User:Dan Nessett/Technical/How to set up a CZ clone on CentOS 5
These instructions describe how to set up a LAPP stack (Linux Apache2 Postgres PHP stack) on CentOS 5.4. They are intended as an alternative to the instructions for creating a LAPP stack on Ubuntu for the purpose of creating a local CZ clone. They have been tested and verified to work on a fresh CentOS 5.4 install.
It must be noted that unlike Ubuntu, CentOS is much more expert friendly and much less novice friendly. For those without significant experience with Linux systems (specifically, installing and administering them), the recommended OS for a CZ clone is Ubuntu. However, the production version of the CZ wiki runs on CentOS, so for those with the requisite experience and skills, implementing a CZ clone for development work on CentOS has certain advantages. But with those advantages comes risks. The yum software installation system on CentOS is prone to significant configuration problems, especially when setting up its repositories. So, those choosing to use CentOS do so at their own risk. Caveat Emptor.
Installing postgres
The version of postgres we want is not available through the normal CentOS software repositories. So, we have to modify the repository information to direct yum to install the correct version. (Note: these instructions are based on those given at Yet Another Guide.
First find out what is the latest install package for postgres 8.3 (install packages for CentOS have the suffix rpm). Using a new tab or browser window, follow the link postgres rpms. Three files should display in the browser window. One of these will have the name pgdg-centos-8.3-x.noarch.rpm, where x will be a number, such as 6. Now download the appropriate yum repository configuration by entering the following at a terminal command prompt (replacing the x in the file name with the integer just discovered):
cd /tmp sudo wget http://yum.pgsqlrpms.org/reporpms/8.3/pgdg-centos-8.3-x.noarch.rpm
Then install this information using the following command (again changing the x to the appropriate integer):
sudo chmod +x pgdg-centos-8.3-x.noarch.rpm sudo rpm -ivf pgdg-centos-8.3-x.noarch.rpm
If you are working on a CentOS installation on which some other software has already been installed, it is possible that other repositories are indicated in the yum configuration files that may interfere with the installation of postgres 8.3. You can determine this as folows. Execute the following commands:
cd /etc/yum.repos.d sudo gedit CentOS-base.repo &
If this file is non-empty, then do the following. (If the file is empty, simply close it without making any changes). There are sections in the configuration file each headed by a word in square brackets. If there are two sections labeled [base] and [updates] then at the bottom of those sections add the line:
exclude=postgresql*
Click on the Save button at the top of the edit window and close it.
Now execute the following commands:
sudo yum install postgresql sudo yum install postgresql-server
For each command a bunch of text is displayed followed by a line that specifies the total download size. The next line is a prompt: Is this ok [y/N]:. You must type y. The default is N, which (of course) means no and taking it will abort the install.
The install of postgres on CentOS does not initialize the directory that postgres uses to store database information. So, the next step is to do this. Execute the following commands:
sudo /etc/rc.d/init.d/postgresql initdb
Installing postgres doesn't mean the server starts up when the system boots. We have to configure the system to do that. First, check that chkconfig is in your execution path. At a command prompt enter:
chkconfig
If the error bash: chkconfig: command not found is returned, you will have to add /sbin to $PATH. This requires editing .bash_profile (remember to cd to your home directory):
gedit .bash_profile &
In the edit window there should be a line starting with $PATH. At the end of this line add :/sbin (don't forget the colon at the beginning of this text and there should be no space between the colon and the rest of the line). Then save the edit, exit the editor and type:
source .bash_profile chkconfig
This should result in an error message about usage. When chkconfig is working, enter the following commands:
sudo chkconfig --add postgresql sudo chkconfig postgresql on
Now reboot your system and when that completes open a terminal window. Type:
su su postgres psql
A welcome message should display, followed by hints on psql commands and then the prompt postgres=#. At this prompt type \q.
Your terminal identity was changed from your CentOS username to root and then to postgres. Get back to root by typing:
exit
You should see a # prompt. There is one more thing we have to do before proceeding. In CentOS, the default trust model is ident based. This causes problems when configuring the postgres databases using pgAdmin III. So, we need to make one change to the postgres configuration file. Execute the following commands at a terminal window prompt:
cd /var/lib/pgsql/data gedit pg_hba.conf &
An edit window should appear. Scroll to the end of the file and find the entry with the comment "local" is for Unix domain socket connections only. The next entries control access when connections to the postgres server come from the local host. Copy the text below and replace the corresponding text. The entry should now look like the following:
# "local" is for Unix domain socket connections only #local all all ident sameuser local all all trust # IPv4 local connections: #host all all 127.0.0.1/32 ident sameuser host all all 127.0.0.1/32 trust
Save the file and exit the editor. Now restart the postgres server with the following command:
/etc/rc.d/init.d/postgresql restart
This change allows you to manipulate postgres through pgAdmin III without changing your CentOS user identity using su or sudo. The install of postgres is now complete. You can exit from root or remain at root and ignore the sudo prefixes in the next section.
Installing apache2 and PHP
Installing postgres is a lot of work. Fortunately, installing the other two components of the LAPP stack takes much less effort. First, we will install the apache2 web server. In a terminal window execute the following command:
sudo yum install httpd
Follow the normal install procedure by answering y to the question. You may be prompted with a question whether it is OK to import a GPG key. If so, answer y.
After the install completes, execute the following two commands:
sudo chkconfig --levels 235 httpd on sudo /etc/init.d/httpd start
Then in your favorite browser, create a new tab or window and in the URL field type: http://localhost. An apache2 test page should display. If so, apache2 is installed. If not, then make sure you correctly executed all of the commands specified above.
To install PHP5 is even simpler. Execute the following commands:
sudo yum install php sudo yum install php-pgsql
If you want to test that PHP5 is working properly, execute:
cd /var/www/html sudo gedit phpinfo.php &
When the empty edit window appears, enter the following information:
<?php phpinfo(); ?>
Save the edit and then execute:
sudo /etc/init.d/httpd restart
This command restarts the apache2 server so it is aware that PHP5 is available. Now in a browser create a new tab or window and in the URL field type:
http://localhost/phpinfo.php
A page containing information about the PHP5 installation should appear, followed by information about installed PHP5 extensions.
Finishing up
In order to install the CZ software, the installer must use the subversion client. CentOS 5.4 doesn't come with subversion , so it must be manually installed. At a terminal prompt execute:
sudo yum install mod_dav_svn subversion
After this installation completes, the LAPP stack and other software for creating a CZ clone is available. Go to the page on Configuring the LAPP stack and continue with LAPP stack conguration. You may skip the first part of the Configure Apache2 section, since you have already tested that PHP5 is correctly working. (Furthermore, document root on CentOS is different than that on Ubuntu, so there are some differences in how to carry out this test).
After completing the install of the CZ wiki software, you will return to the next section to install and configure some optional features.
Post wiki software installation and configuration
While all of the software necessary to create a CZ clone is described in the previous sections, there is other software installation and configuration required to support optional, but commonly provided features. Specifically, we must install and configure the texvc software in order for mathematical equations to display and we also must configure the email feature of the mediawiki software.
Installing and configuring texvx
TeX support on the mediawiki software (on which the CZ software is based) requires the installation and configuration of several software packages. While for some this may go smoothly, others have had significant problems getting math equations to appear properly on wiki pages. Since this functionality is pretty basic to much of the content on CZ, there really is no option but to support it. However, be prepared for some frustration in getting this to work properly.
The software we need is not available on the software repositories that ship with CentOS 5.4. So, we need to add one. Note: third party yum software repositories can be hazardous to use. The original author of this article once added several third party repositories of questionable quality and after updating the system software, yum stopped working (yum is a python script and the update corrupted the python subsystem). So, you should be very careful when adding repositories to your yum configuration information.
In this case, we will add RPMForge. This third party repository has a good reputation and so should not be dangerous to use. However, there are no guarantees and since those installing a CZ clone on CentOS 5.4 should be experienced CentOS installers, they are expected to have the skills to get out of problems caused when a third party repository corrupts their system.
The first thing to do is to install yum priorities. In a terminal window execute:
sudo yum install yum-priorities
As always, when prompted whether you wish to continue, answer y.
Make sure priorities are enabled (they are in a fresh CentOS 5.4 install) by executing:
cat /etc/yum/pluginconf.d/priorities.conf
This should produce the following output:
[main] enabled = 1
If enabled is not set to 1, edit the file and change it so it is.
Now, cd to /etc/yum.repos.d and edit each file by setting the priority for each repository listed. The recommended settings (given by the CentOS wiki at http://wiki.centos.org/AdditionalResources/Repositories/RPMForge) are:
[base], [addons], [updates], [extras] ... priority=1 [centosplus],[contrib] ... priority=2 Third Party Repos such as rpmforge ... priority=N (where N is > 10 and based on your preference)
For example, execute the following in a terminial window:
cd /etc/yum.repos.d sudo gedit CentOS-Base.repo
When the edit window opens, you will see sections labeled by the section identifiers given above. For example:
[base] name=CentOS-$releasever - Base mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=os #baseurl=http://mirror.centos.org/centos/$releasever/os/$basearch/ gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-5 #released updates [updates] name=CentOS-$releasever - Updates mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=updates #baseurl=http://mirror.centos.org/centos/$releasever/updates/$basearch/ gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-5
After the gpgkey line add priority=1. These two sections should now look like:
[base] name=CentOS-$releasever - Base mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=os #baseurl=http://mirror.centos.org/centos/$releasever/os/$basearch/ gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-5 priority=1 #released updates [updates] name=CentOS-$releasever - Updates mirrorlist=http://mirrorlist.centos.org/?release=$releasever&arch=$basearch&repo=updates #baseurl=http://mirror.centos.org/centos/$releasever/updates/$basearch/ gpgcheck=1 gpgkey=file:///etc/pki/rpm-gpg/RPM-GPG-KEY-CentOS-5 priority=1
Make sure you set the priorities correctly for all of the sections.
For the [centosplus],[contrib] sections, ensure the variable enabled is set to 1. That is:
enabled=1
Set the priority variable on sections in all other .repo files in the directory.
Now determine what is the machine architecture:
uname -i
This should return either i386 or x86_64. Depending on this value in a terminal window execute:
cd /tmp
i386:
sudo wget http://apt.sw.be/redhat/el5/en/i386/RPMS.dag/rpmforge-release-0.3.6-1.el5.rf.i386.rpm
x86_64:
sudo wget http://apt.sw.be/redhat/el5/en/x86_64/RPMS.dag/rpmforge-release-0.3.6-1.el5.rf.x86_64.rpm
rpm packages are signed, so in order to use them we have to download the key for RPMForge. In a terminal window execute:
sudo rpm --import http://dag.wieers.com/rpm/packages/RPM-GPG-KEY.dag.txt
Then verify the package:
sudo rpm -K rpmforge-release-0.3.6-1.el5.rf.*.rpm
Now install the repository into the systems repository list:
sudo rpm -i rpmforge-release-0.3.6-1.el5.rf.*.rpm
Check that the installation completed properly:
yum check-update
RPMForge should appear in the list of repositories and there should be activity showing the information associated with it is updated.
Now that RPMForge is added to the repository list, we must set its priority correctly. In a terminal window execute:
cd /etc/yum.repos.d sudo gedit rpmforge.repo
At the end of the [rpmforge] section add:
priority=11
Save the file and exit the editor.
Texvc depends on other software on the system. Particularly, both ImageMagick and Ghostscript must be installed. These utilities are installed by default in CentOS 5.4. To ensure this, execute:
whereis ImageMagick whereis ghostscript
(make sure to capitalize the I and M in ImageMagick). This should result in the following output:
ImageMagick: /usr/share/man/man1/ImageMagick.1.gz
ghostscript: /usr/bin/ghostscript /etc/ghostscript /usr/lib/ghostscript /usr/share/ghostscript /usr/share/man/man1/ghostscript.1.gz
or something similar.
If one or the other of these utilities is missing, you will have to install them with yum, i.e.,
sudo yum install ImageMagick
and/or
sudo yum install ghostscript
After ensuring the availablity of ImageMagick and Ghostscript, we must install ocaml. In a terminal window execute:
sudo yum install ocaml
Ocaml requires the availability of the gcc compiler. Check whether it exists by executing in a terminal window:
gcc
If this returns:
gcc: no input files
gcc is installed. Otherwise, execute:
sudo yum install gcc gcc-c++ autoconf automake
and answer y at the appropriate time.
We are finally in a position to build texvc. In a terminal window execute:
cd /usr/local/src/mediawiki/CZ_1_13_2/phase3/math make