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One for all. All for one.

Now a single workstation or server can access Xsan volumes simultaneously. MultiSAN is ideal for users who need to access multiple Xsan volumes from the same workstation or server, such as newsrooms with separate SAN volumes for production and broadcast.

DrivesMultiSAN allows a single workstation or server to access Xsan volumes hosted by separate Xsan metadata controllers. Hosting volumes on separate Xsan controllers can improve the performance, reliability, and sustainability of critical volumes. Each volume is independently hosted, so a failure of any one volume does not affect another.

ProductionUsers can copy data between Xsan volumes directly over Fibre Channel. Prior to Xsan 2 and MultiSAN, data had to be moved over a slower Ethernet connection to copy data from one independent Xsan volume to another. With Fibre Channel, production workflows are significantly more efficient, and greater collaboration can be achieved.

MultiSAN Diagram

Written by montanaflynn

March 11, 2008 at 8:27 pm

Mac OSX Server FTP Server Administration

with 6 comments

FTP Only Accounts Under Mac OS X

The following howto describes how to set up ftp only accounts using Apple Mac’s built in ftp server (lukemftpd).

This outline requires you to use the terminal, NetInfo Manager and have admin privileges on the machine in question.

Warning: You can muck things up quite seriously using NetInfo Manager. At the very least make sure you have a recent, full back-up of the machine you’re planning to setup before going any further.

To create ftp only accounts we need to:

  1. Create an ftp login shell
  2. Restrict our prospective ftp user to their folder
  3. Create the user account
  4. Create a folder for the new user
  5. Give the user a password

Create An FTP Login Shell

To create an ftp login shell we need to copy or link /sbin/nologin to /sbin/ftplogin. We’ll create a symbolic link from /sbin/nologin to /sbin/ftplogin. To do this:

  1. Fire up Terminal
  2. Type “sudo ln -s /sbin/nologin /sbin/ftplogin” (without the quotes)
  3. Hit return
  4. Type in your admin user’s password when prompted

Now we need to add the new “shell” to the list of shells available to the system. To do this we need to add “/sbin/ftplogin” to the list of shells given in the file found at /etc/shells. In Terminal:

  1. Type “sudo pico /etc/shells”. This’ll open up the file “shells” in a simple text editor in Terminal
  2. Hit return
  3. Type in your admin user’s password if prompted
  4. Add the string “/sbin/ftplogin” (without the quotes) on a new line at the end of the list of shells available. This’ll give you a final list similar to:


  5. Type ctl + “o”. That’s the letter “o” while holding down the control key
  6. Hit return
  7. Type ctl + “x” to eXit Pico

Restrict User To Their Folder

We’re setting this up now so that as soon as the user we’re creating gains access to our machine, they’re restricted to their log-in or root folder. All we have to do is create the file /etc/ftpchroot if it doesn’t exist and then add the prospective user’s username to the file.

  1. In Terminal, type “cd /etc” (without the quotes. From here on in, I’ll assume you’re ignoring the quotes)
  2. Check to see whether the file “ftpchroot” exists. If it doesn’t, type “sudo touch ./ftpchroot” and give you admin password if prompted for it

Now we need to add the username to the created file. Using pico:

  1. In Terminal type “sudo pico ./ftpchroot”. This’ll open up the file “ftpchroot” in a simple text editor in Terminal
  2. Type in your prospective ftp user’s username. Ours is “fred”. For safety, make the username all lowercase letters only – although we’ll let you have the underscore (“_”) too.
  3. Type ctl + “o”. That’s the letter “o” while holding down the control key
  4. Hit return
  5. Type ctl + “x” to eXit Pico

Create User Account

We do this in NetInfo Manager. I’m going to talk you through doing this the long winded way – but once you’ve got one account set-up, I’d suggest you duplicate an existing account and modify it as appropriate.

  1. Fire up NetInfo Manager
  2. At the bottom of the pane, click the little lock symbol and supply your admin username and password to unlock NetInfo Manager
  3. In the lefthand column, select “/”
  4. In the middle column select “users”
  5. Click the “New” icon at the top of the pane. This will create a new user called “new_directory”.

Now we need to modify this user account to give it the properties we’re after. Some of these properties will depend on your setup and how you want to administer your machine. We’ll use some reasonable settings but you may want to change these.

Before we go further, we do need to check what the next available user id (uid) is. To do this, click through your users in NetInfo Manager (ignoring the system users if you know what these are) making a note of the highest uid. In my case it’s 503. This means that my next user is going to be 504. Alternatively, start a new series for ftp users starting at 601.

Having done this, with the user “new_directory” selected in NetInfo Manager:

  1. Select the “name” property in the bottom half of the pane. Double click on the Value “new_directory” to select it and type in your username. In our example our username, as added to the ftpchroot file is “fred” – so that’s what we’ll type here.
  2. Create a new property by clicking in the “New” icon at the top of the pane. This will create a new property called “new_property”. Change the property value to “uid”. Now change its value “new_value” to the next available uid – or, if you’re starting a new series, 601.
  3. Add a new property for the group id – “gid”. We’ll set this to “20”. i.e. Create the new property, select “new_property” and type “gid”. Select “new_value” and type “20”.
  4. Follow this procedure to add:
    Property Value(s)
    expire   0
    change   0
    shell   /sbin/ftplogin
    home   /Users/<username>

    Where the text “<username>” in the last property (“home”) is the username of the user you’re adding. In our example “fred”. So the value for the property “home” would be “/Users/fred”. This means the bottom of your NetInfo Manager pane should end up looking something like:

    Property Value(s)
    home   /Users/fred
    shell   /sbin/ftplogin
    change   0
    expire   0
    gid   20
    uid   504
    name   fred

    2006-04-18: We’ve been contacted by Esben Sørensen and Antoine Durr over the weekend, both of whom make the observation that “realname” needs to be added to the properties listed here. i.e. we should end up with:

    Property Value(s)
    home   /Users/fred
    shell   /sbin/ftplogin
    change   0
    expire   0
    gid   20
    uid   504
    name   fred
    realname   Fred

    So, add the “realname” property “else the account’s system preference pane will henceforth come up blank due to an incorrect/invalid realname” (Antoine Durr).

    Thanks to Esben and Antoine.

  5. Make sure you remember the uid as you’ll need it in a sec.
  6. Close NetInfo Manager saving and confirming the save as you go.

Create A User Folder

We need to create a user folder and then change its ownership (and permissions) to reflect those of the newly created user.

  1. In Terminal, type “cd /Users”. Typing “ls” will give you a list of all the users on your machine
  2. Type “mkdir <username>” where <username> is the new user’s username. We’ll be typing “mkdir fred”
  3. Change the owner of this file by typing “sudo chown <uid>:20 ./<username>. Where <uid> is the uid for the user you added (and made a mental note of) and <username> is the username…. OK. You’ve got the idea. Oh. If your prompted for a password, give your admin password.
  4. Change the permissions of this file so that we can all access it (if you know what you’re doing here, set the permissions as you see fit). “sudo chmod 777 ./<username>”

Now we’re on the home stretch.

Give The User A Password

The next step is to give the newly created user a password. To do this, in Terminal:

  1. Type “sudo passwd <username>”. (So we’ll be typing “sudo passwd fred”).
  2. Type in the new password at the prompt.
  3. Retype it as prompted.


If you’re behind a router or firewall which does Network Address Translation (NAT), there’s one more thing. Passive FTP requires the machine offering the FTP service to return its IP address and a port on which it’ll be listening. If you’re on a NATed network, it’s likely that the FTP server is going to return its internal IP number rather than the external address you’d prefer it to give. To get around this:

Create the file /etc/ftpd.conf

Add the line “advertise all <host>” where <host> is either the host name or external IP address for the FTP server.


Restart the FTP server to ensure that all the caches are flushed and then see whether you can log-in via ftp as the new user. The easiest way of doing this is to turn FTP off and then on again in System Preferences -> Sharing.

Written by montanaflynn

January 29, 2008 at 9:15 pm

Mac OSX Server 10.4

with 13 comments

Darwin: Kernel and BSD

Mac OS X Server starts with Darwin, the same open source foundation used in Mac OS X, Apples operating system for desktop and mobile computers. Darwin is built around the Mach 3.0 microkernel, which provides features critical to server operations, such as fine-grained multi-threading, symmetric multiprocessing (SMP), protected memory, a unified buffer cache (UBC), 64-bit kernel services and system notifications. Darwin also includes the latest innovations from the open source BSD community, particularly the FreeBSD development community.

Next-Generation Computing Power

Mac OS X Server v10.4 brings the power of 64-bit computing to mainstream servers opening up opportunities to process exponentially larger problems. Now with 64-bit addressing, Mac OS X Server can access massive amounts of memory, transcending the 4GB memory limitation of 32-bit systems. Its high-performance 64-bit file system enables you to create very large, exabyte-sized volumes for enormous databases and media storage. And its 64-bit optimized math libraries enable extremely accurate mathematical calculations. While Mac OS X Server is the ideal platform for next-generation networking applications and services, it also runs todays 32-bit applications natively no modification required.

Advanced BSD Networking

To increase the performance and security of your server deployments, Mac OS X Server incorporates industry-standard protocols and the latest in security standards such as multilink multihoming, IPv6, IPSec, IP over FireWire and 802.1X network authentication. New in Mac OS X Server v10.4 is Ethernet link aggregation and network interface failover (IEEE 802.3ad) for higher aggregated throughput and increased server availability. And with Mac OS X Server on Xserve G5, you also get support for Virtual Local Area Network (VLAN) tags and Ethernet Jumbo Frames. Using the time-tested BSD sockets and TCP/IP stack, these advanced networking features ensure compatibility and integration with IP-based networks.

Secure from the Start

Thanks to its UNIX foundation, Mac OS X Server contains robust security features in its core. To protect your server, your network and your organizations data, it also includes state-of-the-art technologies such as a built-in firewall with stateful packet analysis, strong encryption and authentication services, data security architectures and support for access control lists (ACLs) for fine-grained control of file system permissions. Simple interfaces and configuration tools allow you to set up systems easily and securely. In fact, when you take an Apple server out of the box, its already configured with the most secure settings.

Standards-Based Directory Services Architecture

Mac OS X Server features Open Directory, Apples directory and authentication services architecture. Open Directory allows you to integrate your server with any LDAP directory, leveraging the infrastructure you already have in place. It even integrates with proprietary services such as Microsofts Active Directory or Novell eDirectory. Also integrated is MITs Kerberos tcehnology, enabling single sign-on support in both Open Directory and Active Directory environments.

Optimized for Business-Critical Server Deployments

While Mac OS X Server has the same robust core as Mac OS X, it adds industrial-strength features required for server deployments. Designed for headless operation, Mac OS X Server enables you to install and configure services without connecting a monitor to the server. Powerful remote management tools allow you to securely manage services from anywhere on the network, and support for SSH2 provides secure access from the UNIX command line. To keep your systems up and running, Mac OS X Server has built-in tools for system monitoring, preventing accidental shutdown and recovering services quickly in case of network or power failure.

Written by montanaflynn

January 24, 2008 at 6:02 pm

Posted in Leopard, OSX, Servers, Software, Xserve

Tagged with , , , , , ,

Web Services With WebObjects

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Apple’s WebObjects is a comprehensive suite of tools and frameworks for quickly developing Java server applications. The release of WebObjects 5.2 allows developers to add standards-based web services to these applications, as well.

WebObjects gives you the ability to build or use web services without writing low-level SOAP, XML or WSDL documents. The WebObjects tools enable code-free generation, configuration and testing of web services from existing data assets. Because these web services can interoperate with clients written in many languages, including Java, AppleScript, and Perl, you can quickly create integrated solutions that would otherwise require a lot of coding.

This article shows you how to take an existing database and publish assets as web services, including a service description, all without writing any code.


If you don’t own your own copy of WebObjects 5.2, it is
available in a free trial version for Mac OS X version 10.2
or later at Apple
Developer Connection
. Directions on how to find the
download are on the

WebObjects – Getting Started page. We will be working
with Mac OS X 10.3 and Xcode so you will also need the Xcode
Tools for Mac OS X, available for download at the Apple
Developer Connection web site, in the Developer Tools
section. After you download everything, install the
WebObjects_X_Developer package in the Developer
folder and restart your system. You must upgrade to
WebObjects 5.2.2 via Software Update or you can get the
manual update at the page
>About the WebObjects 5.2.2 Update.

If you don’t want to build the project by hand and just want to run it, you can download the example used in this article.

The Data Model

Installing WebObjects installs a sample database in addition to the WebObjects tools. Navigate to /Library/Frameworks/JavaRealEstate.framework/Resources/ and open the RealEstate.eomodeld file. This launches EOModeler and opens the model file of a ficticious real estate database of houses in Silicon Valley. EOModeler is used to reverse-engineer databases, automatically finding all tables, columns and relationships. At runtime the WebObjects persistence engine automatically maps and generates Java objects from JDBC databases. You don’t need to write any SQL code.

The image below shows the tables found in the real estate database on the left; however, EOModeler refers to them as entities. We’re going to work with two of them, Listing and ListingAddress. On the right are the attributes (columns) of a Listing. You may quit EOModeler. We don’t need it anymore.

Real Estate Model

Building the Server Application

The model can now be used to automatically generate a web services-enabled server application. First, launch Xcode, located in /Developer/Applications. Choose File > New Project. In the New Project Assistant, select Direct to Web Services Application. Name the project Houses. Accept the defaults until you see the Choose EOModels pane. Add the RealEstate.eomodeld model file at /Library/Frameworks/JavaRealEstate.framework/Resources. In the Build and Launch Project pane, deselect “Build and launch project now” and click Finish.

In the Xcode main window, click the triangle next to Resources. Select the Properties file and edit it so it looks like this:


Build and Run Click the Build and Run button in the Xcode toolbar to build and run the application. When you see the message Waiting for requests..., the WebObjects server application is running.

Everything should look like the image below:


Configuring the Web Service

To customize a Direct to Web Services application you use the Web Services Assistant. It’s located in /Developer/Applications.

After you launch the Assistant, the Connect dialog appears. Enter http://localhost:55555 in the text input field and click Connect.

Most web services define a service with one or more operations, or methods. We’ll build a service HouseSearch and define an operation searchByPrice, which finds all house listings under a certain price. In addition to searching, WebObjects can generate Web service operations that let you insert, delete or update entries in a database.

In the Web Services Assistant main window, select http://localhost:55555 in the left-hand side list. Click the New Service toolbar button. Enter HouseSearch in the Service Name text field. Select Listing in the Available list of the Public Entities pane and add it by clicking the left-pointing arrow. Repeat for ListingAddress, making sure that the Enabled option is selected.

Now you add an operation to the HouseSearch Web service and define the calling arguments:

Click New Operation in the toolbar.

Enter searchByPrice in the Name text field.

Choose Listing from the Entity pop-up menu. Make sure the Type is search. Click OK.

In the main window, select askingPrice in the Available list in the Arguments pane and click the left-arrow button.

Choose “<=” from the Operator pop-up menu.

Select Return SOAP Struct.

Everything should look like the image below:

Web Services Assistant

Now, define the return values for this operation:

In the Return Values pane, select askingPrice from the Available list and click the left-arrow button.

Click the triangle next to address. Select address.street and click the left-arrow button. Repeat for address.city, address.state and address.zip.

Click the Save toolbar button.

You have now defined the HouseSearch service with the searchByPrice operation that finds all houses with an asking price less than or equal to its askingPrice argument and returns an array of listings, each with their asking price and address.

Everything should look like the image below:

Web Services Assistant

Testing the Service

Select searchByPrice under HouseSearch under http://localhost:55555.

Click the Test toolbar button. A test window is automatically generated with the appropriate user interface to test the searchByPrice operation.

Enter 250000 in the text input field and click Test. An empty list is returned. That is because a quarter of a million dollars won’t buy a home in Silicon Valley. Try again, entering 300000. This time three entries should be returned with their asking price and address.

See the image below:

Web Services Test

Generating WSDL Documents

Web Services Definition Language or WSDL is an XML format for describing web services and the operations they provide.

In the test window, click the WSDL tab. The WSDL document describing the HouseSearch Web service and its searchByPrice operation appears.

The WSDL document can also be retrieved directly from the server via the URL http://localhost:55555/cgi-bin/WebObjects/Houses.woa/ws/HouseSearch?wsdl. If you want to download the WSDL document and look at it, using the curl command is a convenient way to do so. In Terminal, execute the following command:

curl 'http://localhost:55555/cgi-bin/WebObjects/Houses.woa/ws/HouseSearch?wsdl' -o mywsdl.txt


You have developed, configured and tested a working Web
service with WebObjects without writing any SOAP, XML or
Java code. In addition, you learned how to obtain the WSDL
description that you can publish so client applications can
be built that use the service.

For more information about web services and WebObjects,
please refer to the manual titled “Web Services”
on the WebObjects Documentation site.

Editor’s note: WebObjects can do a lot more than web
services, including dynamic Web pages and distributed Java
Client applications. To find out more about WebObjects,
visit the
href=”http://www.apple.com/WebObjects/”>Web Objects page.

Written by montanaflynn

January 24, 2008 at 5:57 pm

Optimizing an Xserve for Web Hosting

with 3 comments

A single Xserve is ideally suited for smaller scale Web hosting, where the task is to host a handful of moderate-traffic sites. (With a fleet of Xserves, you could host an eBay or an Apple.com, but that’s a topic for another article.) The Xserve’s Apache Web server software has a multitude of configuration options. In this article, I will go over how to set up Apache to serve multiple Web sites from the same machine—so-called “virtual hosting.” I will also look at ways to optimize the server’s setup for fast, robust Web hosting. This article assumes that you have already followed the steps in the Mac OS X Server Administrator’s Guide to start Web service. (You can find the Guide on the Mac OS X Server Manuals page.)

Hosting Multiple Domains on One Server

The out-of-the-box behavior of Apache is to have one IP address and to serve one domain. However, it is quite easy to transparently host thousands of domains on a single Xserve, and the users need never know that it’s one machine behind the scenes and not a whole farm. There are two approaches to this sort of “virtual hosting”—IP-based and name-based. With IP-based hosting, each domain name is mapped to its own individual IP address. Name-based hosting uses a little trickery so that many domains can be served from the same IP address. IP-based hosting is a little more robust—it allows for secured HTTPS transactions, which are important for Web commerce, reverse DNS, and some other features; but IP addresses are scarce, so name-based hosting, which works perfectly well, is probably preferable for most applications. Name-based hosting depends on a certain header sent by the browser, and as a result it doesn’t work with some browsers released before 1997, but that is less and less of an issue as those browsers become increasingly scarce. I will go over how to set up both kinds of virtual hosting.

IP-Based Hosting

Assuming you have already acquired the domain names and IP addresses you’ll be using, the first step in creating an IP-based hosting setup is to configure the Xserve to have multiple IP addresses on the same Ethernet card. This can be done from System Preferences on the Xserve. Open the Network Preferences pane. Select “Active Network Ports” from the Show drop-down menu. Choose the port corresponding to the Ethernet card that you want to assign multiple IP addresses to, and click “Duplicate.” Then simply change the duplicate configuration to reflect the second IP address. It is necessary also to make sure that the Subnet Mask setting for all but one of the ports is This will prevent conflicts in the routing tables.

On a headless Xserve, the same thing can be accomplished with the IPAliases startup item. If the file /etc/IPAliases.conf doesn’t exist, create it. For each additional IP address, this file should contain one line of the form


For example, to add the IP address to the en0 network interface, the following line would be used:


The netmask should always be

In addition, IP aliases must be turned on, by adding to /etc/hostconfig the line


Every time the system is booted, the aliases listed in /etc/IPAliases.conf will be added. The file can contain any number of aliases.

With multiple IP addresses configured, the next step is to add DNS entries. For each domain that you want mapped to an IP address, create an A record in the DNS pointing the address to the site. In BIND, the A record might look like this:

firstdomain.com.   A

All of the records for the various domains can be in the same DNS file or in different ones, depending on the preferences of your users and whether you host your own DNS or not.

Finally, tell Apache how to deal with requests for the various addresses. In Server Settings, click Web in the Internet tab. Choose “Configure Web Service” from the drop-down menu. In the Sites tab, you can add as many sites as you like, just by entering the domain name and IP address for each one. The content for each site should be placed in the folder you specify in the “Web folder” field here.

Name-Based Hosting

Setting up name-based hosting is a bit simpler. Add DNS records for each domain to be hosted, such that each domain name resolves to the same single IP address—the one associated with your Xserve. When a user’s browser makes a request for one of the domains, it will send an HTTP Host header indicating which domain it is requesting. Apache interprets this header and returns the appropriate content.

After the DNS is configured, go to Server Settings’ Internet tab, and choose “Configure Web Service” from the Web drop-down menu. Go to the Sites tab. Here you can create an entry for each site you want to serve. Give each one the same IP address but different domain names. Content will be served from the location specified in the “Web folder” field.

If desired, name-based and IP-based hosting can co-exist.

Handling A Lot Of Domains

If you are hosting quite a few domains, or adding new ones frequently, it can be inconvenient to add an entry for each one in Server Settings. The process can be automated to a degree, so that simply adding a DNS entry and creating a new directory for content on the Xserve is sufficient to launch each new domain. NOTE that this method and that of adding sites via Server Settings are mutually exclusive—new domains added in this way will not be reflected in Server Settings, and adding or editing sites in Server Settings will alter the configuration of the automatically created domains with unpredictable results. This method also precludes turning the performance cache on and off on a per-domain basis. That said, here are the basic steps.

First, configure a single site in Server Settings, with the correct IP address. The domain name you give it doesn’t matter. Save the changes.

Edit /etc/httpd/httpd.conf to uncomment the two lines beginning:

LoadModule vhost_alias_module


AddModule vhost_alias_module

Also, change the line

UseCanonicalName On


UseCanonicalName Off

Next, edit /etc/httpd/httpd_macosXserver.conf. There should be a long comment section starting with the line:

## The section below contains a block for each site (virtual host).

Below this comment section is the stanza to edit. It looks something like this:

#<RAdmin 100>NameVirtualHost



#WebPerfCacheEnable Off

#SiteAutomaticallyDisabled Off

ServerName example.com

ServerAdmin webmaster@example.com

DocumentRoot "/Library/WebServer/Documents/"

DirectoryIndex index.html index.php

CustomLog "/private/var/log/httpd/access_log" "%{PC-Remote-Addr}i %l %u %t \"%r\" %>s %b"

ErrorLog "/private/var/log/httpd/error_log"

and so on.

The stanza may look somewhat different if performance caching is enabled.

There are just a few changes to make to this. First, on the ServerName line, you can place the fallback domain to which users of pre-1997 browsers will be sent. This line has to exist, but for users of modern browsers, it will be ignored.

Then modify the DocumentRoot line to look like this:

VirtualDocumentRoot /Library/WebServer/Documents/%0

and the CustomLog line to include %v :

CustomLog "/private/var/log/httpd/access_log" "%v %{PC-Remote-Addr}i %l %u %t \"%r\" %>s %b"

Save the file and restart Apache.

The VirtualDocumentRoot directive tells Apache to interpolate information from the server name, which in this case is read on the fly from the user’s browser, into the pathname. “%0” is a specifier representing the requested domain name. Thus, a browser request for http://domain-ten.com/index.html will be answered with the file at /Library/WebServer/Documents/domain-ten.com/index.html.

As a result, to host a new domain, all that has to be done is to create a new directory corresponding to the domain name in /Library/WebServer/Documents, and to place content to be served in that directory.

The various specifiers understood by the VirtualDocumentRoot directive are explained on the apache.org website. For example, if you have hundreds of domains hosted, they can be sorted into 36 directories based on their first alphanumeric character with the following directive:

VirtualDocumentRoot /Library/WebServer/Documents/%1.1/%0

A side-effect of this aliasing technique is that log data for all the virtual domains is sent to the same file. Adding the “%v” specifier to the CustomLog line prepends the name of the domain to each log line. A simple script can be used to parse this master log file into individual files for each domain, if so desired. More information on CustomLog specifiers is available on the apache.org website.

Tuning Web Server Performance

When setting up an Xserve for use as a Web server, there are a number of things you can do to improve performance. Some of these techniques improve the performance of the machine in general; others involve examining where bottlenecks may be occurring and tuning the Web server to work around them.

First, it is important to make sure the hardware is up to speed. Even a low-end Xserve has a very nice feature set, including fast disk access, fast Ethernet, and a minimum of 256MB of RAM out of the box. The RAM allotment can be increased to 2 gigs: if the Web server at full-throttle seems to be using a lot of memory, buying more RAM could speed things up considerably. In terms of hardware, there are several options that will increase reliability, including IP failover to a second server, which is described in detail in the Admin Guide, and adding an Xserve RAID for ultra-fast and reliable storage.

In addition to the hardware approaches, there are a number of software-based strategies for optimizing a Web server. I will detail some of these below.

Apple’s Performance Cache

Included in the OS X Server installation is Apple’s performance cache. This acts as an intermediary between the Apache Web server and the user: the cache stores a copy of commonly requested pages from the sites served, and, upon receiving a user request for one of these pages, sends it along. This involves much less overhead than invoking Apache each time the page is requested. Apache is still kept busy serving dynamic and less common pages. The cache can be enabled and disabled individually for each of the sites served from the machine. In general, the cache is very helpful for highish-traffic sites that consist primarily of static HTML pages. The total size of the site’s popularly requested static pages should be small enough to fit in the machine’s RAM; otherwise caching may actually slow things down. For sites with primarily dynamic content, the cache will not be helpful.

To turn the performance cache for a particular site on or off, go to the Internet tab in Server Settings and click Web. Choose “Configure Web Service,” and then select the Sites tab. Edit the site you want to change, and go to the Options tab. Check or uncheck “Enable performance cache” and save. The changes take effect when the Web server is restarted from the Web drop-down menu. Note that this cannot be done with a server configured with dynamic site addressing, as explained above.

Aspects of the behavior of the cache can be configured in the file /etc/webperfcache/webperfcache.conf. The default settings seem to work quite well, but they can be adjusted to make the cache work better with tweaked Apache settings (see below) or unusual server configurations.

Tweaking Apache

Apache has various settings which control how it handles requests. Tuning these can make a big difference in the performance of the server.

Apache’s performance can be monitored by viewing yourhosteddomain.com/server-status in a browser. Configure the <Location /server-status> section in /etc/httpd/httpd_macosXserver.conf to control who can view the status: it’s set by default to deny all but localhost.

Eliminating Unnecessary Modules

The first step in speeding up Apache is to remove any unnecessary modules. To see which modules are compiled in, do the following:

In httpd.conf, there is a section that looks like this:

#<Location /server-info>#    SetHandler server-info

#    Order deny,allow

#    Deny from all

#    Allow from .your-domain.com


Remove the # from the beginning of each line to uncomment the directive. Change “.your-domain.com” to the actual domain(s) that you wish to access server information from, and then restart Apache.

Now http://yoursite.com/server-info should display a variety of detailed information about the server, including which modules are compiled in, and configuration information for each module.

Modules that are compiled in statically can’t be removed without recompiling the Web server. The out-of-the-box configuration of Apache on Xserve has almost every module compiled as dynamically loadable, so it is easy to turn off unnecessary ones without recompiling the Web server. Dynamic modules are loaded when Apache starts, according to the LoadModule and AddModule directives in the file /etc/httpd/httpd.conf.

The base installation of Apache that ships with OS X Server loads quite a few dynamic modules by default. Each of these takes up some memory, and some of them, such as mod_status, cause Apache to do extra work with every request. Any modules that aren’t necessary to the functioning of the sites you host should not be loaded. This can be controlled by commenting out (by prefixing a # on each line) the relevant LoadModule and AddModule directives for each module in /etc/httpd/httpd.conf. Every module has both a LoadModule and and AddModule directive—be sure to comment out both when disabling a module. Mod_include and mod_rewrite, among others, are notorious performance hogs.

Adjusting Processes

There are several directives that can be adjusted to modify how Apache handles traffic. Apache will spawn new versions of itself to handle requests. MaxClients sets the maximum number of these that will be spawned. The more of these there are, the faster Apache can handle a large number of requests—up to the limitations of the machine’s memory. The default is 500. Figure on about 1 MB of RAM for each httpd instance, and set MaxClients accordingly in Server Settings (or /etc/httpd/httpd_macosXserver.conf).

The MinSpareServers and MaxSpareServers directives, in /etc/httpd/httpd.conf, set how many spare server processes are running to handle sudden requests. StartServers sets how many are created when Apache first starts. You may want to increase StartServers and MaxSpareServers if Apache seems to be slowing down when it has to create new processes. When Apache spawns more than four child processes per second—a sign that it may need more spare servers—it logs that fact to its error log. Keep an eye on the log and tune if necessary.

MaxRequestsPerChild keeps a lid on potential memory leaks by killing off each child process after it has served a certain number of requests. The default setting on OS X Server is 100,000, which is reasonable. A setting of 0 means that Apache’s children are never killed.

The KeepAlive settings in /etc/httpd/httpd_macosXserver.conf control how each server process listens for new requests on a connection that has been established. Increasing KeepAlive requests reduces traffic from new connections, but increases server load with many Apache processes waiting around for orders.

Removing Extra Steps

Another key to speeding up Apache’s behavior is to minimize the number of things it has to do for each request. If the Web server is receiving a lot of requests, these extra tasks can bog it down tremendously.

HostnameLookups causes Apache to perform a DNS lookup for every incoming request, so it can log the domain name as well as the IP address in the access log. This should be turned off, as it is by default, if performance is an issue. The DNS lookups can be performed after the fact, on another machine, using a tool such as logresolve.

If AllowOverride is turned on, then Apache checks for the presence of .htaccess files containing overriding directives at every level of the hierarchy. This repetitive checking eats up server resources. For maximum performance, set AllowOverride None. (This is the default setting for OS X Server.)

FollowSymLinks is a directive that instructs Apache to follow symbolic links without performing an additional security check on them. If this is turned off, Apache slows down to check each symbolic link.

Finally, logging is very important for 95 percent of Web-hosting activities, but if you are not using it, turning it off will improve performance. All that file access slows things down considerably. Set TransferLog /dev/null in /etc/httpd/httpd.conf.

Temporary Adjustments

Sometimes, if you’re lucky, you have advance warning of a peak in Web traffic; say, a well-read news site is planning to link to one of the domains you host tomorrow. There are a few emergency preparations that can be made to allow for that kind of situation.

First, free up memory and CPU by offloading everything you can. If the Xserve is acting as a mail server, database server, or what-have-you, as well as a Web server, move those duties to another machine if possible. If there are other medium-traffic domains that could be hosted elsewhere temporarily, do it. Shut down unnecessary processes and cron jobs.

Second, make sure you have enough bandwidth. If you use a firewall, you may want to reconfigure its socket handling to maximize throughput.

If it is possible, making changes to the content of the
domain to be served can be very effective. Remove images, reduce
their file sizes, or simply move them to another server and
serve them from there.

Apache’s MaxClients limit is hard-coded at 2048 in OS X
Server. For peak traffic, you may want far more clients than
this. It is necessary to recompile Apache to make this change.
You will have to download the source code from the
href=”http://httpd.apache.org/download.cgi”>apache.org website. In the source file src/include/httpd.h,
change the line

#define HARD_SERVER_LIMIT 2048


#define HARD_SERVER_LIMIT 4096

Or whatever number seems appropriate. Note that the number given here is usually a factor of 2.

Then recompile according to the instructions in the INSTALL file included with the source.

Careful deployment of all of these tips should significantly improve the way the Xserve handles Web serving. If, after all of the above, your server simply can’t handle the load it’s getting, that’s when you should consider adding a second machine to share the burden.

Written by montanaflynn

January 24, 2008 at 5:46 pm

Leopard Server

with 95 comments

Setup and Administration. No IT department required.

If you think it takes a dedicated IT department to deploy and use a server, think again. Leopard Server is designed so you can easily set up and manage servers.

Server Preference Icon

Keeping it simple.

Leopard Server builds on Apple’s legendary ease of use with new Server Assistant and Server Preferences features that allow even nontechnical users to set up and manage a server in just a few clicks.

Server Assistant walks you through the setup process and configuration of essential services. It runs a built-in Network Health Check to verify network settings and Internet connectivity.

Using the new Server Preferences application, you can quickly manage users and groups on the server and set up key services such as file sharing, calendaring, instant messaging, mail, websites with wikis and blogs, virtual private networking for remote access, and backup settings for network clients.


Server Status Widgets

Status reports.

To help you keep an eye on things, a new Server Status Dashboard widget provides an easy and instantaneous way to monitor your server. You’ll get at-a-glance information on the status of essential services such as mail, file and printer sharing, iChat, and more.

Setup and Administration showcase

The end of manual labor.

Adding clients to the network is now a quick and easy process. Just plug the new Mac into the network and launch the Directory Utility application. It will automatically detect and sign on to the server. After authenticating, the new computer will be configured to use the services offered by your server, and all your applications, such as Mail, iChat, and iCal, will also be configured and ready to use. Leopard Server will keep these settings updated, so you’ll never need to manually reconfigure a user’s account or computer again.

Server Admin for advanced IT services.

Server Admin

Advanced IT administrators can use Server Admin to set up, manage, and monitor advanced services. Completely redesigned in Leopard Server, Server Admin includes new file-sharing and permission controls, tiered administration, and options for organizing servers into smart groups.

Smart Groups

Written by montanaflynn

January 22, 2008 at 6:57 pm

Posted in Hardware, Leopard, OSX, Servers, Xserve

Tagged with , , , , ,