Linux Internet Web Server and Domain Configuration Tutorial
HowTo Create a Linux website server
Create a web server with Linux, Apache, FTP and bind DNS: This tutorial covers the Linux server configuration required to host a website. The Apache web server, FTP server and DNS configuration are covered. The Apache web server is required to serve the web pages, the FTP server is required for users to upload content and the DNS server is required to resolve the domain names so that a URL entered into a web browser will point to your web server and properly serve the correct pages. The configurations presented will include virtual hosting which will allow a single Linux server to support multiple web site domains.
Tutorial topics:
* # Linux Apache web (httpd) server configuration
* # Linux FTPd server and FTP user accounts
o # vsFTPd and FTP user account configuration
o # wu-FTPd and FTP user account configuration
* # Basic "user account" configuration for maximum security on an Internet based web server
* # Linux DNS (Domain Name Server) configuration using Bind version 8 or 9 (named)
* # Web Server Load Balancing
* # Managing web server daemons (services)
* # Links and Resources
Also see: Web Site Security Tutorial - YoLinux Internet Server Security Tutorial
Related YoLinux Tutorials:
°Apache login authentication
°Securing Linux
°Linux Security Tools
°Linux Networking
°Linux Sys Admin
°Internet Gateway
°YoLinux Tutorials Index
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Prerequisites:
This tutorial assumes that a computer has Linux installed and running. See RedHat Installation for the basics. A connection to the internet is also assumed. A connection of 128 Mbits/sec or greater will yield the best results. ISDN, DSL, cable modem or better are all suitable. A 56k modem will work but the results will be mediocre at best. The tasks must also be performed with the root user login and password.
Software Prerequisites: The Apache web server (httpd), FTP (requires xinetd or inetd) and Bind (named) software packages with their dependencies are all required. One can use the rpm command to verify installation:
* Fedora Core 1+, Red Hat Enterprise 4/5, CentOS 4/5:
rpm -q httpd bind bind-chroot bind-utils system-config-bind xinetd vsftpd
RPMs added FC2+: system-config-httpd
RPMs added FC3+: httpd-suexec
* Red Hat 9.0
rpm -q httpd bind xinetd vsftpd
A Red Hat 8.0 wu-ftpd RPM may be installed (Newer version 2.6.2 or later with security fix wu-ftpd-2.6.2-11+) or install from source.
* Red Hat 8.0
rpm -q httpd bind xinetd wu-ftpd
* Red Hat 7.x:
rpm -q apache bind inetd wu-ftpd
Use wu-ftpd version 2.6.2 or later to avoid security problems.
* SuSE 9.3:
rpm -ivh apache2 apache2-prefork bind bind-chrootenv bind-utils vsftpd
Note: The apache2-MPM is a generic term for Apache installation options for "Multi-Processing Modules (MPM)s "prefork" or "worker". If you try and only install apache2 you will get the following error:
apache2-MPM is needed by apache2-2.0.53-9
Also see Apache.org: MPMs
* Ubuntu (dapper 6.06/hardy 8.04) / Debian:
apt-get install apache2
apt-get install apache2-common
apt-get install apache2-mpm-prefork
apt-get install apache2-utils
apt-get install bind9
apt-get install vsftpd
One should also have a working knowledge of the Linux init process so that these services are initiated upon system boot. See the YoLinux init process tutorial for more info.
Apache HTTP Web server configuration:
This tutorial is for the Apache HTTP web server (Version 1.3 and 2.0). See the YoLinux list of Linux HTTP servers for a list of other web servers for the Hyper Text Transport Protocol.
The Apache configuration file is: /etc/httpd/conf/httpd.conf
Web pages are served from the directory as configured by the DocumentRoot directive. The default directory location is:
* Red Hat 7.x-9, Fedora Core, Red Hat Enterprise 4/5, CentOS 4/5: /var/www/html/
* Red Hat 6.x and older: /home/httpd/html/
* Suse 9.x: /srv/www/htdocs/
* Ubuntu (dapper 6.06/hardy 8.04) / Debian: /var/www/html
The default home page for the default configuration is index.html. Note the pages should not be owned by user apache as this is the process owner of the httpd web server daemon. If the web server process is comprimised, it should not be allowed to alter the files. The files should of course be readable by user apache.
Apache may be configured to run as a host for one web site in this fashion or it may be configured to serve for multiple domains. Serving for multiple domains may be achieved in two ways:
* Virtual hosts: One IP address but multiple domains - "Name based" virtual hosting.
* Multiple IP based virtual hosts: One IP address for each domain - "IP based" virtual hosting.
The default configuration will allow one to have multiple user accounts under one domain by using a reference to the user account: http://www.domain.com/~user1/. If no domain is registered or configured, the IP address may also be used: http://XXX.XXX.XXX.XXX/~user1/.
[Potential Pitfall] The default umask for directory creation is correct by default but if not use: chmod 755 /home/user1/public_html
[Potential Pitfall] When creating new "Directory" configuration directives, I found that placing them by the existing "Directory" directives to be a bad idea. It would not use the .htaccess file. This was because the statement defining the use of the .htaccess file was after the "Directory" statement. Previously in RH 6.x the files were separated and the order was defined a little different. I now place new "Directory" statements near the end of the file just before the "VirtualHost" statements.
For users of Red Hat 7.1, the GUI configuration tool apacheconf was introduced for the crowd who like to use pretty point and click tools.
Files used by Apache:
* Start/stop/restart script:
o Red Hat/Fedora/CentOS: /etc/rc.d/init.d/httpd
o SuSE 9.3: /etc/init.d/apache2
o Ubuntu (dapper 6.06/hardy 8.04) / Debian: /etc/init.d/apache2
* Apache main configuration file:
o Red Hat/Fedora/CentOS: /etc/httpd/conf/httpd.conf
o SuSE: /etc/apache2/httpd.conf
(Need to add directive: ServerName host-name)
o Ubuntu (dapper 6.06/hardy 8.04) / Debian: /etc/apache2/apache2.conf
* Apache suplementary configuration files:
o Red Hat/Fedora/CentOS: /etc/httpd/conf.d/component.conf
o SuSE: /etc/apache2/conf.d/component.conf
o Ubuntu (dapper 6.06/hardy 8.04) / Debian:
+ Virtual domains: /etc/apache2/sites-enabled/domain
(Create soft link from /etc/apache2/sites-enabled/domain to /etc/apache2/sites-available/domain to turn on. Use command a2ensite)
+ Additional configuration directives: /etc/apache2/conf.d/
+ Modules to load: /etc/apache2/mods-available/
(Soft link to /etc/apache2/mods-enabled/ to turn on)
+ Ports to listen to: /etc/apache2/ports.conf
* /var/log/httpd/access_log and error_log - Red Hat/Fedora Core Apache log files
(Suse: /var/log/apache2/)
Start/Stop/Restart scripts: The script is to be run with the qualifiers start, stop, restart or status.
i.e. /etc/rc.d/init.d/httpd restart. A restart allows the web server to start again and read the configuration files to pick up any changes. To have this script invoked upon system boot issue the command chkconfig --add httpd. See Linux Init Process Tutorial for a more complete discussion.
Also Apache control tool: /usr/sbin/apachectl start
Apache Control Command: apachectl:
Red Hat / Fedora Core / CentOS: apachectl directive
Ubuntu dapper 6.06 / hardy 8.04 / Debian: apache2ctl directive
Directive Description
start Start the Apache httpd daemon. Gives an error if it is already running.
stop Stops the Apache httpd daemon.
graceful Gracefully restarts the Apache httpd daemon. If the daemon is not running, it is started. This differs from a normal restart in that currently open connections are not aborted.
restart Restarts the Apache httpd daemon. If the daemon is not running, it is started. This command automatically checks the configuration files as in configtest before initiating the restart to make sure the daemon doesn't die.
status Displays a brief status report.
fullstatus Displays a full status report from mod_status. Requires mod_status enabled on your server and a text-based browser such as lynx available on your system. The URL used to access the status report can be set by editing the STATUSURL variable in the script.
configtest
-t Run a configuration file syntax test.
Apache Configuration Files:
* /etc/httpd/conf/httpd.conf: is used to configure Apache. In the past it was broken down into three files. These may now be all concatenated into one file. See Apache online documentation for the full manual.
* /etc/httpd/conf.d/application.conf: All configuration files in this directory are included during Apache start-up. Used to store application specific configurations.
* /etc/sysconfig/httpd: Holds environment variables used when starting Apache.
Basic settings: Change the default value for ServerName www.
Giving Apache access to the file system: It is prudent to limit Apache's view of the file system to only those directories necessary. This is done with the directory statement. Start by denying access to everything, then grant access to the necessary directories.
Deny access completely to file system root ("/") as the default:
Deny first, then grant permissions:
Options None
AllowOverride None
Set default location of system web pages and allow access: (Red Hat/Fedora/CentOS)
DocumentRoot "/var/www/html"
Options Indexes FollowSymLinks
AllowOverride None
Order allow,deny
Allow from all
Grant access to a user's web directory: public_html
* Enabling Red Hat / Fedora Linux, Apache public_html user directory access:
This will allow users to serve content from their home directories under the subdirectory "/home/userid/public_html/" by accessing the URL http://hostname/~userid/
File: /etc/httpd/conf/httpd.conf
LoadModule userdir_module modules/mod_userdir.so
...
...
#UserDir disable - Add comment to this line
#
# To enable requests to /~user/ to serve the user's public_html
# directory, remove the "UserDir disable" line above, and uncomment
# the following line instead:
UserDir public_html # Uncomment this line
...
...
AllowOverride FileInfo AuthConfig Limit
Options MultiViews Indexes SymLinksIfOwnerMatch IncludesNoExec
Order allow,deny
Allow from all
Order deny,allow
Deny from all
Change to a comment (add "#" at beginning of line) from Fedora Core default UserDir disable and assign the directory public_html as a web server accessible directory.
OR
Assign a single user the specific ability to share their directory:
AllowOverride None
order allow,deny
allow from all
Options Indexes Includes FollowSymLinks
Allows the specific user, "user1" only, the ability to serve the directory /home/user1/public_html/
Also use SELinux command to set the security context: setsebool httpd_enable_homedirs true
File permissions: The Apache web server daemon must be able to read your web pages in order to feed thier contents to the network. Use an appropriate umask and file protection. This works: chmod ugo+r -R public_html
One may also use groups to control permisions. See the YoLinux tutorial on managing groups.
* Enabling Ubuntu's Apache public_html user directory access:
Ubuntu has broken out the Apache loadable module directives into the directory /etc/apache2/mods-available/. To enable an Apache module, generate soft links to the directory /etc/apache2/sites-enabled/ by using the commands a2enmod/a2dismod to enable/disable Apache modules.
Example:
o [root@node2]# a2enmod
A list of available modules is displayed. Enter "userdir" as the module to enable.
o Restart Apache with the following command: /etc/init.d/apache2 force-reload
Note: This is the same as manually generating the following two soft links:
o ln -s /etc/apache2/mods-available/userdir.conf /etc/apache2/mods-enabled/userdir.conf
o ln -s /etc/apache2/mods-available/userdir.load /etc/apache2/mods-enabled/userdir.load
Man page: a2enmod/a2dismod
[Potential Pitfall]: If the Apache web server can not access the file you will get the error "403 Forbidden" "You don't have permission to access file-name on this server." Note the default permissions on a user directory when first created with "useradd" are:
drwx------ 3 userx userx
You must allow the web server running as user "apache" to access the directory if it is to display pages held there.
Fix with command: chmod ugo+rx /home/userx
drwxr-xr-x 3 userx userx
SELinux security contexts:
Fedora Core 3 and Red Hat Enterprise Linux 4 introduced SELinux (Security Enhanced Linux) security policies and context labels.
To view the security context labels applied to your web page files use the command: ls -Z
The system enables/disables SELinux policies in the file /etc/selinux/config
SELinux can be turned off by setting the directive SELINUX. (Then reboot the system):
SELINUX=disabled
or using the command setenforce 0 to temporarily disable SELinux until the next reboot.
When using SELinux security features, the security context labels must be added so that Apache can read your files. The default security context label used is inherited from the directory for newly created files. Thus a copy (cp) must be used and not a move (mv) when placing files in the content directory. Move does not create a new file and thus the file does not recieve the directory security context label. The context labels used for the default Apache directories can be viewed with the command: ls -Z /var/www
The web directories of users (i.e. public_html) should be set with the appropriate context label (httpd_sys_content_t).
Assign a security context for web pages: chcon -R -h -t httpd_sys_content_t /home/user1/public_html
Options:
* -R: Recursive. Files and directories in current directory and all subdirectories.
* -h: Affect symbolic links.
* -t: Specify type of security context.
Use the following security contexts:
Context Type Description
httpd_sys_content_t Used for static web content. i.e. HTML web pages.
httpd_sys_script_exec_t Use for executable CGI scripts or binary executables.
httpd_sys_script_rw_t CGI is allowed to alter/delete files of this context.
httpd_sys_script_ra_t CGI is allowed to read or append files of this context.
httpd_sys_script_ro_t CGI is allowed to read files and directories of this context.
Set the following options: setsebool httpd-option true
(or set to false)
Policy Description
httpd_enable_cgi Allow httpd cgi support.
httpd_enable_homedirs Allow httpd to read home directories.
httpd_ssi_exec Allow httpd to run SSI executables in the same domain as system CGI scripts.
Then restart Apache:
* Red Hat/Fedora/Suse and all System V init script based Linux systems: /etc/init.d/httpd restart
* Red Hat/Fedora: service httpd restart
The default SE boolean values are specified in the file: /etc/selinux/targeted/booleans
For more on SELinux see the YoLinux Systems Administration tutorial.
Virtual Hosts:
The Apache web server allows one to configure a single computer to represent multiple websites as if they were on separate hosts. There are two methods available and we describe the configuration of each. Choose one method for your domain:
* Name based virtual host: (most common) A single computer with a single IP adress supporting multiple web domains. The web browser using the http protocol, identifies the domain being addressed.
* IP based virtual host: The virtual hosts can be configured as a single multi-homed computer with multiple IP addresses on a single network card, with each IP address representing a different web domain. This has the appearance of a web domain supported by a dedicated computer because it has a dedicated IP address.
Configuring a "name based" virtual host:
A virtual host configuration allows one to host multiple web site domains on one server. (This is not required for a dedicated linux server which hosts a single web site.)
NameVirtualHost XXX.XXX.XXX.XXX
ServerName www.your-domain.com - CNAME (bind DNS alias www) specified in Bind configuration file (/var/named/...)
ServerAlias your-domain.com - Allows requests by domain name without the "www" prefix.
ServerAdmin user1@your-domain.com
DocumentRoot /home/user1/public_html
ErrorLog logs/your-domain.com-error_log
TransferLog logs/your-domain.com-access_log
Notes:
* You can specify more than one IP address. i.e. if web server is also being used as a firewall/gateway and you have an external internet IP address as well as a local network IP address.
NameVirtualHost XXX.XXX.XXX.XXX
NameVirtualHost 192.168.XXX.XXX
...
..
See the YoLinux Tutorial on configuring a network gateway/firewall using iptables and NAT.
* Use your IP address for XXX.XXX.XXX.XXX, actual domain name and e-mail address.
One can use DNS views to provide different local network DNS results.
* Note that I configure Apache for both requests http://www.domain-name.com and http://domain-name.com.
* Once virtual hosts are configured, your default system domain (/var/www/html) will stop working. Your default domain now must be configured as a virtual domain.
... This part remains the same
..
# Default for when no domain name is given (i.e. access by IP address)
ServerAdmin user1@your-domain.com
DocumentRoot /var/www/html
ErrorLog logs/error_log
TransferLog logs/access_log
# Add a VirtualHost definition for your domain which was once the system default.
ServerName www.your-domain.com
ServerAlias your-domain.com
ServerAdmin user1@your-domain.com
DocumentRoot /var/www/html
ErrorLog logs/error_log
TransferLog logs/access_log
...
..
* Forwarding to a primary URL. It is best to avoid the appearance of duplicated web content from two URLs such as http://www.your-domain.com and http://your-domain.com. Supply a forwarding Apache "Redirect".
ServerName www.your-domain.com - Note that no aliases are listed
...
...
# Add a VirtualHost definition to forward to your primary URL
ServerName your-domain.com
ServerAlias other-domain.com
ServerAlias www.other-domain.com
Redirect permanent / http://www.your-domain.com.com/
...
..
Note:
o See the YoLinux.com Apache "Redirect" Tutorial
* More virtual host examples.
When specifying more domains, they may all use the same IP address or some/all may use their own unique IP address. Specify a "NameVirtualHost" for each IP address.
After the Apache configuration files have been edited, restart the httpd daemon: /etc/rc.d/init.d/httpd restart (Red Hat) or /etc/init.d/apache2 restart (Ubuntu / Debian)
Apache virtual domain configuration with Ubuntu Dapper/Hardy:
Ububntu separates out each virtual domain into a separate configuration file held in the directory /etc/apache2/sites-available/. When the site domain is to become active, a soft link is created to the directory /etc/apache2/sites-enabled/.
Example: /etc/apache2/sites-available/supercorp
ServerName supercorp.com
ServerAlias www.supercorp.com
ServerAdmin webmaster@localhost
DocumentRoot /home/supercorp/public_html/home
Options FollowSymLinks
AllowOverride None
Options Indexes FollowSymLinks MultiViews
IndexOptions SuppressLastModified SuppressDescription
AllowOverride All
Order allow,deny
allow from all
ScriptAlias /cgi-bin/ /home/supercorp/cgi-bin/
AllowOverride None
Options +ExecCGI -MultiViews +SymLinksIfOwnerMatch
Order allow,deny
Allow from all
ErrorLog /var/log/apache2/supercorp.com-error.log
# Possible values include: debug, info, notice, warn, error,
# crit, alert, emerg.
LogLevel warn
CustomLog /var/log/apache2/supercorp.com-access.log combined
ServerSignature On
Enable domain:
* Create soft link:
o Manually: ln -s /etc/apache2/sites-available/supercorp /etc/apache2/sites-enabled/supercorp
o Use Ubuntu scripts a2ensite/a2dissite. Type command and it will prompt you as to which site you would like to enable or disable.
* Restart Apache:
o apache2ctl graceful
or
o /etc/init.d/apache2 restart
or
o /etc/init.d/apache2 reload
Also note that Apache modules can also be enabled/disabled with scripts a2enmod/a2dismod.
Man pages:
* a2ensite/a2dissite (Ubuntu: Apache 2 enable/disable site)
* apache2ctl
Configuring an "IP based" virtual host:
One may assign multiple IP addresse to a single network interface. See the YoLinux networking tutorial: Network Aliasing. Each IP address may then be it's own virtual server and individual domain. The downside of the "IP based" virtual host method is that you have to possess multiple/extra IP addresses. This usually costs more. The standard name based virtual hosting method above is more popular for this reason.
NameVirtualHost * - Indicates all IP addresses
ServerAdmin user0@default-domain.com
DocumentRoot /home/user0/public_html
ServerAdmin user1@domain-1.com
DocumentRoot /home/user1/public_html
ServerAdmin user1@domain-2.com
DocumentRoot /home/user2/public_html
The default
CGI: (Common Gateway Interface)
CGI is a program executable which dynamically generates a web page by writing to stdout. CGI is permitted by either of two configuration file directives:
* ScriptAlias:
o Red Hat 7.x-9, Fedora core: ScriptAlias /cgi-bin/ "/var/www/cgi-bin/"
o Red Hat 6.x and older: ScriptAlias /cgi-bin/ "/home/httpd/cgi-bin/"
o Suse 9.x: ScriptAlias /cgi-bin/ "/srv/www/cgi-bin/"
o Ubuntu (dapper/hardy) / Debian: ScriptAlias /cgi-bin/ "/usr/lib/cgi-bin/"
or
* Options +ExecCGI:
Options +ExecCGI
The executable program files must have execute privileges, executable by the process owner (Red Hat 7+/Fedora Core: apache. Older use nobody) under which the httpd daemon is being run.
Configuring CGI To Run With User Privileges:
The suEXEC feature provides Apache users the ability to run CGI and SSI programs under user IDs different from the user ID of the calling web-server. Normally, when a CGI or SSI program executes, it runs as the same user who is running the web server.
NameVirtualHost XXX.XXX.XXX.XXX
ServerName node1.your-domain.com - Allows requests by domain name without the "www" prefix.
ServerAlias your-domain.com www.your-domain.com - CNAME (alias www) specified in Bind configuration file (/var/named/...)
ServerAdmin user1@your-domain.com
DocumentRoot /home/user1/public_html/your-domain.com
ErrorLog logs/your-domain.com-error_log
TransferLog logs/your-domain.com-access_log
SuexecUserGroup user1 user1
Options +ExecCGI +Indexes
AddHandler cgi-script .cgi
ERROR Pages:
You can specify your own web pages instead of the default Apache error pages:
ErrorDocument 404 /Error404-missing.html
Create the file Error404-missing.html in your "DocumentRoot" directory.
PHP:
If the appropriate php, perl and httpd RPM's are installed, the default Red Hat Apache configuration and modules will support PHP content. RPM Packages (RHEL4):
* php: HTML-embedded scripting language
* php-pear: PEAR is a framework and distribution system for reusable PHP components.
* php-mysql: MySQL database support.
* php-ldap: Lightweight Directory Access Protocol (LDAP) support
Apache configuration:
Add php default page index.php to apache config file: /etc/httpd/conf/httpd.conf
...
DirectoryIndex index.html index.htm index.php
...
PHP Configuration File:
* RHEL4 - PHP 4.3: /etc/php.ini
* Ubuntu Daper 6.06/6.11: /etc/php5/apache2/php.ini
[PHP]
engine = On
...
...
display_errors = Off
include_path = ".:/php/includes"
...
...
memory_limit = 32M ; Default is typically 8MB which is too low.
...
...
[MySQL]
...
...
mysql.default_host = superserver ; Hostname of the computer
mysql.default_user = dbuser
...
Small portion of file shown.
Note that changes will not take effect until the apache web server daemon is restarted.
Test you PHP capabilities with this test file: /home/user1/public_html/test.php
phpinfo();
?>
OR (older format)
phpinfo();
?>
Test: http://localhost/~user1/test.php
For more info see YoLinux list of PHP information web sites.
Running Multiple instances of httpd:
The Apache web server daemon (httpd) can be started with the command line option "-f" to specify a unique configuration file for each instance. Configure a unique IP address for each instance of Apache. See the YoLinux Networking Tutorial to specify multiple IP addresses for one NIC (Network Interface Card). Use the Apache configuration file directive Listen XXX.XXX.XXX.XXX, where the IP address is unique for each instance of Apache.
Apache Man Pages:
* httpd - Apache Hypertext Transfer Protocol Server
* apachectl - Apache HTTP Server Control Interface
* ab - Apache HTTP server benchmarking tool
* htdigest - manage user files for digest authentication
* htpasswd - Manage user files for basic authentication
* logresolve - Resolve IP-addresses to hostnames in Apache log files
* rotatelogs - Piped logging program to rotate Apache logs
Also see the local online Apache configuration manual: http://localhost/manual/.
Apache Red Hat / Fedora Core GUI configuration:
GUI configuration tool:
* Red Hat EL 4/5, Fedora 2-10: /usr/bin/system-config-httpd
* Red Hat 8/9, Fedora Core 1: /usr/bin/redhat-config-httpd
Red Hat Apache httpd configuration tool
Adding web site login and password protection: See the YoLinux tutorial on web site password protection.
Log file analysis:
Scanning the Apache web log files will not provide meaningfull statistics unless they are graphed or presented in an easy to read fashion. The following packages to a good job of presenting site statistics.
* Analog - Also see Report Magic for Analog
* Webalizer
* AWStats - (requires PERL)
Web site statistic services:
* eXTReMe Tracking
Load testing your server:
* PureLoad - JAVA load testing and reporting tool.
* WebPerformance Trainer - Load Testing Tools.
Apache Links:
* CgiWrap - setuid wrapper that allows users to install and execute their own cgi scripts that get executed as their own userid
* Thumbprint - CGI for viewing a directory of images as thumbnails
* WWWThreads.org - Commercial product - Advanced Web Conferencing Software
* Configuring https (mod_ssl):
o Mod_SSL.org: Home Page
o Mod_SSL.org: Mod_SSL HowTo
o Mod_SSL.org: Steps to create SSL server certificate
o https configuration
Log file analysis using Analog:
Installation:
* Red Hat / Fedora: yum install analog
* Ubuntu / Debian: apt-get install analog
Installation packages also available from the Analog downloads page.
Configuration file: /etc/analog.cfg
LOGFILE /var/log/httpd/your-domain.com-access_log* http://www.your-domain.com
UNCOMPRESS *.gz,*.Z "gzip -cd"
SUBTYPE *.gz,*.Z
#
OUTFILE /home/user1/public_html/analog/Report.html
#
HOSTNAME "YourDomain.com"
HOSTURL http://www.your-domain.com
....
...
..
REQINCLUDE pages # Request page stats only
ALL ON
LANGUAGE US-ENGLISH
One can view the settings which be used with your configuration file (also good for debugging): analog -settings
Make Analog images available to the users report: ln -s /usr/share/analog/images/* /home/user1/public_html/analog
Log file location:
* Red Hat / Fedora: /var/log/httpd/
* Ubuntu / Debian: /var/log/apache2/
The Directive ALL ON turns on all of the following:
Analog Directive Description
MONTHLY ON one line for each month
WEEKLY ON one line for each week
DAILYREP ON one line for each day
DAILYSUM ON one line for each day of the week
HOURLYREP ON one line for each hour of the day
GENERAL ON the General Summary at the top
REQUEST ON which files were requested
FAILURE ON which files were not found
DIRECTORY ON Directory Report
HOST ON which computers requested files
ORGANISATION ON which organisations they were from
DOMAIN ON which countries they were in
REFERRER ON where people followed links from
FAILREF ON where people followed broken links from
SEARCHQUERY ON the phrases and words they used...
SEARCHWORD ON ...to find you from search engines
BROWSERSUM ON which browser types people were using
OSREP ON and which operating systems
FILETYPE ON types of file requested
SIZE ON sizes of files requested
STATUS ON number of each type of success and failure
Cron job to handle multiple domains: /etc/cron.daily/analog
#!/bin/sh
cp /opt/etc/analog-domain1.com.cfg /etc/analog.cfg
/usr/bin/analog
cp /opt/etc/analog-domain2.com.cfg /etc/analog.cfg
/usr/bin/analog
...
Links:
* Analog home page
* Analog command reference
Measuring Web Server Performance:
See the YoLinux.com web server benchmarking tutorial.
FTPd and FTP user account configuration:
Many FTP programs exist. This example covers the popular vsftpd (Red Hat default 9.0, Fedora Core, Suse) and wu-ftpd (Washington University) program which comes standard with RedHat (last shipped with RedHat 8.0 but can be installed on any Linux system). (RPM: wu-ftpd) There are other FTP programs including proFtpd (supports LDAP authentication, Apache like directives, full featured ftp server software), bftpd, pure-ftpd (free BSD and optional on Suse), etc ...
For hostile environments set up a chrooted environment for an sftp encrypted connection and the rssh restricted shell for OpenSSH. See the YoLinux.com internet security tutorial for Linux sftp and rssh configuration
FTPd and SELinux: To allow FTPd daemon access to users home directories: setsebool -P ftp_home_dir 1
Follow with the command service vsftpd restart
FTPd configuration tutorials:
* # vsFTPd: Configuration
* # WU-FTPd: Configuration
* # FTP Clients: Links
vsFTPd and FTP user account configuration:
The vsFTPd ftp server was first made available in Red Hat 9.0. It has been adopted by Suse and OpenBSD as well. This is currently the recomended FTP daemon for use on FTP servers.
Enable vsftpd:
* Red Hat/Fedora Core/CentOS: VsFTPd is a stand alone service and by the default Fedora Core installation, not controlled by xinetd as is the wu-ftpd default installation.
Thus start service: service vsftpd start (or: /etc/init.d/vsftpd start)
Configure vsftpd to start upon system boot: chkconfig --add vsftpd
* SuSE: By default, the vsftpd is an xinetd controlled service. To enable FTP server services edit the file /etc/xinetd.d/vsftpd and change:
disable = yes
to:
disable = no
Restart the xinetd daemon: /etc/init.d/xinetd restart
Note: vsftpd can also be run as a stand-alone service to achieve a faster response time.
* Ubuntu (dapper/hardy) / Debian:
o Install: apt-get install vsftpd
o VsFTPd is a stand alone service.
+ Start: /etc/init.d/vsftpd start
+ Stop: /etc/init.d/vsftpd stop
+ Restart: /etc/init.d/vsftpd restart
(Use this command after making configuration file changes)
For more on starting/stopping/configuring Linux services, see the YoLinux tutorial on the Linux init process and service activation.
Configuration files:
* vsFTPd configuration file:
o Fedora Core / Red Hat: /etc/vsftpd/vsftpd.conf
o S.u.S.e. / Ubuntu (dapper/hardy) / Debian: /etc/vsftpd.conf
Default for Fedora Core 3:
anonymous_enable=YES - Anonymous FTP allowed by default if you comment this out. Default directory used: /var/ftp
local_enable=YES - Uncomment this to allow local users to log in with FTP.
Must also set SELinux boolean: setsebool -P ftp_home_dir 1
write_enable=YES - Uncomment this to enable any form of FTP write or upload command.
local_umask=022 - Default is 077. Umask 022 is used by most other ftpd's.
#anon_upload_enable=YES - Uncomment to allow the anonymous FTP user to upload files.
Requires the above global write enabled. Directory must also be writable by user.
#anon_mkdir_write_enable=YES - Uncomment this to allow the anonymous FTP user to be able to create new directories.
dirmessage_enable=YES - Activate directory messages.
Messages given to remote users when they enter certain directories
xferlog_enable=YES - Activate logging of uploads/downloads.
connect_from_port_20=YES - PORT transfer connections originate from port 20 (ftp-data)
#chown_uploads=YES - Uploaded anonymous files set to a specified owner. (not root)
#chown_username=whoever
#xferlog_file=/var/log/vsftpd.log - Specify logfile explicitly. Default is /var/log/vsftpd.log
xferlog_std_format=YES - Output to log file in standard ftpd xferlog format
#idle_session_timeout=600 - Set timing out for an idle session.
#data_connection_timeout=120 - Set timing out for an idle data connection. Port 20
#nopriv_user=ftpsecure - Run ftp server as an isolated and unprivileged user.
# Enable this and the server will recognise asynchronous ABOR requests. Not
# recommended for security (the code is non-trivial). Not enabling it, may confuse older FTP clients.
#async_abor_enable=YES
#ascii_upload_enable=YES - Improve performance by disabling ASCII mode. Disables command "ascii" and "SIZE /big/file".
#ascii_download_enable=YES
#ftpd_banner=Welcome to YoLinux - Customize the login banner string.
#deny_email_enable=YES - Disallow specified anonymous e-mail addresses. Used to combat certain DoS attacks.
#banned_email_file=/etc/vsftpd.banned_emails (Ubuntu default. Red Hat: /etc/vsftpd/banned_emails)
#chroot_list_enable=YES - List users chroot()'d to their home directory. If "NO", list users not chroot()'d.
#chroot_list_file=/etc/vsftpd.chroot_list (Ubuntu default. Red Hat: /etc/vsftpd/chroot_list)
ls_recurse_enable=YES - Allow "ls -R" recursive directory list. Default is disabled.
pam_service_name=vsftpd
userlist_enable=YES - (Ubuntu Default) Deny users specified in file /etc/vsftpd.user_list
If "userlist_enable=NO" then allow specified users.
Red Hat: /etc/vsftpd/user_list
#deny_email_enable=YES - Disallow specified anonymous e-mail addresses. Used to combat certain DoS attacks.
listen=YES - Enable for standalone mode as opposed to an xinetd service.
Must set SELinux boolean: setsebool -P ftpd_is_daemon 1
tcp_wrappers=YES
Restart the FTP service if the config file is changed: service vsftpd restart (or: /etc/init.d/vsftpd restart)
[Potential Pitfall]: vsftp does NOT support comments on the same line as a directive. i.e.:
directive=XXX # comment
vsftp.conf man page
* Specify list of local users chrooted to their home directories:
o Red Hat: /etc/vsftpd/vsftpd/chroot_list
o Ubuntu: /etc/vsftpd/vsftpd.chroot_list
(Requires: chroot_list_enable=YES)
user1
user2
...
user-n
If userlist_enable=NO, then specify users not to be chroot'd..
* Specify list of users:
o Red Hat: /etc/vsftpd/user_list
o Ubuntu: /etc/vsftpd.user_list
(Deny list of users requires: userlist_enable=YES)
Also see PAM configuration below.
root
bin
daemon
adm
lp
sync
shutdown
halt
...
If userlist_enable=NO, then specify valid users.
* PAM configuration file Fedora Core 3: /etc/pam.d/vsftpd
#%PAM-1.0
auth required pam_listfile.so item=user sense=deny file=/etc/vsftpd.ftpusers onerr=succeed
auth required pam_stack.so service=system-auth
auth required pam_shells.so
account required pam_stack.so service=system-auth
session required pam_stack.so service=system-auth
This causes PAM to check /etc/vsftpd.ftpusers for users who are denied. This duplicates /etc/vsftpd.user_list. Speciy user in both files as PAM is independent of vsftpd configuration.
PAM authentication configuration file: ftpusers
o Red Hat: /etc/vsftpd/ftpusers
o Ubuntu: /etc/vsftpd.ftpusers
root
bin
daemon
adm
lp
sync
shutdown
halt
...
...
...
user6 - Users to deny
user8
...
...
* Logrotate configuration file: /etc/logrotate.d/vsftpd.log
/var/log/xferlog {
# ftpd doesn't handle SIGHUP properly
nocompress
missingok
}
Sample vsFTPd configurations:
* Anonymous download FTP server configuration: /etc/vsftpd/vsftpd.conf
# Access rights
anonymous_enable=YES - Turn on anonymous FTP
chown_uploads=YES - Uploaded files owned by an assigned user
chown_username=ftp - Uploaded files owned by this assigned user
local_enable=NO
write_enable=NO - No upload of files system changes allowed
anon_upload_enable=NO
anon_mkdir_write_enable=NO
anon_other_write_enable=NO
# Security
anon_world_readable_only=YES
connect_from_port_20=YES
force_dot_files=NO
guest_enable=NO
hide_ids=YES
pasv_min_port=50000
pasv_max_port=60000
# Features
xferlog_enable=YES
ls_recurse_enable=NO
ascii_download_enable=NO
async_abor_enable=YES
# Performance
one_process_model=NO
idle_session_timeout=120
data_connection_timeout=300
accept_timeout=60
connect_timeout=60
max_per_ip=4
anon_max_rate=50000
pam_service_name=vsftpd
userlist_enable=YES
#enable for standalone mode
listen=YES
tcp_wrappers=YES
Anonymous logins use the login name "anonymous" and then the user supplies their email address as a password. Any password will be accepted. Used to allow the public to download files from an ftp server. Generally, no upload is permitted.
* Web hosting configuration: /etc/vsftpd/vsftpd.conf
# Access rights
anonymous_enable=NO
local_enable=YES - Allow users to ftp to their home directories
write_enable=YES - Allow users to STOR, DELE, RNFR, RNTO, MKD, RMD, APPE and SITE
local_umask=022
# Security
connect_from_port_20=YES
force_dot_files=NO
guest_enable=NO - Don't remap user name
ftpd_banner=Welcome to Super Duper Hosting - Customize the login banner string.
chroot_local_user=YES - Limit user to browse their own directory only
chroot_list_enable=YES - Enable list of system / power users
chroot_list_file=/etc/vsftpd.chroot_list - Actual list of system / power users
hide_ids=YES
pasv_min_port=50000
pasv_max_port=60000
# Features
xferlog_enable=YES
ls_recurse_enable=NO
ascii_download_enable=NO
async_abor_enable=YES
dirmessage_enable=YES - Message greeting held in file .message or specify with message_file=...
# Performance
one_process_model=NO
idle_session_timeout=120
data_connection_timeout=300
accept_timeout=60
connect_timeout=60
max_per_ip=4
#
pam_service_name=vsftpd
userlist_enable=YES
#enable for standalone mode
listen=YES
tcp_wrappers=YES
Specify list of local users chrooted to their home directories: /etc/vsftpd/vsftpd.chroot_list
Ubuntu typically: /etc/vsftpd.chroot_list
(Requires: chroot_list_enable=YES)
user1
user2
...
user-n
If userlist_enable=NO, then specify users not to be chroot'd..
[Potential Pitfall]: Mispelling a directive will cause vsftpd to fail with little warning.
File: .message
A NOTE TO USERS UPLOADING FILES:
File names may consist of letters (a-z, A-Z), numbers (0-9),
an under score ("_"), dash ("-") or period (".") only.
The file name may not begin with a period or dash.
Test if vsftp is listening: netstat -a | grep ftp
[root]# netstat -a | grep ftp
tcp 0 0 *:ftp *:* LISTEN
Links:
* vsFTPd Home Page
* Sample configurations
* vsftp.conf Man page
WU-FTPd and FTP user account configuration:
The wu-ftpd FTP server can be downloaded (binary or source) from it's home page at http://wu-ftpd.org.
There are three kinds of FTP logins that wu-ftpd provides:
* anonymous FTP - one logs in with the username 'anonymous'
* real FTP - log in with a real username and password and has access to the entire disk structure.
* guest FTP - one logs in with a real user name and password, but the user is chroot'ed to his home directory and cannot escape from it. They are constrained to their home directory which also means that they don't have access to /bin/ls and other commands on the server. Thus a local minimalist environment must be set up.
This tutorial covers "guest" FTP configuration.
The file /etc/ftpaccess controls the configuration of ftp.
# Don't allow system accounts to log in over ftp
deny-uid %-99 %65534-
deny-gid %-99 %65534-
class all real,guest *
email webmaster@your-domain.com
loginfails 5
readme README* login
readme README* cwd=*
message /welcome.msg login
message .message cwd=*
compress yes all
tar yes all
chmod no guest,anonymous
delete no anonymous # delete files permission?
overwrite no anonymous # overwrite files permission?
rename no anonymous # rename files permission?
delete yes guest # delete files permission?
overwrite yes guest # overwrite files permission?
rename yes guest # rename files permission?
umask no guest # umask permission?
log transfers anonymous,real inbound,outbound
shutdown /etc/shutmsg
passwd-check rfc822 warn
# Must also create message file /etc/pathmsg of the guest directory.
# In this case it refers to /home/user1/public_html/etc/pathmsg.
path-filter guest /etc/pathmsg ^[-A-Za-z0-9_\.]*$ ^\. ^-
limit all 2
noretrieve passwd .htaccess core - Do not allow users to download files of these names
limit-time * 20
byte-limit in 5000 - Limit file size
guestuser * - Set system user default to be categorized as a "guest". A "real" user can roam the system. Guestuser is chrooted.
realgroup regularuserx regularusery - Assign real user privileges to members of groups "regularuserx" and "regularusery".
Visibility of the whole file system and subject to regular UNIX file permissions
realuser user4 - Assign real user privileges to user id "user4".
restricted-uid user1 user2 user3 - Restricts FTP to the specified directories
guest-root /home/user1/public_html user1
guest-root /home/user2/public_html user2
guest-root /home/user3/public_html user3
Note:
* user1, user2 and user3 refer to login accounts. Use the appropriate login name.
* The above configuration disables anonymous FTP which allows anyone to perform an FTP login with the id anonymous and an email address as a password. To enable anonymous FTP, change the class directive to:
class all real,guest,anonymous *
* GUI FTP configuration tools:
o /usr/bin/kwuftpd
o /sbin/linuxconf
(Note: Linuxconf is no longer included with Red Hat 7.3 and later)
* Red Hat Linux assigns users a user id and group id which is the same. This means that it does not matter if you use a realuser or realgroup directive as they will act the same.
* Red Hat Linux 7.1 and later uses the xinet daemon to manage ftp connections. Thus xinetd must be running and configured to support ftp. The configuration file is /etc/xinetd.d/wu-ftpd. The command chkconfig wu-ftpd on will make the ftp server available. See xinet configuration for more info.
* Allow overide of deny-uid and/or deny-gid:
allow-uid user-to-allow
allow-gid group-to-allow
* Optional configuration:
o Create a group ftpchroot
o Add users to this group
o Use directive: guestgroup ftpchroot
[Potential Pitfall]: Flakey ftp behavior, timeouts, etc?? FTP works best with name resolution of the computer it is communicating with. This requires proper /etc/resolve.conf and name server (bind) configuration, /etc/hosts or NIS/NFS configuration.
File /home/user1/public_html/etc/pathmsg:
A NOTE TO USERS UPLOADING FILES:
File names may consist of letters (a-z, A-Z), numbers (0-9),
an under score ("_"), dash ("-") or period (".") only.
The file name may not begin with a period or dash.
You have tried to upload a file with an inappropriate name.
The whole point of the chroot directory is to make the user's home directory appear to be the root of the filesystem (/) so one could not wander around the filesystem. Configuration of /etc/ftpaccess will limit the user to their respective directories while still offering access to /bin/ls and other system commands used in FTP operation.
As root:
cd /home/user1
mkdir public_html
chown $1.$1 public_html
touch .rhosts - Security protection
chmod ugo-xrw .rhosts
Man Pages:
Server:
* ftpd - Internet File Transfer Protocol server
File Formats:
* /etc/ftpaccess - Configuration file for ftpd
* /etc/ftpservers - ftpd virtual hosting configuration file. (optional)
* /etc/ftphosts - allow or deny access to certain accounts from various hosts. (optional)
* /etc/ftpconversions - ftpd conversions database (for tar and compression)
* /var/log/xferlog - FTP server logfile
* ftp - File Transfer Client program
Configuration files: (RH 8.0+)
* PAM configuration file: /etc/pam.d/ftp
#%PAM-1.0
auth required pam_listfile.so item=user sense=deny file=/etc/ftpusers onerr=succeed
auth required pam_stack.so service=system-auth
auth required pam_shells.so
account required pam_stack.so service=system-auth
session required pam_stack.so service=system-auth
* Xinetd configuration file: /etc/xinetd.d/wu-ftpd
service ftp
{
disable = no
socket_type = stream
wait = no
user = root
server = /usr/sbin/in.ftpd
server_args = -l -a
log_on_success += DURATION USERID
log_on_failure += USERID
nice = 10
}
Note: wu-FTPd is controlled by xinetd and not a stand alone service like vsFTPd.
* Logrotate configuration file: /etc/logrotate.d/ftpd
/var/log/xferlog {
nocompress
}
More information:
* WU-FTPD Development Group Home Page
* More resources
* Academ Consulting
* FTP FAQ - Koos van den Hout's
* dkftpbench - FTP benchmark program to give you an idea as to how many simultaneous dialup clients a server can support.
* FTP and text file type conversions: End Of Line Characters - by Peter Benjamin
* Chrooted sftp (ssl) project
Man pages on related FTP commands and files:
* chroot - Run with a special root directory
* ftpcount - Show number of concurrent users.
* ftpshut - close down the ftp servers at a given time
* ftprestart - Restart previously shutdown ftp servers
* ftpwho - show current process information for each ftp user
* privatepw - Change WU-FTPD Group Access File Information (admin command)
Other FTP daemons:
* FTP4All
* CrushFTP - Java/cross platform
* WS_FTP
FTP Pitfalls:
If you get the following error:
ftp> ls
227 Entering Passive Mode (208,188,34,109,208,89)
ftp: connect: No route to host
This means you have firewall issues most probably on the FTP server itself. Start by removing the firewall "iptables" rules: iptables -F Add rules until you discover what is causing the problem.
Passive mode:
Passive mode can also help one past the rules:
ftp> passive
Passive mode on.
This toggles passive mode on and off. When on, FTP will be limited to ports specified in the vsftpd configuration file: vsftpd.conf with the parameters pasv_min_port and pasv_max_port
Firewall connection tracking module:
# cat /etc/sysconfig/iptables-config | grep ip_nat_ftp
IPTABLES_MODULES="ip_conntrack_ftp"
NAT firewall modules:
You can also try adding ip_nat_ftp to the list of autoloaded modules: (This will also load the dependancy: ip_conntrack_ftp.)
# cat /etc/sysconfig/iptables-config | grep ip_nat_ftp
IPTABLES_MODULES="ip_nat_ftp"
Then restart the firewall: /etc/init.d/iptables condrestart
FTP will change ports during use. The ip_conntrack_ftp module will consider each connection "RELATED". If iptables allows RELATED and ESTABLISHED connections then FTP will work. i.e. rule: /etc/sysconfig/iptables
-A INPUT -m state --state ESTABLISHED,RELATED -j ACCEPT
FTP fails because it can not change to the users home directory:
Error:
[user1@nodex ~]$ ftp node.domain.com
Connected to XXX.XXX.XXX.XXX.
530 Please login with USER and PASS.
530 Please login with USER and PASS.
KERBEROS_V4 rejected as an authentication type
Name (XXX.XXX.XXX.XXX:user1):
331 Please specify the password.
Password:
500 OOPS: cannot change directory:/home/user1
Login failed.
ftp> bye
This is often a result of SELinux preventing the vsftpd process from accesing the user's home directory. As root, grant access with the following command:
setsebool -P ftp_home_dir 1
Followed by: service vsftpd restart
Test your vsftpd SELinux settings: getsebool -a | grep ftp
allow_ftpd_anon_write --> off
allow_ftpd_full_access --> off
allow_ftpd_use_cifs --> off
allow_ftpd_use_nfs --> off
allow_tftp_anon_write --> off
ftp_home_dir --> on
ftpd_disable_trans --> off
ftpd_is_daemon --> on
httpd_enable_ftp_server --> off
tftpd_disable_trans --> off
FTPd SELinux man page
FTP Linux clients:
* kbear: GUI KDE based client. Connect to multiple servers, transfer files, directory browsing, file content browsing. Comes with S.U.S.e. Linux.
* gftp: GUI GTK+ Multithreaded client. File transfer directory browsing and compare. Multiple protocols: FTP, FTPS (control connection only), HTTP, HTTPS, SSH and FSP protocols. Proxy support. Comes with Red Hat / Fedora Core.
* ftp: (/usr/kerberos/bin/ftp) kerberos enabled console ftp client. (RPM package FC3: krb5-workstation)
Basic user security:
When hosting web sites, there is no need to grant a shell account which only allows the server to have more potential security holes. Current systems can specify the user to have only FTP access with no shell by granting them the "shell" /sbin/nologin provided with the system or the "ftponly" shell described below. The shell can be specified in the file /etc/passwd of when creting a user with the command adduser -s /sbin/nologin user-id
[Potential Pitfall]: Red Hat 7.3 server with wu-ftp server 2.6.2-5 does not support this configuration to prevent shell access. It requires users to have a real user shell. i.e. /bin/bash It works great in older and current Red Hat versions. If it works for you, use it, as it is more secure to deny the user shell access. You can always deny telnet access. You should NOT be using this problem ridden version of ftpd. Use the latest wu-ftpd-2.6.2-11 which supports users with shell /opt/bin/ftponly
[Potential Pitfall]: Ubuntu Dapper/Hardy - Setting the shell to the preconfigured shell /bin/false will NOT allow vsftp access. One must create the shell "ftponly" as defined below to allow vsftp access with no shell.
1. Disable remote telnet login access allowing FTP access only:
Change the shell for the user in /etc/passwd from /bin/bash to be /opt/bin/ftponly.
...
user1:x:502:503::/home/user1:/opt/bin/ftponly
...
Create file: /opt/bin/ftponly.
Protection set to -rwxr-xr-x 1 root root
with the command: chmod ugo+x /opt/bin/ftponly
Contents of file:
#!/bin/sh
#
# ftponly shell
#
trap "/bin/echo Sorry; exit 0" 1 2 3 4 5 6 7 10 15
#
Admin=root@your-domain.com
#System=`/bin/hostname`@`/bin/domainname`
#
/bin/echo
/bin/echo "********************************************************************"
/bin/echo " You are NOT allowed interactive access."
/bin/echo
/bin/echo " User accounts are restricted to ftp and web access."
/bin/echo
/bin/echo " Direct questions concerning this policy to $Admin."
/bin/echo "********************************************************************"
/bin/echo
#
# C'ya
#
exit 0
The last step is to add this to the list of valid shells on the system.
Add the line /opt/bin/ftponly to /etc/shells.
Sample file contents: /etc/shells
/bin/bash
/bin/bash1
/bin/tcsh
/bin/csh
/opt/bin/ftponly
See man page on /etc/shells.
An alternative would be to assign the shell /bin/false or /sbin/nologin which became available in later releases of Red Hat, Debian and Ubuntu. In this case the shell /bin/false or /sbin/nologin would have to be added to /etc/shells to allow them to be used as a valid shell for FTP while disabling ssh or telnet access.
2. Set file quotas to limit user account.
For more on Linux security see the: YoLinux.com Internet web site Linux server security tutorial
Domain Name Server (DNS) configuration using Bind version 8 or 9:
Two of the most popular ways to configure the program Bind (Berkeley Internet Domain software) to perform DNS services is in the role of (1) ISP or (2) Web Host.
1. In an ISP configuration for clients (web surfers) conected to the internet, the DNS server must resolve IP addresses for any URL the user wishes to visit. (See DNS caching server)
2. In a purely web hosting configuration, Bind will only resolve for the IP addresses of the domains which are being hosted. This is the configuration which will be discussed and is often called an "Authoritative-only Nameserver".
When resolving IP addresses for a domain, Internic is expecting a "Primary" and a "Secondary" DNS name server. (Sometimes called Master and Slave) Each DNS name server requires the file /etc/named.conf and the files it points to. This is typically two separate computer systems hosted on two different IP addresses. It is not necesary that the Linux servers be dedicated to DNS as they may run a web server, mail server, etc.
Note on Bind versions: Red Hat versions 6.x used Bind version 8. Release 7.1 of Red Hat began using Bind version 9 and the GUI configuration tool bindconf was introduced for those of you that like a pretty point and click interface for configuration.
Installation Packages:
* Red Hat / Fedora Core / CentOS: bind, bind-chroot, bind-libs, bind-utils, system-config-bind
o bind-chroot: Security jail for operation of bind.
o bind-utils: Utility commands like nslookup, host, dig
o system-config-bind: GUI config tool system-config-bind and related configuration files (/etc/security/console.apps/bindconf).
o caching-nameserver: We will not be covering this as it is not required for web hosting. This is used by internet providers so their clients can cache the DNS entries of the sites they are visiting.
* Ubuntu (dapper/hardy) / Debian: bind9
Configuration files:
Red Hat / Fedora / CentOS:
File Description Directory Chrooted Directory
named.conf Primary/Secondary DNS server configuration.
(See default file /usr/share/doc/bind-9.X.X/sample/etc/named.conf) /etc/ /var/named/chroot/etc/
named.root.hints Configuration for recursive service. Required for all zones.
(See default file /usr/share/doc/bind-9.X.X/sample/etc/named.root.hints) /etc/ /var/named/chroot/etc/
named Red Hat system variables. /etc/sysconfig/ no change
rndc.key Primary/Secondary DNS server configuration. /etc/ /var/named/chroot/etc/
Zone files Configuration files for each domain. Create this file to resolve host name internet queries i.e. define IP address of web (www) and mail servers in the domain. /var/named/ /var/named/chroot/var/named/
Debian / Ubuntu:
File Description Directory Chrooted Directory
named.conf
named.conf.options
named.conf.local Primary/Secondary DNS server configuration. /etc/bind/ /var/bind/chroot/etc/bind/
rndc.key Primary/Secondary DNS server configuration. /etc/ /var/bind/chroot/etc/
Zone files Configuration files for each domain. /var/bind/data/ /var/bind/chroot/var/bind/data/
Primary server (master):
File: named.conf
Red Hat / Fedora Core / CentOS: /etc/named.conf (chroot dir: /var/named/chroot/etc/named.conf) and /etc/sysconfig/named for system variables.
Ubuntu / Debian: /etc/bind/named.conf Place local definitions in /etc/bind/named.conf.options and /etc/bind/named.conf.local
Simple example: (no views)
options { - Ubuntu stores options in /etc/bind/named.conf.options
version "Bind"; - Don't disclose real version to hackers
directory "/var/named"; - Specified so relative path names can be used. Full path names still allowed.
allow-transfer { XXX.XXX.XXX.XXX; }; - IP address of secondary DNS
recursion no;
auth-nxdomain no; - conform to RFC1035. (default)
fetch-glue no; - Bind 8 only! Not used by version 9
};
zone "localhost" {
type master;
file "/etc/bind/db.local";
};
zone "0.0.127.in-addr.arpa" {
type master;
file "/etc/bind/db.127";
};
zone "your-domain.com"{ - Ubuntu separates the zone definitions into /etc/bind/named.conf.local
type master; - Specify master, slave, forward or hint
file "data/named.your-domain.com";
notify yes; - slave servers are notified when the zone is updated.
allow-update { none; }; - deny updates from other hosts (default: none)
allow-query { any; }; - allow clients to query this server (default: any)
};
zone "your-domain-2.com"{
type master;
file "data/named.your-domain-2.com";
notify yes;
};
Note:
* The omission of zone ".". Required if providing a recursive service.
* Ubuntu includes the separated file of zone directives using the directive:
include "/etc/bind/named.conf.local";
BIND Views: The BIND naming service can support "views" which allow various sub-networks (i.e. private internal or public external networks) to have a different domain name resolution result.
* If no views are specified then use the configuration shown above.
* The match-up between the "view" and the view client which receives the DNS information is specified by the match-clients statement.
* If even one view is specified, then ALL zones MUST be associated with a "view".
* Bind 9 allows for views which allow different zones to be served to different types of clients, localhost, private networks and public networks. This maps to the three view names "localhost_resolver", "internal" and "external":
o localhost_resolver: Supports name resolution for the system (localhost) using BIND. Support for use of bind also has to be configured in /etc/nsswitch.conf
o internal: User specified Local Area Network (LAN). If not used to support a local private LAN, remove (or comment out) this view.
o external: The general public internet defined as client "any".
* If you are only setting up a caching name server, then only specify the view "localhost_resolver" (delete all other views).
* In order to support a DNS for internet domains using views, one will have to configure an "external" view
Typical Red Hat Enterprise 5 example: (Bind 9.3.4 with three "views")
options
{
directory "/var/named"; // the default
dump-file "data/cache_dump.db";
statistics-file "data/named_stats.txt";
memstatistics-file "data/named_mem_stats.txt";
};
logging
{
// By default, SELinux policy does not allow named to modify the /var/named
// directory, so put the default debug log file in data/ :
channel default_debug {
file "data/named.run";
severity dynamic;
};
};
view "localhost_resolver"
{
// This view sets up named to be a localhost resolver ( caching only nameserver ).
// If all you want is a caching-only nameserver, then you need only define this view:
match-clients { localhost; };
...
};
view "internal"
{
// This view will contain zones you want to serve only to "internal" clients
// that connect via your directly attached LAN interfaces - "localnets" .
// For local private LAN. Not covered in this tutorial.
// Delete this view if web hosting with no local LAN.
match-clients { localnets; };
...
};
key ddns_key
{
algorithm hmac-md5;
secret "use /usr/sbin/dns-keygen to generate TSIG keys";
};
view "external"
{
// This view will contain zones you want to serve only to "external"
// public internet clients. This is covered below.
match-clients { any; };
...
..
};
Default configuration files: Red Hat may supply the default configuration in: /usr/share/doc/bind-9.X.X/sample/etc/named.conf
* cp /usr/share/doc/bind-9.X.X/sample/etc/named.conf /var/named/chroot/etc
* cp /usr/share/doc/bind-9.X.X/sample/etc/named.root.hints /var/named/chroot/etc
* chcon -u system_u -r object_r -t named_conf_t /var/named/chroot/etc/named.conf /var/named/chroot/etc/named.root.hints
view "localhost_resolver": If supporting a caching DNS server (not required to support a web domain) you will also need the files:
* cp /usr/share/doc/bind-9.X.X/sample/etc/named.rfc1912.zones /var/named/chroot/etc
* cp /usr/share/doc/bind-9.X.X/sample/var/named/localdomain.zones /var/named/chroot/var/named
also from /usr/share/doc/bind-9.X.X/sample/var/named/: localhost.zones, named.local, named.zero, named.broadcast, named.ip6.local, named.root
view "external": (master) - details -
view "external"
{
/* This view will contain zones you want to serve only to "external" clients
* that have addresses that are not on your directly attached LAN interface subnets:
*/
match-clients { any; };
match-destinations { any; };
allow-transfer { XXX.XXX.XXX.XXX; }; - IP address of secondary DNS
recursion no;
// you'd probably want to deny recursion to external clients, so you don't
// end up providing free DNS service to all takers
// all views must contain the root hints zone:
include "/etc/named.root.hints";
// These are your "authoritative" external zones, and would probably
// contain entries for just your web and mail servers:
zone "your-domain.com" {
type master;
file "/var/named/data/external/named.your-domain.com";
notify yes;
allow-update { none; };
};
// You can also add the zones as a separate file like they do in Ubuntu by adding the following statement
include "/etc/named.conf.local";
};
DNS key:
Use the following command /usr/sbin/dns-keygen to create a key. Add this key to the "secret" statement as follows:
key ddns_key
{
algorithm hmac-md5;
secret "XlYKYLF5Y7YOYFFFY6YiYYXyFFFFBYYYYFfYYYJiYFYFYYLVrnrWrrrqrrrq";
};
Man Pages:
* named.conf
Forward Zone File: /var/named/named.your-domain.com
Red Hat 9 / CentOS 3: /var/named/named.your-domain.com
Red Hat EL4/5, Fedora 3+, CentOS 4/5: [Chrooted] /var/named/chroot/var/named/data/named.your-domain.com
Red Hat EL4/5, Fedora 3+, CentOS 4/5: /var/named/data/named.your-domain.com
Ubuntu / Debian: /etc/bind/data/named.your-domain.com
$TTL 604800 - Bind 9 (and some of the later versions of Bind 8) requires $TTL statement. Measured in seconds. This value is 7 days.
your-domain.com. IN SOA ns1.your-domain.com. hostmaster.your-domain.com. (
2000021600 ; serial - Many people use year+month+day+integer as a system. Never greater than 2147483647 for a 32 bit processor.
86400 ; refresh - How often secondary servers (in seconds) should check in for changes in serial number. (86400 sec = 24 hrs)
7200 ; retry - How long secondary server should wait for a retry if contact failed.
1209600 ; expire - Secondary server to purge info after this length of time.
86400 ) ; default_ttl - How long data is held in cache by remote servers.
IN A XXX.XXX.XXX.XXX - Note that this is the default IP address of the domain.
I put the web server IP address here so that domain.com points to the same servers as www.domain.com
;
; Name servers for the domain
;
IN NS ns1.your-domain.com.
IN NS ns2.your-domain.com.
;
; Mail server for domain
;
IN MX 5 mail - Identify "mail" as the node handling mail for the domain. Do NOT specify an IP address!
;
; Nodes in domain
;
node1 IN A XXX.XXX.XXX.XXX - Note that this is the IP address of node1
ns1 IN A XXX.XXX.XXX.XXX - Optional: For hosting your own primary name server. Note that this is the IP address of ns1
ns2 IN A XXX.XXX.XXX.XXX - Optional: For hosting your own secondary name server. Note that this is the IP address of ns2
mail IN A XXX.XXX.XXX.XXX - Identify the IP address for node mail.
IN MX 5 XXX.XXX.XXX.XXX - Identify the IP address for mail server named "mail".
;
; Aliases to existing nodes in domain
;
www IN CNAME node1 - Define the webserver "www" to be node1.
ftp IN CNAME node1 - Define the ftp server to be node1.
MX records for 3rd party off-site mail servers:
your-domain.com. IN MX 10 mail1.offsitemail.com.
your-domain.com. IN MX 20 mail2.offsitemail.com.
Append to the above file.
Initial configuration: Note that Red Hat may supply the default zone configuration in: /usr/share/doc/bind-9.X.X/sample/var/named/
* cp /usr/share/doc/bind-9.X.X/sample/var/named/localhost.zone /var/named/chroot/var/named/data/
* cp /usr/share/doc/bind-9.X.X/sample/var/named/localdomain.zone /var/named/chroot/var/named/data/
* cp /usr/share/doc/bind-9.X.X/sample/var/named/named.broadcast /var/named/chroot/var/named/data/
* cp /usr/share/doc/bind-9.X.X/sample/var/named/named.ip6.local /var/named/chroot/var/named/data/
* cp /usr/share/doc/bind-9.X.X/sample/var/named/named.zero /var/named/chroot/var/named/data/
* cp /usr/share/doc/bind-9.X.X/sample/var/named/named.local /var/named/chroot/var/named/data/
* cp /usr/share/doc/bind-9.X.X/sample/var/named/named.root /var/named/chroot/var/named/data/
* cd /var/named/chroot/var/named/data/
* chcon -u system_u -r object_r -t named_cache_t localhost.zone localdomain.zone named.broadcast named.ip6.local named.zero named.root named.local
A file suffix of "zone" is also common i.e. your-domain.com.zone
Secondary server (slave):
File: named.conf
Red Hat / Fedora Core / CentOS: /etc/named.conf
Ubuntu / Debian: /etc/bind/named.conf
Simple example with no views:
options { - Ubuntu stores options in /etc/bind/named.conf.options
version "Bind"; - Don't disclose real version to hackers
directory "/var/named";
allow-transfer { none; }; - Slave is not transfering updates to anyone else
recursion no;
auth-nxdomain no; - conform to RFC1035. (default)
fetch-glue no; - Bind 8 only! Not used by version 9
};
zone "localhost" {
type master;
file "/etc/bind/db.local"; - Ubutu: /etc/bind/db.local, Red Hat: /var/named/named.local
};
zone "0.0.127.in-addr.arpa" {
type master;
file "/etc/bind/db.127";
};
zone "your-domain.com"{
type slave;
file "named.your-domain.com"; - Specify slaves/named.your-domain.com for RHEL4/5 chrooted bind
masters { XXX.XXX.XXX.XXX; }; - IP address of primary DNS
};
zone "your-domain-2.com"{
type slave;
file "named.your-domain-2.com";
masters { XXX.XXX.XXX.XXX; };
};
view "external": (slave)
view "external"
{
match-clients { any; };
match-destinations { any; };
allow-transfer { none; }; - Slave does not transfer to anyone, slave receives
recursion no;
include "/etc/named.root.hints";
zone "your-domain.com" {
type slave;
file "/var/named/slaves/external/named.your-domain.com";
notify no; - Slave does not notify, slave is notified by master
masters { XXX.XXX.XXX.XXX; }; - State IP of master server
};
};
Note: RHEL4/5, CentOS 4/5, Fedora 3+ use chrooted directory structure permissions which require the use of the slaves subdirectory /var/named/slaves
Slave Zone Files: These are transfered from master to slave and chached by slave. There is no need to generate a zone file on the slave.
Additional Information:
* Man page on named.conf
* Man page on named DNS server
* Full DNS manual
[Potential Pitfall]: Ubuntu dapper/hardy - Path names used can not violate Apparmor security rules as defined in /etc/apparmor.d/usr.sbin.named. Note that the slave files are typically named "/var/lib/bind/named.your-domain.com" as permitted by the security configuration.
[Potential Pitfall]: Ubuntu dapper/hardy - Create log file and set ownership and permission for file not created by installation:
* touch /var/log/bindlog
* chown root.bind /var/log/bindlog
* chmod 664 /var/log/bindlog
[Potential Pitfall]: Error in /var/log/messages:
transfer of 'yolinux.com/IN' from XXX.XXX.XXX.XXX#53: failed while receiving responses: permission denied
Named needs write permission on the directory containing the file. This condition often occurs for a new "slave" or "secondary" name server where the zone files do not yet exist.
The default (RHEL4/5, CentOS 4/5, Fedora Core 3+, ...):
* drwxr-x--- 4 root named 4096 Aug 25 2004 named
* drwxrwx--- 2 named named 4096 Sep 17 20:37 slaves
Fix: In named.conf specify that the slaves to go to slaves directory /var/named/chroot/var/named/slaves with the directive:
file "slaves/named.your-domain.com";
Bind Defaults:
* Uses port 53 if none is specified with the listen-on port statement.
* Bind will use random ports above port 1024 for queries. For use with firewalls expecting all DNS traffic on port 53, specify the following option statement in /etc/named.conf
query-source address * port 53;
query-source-v6 port 53;
* Logging is to /var/log/messages
After the configuration files have been edited, restart the name daemon.
/etc/init.d/named restart
(Note: Ubuntu / Debian restart: /etc/init.d/bind9 restart)
Bind zone transfers work best if the clocks of the two systems are synchronised. See the YoLinux SysAdmin Tutorial: Time and ntpd
File: /var/named/named.your-domain.com This is created for you by Bind on the slave (secondary) server when it replicates from Primary server.
DNS GUI configuration:
* Red Hat EL 4/5, Fedora 2-10: /usr/bin/system-config-bind
* Red Hat 8/9, Fedora Core 1: /usr/bin/redhat-config-bind
Red Hat bind configuration tool Red Hat bind configuration tool: SOA zone
Test DNS:
Must install packages:
* Red Hat / Fedora Core / SuSE: bind-utils
* Ubuntu (dapper/hardy) / Debian: bind9-host
Test the name server with the host command in interactive mode:
host node.domain-to-test.com your-nameserver-to-test.domain.com
Note: The name server may also be specified by IP address.
or
Test the name server with the nslookup command in interactive mode:
nslookup
> server your-nameserver-to-test.domain.com
> node.domain-to-test.com
> exit
Test the MX record if appropriate:
nslookup -querytype=mx domain-to-test.com
OR
host -t mx domain-to-test.com
Test using the dig command:
dig @name-server domain-to-query
OR
dig @IP-address-of-name-server domain-to-query
Test your DNS with the following DNS diagnostics web site: DnsStuff.com
Extra logging to monitor Bind:
Add the following to your /etc/named.conf file.
logging {
channel bindlog {
file "/var/log/bindlog" versions 5 size 1m; - Keep five old versions of the log-file (rotates logs)
print-time yes;
print-category yes;
print-severity yes;
};
/* If you want to enable debugging, eg. using the 'rndc trace' command,
* named will try to write the 'named.run' file in the $directory (/var/named).
* By default, SELinux policy does not allow named to modify the /var/named directory,
* so put the default debug log file in data/ :
*/
channel default_debug {
file "data/named.run";
severity dynamic;
};
category xfer-out { bindlog; }; - Zone transfers
category xfer-in { bindlog; }; - Zone transfers
category security { bindlog; }; - Approved/unapproved requests
// The following logging statements, panic, insist and response-checks are valid for Bind 8 only. Do not user for version 9.
category panic { bindlog; }; - System shutdowns
category insist { bindlog; }; - Internal consistency check failures
category response-checks { bindlog; }; - Messages
};
Chroot Bind for extra security:
Note: Most modern Linux distributions default to a "chrooted" installation. This technique runs the Bind name service with a view of the filesystem which changes the definition of the root directory "/" to a directory in which Bind will operate. i.e. /var/named/chroot.
The following example uses the Red Hat RPM bind-8.2.3-0.6.x.i386.rpm. Applies to Bind version 9 as well.
The latest RedHat bind updates run the named as user "named" to avoid a lot of earlier hacker exploits. To chroot the process is to create an even more secure environment by limiting the view of the system that the process can access. The process is limited to the chrooted directory assigned.
The chroot of the named process to a directory under a given user will prevent the possibility of an exploit which at one time would result in root access. The original default RedHat configuration (6.2) ran the named process as root, thus if an exploit was found, the named process will allow the hacker to use the privileges of the root user. (no longer true)
Named Command Sytax:
named -u user -g group -t directory-to-chroot-to
Example:
named -u named -g named -t /opt/named
When chrooted, the process does not have access to system libraries thus a local lib directory is required with the appropriate library files - theoretically. This does not seem to be the case here and as noted above in chrooted FTP. It's a mystery to me but it works???? Another method to handle libraries is to re-compile the named binary with everything statically linked. Add -static to the compile options. The chrooted process should also require a local /etc/named.conf etc... but doesn't seem to???
Script to create a chrooted bind environment:
#!/bin/sh
cd /opt
mkdir named
cd named
mkdir etc
mkdir bin
mkdir var
cd var
mkdir named
mkdir run
cd ..
chown -R named.named bin etc var
You can probably stop here. If your system acts like a chrooted system should, then continue with the following:
cp -p /etc/named.conf etc
cp -p /etc/localtime etc
cp -p /bin/false bin
echo "named:x:25:25:Named:/var/named:/bin/false" > etc/passwd
echo "named:x:25:" > etc/group
touch var/run/named.pid
if [ -f /etc/namedb ]
then
cp -p /etc/namedb etc/namedb
fi
mkdir dev
cd dev
# Create a character unbuffered file.
mknod -m ugo+rw null c 1 3
cd ..
chown -R named.named bin etc var
Add changes to the init script: /etc/rc.d/init.d/named
#!/bin/bash
#
# named This shell script takes care of starting and stopping
# named (BIND DNS server).
#
# chkconfig: - 55 45
# description: named (BIND) is a Domain Name Server (DNS) \
# that is used to resolve host names to IP addresses.
# probe: true
# Source function library.
. /etc/rc.d/init.d/functions
# Source networking configuration.
. /etc/sysconfig/network
# Check that networking is up.
[ ${NETWORKING} = "no" ] && exit 0
[ -f /etc/sysconfig/named ] && . /etc/sysconfig/named - Added in Red Hat version 7.1
[ -f /usr/sbin/named ] || exit 0
[ -f /etc/named.conf ] || exit 0
RETVAL=0
start() {
# Start daemons.
echo -n "Starting named: "
daemon named -u named -g named -t /opt/named - Change made here
RETVAL=$?
[ $RETVAL -eq 0 ] && touch /var/lock/subsys/named
echo
return $RETVAL
}
stop() {
# Stop daemons.
echo -n "Shutting down named: "
killproc named
RETVAL=$?
[ $RETVAL -eq 0 ] && rm -f /var/lock/subsys/named
echo
return $RETVAL
}
rhstatus() {
/usr/sbin/ndc status
return $?
}
restart() {
stop
start
}
reload() {
/usr/sbin/ndc reload
return $?
}
probe() {
# named knows how to reload intelligently; we don't want linuxconf
# to offer to restart every time
/usr/sbin/ndc reload >/dev/null 2>&1 || echo start
return $?
}
# See how we were called.
case "$1" in
start)
start
;;
stop)
stop
;;
status)
rhstatus
;;
restart)
restart
;;
condrestart)
[ -f /var/lock/subsys/named ] && restart || :
;;
reload)
reload
;;
probe)
probe
;;
*)
echo "Usage: named {start|stop|status|restart|condrestart|reload|probe}"
exit 1
esac
exit $?
Note: The current version of bind from the RedHat errata updates and security fixes (http://www.redhat.com/support/errata/) runs the named process as user "named" in the home (not chrooted) directory /var/named with no shell available. (named -u named) This should be secure enough. Proceed with a chrooted installation if your are paranoid.
See:
* Securing DNS: How to use chroot bind features
Chrooted DNS configuration:
Modern releases of Linux (i.e. Fedore Core 3, Red Hat Enterprise Linux 4) come preconfigured to use "chrooted" bind. This security feature forces even an exploited version of bind to only operate within the "chrooted" jail /var/named/chroot which contains the familiar directories:
* /var/named/chroot/etc: Configuration files
* /var/named/chroot/dev: devices used by bind:
o /dev/null
o /dev/random
o /dev/zero
(Real devices created with the mknod command.)
* /var/named/chroot/var: Zone files and configuration information.
These directories are generated and configured by the Red Hat/Fedora RPM package "bind-chroot".
If building from source you will have to generate this configuration manually:
* mkdir -p /var/named/chroot
* mkdir /var/named/chroot/dev
* mknod /var/named/chroot/dev/null c 1 3
* mknod /var/named/chroot/dev/zero c 1 5
* mknod /var/named/chroot/dev/random c 1 8
* chmod 666 -R /var/named/chroot/dev
* mkdir -p /var/named/chroot/etc
* ln -s /var/named/chroot/etc/named.conf /etc/named.conf
* mkdir -p /var/named/chroot/var/named
* ln -s /var/named/chroot/var/named/named.XXXX /var/named/named.XXXX
* ln -s /var/named/chroot/var/named/named.YYYY /var/named/named.YYYY
* ...
* mkdir -p /var/named/chroot/var/named/slaves
* mkdir -p /var/named/chroot/var/named/data
* mkdir -p /var/named/chroot/var/run
* mkdir -p /var/named/chroot/var/tmp
* chown -R named:named /var/named/chroot
* chown -R root:named /var/named/chroot/var/named
Load Balancing of servers using Bind: DNS Round-Robin
This will populate name servers around the world with different IP addresses for your web server www.your-domain.com
www0 IN A XXX.XXX.XXX.1
www1 IN A XXX.XXX.XXX.2
www2 IN A XXX.XXX.XXX.3
www3 IN A XXX.XXX.XXX.4
www4 IN A XXX.XXX.XXX.5
www5 IN A XXX.XXX.XXX.6
www IN CNAME www0.your-domain.com.
IN CNAME www1.your-domain.com.
IN CNAME www2.your-domain.com.
IN CNAME www3.your-domain.com.
IN CNAME www4.your-domain.com.
IN CNAME www5.your-domain.com.
IN CNAME www6.your-domain.com.
Also see lbnamed: lbnamed load balancing named
Bind/DNS Links:
* Internet Software Consortium (ISC) Home Page - ISC Bind Home
* Bind FAQ, pitfalls and answers
* Zytrax Bind 9 manual - Bind for rocket scientists
* comp.protocols.tcp-ip.domains FAQ - HTML version
* More on load balancing and round robin schemes
* LDP DNS-HOWTO
* ACME: DNS resources
* DNS Security presentation - Cricket Liu (coauthor of DNS and Bind)
* DNS Security Paper - Craig Rowland
* GraniteCanyon.com: Free DNS hosting - If you don't want to set it up, have someone do it for you.
* EveryDNS.net - Free DNS
* DNS2GO - Domain hosting for DHCP clients.
* Secondary.com - Free secondary names server hosting (five or fewer domains)
* TZO.com - Dynamic, secondary DNS services.
* UltraDNS.com - Outsourced DNS management and service
* OpenDNS.com - Can allow forwarding to OpenDNS servers.
Add to "options" section: forwarders { 208.67.222.222; 208.67.222.220; };
* DynDNS.org
Command: ipcheck.py -i eth0 DynDNS-user-id password node.dnsalias.net
Then add script update.dyndns.ip to directory /etc/cron.daily/ to update IP.
This host must also be allowed access through any firewall rules.
* DynDNS/TODD - Dynamic DNS for those with dynamic IP addresses. (i.e. dial-up game servers etc.)
Domain name registration:
* Domain Name Registrars:
o NetworkSolutions.com
o Register.com
o Registrar.GoDaddy.com - Domain name registration for only $8.95/year!!!
o Dotster.com - Domain name registration for only $14.95/year
o DomainsNext.com - $11.95/year
o EasyDNS.com - $25.00/year
o Aplus.net - Domain Registration $7.95/year - Not good
o Gandi.net - European
* AfterNic.com - Domain name exchange and auction.
* BuyDomains.com - Buy a domain name that a squatter is holding.
Note that the Name registrations policies for the registrars are stated at ICANN.org.
* You must renew with the same registrar within five days BEFORE the expiration date. There is no rule for afterwards.
* Most free a domain name 30 days after it expires.
Web Server Load Balancing:
Load balancing becomes important if your traffic volume becomes too great for either your server or network connection or both. Multiple options are available for load balancing.
* DNS round-robin: Discussed above, this uses DNS to point users to random server in a list of appropriate servers. This spreads the load among the servers in the list.
* Use a Linux Virtual Server to Create a Load Balance Cluster. See next section below.
* Run a reverse proxy. See nginx ("engine X"). From a single external internet network connection, route http, smtp, imap or pop3 traffic to various servers on an internal network. Results are pushed back to the nginx proxy for routing to the internet (no caching).
* Run the Apache httpd web server module "mod_proxy" to offload processing of dynamic content to another web server. This acts as a reverse proxy, routing external traffic to various servers on an internal network.
Using a Linux Virtual Server to Create a Load Balance Cluster:
You can use a single Linux server to forward requests to a cluster of servers using iptables for IP masquerading and IPVsadm to scale your load. The load balancing server receiving and routing the requests is called the "Linux Virtual Server" (LVS). The LVS receives the requests which are passed to the real servers which process and reply to the request. This reply is forwarded to the client by the LVS.
This feature is available with the Linux 2.4/2.6 kernel. (If compiling kernel: Networking Options + IP: Virtual Server Configuration)
Configuration: This example will load balance http traffic to three web servers and ftp traffic to a fourth server.
* Enable Forwarding: (Also see YoLinux Networking Tutorial: Enable Forwarding)
echo "1" > /proc/sys/net/ipv4/ip_forward
* Enable IP Masquerading:
iptables -t nat -P POSTROUTING DROP
iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
For more on IP Masquerading, iptables and subnet addresses, see the YoLinux network gateway tutorial.
* Enable virtual server:
o Create virtual service and choose scheduler for http (80) and ftp (21):
ipvsadm -A -t 66.218.88.103:80 -s wlc
ipvsadm -A -t 66.218.88.103:21 -s wrr
Command directives:
+ A: Add a virtual service defined by IP address, port number, and protocol.
+ -t: Use TCP service host:port
+ -s: scheduler:
# rr: Robin Robin: distributes jobs equally amongst the avail- able real servers.
# wrr: Weighted Round Robin.
# lc: Least-Connection: assigns more jobs to real servers with fewer active jobs.
# wlc: (Default) Weighted Least-Connection: assigns more jobs to servers with fewer jobs and relative to the real server's weight.
# lblc, lblcr, dh, sh, sed, nq. See man page.
o Configure load balancing cluser.
ipvsadm -a -t 66.218.88.103:80 -r 176.168.1.1:80 -m
ipvsadm -a -t 66.218.88.103:80 -r 176.168.1.2:80 -m -w 2
ipvsadm -a -t 66.218.88.103:80 -r 176.168.1.3:80 -m
ipvsadm -a -t 66.218.88.103:21 -r 176.168.1.4:21 -m
Command directives:
+ -r: Real server.
+ -m: Use masquerading also known as network address translation (NAT)
+ -w: Weight is an integer specifying the capacity of a server rela- tive to the others in the pool. The valid values of weight are 0 through to 65535. The default is 1.
Links:
* LinuxVirtualServer.org
* iptables - Administration tool for IPv4 packet filtering and NAT
* ipvsadm - Administer the routing table on a Linux Virtual Server.
Managing Web Server Daemons:
To view if these services are running, type ps -aux and look for the httpd, inetd and named services (daemons). These are background processes necessary to perform the server tasks.
root 681 0.0 0.5 2304 744 ? S Sep09 0:01 named
nobody 28123 0.0 1.1 3036 1420 ? S Oct06 0:00 httpd
nobody 28186 0.0 0.7 3044 896 ? S Oct06 0:00 httpd
root 385 0.0 0.1 1136 232 ? S Sep09 0:00 inetd
A new installation will most likely NOT start the named background process which may be started manually after configuration.
See the YoLinux Init Process Tutorial for more information.
The inetd (or xinetd) background process is the Internet daemon which starts FTP when an ftp request is made.
Sys Admin Script:
Script to prepare an account: (Red Hat/Fedora)
#!/bin/sh
# Author Greg Ippolito
# Requires: /opt/etc/AccountDefaults/pathmsg favicon.ico mwh-mini_tr.gif etc.
# /opt/bin/ftponly
# You must be root to run this script.
#
if [ $# -eq 0 ]
then
echo "Enter user id as a command argument"
else if [ -r /home/$1 ]
then
echo "User's home directory already exists"
else
echo "1) Create user."
adduser -m $1
echo "2) Set user Password."
passwd $1
echo "3) Add read access to user directory so apache can read it."
cd /home
chmod ugo+rx $1
cd $1
echo "4) Create web directories."
mkdir public_html
chown $1.$1 public_html
chcon -R -h -u system_u -r object_r -t httpd_sys_content_t public_html
cd public_html
mkdir images
chown $1.$1 images
chcon -R -h -u system_u -r object_r -t httpd_sys_content_t images
# Block potential for unauthenticated logins
cd ../
touch .rhosts
chmod ugo-xrw .rhosts
echo "5) Create default web page"
sed "/HEADING/s!HEADING!$1!" /opt/etc/AccountDefaults/default-index.html > index.html
cp -p /opt/etc/AccountDefaults/favicon.ico .
cp -p /opt/etc/AccountDefaults/default-logo.gif ./images
cp -p /opt/etc/AccountDefaults/robots.txt .
chown $1.$1 index.html favicon.ico robots.txt
chcon -R -h -t httpd_sys_content_t index.html favicon.ico robots.txt
chcon -R -h -t httpd_sys_content_t images/default-logo.gif
echo "6) Edit /etc/passwd file - change user shell to /opt/bin/ftponly"
cp -p /etc/passwd /etc/passwd-`date +%m%d%y`
sed "/^$1/s!/bin/bash!/opt/bin/ftponly!" /etc/passwd-`date +%m%d%y` > /etc/passwd
#wu-ftp# Requires: /etc/ftpaccess guestuser restrict-uid
#wu-ftp# echo "7) Add user to /etc/ftpaccess file"
#wu-ftp# cp -p /etc/ftpaccess /etc/ftpaccess-`date +%m%d%y`
#wu-ftp# sed "/^guestuser/s!guestuser !guestuser $1 !" /etc/ftpaccess-`date +%m%d%y` > /etc/ftpaccess
#wu-ftp# sed "/^restricted-uid/s!restricted-uid !restricted-uid $1 !" /etc/ftpaccess-`date +%m%d%y` > /etc/ftpaccess
#wu-ftp# echo "guest-root /home/$1/public_html $1" >> /etc/ftpaccess
echo "7) Add user to vsftpd chroot list
cat `echo $1` >> /etc/vsftpd/vsftpd.chroot_list
echo "8) Setting Disk Quotas to default 50Mb limit:"
# Use user johndoe as a prototype.
edquota -p johndoe $1
echo "9) Admin Follow-up:"
echo " Modify quota.user if different than default"
echo " Make changes to Bind names services on dns1 and dns2 if necessary"
echo " Change /etc/http/conf/httpd.conf or
echo " add config to /etc/http/conf.d/ if using a new domain name"
echo " Add e-mail aliases to mail server if necessary"
fi
fi
FYI: Sample robots.txt files:
* yolinux.com/robots.txt
* yo-linux.com/robots.txt
* USC.edu/robots.txt
Useful links and resources:
* Linux Init Process - YoLinux.com tutorial
* Setting up an Apache redirect - YoLinux.com tutorial
* Apache Documentation
* LDP HowTo Guides:
o DNS-HOWTO - DNS administration - Nicolai Langfeldt
o Securing-Domain-HOWTO
o ISP-Setup-RedHat - Using Linux to host an ISP - Anton Chuvakin
o Linux Networking Overview HOWTO - Daniel Lopez Ridruejo
o Virtual-Services-HOWTO - DNS, FTP, Apache, Mail (POP, Qmail, Sendmail), Syslogd and Samba
o WWW-HOWTO - Setting up Apache services
o WWW-mSQL-HOWTO
* List of Internet Exchanges - An Internet Exchange (IX) is a junction between multiple principle Internet communication lines. A colo hosted at or close to an IX will have your best ability to handle traffic and your lowest latencies.
* Web Server Performance - Prof. Peter Ladkin, Ph.D
* InternetSeer: Web site monitoring service - Free and subscription services. They will email you a report weekly on the daily performance: web site outages, time on error, % uptime, and connect time (sec).
* Setting up a mail server - YoLinux Tutorial
* Linux Journal: Setting up MiniVend--the Electronic Shopping Cart - Kaare Rasmussen
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Amazon book image "Practical Guide to Ubuntu Linux (Versions 8.10 and 8.04)"
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Sams, ISBN# 0672325888
I have the Red Hat 6 version and I have found it to be very helpful. I have found it to be way more complete than the other Linux books. It is the most complete general Linux book in publication. While other books in the "Unleashed" series have dissapointed me, this book is the best out there.
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This book is very complete covering all aspects in detail. It is not your basic reprint of the apache.org documents like so many others.
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Apress, ISBN# 1590594940 Amazon.com
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by Bill Ball, David Pitts, William Ball
O'Reilly & Associates, ISBN# 0596100574
The best book available on the subject.
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