Mac OS X Server Getting Started For Version 10.
K Apple Computer, Inc. © 2006 Apple Computer, Inc. All rights reserved. The owner or authorized user of a valid copy of Mac OS X Server software may reproduce this publication for the purpose of learning to use such software. No part of this publication may be reproduced or transmitted for commercial purposes, such as selling copies of this publication or for providing paid-for support services. Every effort has been made to ensure that the information in this manual is accurate. Apple Computer, Inc.
1 Contents Preface 7 7 7 8 9 10 10 11 11 13 13 About This Supplement What’s New in Version 10.
34 34 34 36 36 37 37 37 38 38 39 39 40 40 41 41 42 43 44 44 44 45 45 46 46 47 47 48 48 48 49 49 50 51 51 52 52 Computer Lists Home Directories Macintosh User Management Windows User Management System Imaging Services NetBoot Network Install Software Update Service File Services Sharing Apple File Service Windows Services Network File System (NFS) Service File Transfer Protocol (FTP) Web-based Distributed Authoring and Versioning (WebDAV) Print Service Web Service Mail Service Network Services DHCP DNS F
Glossary 73 Index 83 Contents 5
Contents
Preface About This Supplement This supplement provides an orientation to the features of Mac OS X Server version 10.4, a worksheet for installation and setup, and a setup example. This supplement to the getting started guide will help you understand how your server can serve your network users and your business needs. What’s New in Version 10.4 Mac OS X Server version 10.
User Access Management Numerous new features in version 10.4 enhance your ability to both facilitate and manage user access to services: Â Access Control Lists (ACLs). ACLs give you a way to craft share point, folder, and file access permissions with a high degree of precision. A wide range of permissions can be assigned to individual users and to groups, which can be nested. In addition, you can use inheritance to propagate permissions through a file system hierarchy. Â Nested groups.
 Importing accounts. The performance of importing accounts into an LDAPv3 directory has been greatly improved. In addition, you can now import password policy settings, control whether presets are applied during import, and specify the amount of information logged. Server Administration Mac OS X Server management continues to become easier and more effective:  Open Directory schema replication.
Collaboration Services Collaboration services promote interactions among users, facilitating teamwork and productivity. Mac OS X Server continues to provide such collaborative support as mailing list management, group account and folder management, and cross-platform file sharing. Two new collaborative services have been added for version 10.4: Â Weblog service. Mac OS X Server provides a multiuser weblog server that complies with the RSS and Atom XML standards.
Using Onscreen Help You can view instructions and other useful information from this and other documents in the server suite by using onscreen help. On a computer running Mac OS X Server, you can access onscreen help after opening Workgroup Manager or Server Admin. From the Help menu, select one of the options: Â Workgroup Manager Help or Server Admin Help displays information about the application.
This guide ... tells you how to: File Services Administration Share selected server volumes or folders among server clients using these protocols: AFP, NFS, FTP, and SMB/CIFS. High Availability Administration Manage IP failover, link aggregation, load balancing, and other hardware and software configurations to ensure high availability of Mac OS X Server services. Java Application Server Guide Configure and administer a JBoss application server on Mac OS X Server.
Getting Documentation Updates Periodically, Apple posts new onscreen help topics, revised guides, and solution papers. The new help topics include updates to the latest guides. Â To view new onscreen help topics, make sure your server or administrator computer is connected to the Internet and click the Late-Breaking News link on the main Mac OS X Server help page. Â To download the latest guides and solution papers in PDF format, go to the Mac OS X Server documentation webpage: www.apple.
Preface About This Supplement
1 Mac OS X Server in Action 1 Mac OS X Server addresses the needs of many environments.
Departments and Workgroups In large organizations, Mac OS X Server helps you support the special needs of departments and workgroups, yet centralize corporate-level services.
Back-office servers and services address business-wide needs: Â Open Directory lets you manage directory data centrally, but distribute it geographically using replication. Â Collaboration services help employees interact with each other while protecting the content they exchange. For example, the iChat server provides employees with instant messaging that’s secure and encrypted. Â Software update service lets you control which updated Apple software to make available to particular employees.
Here’s an example of a departmental server that provides some of these services for creative professionals who design and produce video and audio projects. The Internet File and Web DAV services Windows NT server Web, print, and QuickTime streaming services Windows clients AirPort Base Station Mac OS X clients  Using Xserve as the departmental computer provides the bandwidth needed for large-file transfers.
Small and Medium Businesses Small businesses (fewer than 100 employees) and medium businesses (about 100 to 500 employees) benefit from cross-platform file and printer sharing and numerous other services, including network, mail, web, and collaboration. The following picture depicts a business with two small networks, joined by a VPN connection. Referred to as “site-to-site VPN,” this kind of secure connection is easy to establish when needed, as when a business needs to open another office.
 The directory and network services in each network reside on one Mac OS X Server, and a second server hosts mail, web, and other employee productivity services. In small businesses, all services might reside on a single server.  Setting up basic network services, such as the Network Address translation (NAT), firewall (IP filter), DHCP, and DNS services in this scenario, are easy thanks to Gateway Setup Assistant.
Higher-Education Facilities Colleges and universities have heterogeneous computer environments, since the students and the computer systems they use are highly diverse. Mac OS X Server fits well into such an environment because of its capacity to integrate with a wide variety of existing services, protocols, and directory infrastructures.
 Network Install makes it easy to change software configurations, over the network, on hundreds of Macintosh client computers, as often as necessary. It automates the setup of lab and faculty computers, facilitates software upgrades, and quickly refreshes computers to an original, preconfigured state.
Teachers need file services support so they can make lesson plans and teaching materials available to students online. Teachers also need a way to retrieve and update student records and other administrative information that’s centralized on a remote server.
 Many school districts have an LDAP or Active Directory server set up as a master directory server for all schools in the district. Mac OS X Server can use these existing centralized repositories for accessing student and teacher information, but host other services, such as file and printer sharing, on the server in a lab or classroom.  Mobile accounts support students who use portable Macintosh computers such as the iBook.
 One Xserve in a rack is usually set up as a master computer, called the head node. The head node runs NetBoot and Network Install and hosts directory services and other shared facilities for other computers in the rack, which are used for data processing and numerical computations.  The head node is also likely to be set up as an AFP and NFS file server and implement an IP firewall that protects access to the cluster by unauthorized users.
Data Centers Mac OS X Server provides the full range of services you need if you host ecommerce websites or provide other Internet services that require high availability and scalability.
 You can deploy enterprise Java applications using the JBoss application server. JBoss, which runs on Java 1.4.2, implements the Enterprise Edition (J2EE) technologies. The Mac OS X Server implementation includes easy-to-use administration tools to help you configure and monitor the application servers. Because of its clustering capabilities, JBoss might be run on several Xserve computers.  QuickTime Streaming Server lets you broadcast multimedia in real time, including live QuickTime Broadcaster streams.
Chapter 1 Mac OS X Server in Action
2 Inside Mac OS X Server 2 Mac OS X Server blends a mature, stable UNIX foundation with open standards support and Macintosh ease of use. This chapter introduces the services that Mac OS X Server offers and tells you where to find more information about them. Core System Services Mac OS X Server is built on top of Darwin, the core Mac OS X operating system. Darwin integrates Mach 3.0 operating-system services based on FreeBSD (Berkeley Software Distribution) 4.8 and the latest advances from FreeBSD 5.0.
Open Directory Open Directory is the Mac OS X directory services framework. It encompasses directory services, authentication, and service discovery for Mac OS X and Mac OS X Server. Directory services are the means by which a server and its clients (users and services) locate and retrieve information needed for authentication, network resource discovery, and other crucial system activities.
 In Sun Microsystems Network Information System (NIS) files Mac OS X Server provides full read/write and Secure Sockets Layer (SSL) communications support for LDAPv3 directories. Directory Management Several Open Directory features help you effectively and efficiently manage your directory data:  Automatic LDAP schema replication. You can store LDAP schema in the directory, letting you add new schema without manually copying configuration files.
Authentication You have several options for authenticating users: Â Open Directory authentication. Based on the standard Simple Authentication and Security Layer (SASL) protocol, Open Directory authentication supports many authentication methods, including CRAM-MD5, APOP, WebDAV, SHA-1, LAN Manager, NTLMv1, and NTLMv2. It’s the preferred way to authenticate Windows users. Authentication methods can be selectively disabled to make password storage on the server more secure.
Discovery of Network Services Information about file servers and other services tends to change much more frequently than user information, so it isn’t typically stored in directories. Instead, information about these services is discovered as the need arises. Open Directory can discover network services that make their existence and whereabouts known. Services make themselves known by means of standard protocols.
 A group folder is a place for group members to exchange ideas and receive information that’s relevant to the group. By default, group folders contain three folders: Documents, Library, and Public, and there’s a Drop Box folder in the Public folder. If needed, you can customize these folders and automatically mount them on the desktop of group members at login. Computer Lists Computer lists let you manage collections of computers.
 Preferences can be used to manage what a user can access and control. For example, you can set up Media Access preferences to prevent students from burning CDs or DVDs or making changes to a computer’s internal disk. You can also control which system preferences a user can change.  Preferences can be used to configure a computer’s network behavior.
A managed network view is one or more network neighborhoods, which appear in the Finder as folders. Each folder contains a list of resources an administrator has associated with the folder. Managed network views offer a meaningful way to present network resources. You can create multiple views for different client computers. And because the views are stored using Open Directory, a computer’s network neighborhood is automatically available when a user logs in.
NetBoot NetBoot lets Macintosh clients, including Mac OS X clients without a local hard drive, start up from a system disk image located on Mac OS X Server instead of on the client computer’s disk drive: Â NetBoot simplifies the administration of large-scale deployments of network-based Macintosh systems or racks of Xserve computers.
Users select from the updates you choose to make available. You can prevent user downloads of particular updates until you’ve evaluated them or until your organization is ready for them. See the system image and software update administration guide for details about software update service. File Services Mac OS X Server makes it easy to share files using the native protocols of different kinds of client computers.
Sharing offers several features that make your shared-file environment more secure and efficient: Â Access Control Lists (ACLs). ACLs give you a way to craft share point, folder, and file access permissions with a high degree of precision. A wide range of permissions, including the right to modify access permissions, the right to create and delete or change files, the right to read permissions, and others, can be assigned to individual users and to groups, which can be nested.
 Browsing, which allows clients to browse for available servers across subnets You can set up (and replicate) Primary Domain Controller (PDC) services, which:  Provide Windows domain authentication from the Windows login window.  Support Windows roaming profiles on Mac OS X Server. Mac OS X Server provides unified file locking across AFP and SMB/CIFS protocols, letting Windows users share files with users on other computers without conflict or corruption. SMB/CIFS also supports ACLs.
Web-based Distributed Authoring and Versioning (WebDAV) Mac OS X Server supports WebDAV Internet file sharing as part of the built-in Apache web server and Mac OS X Server’s web services. Originally designed for collaborative web publishing, this enhancement to the HTTP protocol turns a website into a document database, enabling collaborative creation, editing, and searching from remote locations.
Web Service Web service in Mac OS X Server is based on Apache, an open-source HTTP web server. The server comes with both Apache 1.3 and Apache 2.0, but Apache 2.0 is included for evaluation only. Server Admin supports Apache 1.3. Open-source software allows anyone to view and modify the source code to make changes and improvements. Those features have led to Apache’s widespread use, making it the most popular web server on the Internet today.
Mail Service Mac OS X Server provides an enterprise-capable mail server, which supports the SMTP, POP, and IMAP protocols, allowing you to select a local or server-based mail storage solution for server users. Outgoing mail (SMTP) has these features: Â The SMTP mail transfer agent is based on Postfix. For complete information about this open-source agent, see www.postfix.org/. Â Authentication using the following methods is available: PLAIN, LOGIN, CRAM-MD5, and Kerberos v5.
Network Services Mac OS X Server helps you manage network communications by providing:  Dynamic Host Configuration Protocol (DHCP) service  Domain Name System (DNS) service  Firewall service  Network Address Translation (NAT) service  Virtual Private Network (VPN) service  Network time service  Gateway Setup Assistant  IP failover The network services administration guide provides information about network services.
If you don’t have an Internet service provider (ISP) who handles DNS for your network, you can set up a DNS server on your Mac OS X Server. See individual service administration guides for information about DNS dependencies for each service.
VPN You can set up a VPN using Mac OS X Server. VPN is a network transmission protocol that uses encryption and other technologies to provide secure communications over a public network. Typically the public network is the Internet, but VPNs are also used to support connections between multiple intranets within the same organization and to join networks between two organizations to form an extranet. Site-to-site VPN connects two networks.
IP Failover You can configure IP failover to help maximize server availability. IP failover is a way to set up a standby server that will take over if the primary server fails. The standby server takes over the IP address of the failed server, which takes the IP address back when it is online again. IP failover is useful for DNS servers, web servers hosting websites, media broadcast servers, and other servers that require minimal data replication.
Application Server Support An application server is software that runs and manages other applications, usually web applications, which are accessed using a web browser. The managed applications reside on the same computer where the application server runs. One of the duties of the application server is to make sure the applications it manages are always available. For example, if an application fails or becomes unresponsive, the application server restarts it.
WebObjects WebObjects is the Apple solution for rapid development and deployment of ecommerce and other Internet applications. WebObjects applications can connect to multiple databases and dynamically generate HTML content. WebObjects offers a comprehensive suite of tools and run-time libraries that facilitate developing standards-based web services and Java server applications.
Integrating Into Existing Environments Mac OS X Server offers many ways to interoperate with existing environments. Open Directory offers several options for using existing directory information: Â You can use an existing Kerberos KDC or Active Directory (including Active Directory’s Kerberos) to authenticate users. Â You can integrate AFP and SMB/CIFS file services with an Active Directory Kerberos environment.
High Availability Mac OS X Server features that promote high availability include:  Open Directory LDAP replication, including the authentication services of Open Directory Password Server and Kerberos KDC (see the Open Directory administration guide)  Automatic restart after application, system, or power failures  Disk space monitoring (see the command-line administration guide for information about log-rolling scripts and the diskspacemonitor tool)  Software RAID, or mirroring (see Disk Utility online
Server Administration Mac OS X Server provides an extensive range of tools and applications for managing your servers. Administrators can use graphical applications or command-line tools for initial server setup, service configuration, day-to-day server management. Server administration can be conducted from a server or from a Mac OS X computer that has administration applications installed. The getting started guide has more information about the Mac OS X Server tools and applications.
Mac OS X Server Worksheet A Appendix A Settings for the following server appear in the tables below: Server: Item Description Your information Identity of remote For interactive installation and setup of a remote server for installation server on the local subnet, one of these values for and setup the server: - IP address in IPv4 format (000.000.000.000) - host name (someserver.example.com) - MAC address (00:03:93:71:26:52).
Item Description RAID mirroring (when erasing the disk is OK and you have a second physical drive on the target server) Indicate whether you want to set up RAID mirroring. The second disk is used automatically if the primary disk isn’t available. If the target disk has a single partition and the second physical drive has a single partition and no data, you can set up RAID mirroring after installation. However, to prevent data loss, set up RAID mirroring as soon as possible.
Item Description Saving setup data in a directory Navigate to the directory where you want to save the setup, and name the setup record using one of these options: - (include any leading zeros but omit colons). For example, 0030654dbcef. - . For example, 10.0.0.4. - . For example, myserver. - (first 8 characters only). For example, ABCD1234. - .
Item Description Serial number The serial number for your copy of Mac OS X Server. The format of the server serial number is xsvr-104-999-x-zzz-zzz-zzz-zzz-zzz-zzz-z, where x is a letter, 9 is a digit, and z is a letter or digit. The first element (xsvr) and the fourth one (x) must be lowercase. Unless you have a site license, you need a unique serial number for each server. You’ll find the server software serial number printed on the materials provided with the server software package.
Item Description Host name You can’t specify this name during server setup. Server Assistant sets the host name to AUTOMATIC in /etc/hostconfig.
Item Description Using “Open Directory Server” The directory to use will be an LDAP directory identified by a DHCP server or identified by specifying an IP address or domain name for the LDAP server. Using “NetInfo Server” The directory to use will be a NetInfo parent directory on an existing Apple server.
Configuration settings for the following port appear in the table below: Port Name: Built-in Ethernet Item Description Your information Device name A UNIX name for the port in the format enx, where x starts with 0. See your hardware manual for the value of x for the port you’re describing. The value en0 always designates a built-in Ethernet port. en0 Ethernet address The Media Access Control (MAC) address of the port (00:00:00:00:00:00).
Item Description “Using DHCP with Manual IP address” Specify these settings if you want to use a DHCP server to assign a static IP address and optionally other settings for the port. Make sure the DHCP server is already set up and DHCP service running when you initiate server setup: - IP address (000.000.000.000). A unique static address. - DNS servers (000.000.000.000) used to convert IP addresses to fully qualified DNS names and vice versa for the port. - Search domains (optional).
Item Description IPv6 To configure IPv6 addressing for the port, select Automatically or Manually. Choose Automatically if you want the server to automatically generate an IPv6 address for the port. Choose Manually to specify IPv6 settings: - IPv6 address. Generally written in the form 0000:0000:0000:0000:0000:0000:0000:0000. - Router. The IPv6 address of the router on the local subnet. - Prefix length. The number of significant bits in the subnet mask that are used to identify the network.
Configuration settings for the following port appear in the table below: Port Name: Item Description Device name A UNIX name for the port in the format enx, where x starts with 0. See your hardware manual for the value of x for the port you’re describing. The value en0 always designates a built-in Ethernet port. Ethernet address The Media Access Control (MAC) address of the port (00:00:00:00:00:00).
Item Description “Using DHCP with Manual IP address” Specify these settings if you want to use a DHCP server to assign a static IP address and optionally other settings for the port. Make sure the DHCP server is already set up and DHCP service running when you initiate server setup: - IP address (000.000.000.000). A unique static address. - DNS servers (000.000.000.000) used to convert IP addresses to fully qualified DNS names and vice versa for the port. - Search domains (optional).
Item Description IPv6 To configure IPv6 addressing for the port, select Automatically or Manually. Choose Automatically if you want the server to automatically generate an IPv6 address for the port. Choose Manually to specify IPv6 settings: - IPv6 address. Generally written in the form 0000:0000:0000:0000:0000:0000:0000:0000. - Router. The IPv6 address of the router on the local subnet. - Prefix length. The number of significant bits in the subnet mask that are used to identify the network.
B Setup Example Appendix B The setup example in this appendix illustrates one way to set up the directory and network infrastructure of Mac OS X Server in a small business scenario. Mac OS X Server in a Small Business In this example, Mac OS X Server provides directory, network, and productivity services to employees in a small business. DSL Mac OS X Server (example.com) The Internet ISP’s DNS server 192.168.0.
Here’s a summary of the scenario’s characteristics: Â An Open Directory master LDAP directory on the server centralizes user management, including authentication of Mac OS X and Windows users. Â The ISP’s DNS service provides a DNS domain name for the company (example.com). Â A DNS server running on Mac OS X Server provides name services for the server, the printer, and any other intranet device that has a static IP address.
The getting started guide has instructions for other installation methods, such as installing on a server without an optical drive and installing from a remote computer. The Preface tells you where to find the getting started guide. 2 When the Installer opens, proceed through its panes by following the onscreen instructions. If you need to format the target disk, see the getting started guide for instructions on preparing disks for installing Mac OS X Server.
9 In the Directory Usage Pane, choose Open Directory Master to set up a shared LDAP directory on the server. Select Enable Windows Primary Domain Controller and enter a Domain/Workgroup name. These settings will set up a Windows PDC so that employees who use Windows NT, Windows 2000, and Windows XP workstations can log in to the PDC, change passwords during login, and have roaming user profiles and network home directories on the server.
6 Click Services and select “Allow” for services you want employees working at the office to be able to access. At a minimum select Domain Name Service, DHCP, and NetBoot. 7 Click Address Groups, then select the IP address group named “any.” 8 Click Services and select “Allow” for services you want external clients to be able to access behind the firewall. 9 Click Save. Step 5: Set up DNS service 1 In Server Admin, select DNS in the Computers & Services list. 2 Click Settings.
4 Click the Add button to define the range of addresses to dynamically assign. The range should be large enough to accommodate current and future client computers. But make sure you exclude some addresses (at the start or end of the range) so they’re reserved for devices that need static IP addresses or for VPN users. Here are some sample values: Starting IP Address: 192.168.0.2 Ending IP Address: 192.168.0.102 Subnet Mask: 255.255.0.0 Network Interface: En1 Router: 192.168.0.
Step 8: Set up VPN service 1 In Server Admin, select VPN in the Computers & Services list. 2 Click Settings. 3 Enable L2TP over IPSec (Layer Two Tunneling Protocol, Secure Internet Protocol) for Mac OS X version 10.4 computer users, Linux or UNIX workstation users, and Windows XP users. While PPTP, described in the next step, can also be used, L2TP provides the greatest security because it runs over IPSec.
The Windows administration guide focuses on how to implement support specifically for Windows workstation users. Use this document to supplement the user management guide and the Open Directory administration guide if your server will support Windows users. Step 11: Configure client computers The information that follows applies to Mac OS X version 10.4 computers. For information about how to support Windows client computers, see the Windows administration guide.
Glossary Glossary administrator A user with server or directory domain administration privileges. Administrators are always members of the predefined “admin” group. administrator computer A Mac OS X computer onto which you’ve installed the server administration applications from the Mac OS X Server Admin CD. AFP Apple Filing Protocol. A client/server protocol used by Apple file service on Macintosh-compatible computers to share files and network services.
BSD Berkeley System Distribution. A version of UNIX on which Mac OS X software is based. CGI Common Gateway Interface. A script or program that adds dynamic functions to a website. A CGI sends information back and forth between a website and an application that provides a service for the site. computer list A list of computers that have the same preference settings and are available to the same users and groups. computer name The default name used for SLP and SMB/CIFS service registrations.
disk image A file that, when opened, creates an icon on a Mac OS desktop that looks and acts like an actual disk or volume. Using NetBoot, client computers can start up over the network from a server-based disk image that contains system software. Disk image files have a filename extension of either .img or .dmg. The two image formats are similar and are represented with the same icon in the Finder. The .dmg format cannot be used on computers running Mac OS 9. DNS Domain Name System.
gateway A network node that interfaces one network to another. Often, it refers to a computer that links a private LAN to a public WAN, with or without Network Address Translation. A router is a special kind of gateway that links related network segments. group A collection of users who have similar needs. Groups simplify the administration of shared resources.
Internet Generally speaking, a set of interconnected computer networks communicating through a common protocol (TCP/IP). The Internet (note the capitalization) is the most extensive publicly accessible system of interconnected computer networks in the world. intranet A network of computers operated by and for the benefit of an organization’s internal users. Access is commonly restricted to members of the organization.
lease period A limited period of time during which IP addresses are assigned. By using short leases, DHCP can reassign IP addresses on networks that have more computers than available IP addresses. load balancing The process of distributing client computers’ requests for network services across multiple servers to optimize performance. local domain A directory domain that can be accessed only by the computer on which it resides.
NAT Network Address Translation. A method of connecting multiple computers to the Internet (or any other IP network) using one IP address. NAT converts the IP addresses you assign to computers on your private, internal network into one legitimate IP address for Internet communications. nested group A group that is a member of another group.
predefined accounts User accounts that are created automatically when you install Mac OS X. Some group accounts are also predefined. preference manifest A file that describes the structure of and default values for an application’s preferences (for example, what the various preference keys do). Workgroup Manager’s preferences editor uses these files to make it easier for an administrator to edit an application’s managed preferences.
short name An abbreviated name for a user. The short name is used by Mac OS X for home directories, authentication, and email addresses. Simplified Finder A user environment featuring panels and large icons that provide novice users with an easy-to-navigate interface. Mounted volumes or media to which users are allowed access appear on panels instead of on the standard desktop. SMB/CIFS Server Message Block/Common Internet File System.
URL Uniform Resource Locator. The address of a computer, file, or resource that can be accessed on a local network or the Internet. The URL is made up of the name of the protocol needed to access the resource, a domain name that identifies a specific computer on the Internet, and a hierarchical description of a file location on the computer. USB Universal Serial Bus. A standard for communicating between a computer and external peripherals using an inexpensive direct-connect cable.
A access control lists (ACLs) 39 Active Directory 30 AirPort 45 Apache 42 Apple File Service (AFP) 39 AppleTalk 33 application servers 48 AXIS 48 JBoss 48 SOAP 48 Tomcat 48 WebObjects 49 automatic restart 51 B basic password validation 32 Berkeley Software Distribution (BSD) 29, 30 C CGI scripts 42 collaboration services 49 core system services 29 D Darwin 29 directory services 30 disk space monitoring 51 diskspacemonitor tool 51 Disk Utility 51 documentation 11 Domain Name System (DNS) 44 Dynamic Host C
Mailman 43 Postfix 43 SpamAssassin 43 SquirrelMail 43 managed network views 35 mobile accounts 35 multicast DNS 33 MySQL 42 N nested groups 33 NetBoot 37 NetInfo 30 Network Address Translation (NAT) 45 network browsing using managed Network views 35 Network File System (NFS) 40 Network Information System (NIS) 30 Network Install 37 network services 44 DHCP 44 DNS 44 Gateway Setup Assistant 46 IP failover 47 IP firewall 45 managed network views 35 NAT 45 VPN 46 O Open Directory automatic LDAP schema replic
Windows browsing 39 file service 39 integration 50 user management 36 Index Windows Internet Naming Service (WINS) 39 worksheet 53 X Xgrid computational service 51 85
