
.
#ifdef _AIX41 extern "C" int initgroups(const char *,int); #endif
If you need to allocate a lot of memory to the mysqld process, it's not enough to just use ulimit -d unlimited. You may also have to modify mysqld_safe to add a line something like this:
export LDR_CNTRL='MAXDATA=0x80000000'
You can find more information about using a lot of memory at http://publib16.boulder.ibm.com/pseries/en_US/aixprggd/genprogc/lrg_prg_support.htm.
On SunOS 4, MIT-pthreads is needed to compile MySQL. This in turn means you need GNU make.
Some SunOS 4 systems have problems with dynamic libraries and libtool. You can use the following configure line to avoid this problem:
./configure --disable-shared --with-mysqld-ldflags=-all-static
When compiling readline
, you may get
warnings about duplicate defines. These can be ignored.
When compiling mysqld, there are some
implicit declaration of function
warnings.
These can be ignored.
If you are using egcs 1.1.2 on Digital Unix, you should upgrade to gcc 2.95.2, because egcs on DEC has some serious bugs!
When compiling threaded programs under Digital Unix, the
documentation recommends using the -pthread
option for cc and cxx
and the -lmach -lexc
libraries (in addition
to -lpthread
). You should run
configure something like this:
CC="cc -pthread" CXX="cxx -pthread -O" \ ./configure --with-named-thread-libs="-lpthread -lmach -lexc -lc"
When compiling mysqld, you may see a couple of warnings like this:
mysqld.cc: In function void handle_connections()': mysqld.cc:626: passing long unsigned int *' as argument 3 of accept(int,sockadddr *, int *)'
You can safely ignore these warnings. They occur because configure can detect only errors, not warnings.
If you start the server directly from the command line, you
may have problems with it dying when you log out. (When you
log out, your outstanding processes receive a
SIGHUP
signal.) If so, try starting the
server like this:
nohup mysqld [options
] &
nohup
causes the command following it to
ignore any SIGHUP
signal sent from the
terminal. Alternatively, start the server by running
mysqld_safe, which invokes
mysqld using nohup for
you. See Section 5.1.3, “mysqld_safe — MySQL Server Startup Script”.
If you get a problem when compiling
mysys/get_opt.c
, just remove the
#define _NO_PROTO
line from the start of
that file.
If you are using Compaq's CC compiler, the following configure line should work:
CC="cc -pthread" CFLAGS="-O4 -ansi_alias -ansi_args -fast -inline speed all -arch host" CXX="cxx -pthread" CXXFLAGS="-O4 -ansi_alias -ansi_args -fast -inline speed all \ -arch host -noexceptions -nortti" export CC CFLAGS CXX CXXFLAGS ./configure \ --prefix=/usr/local/mysql \ --with-low-memory \ --enable-large-files \ --enable-shared=yes \ --with-named-thread-libs="-lpthread -lmach -lexc -lc" gnumake
If you get a problem with libtool when compiling with shared libraries as just shown, when linking mysql, you should be able to get around this by issuing these commands:
cd mysql /bin/sh ../libtool --mode=link cxx -pthread -O3 -DDBUG_OFF \ -O4 -ansi_alias -ansi_args -fast -inline speed \ -speculate all \ -arch host -DUNDEF_HAVE_GETHOSTBYNAME_R \ -o mysql mysql.o readline.o sql_string.o completion_hash.o \ ../readline/libreadline.a -lcurses \ ../libmysql/.libs/libmysqlclient.so -lm cd .. gnumake gnumake install scripts/mysql_install_db
If you have problems compiling and have DEC CC and gcc installed, try running configure like this:
CC=cc CFLAGS=-O CXX=gcc CXXFLAGS=-O3 \ ./configure --prefix=/usr/local/mysql
If you get problems with the c_asm.h
file, you can create and use a 'dummy'
c_asm.h
file with:
touch include/c_asm.h CC=gcc CFLAGS=-I./include \ CXX=gcc CXXFLAGS=-O3 \ ./configure --prefix=/usr/local/mysql
Note that the following problems with the ld program can be fixed by downloading the latest DEC (Compaq) patch kit from: http://ftp.support.compaq.com/public/unix/.
On OSF/1 V4.0D and compiler "DEC C V5.6-071 on Digital Unix
V4.0 (Rev. 878)," the compiler had some strange behavior
(undefined asm
symbols).
/bin/ld
also appears to be broken (problems
with _exit undefined
errors occurring while
linking mysqld). On this system, we have
managed to compile MySQL with the following
configure line, after replacing
/bin/ld
with the version from OSF 4.0C:
CC=gcc CXX=gcc CXXFLAGS=-O3 ./configure --prefix=/usr/local/mysql
With the Digital compiler "C++ V6.1-029," the following should work:
CC=cc -pthread CFLAGS=-O4 -ansi_alias -ansi_args -fast -inline speed \ -speculate all -arch host CXX=cxx -pthread CXXFLAGS=-O4 -ansi_alias -ansi_args -fast -inline speed \ -speculate all -arch host -noexceptions -nortti export CC CFLAGS CXX CXXFLAGS ./configure --prefix=/usr/mysql/mysql \ --with-mysqld-ldflags=-all-static --disable-shared \ --with-named-thread-libs="-lmach -lexc -lc"
In some versions of OSF/1, the alloca()
function is broken. Fix this by removing the line in
config.h
that defines
'HAVE_ALLOCA'
.
The alloca()
function also may have an
incorrect prototype in
/usr/include/alloca.h
. This warning
resulting from this can be ignored.
configure uses the following thread
libraries automatically:
--with-named-thread-libs="-lpthread -lmach -lexc
-lc"
.
When using gcc, you can also try running configure like this:
CFLAGS=-D_PTHREAD_USE_D4 CXX=gcc CXXFLAGS=-O3 ./configure ...
If you have problems with signals (MySQL dies unexpectedly under high load), you may have found an OS bug with threads and signals. In this case, you can tell MySQL not to use signals by configuring with:
CFLAGS=-DDONT_USE_THR_ALARM \ CXXFLAGS=-DDONT_USE_THR_ALARM \ ./configure ...
This does not affect the performance of MySQL, but has the side effect that you can't kill clients that are “sleeping” on a connection with mysqladmin kill or mysqladmin shutdown. Instead, the client dies when it issues its next command.
With gcc 2.95.2, you may encounter the following compile error:
sql_acl.cc:1456: Internal compiler error in `scan_region', at except.c:2566 Please submit a full bug report.
To fix this, you should change to the sql
directory and do a cut-and-paste of the last
gcc line, but change -O3
to -O0
(or add -O0
immediately after gcc if you don't have any
-O
option on your compile line). After this
is done, you can just change back to the top-level directory
and run make again.
If you are using Irix 6.5.3 or newer,
mysqld is able to create threads only if
you run it as a user that has CAP_SCHED_MGT
privileges (such as root
) or give the
mysqld server this privilege with the
following shell command:
chcap "CAP_SCHED_MGT+epi" /opt/mysql/libexec/mysqld
You may have to undefine some symbols in
config.h
after running
configure and before compiling.
In some Irix implementations, the alloca()
function is broken. If the mysqld server
dies on some SELECT
statements, remove the
lines from config.h
that define
HAVE_ALLOC
and
HAVE_ALLOCA_H
. If mysqladmin
create doesn't work, remove the line from
config.h
that defines
HAVE_READDIR_R
. You may have to remove the
HAVE_TERM_H
line as well.
SGI recommends that you install all the patches on this page as a set: http://support.sgi.com/surfzone/patches/patchset/6.2_indigo.rps.html
At the very minimum, you should install the latest kernel
rollup, the latest rld
rollup, and the
latest libc
rollup.
You definitely need all the POSIX patches on this page, for pthreads support:
http://support.sgi.com/surfzone/patches/patchset/6.2_posix.rps.html
If you get the something like the following error when
compiling mysql.cc
:
"/usr/include/curses.h", line 82: error(1084): invalid combination of type
Type the following in the top-level directory of your MySQL source tree:
extra/replace bool curses_bool < /usr/include/curses.h > include/curses.h make
There have also been reports of scheduling problems. If only one thread is running, performance is slow. Avoid this by starting another client. This may lead to a two-to-tenfold increase in execution speed thereafter for the other thread. This is a poorly understood problem with Irix threads; you may have to improvise to find solutions until this can be fixed.
If you are compiling with gcc, you can use the following configure command:
CC=gcc CXX=gcc CXXFLAGS=-O3 \ ./configure --prefix=/usr/local/mysql --enable-thread-safe-client \ --with-named-thread-libs=-lpthread
On Irix 6.5.11 with native Irix C and C++ compilers ver. 7.3.1.2, the following is reported to work
CC=cc CXX=CC CFLAGS='-O3 -n32 -TARG:platform=IP22 -I/usr/local/include \ -L/usr/local/lib' CXXFLAGS='-O3 -n32 -TARG:platform=IP22 \ -I/usr/local/include -L/usr/local/lib' \ ./configure --prefix=/usr/local/mysql --with-innodb --with-berkeley-db \ --with-libwrap=/usr/local \ --with-named-curses-libs=/usr/local/lib/libncurses.a
The current port is tested only on sco3.2v5.0.5, sco3.2v5.0.6, and sco3.2v5.0.7 systems. There has also been progress on a port to sco3.2v4.2. Open Server 5.0.8 (Legend) has native threads and allows files greater than 2GB. The current maximum file size is 2GB.
We have been able to compile MySQL with the following configure command on OpenServer with gcc 2.95.3.
CC=gcc CXX=gcc ./configure --prefix=/usr/local/mysql \ --enable-thread-safe-client --with-innodb \ --with-openssl --with-vio --with-extra-charsets=complex
gcc is available at ftp://ftp.sco.com/pub/openserver5/opensrc/gnutools-5.0.7Kj.
This development system requires the OpenServer Execution
Environment Supplement oss646B on OpenServer 5.0.6 and oss656B
and The OpenSource libraries found in gwxlibs. All OpenSource
tools are in the opensrc
directory. They
are available at
ftp://ftp.sco.com/pub/openserver5/opensrc/.
We recommend using the latest production release of MySQL.
SCO provides operating system patches at ftp://ftp.sco.com/pub/openserver5 for OpenServer 5.0.[0-6] and ftp://ftp.sco.com/pub/openserverv5/507 for OpenServer 5.0.7.
SCO provides information about security fixes at ftp://ftp.sco.com/pub/security/OpenServer for OpenServer 5.0.x.
The maximum file size on an OpenSever 5.0.x system is 2GB.
The total memory which can be allocated for streams buffers, clists, and lock records cannot exceed 60MB on OpenServer 5.0.x.
Streams buffers are allocated in units of 4096 byte pages, clists are 70 bytes each, and lock records are 64 bytes each, so:
(NSTRPAGES * 4096) + (NCLIST * 70) + (MAX_FLCKREC * 64) <= 62914560
Follow this procedure to configure the Database Services option. If you are unsure whether an application requires this, see the documentation provided with the application.
Log in as root
.
Enable the SUDS driver by editing the
/etc/conf/sdevice.d/suds
file. Change
the N
in the second field to a
Y
.
Use mkdev aio
or the Hardware/Kernel
Manager to enable support for asynchronous I/O and relink
the kernel. To allow users to lock down memory for use
with this type of I/O, update the aiomemlock(F) file. This
file should be updated to include the names of users that
can use AIO and the maximum amounts of memory they can
lock down.
Many applications use setuid binaries so that you need to specify only a single user. See the documentation provided with the application to see whether this is the case for your application.
After you complete this process, reboot the system to create a new kernel incorporating these changes.
By default, the entries in
/etc/conf/cf.d/mtune
are set as follows:
Value Default Min Max ----- ------- --- --- NBUF 0 24 450000 NHBUF 0 32 524288 NMPBUF 0 12 512 MAX_INODE 0 100 64000 MAX_FILE 0 100 64000 CTBUFSIZE 128 0 256 MAX_PROC 0 50 16000 MAX_REGION 0 500 160000 NCLIST 170 120 16640 MAXUP 100 15 16000 NOFILES 110 60 11000 NHINODE 128 64 8192 NAUTOUP 10 0 60 NGROUPS 8 0 128 BDFLUSHR 30 1 300 MAX_FLCKREC 0 50 16000 PUTBUFSZ 8000 2000 20000 MAXSLICE 100 25 100 ULIMIT 4194303 2048 4194303 * Streams Parameters NSTREAM 64 1 32768 NSTRPUSH 9 9 9 NMUXLINK 192 1 4096 STRMSGSZ 16384 4096 524288 STRCTLSZ 1024 1024 1024 STRMAXBLK 524288 4096 524288 NSTRPAGES 500 0 8000 STRSPLITFRAC 80 50 100 NLOG 3 3 3 NUMSP 64 1 256 NUMTIM 16 1 8192 NUMTRW 16 1 8192 * Semaphore Parameters SEMMAP 10 10 8192 SEMMNI 10 10 8192 SEMMNS 60 60 8192 SEMMNU 30 10 8192 SEMMSL 25 25 150 SEMOPM 10 10 1024 SEMUME 10 10 25 SEMVMX 32767 32767 32767 SEMAEM 16384 16384 16384 * Shared Memory Parameters SHMMAX 524288 131072 2147483647 SHMMIN 1 1 1 SHMMNI 100 100 2000 FILE 0 100 64000 NMOUNT 0 4 256 NPROC 0 50 16000 NREGION 0 500 160000
We recommend setting these values as follows:
NOFILES
should be 4096 or 2048.
MAXUP
should be 2048.
To make changes to the kernel, cd
to
/etc/conf/bin
and use
./idtune name
parameter
to make the changes. For example, to
change SEMMS
to 200
,
execute these commands as root
:
# cd /etc/conf/bin # ./idtune SEMMNS 200
We recommend tuning the system, but the proper parameter
values to use depend on the number of users accessing the
application or database and size the of the database (that is,
the used buffer pool). The following affects the kernel
parameters defined in
/etc/conf/cf.d/stune
:
SHMMAX
(recommended setting: 128MB) and
SHMSEG
(recommended setting: 15). These
parameters have influence on the MySQL database engine to
create user buffer pools.
NOFILES
and MAXUP
should
be at to at least 2048.
MAXPROC
should be set to at least 3000/4000
(depends on number of users) or more.
Also is recommended to use following formula to count value
for SEMMSL
, SEMMNS
and
SEMMNU
:
SEMMSL = 13
The 13 is what has been found to be the best for both Progress and MySQL.
SEMMNS
= SEMMSL
* number
of db servers to be run on the system.
Set SEMMNS
to the value of
SEMMSL
multiplied by the number of db
servers (maximum) that you are running on the system at one
time.
SEMMNU = SEMMNS
Set the value of SEMMNU
to equal the value
of SEMMNS
. You could probably set this to
75% of SEMMNS
, but this is a conservative
estimate.
You need to at least install the "SCO OpenServer Linker and Application Development Libraries" or the OpenServer Development System to use gcc. You cannot just use the GCC Dev system without installing one of these.
You should get the FSU Pthreads package and install it first. This can be found at http://moss.csc.ncsu.edu/~mueller/ftp/pub/PART/pthreads.tar.gz. You can also get a precompiled package from ftp://ftp.zenez.com/pub/zenez/prgms/FSU-threads-3.14.tar.gz.
FSU Pthreads can be compiled with SCO Unix 4.2 with tcpip, or
using OpenServer 3.0 or Open Desktop 3.0 (OS 3.0 ODT 3.0) with
the SCO Development System installed using a good port of GCC
2.5.x. For ODT or OS 3.0, you need a good port of GCC 2.5.x.
There are a lot of problems without a good port. The port for
this product requires the SCO Unix Development system. Without
it, you are missing the libraries and the linker that is
needed. You also need
SCO-3.2v4.2-includes.tar.gz
. This file
contains the changes to the SCO Development include files that
are needed to get MySQL to build. You need to replace the
existing system include files with these modified header
files. They can be obtained from
ftp://ftp.zenez.com/pub/zenez/prgms/SCO-3.2v4.2-includes.tar.gz.
To build FSU Pthreads on your system, all you should need to
do is run GNU make. The
Makefile
in FSU-threads-3.14.tar.gz is
set up to make FSU-threads.
You can run ./configure in the
threads/src
directory and select the SCO
OpenServer option. This command copies
Makefile.SCO5
to
Makefile
. Then run
make.
To install in the default /usr/include
directory, log in as root
, and then
cd
to the thread/src
directory and run make install.
Remember that you must use GNU make to build MySQL.
Note: If you don't start
mysqld_safe as root
, you
should get only the default 110 open files per process.
mysqld writes a note about this in the log
file.
With SCO 3.2V4.2, you should use FSU Pthreads version 3.14 or newer. The following configure command should work:
CFLAGS="-D_XOPEN_XPG4" CXX=gcc CXXFLAGS="-D_XOPEN_XPG4" \ ./configure \ --prefix=/usr/local/mysql \ --with-named-thread-libs="-lgthreads -lsocket -lgen -lgthreads" \ --with-named-curses-libs="-lcurses"
You may have problems with some include files. In this case, you can find new SCO-specific include files at ftp://ftp.zenez.com/pub/zenez/prgms/SCO-3.2v4.2-includes.tar.gz.
You should unpack this file in the
include
directory of your MySQL source
tree.
SCO development notes:
MySQL should automatically detect FSU Pthreads and link
mysqld with -lgthreads -lsocket
-lgthreads
.
The SCO development libraries are re-entrant in FSU Pthreads. SCO claims that its library functions are re-entrant, so they must be re-entrant with FSU Pthreads. FSU Pthreads on OpenServer tries to use the SCO scheme to make re-entrant libraries.
FSU Pthreads (at least the version at
ftp::/ftp.zenez.com) comes linked with GNU
malloc
. If you encounter problems with
memory usage, make sure that
gmalloc.o
is included in
libgthreads.a
and
libgthreads.so
.
In FSU Pthreads, the following system calls are
pthreads-aware: read()
,
write()
, getmsg()
,
connect()
, accept(),
select()
, and
wait()
.
The CSSA-2001-SCO.35.2 (the patch is listed in custom as erg711905-dscr_remap security patch (version 2.0.0)) breaks FSU threads and makes mysqld unstable. You have to remove this one if you want to run mysqld on an OpenServer 5.0.6 machine.
If you use SCO OpenServer 5, you may need to recompile FSU
pthreads with -DDRAFT7
in
CFLAGS
. Otherwise,
InnoDB
may hang at a
mysqld startup.
SCO provides operating system patches at ftp://ftp.sco.com/pub/openserver5 for OpenServer 5.0.x.
SCO provides security fixes and
libsocket.so.2
at
ftp://ftp.sco.com/pub/security/OpenServer
and ftp://ftp.sco.com/pub/security/sse for
OpenServer 5.0.x.
Pre-OSR506 security fixes. Also, the
telnetd
fix at
ftp://stage.caldera.com/pub/security/openserver/
or
ftp://stage.caldera.com/pub/security/openserver/CSSA-2001-SCO.10/
as both libsocket.so.2
and
libresolv.so.1
with instructions for
installing on pre-OSR506 systems.
It's probably a good idea to install these patches before trying to compile/use MySQL.
Beginning with Legend/OpenServer 6.0.0, there are native threads and no 2GB file size limit.
OpenServer 6 includes these key improvements:
Larger file support up to 1 TB
Multiprocessor support increased from 4 to 32 processors
Increased memory support up to 64 GB
Extending the power of UnixWare into OpenServer 6
Dramatic performance improvement
OpenServer 6.0.0 commands are organized as follows:
/bin
is for commands that behave
exactly the same as on OpenServer 5.0.x.
/u95/bin
is for commands that have
better standards conformance, for example Large File
System (LFS) support.
/udk/bin
is for commands that behave
the same as on UnixWare 7.1.4. The default is for the LFS
support.
The following is a guide to setting PATH on OpenServer 6. If
the user wants the traditional OpenServer 5.0.x then
PATH
should be /bin
first. If the user wants LFS support then the path should be
/u95/bin:/bin
. If the user want UnixWare
7 support first then the path would be
/udk/bin:/u95/bin:/bin:
.
We recommend using the latest production release of MySQL.
We have been able to compile MySQL with the following configure command on OpenServer 6.0.x:
CC="cc" CFLAGS="-I/usr/local/include" \ CXX="CC" CXXFLAGS="-I/usr/local/include" \ ./configure --prefix=/usr/local/mysql \ --enable-thread-safe-client --with-berkeley-db=./bdb \ --with-innodb --with-openssl --with-extra-charsets=complex \ --enable-readline
If you want to use gcc, you must use gcc 2.95.3 or newer.
CC=gcc CXX=g++ ./configure --prefix=/usr/local/mysql
The version of Berkeley DB that comes with either UnixWare
7.1.4 or OpenServer 6.0.0 is not used when building MySQL.
MySQL instead uses its own version of Berkeley DB. The
configure command needs to build both a
static and a dynamic library in
,
but it does not with MySQL's own src_directory
/bdb/build_unix/BDB
version. The workaround is as follows.
Configure as normal for MySQL.
cd bdb/build_unix/
cp -p Makefile to Makefile.sav
Use same options and run ../dist/configure.
Run gmake.
cp -p Makefile.sav Makefile
Change to top source directory and run gmake.
This allows both the shared and dynamic libraries to be made
and work. OpenServer 6.0.0 also needs patches to the MySQL
source tree and the patch for
config.guess
applied to
bdb/dist/config.guess
. You can download
the patches from
ftp://ftp.zenez.com/pub/zenez/prgms/mysql-4.1.12-osr6-patches.tar.gz
and from
ftp://ftp.zenez.com/pub/zenez/prgms/mysql-4.x.x-osr6-patches.
There is a README
file there to assist.
SCO provides OpenServer 6 operating system patches at ftp://ftp.sco.com/pub/openserver6.
SCO provides information about security fixes at ftp://ftp.sco.com/pub/security/OpenServer.
By default, the maximum file size on a OpenServer 6.0.0 system is 1TB. Some operating system utilities have a limitation of 2GB. The maximum possible file size on UnixWare 7 is 1TB with VXFS or HTFS.
By default, the entries in
/etc/conf/cf.d/mtune
are set to:
Value Default Min Max ----- ------- --- --- SVMMLIM 0x9000000 0x1000000 0x7FFFFFFF HVMMLIM 0x9000000 0x1000000 0x7FFFFFFF SSTKLIM 0x1000000 0x2000 0x7FFFFFFF HSTKLIM 0x1000000 0x2000 0x7FFFFFFF
We recommend setting these values as follows:
SDATLIM 0x7FFFFFFF HDATLIM 0x7FFFFFFF SSTKLIM 0x7FFFFFFF HSTKLIM 0x7FFFFFFF SVMMLIM 0x7FFFFFFF HVMMLIM 0x7FFFFFFF SFNOLIM 2048 HFNOLIM 2048
We recommend tuning the system, but the proper parameter
values to use depend on the number of users accessing the
application or database and size the of the database (that is,
the used buffer pool). The following affects the kernel
parameters defined in
/etc/conf/cf.d/stune
:
SHMMAX
(recommended setting: 128MB) and
SHMSEG
(recommended setting: 15). These
parameters have influence on the MySQL database engine to
create user buffer pools.
SFNOLIM
and HFNOLIM
should be at maximum 2048.
NPROC
should be set to at least 3000/4000
(depends on number of users).
Also is recommended to use following formula to count value
for SEMMSL
, SEMMNS
, and
SEMMNU
:
SEMMSL = 13
13 is what has been found to be the best for both Progress and MySQL.
SEMMNS
= SEMMSL
* number
of db servers to be run on the system.
Set SEMMNS
to the value of
SEMMSL
multiplied by the number of db
servers (maximum) that you are running on the system at one
time.
SEMMNU
= SEMMNS
Set the value of SEMMNU
to equal the value
of SEMMNS
. You could probably set this to
75% of SEMMNS
, but this is a conservative
estimate.
We recommend using the latest production release of MySQL.
We have been able to compile MySQL with the following configure command on UnixWare 7.1.x:
CC="cc" CFLAGS="-I/usr/local/include" \ CXX="CC" CXXFLAGS="-I/usr/local/include" \ ./configure --prefix=/usr/local/mysql \ --enable-thread-safe-client --with-berkeley-db=./bdb \ --with-innodb --with-openssl --with-extra-charsets=complex
If you want to use gcc, you must use gcc 2.95.3 or newer.
CC=gcc CXX=g++ ./configure --prefix=/usr/local/mysql
The version of Berkeley DB that comes with either UnixWare
7.1.4 or OpenServer 6.0.0 is not used when building MySQL.
MySQL instead uses its own version of Berkeley DB. The
configure command needs to build both a
static and a dynamic library in
,
but it does not with MySQL's own src_directory
/bdb/build_unix/BDB
version. The workaround is as follows.
Configure as normal for MySQL.
cd bdb/build_unix/
cp -p Makefile to Makefile.sav
Use same options and run ../dist/configure.
Run gmake.
cp -p Makefile.sav Makefile
Change to top source directory and run gmake.
This allows both the shared and dynamic libraries to be made and work.
SCO provides operating system patches at ftp://ftp.sco.com/pub/unixware7 for UnixWare 7.1.1, ftp://ftp.sco.com/pub/unixware7/713/ for UnixWare 7.1.3, ftp://ftp.sco.com/pub/unixware7/714/ for UnixWare 7.1.4, and ftp://ftp.sco.com/pub/openunix8 for OpenUNIX 8.0.0.
SCO provides information about security fixes at ftp://ftp.sco.com/pub/security/OpenUNIX for OpenUNIX and ftp://ftp.sco.com/pub/security/UnixWare for UnixWare.
By default, the maximum file size on a UnixWare 7.1.1 system is 1GB, but UnixWare 7.1.4 file size limit is 1 TB with VXFS. Some OS utilities have a limitation of 2GB. The maximum possible file size on UnixWare 7 is 1TB with VXFS.
On UnixWare 7.1.4 you do not need to do anything to get large
file support, but to enable large file support on prior
versions of UnixWare 7.1.x, run fsadm
.
# fsadm -Fvxfs -o largefiles / # fsadm / * Note # ulimit unlimited # cd /etc/conf/bin # ./idtune SFSZLIM 0x7FFFFFFF ** Note # ./idtune HFSZLIM 0x7FFFFFFF ** Note # ./idbuild -B * This should report "largefiles". ** 0x7FFFFFFF represents infinity for these values.
Reboot the system using shutdown
.
By default, the entries in
/etc/conf/cf.d/mtune
are set to:
Value Default Min Max ----- ------- --- --- SVMMLIM 0x9000000 0x1000000 0x7FFFFFFF HVMMLIM 0x9000000 0x1000000 0x7FFFFFFF SSTKLIM 0x1000000 0x2000 0x7FFFFFFF HSTKLIM 0x1000000 0x2000 0x7FFFFFFF
We recommend setting these values as follows:
SDATLIM 0x7FFFFFFF HDATLIM 0x7FFFFFFF SSTKLIM 0x7FFFFFFF HSTKLIM 0x7FFFFFFF SVMMLIM 0x7FFFFFFF HVMMLIM 0x7FFFFFFF SFNOLIM 2048 HFNOLIM 2048
We recommend tuning the system, but the proper parameter
values to use depend on the number of users accessing the
application or database and size the of the database (that is,
the used buffer pool). The following affects the kernel
parameters defined in
/etc/conf/cf.d/stune
:
SHMMAX
(recommended setting: 128MB) and
SHMSEG
(recommended setting: 15). These
parameters have influence on the MySQL database engine to
create user buffer pools.
SFNOLIM
and HFNOLIM
should be at maximum 2048.
NPROC
should be set to at least 3000/4000
(depends on number of users).
Also is recommended to use following formula to count value
for SEMMSL
, SEMMNS
, and
SEMMNU
:
SEMMSL = 13
13 is what has been found to be the best for both Progress and MySQL.
SEMMNS
= SEMMSL
* number
of db servers to be run on the system.
Set SEMMNS
to the value of
SEMMSL
multiplied by the number of db
servers (maximum) that you are running on the system at one
time.
SEMMNU
= SEMMNS
Set the value of SEMMNU
to equal the value
of SEMMNS
. You could probably set this to
75% of SEMMNS
, but this is a conservative
estimate.
MySQL uses quite a few open files. Because of this, you should
add something like the following to your
CONFIG.SYS
file:
SET EMXOPT=-c -n -h1024
If you don't do this, you may encounter the following error:
File 'xxxx
' not found (Errcode: 24)
When using MySQL with OS/2 Warp 3, FixPack 29 or above is required. With OS/2 Warp 4, FixPack 4 or above is required. This is a requirement of the Pthreads library. MySQL must be installed on a partition with a type that supports long filenames, such as HPFS, FAT32, and so on.
The INSTALL.CMD
script must be run from
OS/2's own CMD.EXE
and may not work with
replacement shells such as 4OS2.EXE
.
The scripts/mysql-install-db
script has
been renamed. It is called install.cmd
and
is a REXX script, which sets up the default MySQL security
settings and creates the WorkPlace Shell icons for MySQL.
Dynamic module support is compiled in but not fully tested. Dynamic modules should be compiled using the Pthreads runtime library.
gcc -Zdll -Zmt -Zcrtdll=pthrdrtl -I../include -I../regex -I.. \ -o example udf_example.cc -L../lib -lmysqlclient udf_example.def mv example.dll example.udf
Note: Due to limitations in
OS/2, UDF module name stems must not exceed eight characters.
Modules are stored in the /mysql2/udf
directory; the safe-mysqld.cmd
script puts
this directory in the BEGINLIBPATH
environment variable. When using UDF modules, specified
extensions are ignored---it is assumed to be
.udf
. For example, in Unix, the shared
module might be named example.so
and you
would load a function from it like this:
mysql> CREATE FUNCTION metaphon RETURNS STRING SONAME 'example.so';
In OS/2, the module would be named
example.udf
, but you would not specify the
module extension:
mysql> CREATE FUNCTION metaphon RETURNS STRING SONAME 'example';
Perl support for MySQL is provided by means of the
DBI
/DBD
client interface.
The interface requires Perl 5.6.1 or later. It does not
work if you have an older version of Perl.
If you want to use transactions with Perl DBI, you need to have
DBD::mysql
version 1.2216 or newer.
DBD::mysql
2.9003 or newer is recommended.
If you are using the MySQL 4.1 or newer client library, you must
use DBD::mysql
2.9003 or newer.
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.
Perl support for MySQL must be installed if you want to run the MySQL benchmark scripts. See Section 7.1.4, “The MySQL Benchmark Suite”.
MySQL Perl support requires that you have installed MySQL client programming support (libraries and header files). Most installation methods install the necessary files. However, if you installed MySQL from RPM files on Linux, be sure that you've installed the developer RPM. The client programs are in the client RPM, but client programming support is in the developer RPM.
If you want to install Perl support, the files you need 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 username and password. (The default username
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, particularly if you notice symptoms such
as that all your DBI
scripts fail after you
upgrade MySQL.
If you don't 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://servers.digitaldaze.com/extensions/perl/modules.html#modules
Look under the heading “Installing New Modules that Require Locally Installed Modules.”
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 (“DOS window”).
If necessary, set the HTTP_proxy
variable. For example, you might try a setting like this:
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:
install \ ftp://ftp.de.uu.net/pub/CPAN/authors/id/JWIED/DBD-mysql-1.2212.x86.ppd
This procedure should work with ActiveState Perl 5.6 or newer.
If you cannot get the procedure to work, you should install the MyODBC 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:
Compile the DBD::mysql
distribution with
perl Makefile.PL -static -config
rather
than perl Makefile.PL
.
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 pathname of the directory where
libmysqlclient.so
is located to the
/etc/ld.so.conf
file.
Add the pathname 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 pathname of
the directory where libgcc.a
is located on
your system.
Another cause of this problem may be that Perl and MySQL aren't both compiled with gcc. In this case, you can solve the mismatch by compiling both with gcc.
You may see the following error from
DBD::mysql
when you run the tests:
t/00base............install_driver(mysql) failed: Can't load '../blib/arch/auto/DBD/mysql/mysql.so' for module DBD::mysql: ../blib/arch/auto/DBD/mysql/mysql.so: undefined symbol: uncompress at /usr/lib/perl5/5.00503/i586-linux/DynaLoader.pm line 169.
This means that you need to include the -lz
compression library on the link line. That can be done by
changing the following line in the file
lib/DBD/mysql/Install.pm
:
$sysliblist .= " -lm";
Change that line to:
$sysliblist .= " -lm -lz";
After this, you must run make realclean and then proceed with the installation from the beginning.
If you want to install DBI on SCO, you have to edit the
Makefile
in
DBI-xxx
and each subdirectory. Note
that the following assumes gcc 2.95.2 or
newer:
OLD: NEW: CC = cc CC = gcc CCCDLFLAGS = -KPIC -W1,-Bexport CCCDLFLAGS = -fpic CCDLFLAGS = -wl,-Bexport CCDLFLAGS = LD = ld LD = gcc -G -fpic LDDLFLAGS = -G -L/usr/local/lib LDDLFLAGS = -L/usr/local/lib LDFLAGS = -belf -L/usr/local/lib LDFLAGS = -L/usr/local/lib LD = ld LD = gcc -G -fpic OPTIMISE = -Od OPTIMISE = -O1 OLD: CCCFLAGS = -belf -dy -w0 -U M_XENIX -DPERL_SCO5 -I/usr/local/include NEW: CCFLAGS = -U M_XENIX -DPERL_SCO5 -I/usr/local/include
These changes are necessary because the Perl dynaloader does not
load the DBI
modules if they were compiled
with icc or cc.
If you want to use the Perl module on a system that doesn't
support dynamic linking (such as SCO), you can generate a static
version of Perl that includes DBI
and
DBD::mysql
. The way this works is that you
generate a version of Perl with the DBI
code
linked in and install it on top of your current Perl. Then you
use that to build a version of Perl that additionally has the
DBD
code linked in, and install that.
On SCO, you must have the following environment variables set:
LD_LIBRARY_PATH=/lib:/usr/lib:/usr/local/lib:/usr/progressive/lib
Or:
LD_LIBRARY_PATH=/usr/lib:/lib:/usr/local/lib:/usr/ccs/lib:\ /usr/progressive/lib:/usr/skunk/lib LIBPATH=/usr/lib:/lib:/usr/local/lib:/usr/ccs/lib:\ /usr/progressive/lib:/usr/skunk/lib MANPATH=scohelp:/usr/man:/usr/local1/man:/usr/local/man:\ /usr/skunk/man:
First, create a Perl that includes a statically linked
DBI
module by running these commands in the
directory where your DBI
distribution is
located:
shell>perl Makefile.PL -static -config
shell>make
shell>make install
shell>make perl
Then you must install the new Perl. The output of make perl indicates the exact make command you need to execute to perform the installation. On SCO, this is make -f Makefile.aperl inst_perl MAP_TARGET=perl.
Next, use the just-created Perl to create another Perl that also
includes a statically linked DBD::mysql
by
running these commands in the directory where your
DBD::mysql
distribution is located:
shell>perl Makefile.PL -static -config
shell>make
shell>make install
shell>make perl
Finally, you should install this new Perl. Again, the output of make perl indicates the command to use.