$FreeBSD: head/en_US.ISO8859-1/articles/hubs/article.xml 41155
2013-03-10 19:27:47Z gavin $
FreeBSD is a registered trademark of the FreeBSD Foundation.
CVSup is a registered trademark of John D. Polstra.
Many of the designations used by manufacturers and sellers to distinguish their products are claimed as trademarks. Where those designations appear in this document, and the FreeBSD Project was aware of the trademark claim, the designations have been followed by the “™” or the “®” symbol.
Note: We are not accepting new mirrors at this time.
Disk space is one of the most important requirements. Depending on the set of releases, architectures, and degree of completeness you want to mirror, a huge amount of disk space may be consumed. Also keep in mind that official mirrors are probably required to be complete. The CVS repository and the web pages should always be mirrored completely. Also note that the numbers stated here are reflecting the current state (at 8.3-RELEASE/9.1-RELEASE). Further development and releases will only increase the required amount. Also make sure to keep some (ca. 10-20%) extra space around just to be sure. Here are some approximate figures:
Full FTP Distribution: 1.0 TB
CVS repository: 5.4 GB
CTM deltas: 3.2 GB
Web pages: 463 MB
The current disk usage of FTP Distribution can be found at ftp://ftp.FreeBSD.org/pub/FreeBSD/dir.sizes.
Of course, you need to be connected to the Internet. The required bandwidth depends on your intended use of the mirror. If you just want to mirror some parts of FreeBSD for local use at your site/intranet, the demand may be much smaller than if you want to make the files publicly available. If you intend to become an official mirror, the bandwidth required will be even higher. We can only give rough estimates here:
Local site, no public access: basically no minimum, but < 2 Mbps could make syncing too slow.
Unofficial public site: 34 Mbps is probably a good start.
Official site: > 100 Mbps is recommended, and your host should be connected as close as possible to your border router.
One thing this depends on the expected number of clients, which is determined by the server's policy. It is also affected by the types of services you want to offer. Plain FTP or HTTP services may not require a huge amount of resources. Watch out if you provide rsync. This can have a huge impact on CPU and memory requirements as it is considered a memory hog. The following are just examples to give you a very rough hint.
For a moderately visited site that offers Rsync, you might consider a current CPU with around 800MHz - 1 GHz, and at least 512MB RAM. This is probably the minimum you want for an official site.
For a frequently used site you definitely need more RAM (consider 2GB as a good start) and possibly more CPU, which could also mean that you need to go for a SMP system.
You also want to consider a fast disk subsystem. Operations on the CVS repository require a fast disk subsystem (RAID is highly advised). A SCSI controller that has a cache of its own can also speed up things since most of these services incur a large number of small modifications to the disk.
Every mirror site is required to have a set of core services available. In addition to these required services, there are a number of optional services that server administrators may choose to offer. This section explains which services you can provide and how to go about implementing them.
This is one of the most basic services, and it is required for each mirror offering public FTP distributions. FTP access must be anonymous, and no upload/download ratios are allowed (a ridiculous thing anyway). Upload capability is not required (and must never be allowed for the FreeBSD file space). Also the FreeBSD archive should be available under the path /pub/FreeBSD.
There is a lot of software available which can be set up to allow anonymous FTP (in alphabetical order).
/usr/libexec/ftpd: FreeBSD's own ftpd can be used. Be sure to read ftpd(8).
ftp/ncftpd: A commercial package, free for educational use.
ftp/oftpd: An ftpd designed with security as a main focus.
ftp/proftpd: A modular and very flexible ftpd.
ftp/pure-ftpd: Another ftpd developed with security in mind.
ftp/twoftpd: As above.
ftp/vsftpd: The “very secure” ftpd.
ftp/wu-ftpd: The ftpd from Washington University. It has become infamous, because of the huge amount of security issues that have been found in it. If you do choose to use this software be sure to keep it up to date.
FreeBSD's ftpd, proftpd, wu-ftpd and maybe ncftpd are among the most commonly used FTPds. The others do not have a large userbase among mirror sites. One thing to consider is that you may need flexibility in limiting how many simultaneous connections are allowed, thus limiting how much network bandwidth and system resources are consumed.
Rsync is often offered for access to the contents of the FTP area of FreeBSD, so other mirror sites can use your system as their source. The protocol is different from FTP in many ways. It is much more bandwidth friendly, as only differences between files are transferred instead of whole files when they change. Rsync does require a significant amount of memory for each instance. The size depends on the size of the synced module in terms of the number of directories and files. Rsync can use rsh and ssh (now default) as a transport, or use its own protocol for stand-alone access (this is the preferred method for public rsync servers). Authentication, connection limits, and other restrictions may be applied. There is just one software package available:
If you want to offer the FreeBSD web pages, you will need to install a web server. You may optionally offer the FTP fileset via HTTP. The choice of web server software is left up to the mirror administrator. Some of the most popular choices are:
www/apache22: Apache is the most widely deployed web server on the Internet. It is used extensively by the FreeBSD Project.
www/thttpd: If you are going to be serving a large amount of static content you may find that using an application such as thttpd is more efficient than Apache. It is optimized for excellent performance on FreeBSD.
www/boa: Boa is another alternative to thttpd and Apache. It should provide considerably better performance than Apache for purely static content. It does not, at the time of this writing, contain the same set of optimizations for FreeBSD that are found in thttpd.
CVSup is a very efficient way of distributing files.
It works similar to rsync, but was specially designed for use
with CVS repositories. If you want to offer the FreeBSD CVS repository, you really want
to consider offering it via CVSup. It is possible to offer the
CVS repository via AnonCVS, FTP, rsync or HTTP, but people would benefit much more from CVSup access. CVSup was developed by
<jdp@FreeBSD.org>. It is a bit tricky to
install on non-FreeBSD platforms, since it is written in Modula-3 and therefore requires
a Modula-3 environment. John Polstra has built a stripped down version of M3 that is
sufficient to run CVSup, and can be installed much easier. See
details. Related ports are:
There are a few more like net/cvsup-without-gui you might want to have a look at. If you prefer a static binary package, take a look here. This page still refers to the S1G bug that was present in CVSup. Maybe John will set up a generic download-site to get static binaries for various platforms.
It is possible to use CVSup to offer any kind of fileset, not just CVS repositories, but configuration can be complex. CVSup is known to eat some CPU on both the server and the client, since it needs to compare lots of files.
If you have the CVS repository, you may want to offer anonymous CVS access. A short warning first: There is not much demand for it, it requires some experience, and you need to know what you are doing.
Generally there are two ways to access a CVS repository remotely: via pserver or via ssh (we do not consider rsh). For anonymous access, pserver is very well suited, but some still offer ssh access as well. There is a custom crafted wrapper in the CVS repository, to be used as a login-shell for the anonymous ssh account. It does a chroot, and therefore requires the CVS repository to be available under the anonymous user's home-directory. This may not be possible for all sites. If you just offer pserver this restriction does not apply, but you may run with more security risks. You do not need to install any special software, since cvs(1) comes with FreeBSD. You need to enable access via inetd, so add an entry into your /etc/inetd.conf like this:
cvspserver stream tcp nowait root /usr/bin/cvs cvs -f -l -R -T /anoncvstmp --allow-root=/home/ncvs pserver
See the manpage for details of the options. Also see the CVS info page about additional ways to make sure access is read-only. It is advised that you create an unprivileged account, preferably called anoncvs. Also you need to create a file passwd in your /home/ncvs/CVSROOT and assign a CVS password (empty or anoncvs) to that user. The directory /anoncvstmp is a special purpose memory based file system. It is not required but advised since cvs(1) creates a shadow directory structure in your /tmp which is not used after the operation but slows things dramatically if real disk operations are required. Here is an excerpt from /etc/fstab, how to set up such a MFS:
/dev/da0s1b /anoncvstmp mfs rw,-s=786432,-b=4096,-f=512,-i=560,-c=3,-m=0,nosuid 0 0
This is (of course) tuned a lot, and was suggested by John Polstra
Ok, now you know the requirements and how to offer the services, but not how to get it. :-) This section explains how to actually mirror the various parts of FreeBSD, what tools to use, and where to mirror from.
The FTP area is the largest amount of data that needs to be mirrored. It includes the distribution sets required for network installation, the branches which are actually snapshots of checked-out source trees, the ISO Images to write CD-ROMs with the installation distribution, a live file system, lots of packages, the ports tree, distfiles, and a huge amount of packages. All of course for various FreeBSD versions, and various architectures.
You can use a FTP mirror program to get the files. Some of the most commonly used are:
ftp/mirror was very popular, but seemed to have some drawbacks, as it is written in perl(1), and had real problems with mirroring large directories like a FreeBSD site. There are rumors that the current version has fixed this by allowing a different algorithm for comparing the directory structure to be specified.
In general FTP is not really good for mirroring. It transfers the whole file if it has changed, and does not create a single data stream which would benefit from a large TCP congestion window.
A better way to mirror the FTP area is rsync. You can install the port net/rsync and then use rsync to sync with your upstream host. rsync is already mentioned in Section 2.4.2. Since rsync access is not required, your preferred upstream site may not allow it. You may need to hunt around a little bit to find a site that allows rsync access.
Note: Since the number of rsync clients will have a significant impact on the server machine, most admins impose limitations on their server. For a mirror, you should ask the site maintainer you are syncing from about their policy, and maybe an exception for your host (since you are a mirror).
A command line to mirror FreeBSD might look like:
% rsync -vaz --delete ftp4.de.FreeBSD.org::FreeBSD/ /pub/FreeBSD/
Consult the documentation for rsync, which is also available at http://rsync.samba.org/, about the various options to be used with rsync. If you sync the whole module (unlike subdirectories), be aware that the module-directory (here "FreeBSD") will not be created, so you cannot omit the target directory. Also you might want to set up a script framework that calls such a command via cron(8).
A few sites, including the one-and-only ftp-master.FreeBSD.org even offer CVSup to mirror the contents of the FTP space. You need to install a CVSup client, preferably from the port net/cvsup. (Also reread Section 2.4.4.) A sample supfile suitable for ftp-master.FreeBSD.org looks like this:
# # FreeBSD archive supfile from master server # *default host=ftp-master.FreeBSD.org *default base=/usr *default prefix=/pub #*default release=all *default delete use-rel-suffix *default umask=002 # If your network link is a T1 or faster, comment out the following line. #*default compress FreeBSD-archive release=all preserve
It seems CVSup would be the best way to mirror the archive in terms of efficiency, but it is only available from few sites.
Note: Please have look at the CVSup documentation like cvsup(1) and consider using the
-soption. This reduces I/O operations by assuming the recorded information about each file is correct.
There are various ways to mirror the CVS repository. CVSup is the most common method.
It is very easy to setup a CVSup mirror. Installing net/cvsup-mirror will make sure all of the needed programs are installed and then gather all the needed information to configure the mirror.
Note: Please do not forget to consider the hint mentioned in this note above.
Using other methods than CVSup is generally not recommended. We describe them in short here anyway. Since most sites offer the CVS repository as part of the FTP fileset under the path /pub/FreeBSD/development/FreeBSD-CVS, the following methods could be used.
Important: AnonCVS cannot be used to mirror the CVS repository since CVS does not allow you to access the repository itself, only checked out versions of the modules.
The best way is to check out the www distribution from CVS. If you have a local mirror of the CVS repository, it is as easy as:
% cvs -d /home/ncvs co www
and a cronjob, that calls cvs up -d -P on a regular basis, maybe just after your repository was updated. Of course, the files need to remain in a directory available for public WWW access. The installation and configuration of a web server is not discussed here.
If you do not have a local repository, you can use CVSup to maintain an “up to date copy” of the www pages. A sample supfile can be found in /usr/share/examples/cvsup/www-supfile and could look like this:
# # WWW module supfile for FreeBSD # *default host=cvsup3.de.FreeBSD.org *default base=/usr *default prefix=/usr/local *default release=cvs tag=. *default delete use-rel-suffix # If your network link is a T1 or faster, comment out the following line. *default compress # This collection retrieves the www/ tree of the FreeBSD repository www
Using ftp/wget or other web-mirror tools is not recommended.
Since the documentation is referenced a lot from the web pages, it is recommended that you mirror the FreeBSD documentation as well. However, this is not as trivial as the www-pages alone.
First of all, you should get the doc sources, again preferably via CVSup. Here is a corresponding sample supfile:
# # FreeBSD documentation supfile # *default host=cvsup3.de.FreeBSD.org *default base=/usr *default prefix=/usr/share *default release=cvs tag=. *default delete use-rel-suffix # If your network link is a T1 or faster, comment out the following line. #*default compress # This will retrieve the entire doc branch of the FreeBSD repository. # This includes the handbook, FAQ, and translations thereof. doc-all
Then you need to install a couple of ports. You are lucky, there is a meta-port: textproc/docproj to do the work for you. You need to set up some environment variables, like SGML_CATALOG_FILES. Also have a look at your /etc/make.conf (copy /usr/share/examples/etc/make.conf if you do not have one), and look at the DOC_LANG variable. Now you are probably ready to run make in your doc directory (/usr/share/doc by default) and build the documentation. Again you need to make it accessible for your web server and make sure the links point to the right location.
Important: The building of the documentation, as well as lots of side issues, is documented itself in the FreeBSD Documentation Project Primer. Please read this piece of documentation, especially if you have problems building the documentation.
Every mirror should be updated on a regular basis. You will certainly need some script framework for it that will be called by cron(8). Since nearly every admin does this his own way, we cannot give specific instructions. It could work like this:
Put the command to run your mirroring application in a script. Use of a plain /bin/sh script is recommended.
Add some output redirections so diagnostic messages are logged to a file.
Test if your script works. Check the logs.
Use crontab(1) to add the script to the appropriate user's crontab(5). This should be a different user than what your FTP daemon runs as so that if file permissions inside your FTP area are not world-readable those files can not be accessed by anonymous FTP. This is used to “stage” releases — making sure all of the official mirror sites have all of the necessary release files on release day.
Here are some recommended schedules:
FTP fileset: daily
CVS repository: hourly
WWW pages: daily
This is an important issue. So this section will spend some effort to explain the backgrounds. We will say this several times: under no circumstances should you mirror from ftp.FreeBSD.org.
Mirrors are organized by country. All official mirrors have a DNS entry of the form ftpN.CC.FreeBSD.org. CC (i.e. country code) is the top level domain (TLD) of the country where this mirror is located. N is a number, telling that the host would be the Nth mirror in that country. (Same applies to cvsupN.CC.FreeBSD.org, wwwN.CC.FreeBSD.org, etc.) There are mirrors with no CC part. These are the mirror sites that are very well connected and allow a large number of concurrent users. ftp.FreeBSD.org is actually two machines, one currently located in Denmark and the other in the United States. It is NOT a master site and should never be used to mirror from. Lots of online documentation leads “interactive”users to ftp.FreeBSD.org so automated mirroring systems should find a different machine to mirror from.
Additionally there exists a hierarchy of mirrors, which is described in terms of tiers. The master sites are not referred to but can be described as Tier-0. Mirrors that mirror from these sites can be considered Tier-1, mirrors of Tier-1-mirrors, are Tier-2, etc. Official sites are encouraged to be of a low tier, but the lower the tier the higher the requirements in terms as described in Section 2. Also access to low-tier-mirrors may be restricted, and access to master sites is definitely restricted. The tier-hierarchy is not reflected by DNS and generally not documented anywhere except for the master sites. However, official mirrors with low numbers like 1-4, are usually Tier-1 (this is just a rough hint, and there is no rule).
Under no circumstances should you mirror from ftp.FreeBSD.org. The short answer is: from the site that is closest to you in Internet terms, or gives you the fastest access.
If you have no special intentions or requirements, the statement in Section 4.2 applies. This means:
Check for those which provide fastest access (number of hops, round-trip-times) and offer the services you intend to use (like rsync or CVSup).
Contact the administrators of your chosen site stating your request, and asking about their terms and policies.
Set up your mirror as described above.
In general the description in Section 4.2.1 still applies. Of course you may want to put some weight on the fact that your upstream should be of a low tier. There are some other considerations about official mirrors that are described in Section 5.
If you have good reasons and good prerequisites, you may want and get access to
one of the master sites. Access to these sites is generally restricted, and there are
special policies for access. If you are already an official mirror, this certainly helps you getting access. In
any other case make sure your country really needs another mirror. If it already has
three or more, ask the “zone administrator” (
<hostmaster@CC.FreeBSD.org>) or FreeBSD
mirror sites mailing lists first.
Whoever helped you become, an official should have helped you gain access to an
appropriate upstream host, either one of the master sites or a suitable Tier-1
site. If not, you can send email to
request help with that.
There are three master sites for the FTP fileset and one for the CVS repository (the web pages and docs are obtained from CVS, so there is no need for master).
This is the master site for the FTP fileset.
Mirrors are also encouraged to allow rsync access for the FTP contents, since they are Tier-1-mirrors.
This is the master site for the CVS repository.
cvsup-master.FreeBSD.org provides CVSup access only. See Section 3.2.1 for details.
Set up the required authentication by following these instructions. Make sure you specify the server as freefall.FreeBSD.org on the cvpasswd command line, as described in this document, even when you are contacting cvsup-master.FreeBSD.org
Official mirrors are mirrors that
a) have a FreeBSD.org DNS entry (usually a CNAME).
b) are listed as an official mirror in the FreeBSD documentation (like handbook).
So far to distinguish official mirrors. Official mirrors are not necessarily Tier-1-mirrors. However you probably will not find a Tier-1-mirror, that is not also official.
It is not so easy to state requirements for all official mirrors, since the project is sort of tolerant here. It is more easy to say, what official tier-1 mirrors are required to. All other official mirrors can consider this a big should.
Note: The following applies mainly to the FTP fileset, since a CVS repository should always be mirrored completely, and the web pages are a case of its own.
Tier-1 mirrors are required to:
carry the complete fileset
allow access to other mirror sites
provide FTP and rsync access
Important: It is very important for a hub administrator, especially Tier-1 hub admins, to check the release schedule for the next FreeBSD release. This is important because it will tell you when the next release is scheduled to come out, and thus giving you time to prepare for the big spike of traffic which follows it.
It is also important that hub administrators try to keep their mirrors as up-to-date as possible (again, even more crucial for Tier-1 mirrors). If Mirror1 does not update for a while, lower tier mirrors will begin to mirror old data from Mirror1 and thus begins a downward spiral... Keep your mirrors up to date!
We are not accepting any new mirrors at this time.
Here are links to the stat pages of your favorite mirrors (a.k.a. the only ones who feel like providing stats).