Configuration of various options follows the successful installation. An option can be configured by re-entering the configuration options before booting the new FreeBSD system or after installation using sysinstall and selecting Configure.
If you previously configured PPP for an FTP install, this screen will not display and can be configured later as described above.
For detailed information on Local Area Networks and configuring FreeBSD as a gateway/router refer to the Advanced Networking chapter.
User Confirmation Requested Would you like to configure any Ethernet or SLIP/PPP network devices? [ Yes ] No
To configure a network device, select [ Yes ] and press Enter. Otherwise, select [ No ] to continue.
Select the interface to be configured with the arrow keys and press Enter.
User Confirmation Requested Do you want to try IPv6 configuration of the interface? Yes [ No ]
In this private local area network, the current Internet type protocol (IPv4) was sufficient and [ No ] was selected with the arrow keys and Enter pressed.
If you are connected to an existing IPv6 network with an RA server, then choose [ Yes ] and press Enter. It will take several seconds to scan for RA servers.
User Confirmation Requested Do you want to try DHCP configuration of the interface? Yes [ No ]
If DHCP (Dynamic Host Configuration Protocol) is not required select [ No ] with the arrow keys and press Enter.
Selecting [ Yes ] will execute dhclient, and if successful, will fill in the network configuration information automatically. Refer to Section 29.5 for more information.
The following Network Configuration screen shows the configuration of the Ethernet device for a system that will act as the gateway for a Local Area Network.
Use Tab to select the information fields and fill in appropriate information:
The fully-qualified hostname, such as k6-2.example.com in this case.
The name of the domain that your machine is in, such as example.com for this case.
IP address of host forwarding packets to non-local destinations. You must fill this in if the machine is a node on the network. Leave this field blank if the machine is the gateway to the Internet for the network. The IPv4 Gateway is also known as the default gateway or default route.
IP address of your local DNS server. There is no local DNS server on this private local area network so the IP address of the provider's DNS server (208.163.10.2) was used.
The IP address to be used for this interface was 192.168.0.1
The address block being used for this local area network is 192.168.0.0 - 192.168.0.255 with a netmask of 255.255.255.0.
Any interface-specific options to ifconfig you would like to add. There were none in this case.
Use Tab to select [ OK ] when finished and press Enter.
User Confirmation Requested Would you like to Bring Up the ed0 interface right now? [ Yes ] No
Choosing [ Yes ] and pressing Enter will bring the machine up on the network and be ready for use. However, this does not accomplish much during installation, since the machine still needs to be rebooted.
User Confirmation Requested Do you want this machine to function as a network gateway? [ Yes ] No
If the machine will be acting as the gateway for a local area network and forwarding packets between other machines then select [ Yes ] and press Enter. If the machine is a node on a network then select [ No ] and press Enter to continue.
User Confirmation Requested Do you want to configure inetd and the network services that it provides? Yes [ No ]
If [ No ] is selected, various services such telnetd will not be enabled. This means that remote users will not be able to telnet into this machine. Local users will still be able to access remote machines with telnet.
These services can be enabled after installation by editing /etc/inetd.conf with your favorite text editor. See Section 29.2.1 for more information.
Select [ Yes ] if you wish to configure these services during install. An additional confirmation will display:
User Confirmation Requested The Internet Super Server (inetd) allows a number of simple Internet services to be enabled, including finger, ftp and telnetd. Enabling these services may increase risk of security problems by increasing the exposure of your system. With this in mind, do you wish to enable inetd? [ Yes ] No
Select [ Yes ] to continue.
User Confirmation Requested inetd(8) relies on its configuration file, /etc/inetd.conf, to determine which of its Internet services will be available. The default FreeBSD inetd.conf(5) leaves all services disabled by default, so they must be specifically enabled in the configuration file before they will function, even once inetd(8) is enabled. Note that services for IPv6 must be separately enabled from IPv4 services. Select [Yes] now to invoke an editor on /etc/inetd.conf, or [No] to use the current settings. [ Yes ] No
Selecting [ Yes ] will allow adding services by deleting the # at the beginning of a line.
After adding the desired services, pressing Esc will display a menu which will allow exiting and saving the changes.
User Confirmation Requested Would you like to enable SSH login? Yes [ No ]
Selecting [ Yes ] will enable sshd(8), the daemon program for OpenSSH. This will allow secure remote access to your machine. For more information about OpenSSH see Section 14.11.
User Confirmation Requested Do you want to have anonymous FTP access to this machine? Yes [ No ]
Selecting the default [ No ] and pressing Enter will still allow users who have accounts with passwords to use FTP to access the machine.
Anyone can access your machine if you elect to allow anonymous FTP connections. The security implications should be considered before enabling this option. For more information about security see Chapter 14.
To allow anonymous FTP, use the arrow keys to select [ Yes ] and press Enter. An additional confirmation will display:
User Confirmation Requested Anonymous FTP permits un-authenticated users to connect to the system FTP server, if FTP service is enabled. Anonymous users are restricted to a specific subset of the file system, and the default configuration provides a drop-box incoming directory to which uploads are permitted. You must separately enable both inetd(8), and enable ftpd(8) in inetd.conf(5) for FTP services to be available. If you did not do so earlier, you will have the opportunity to enable inetd(8) again later. If you want the server to be read-only you should leave the upload directory option empty and add the -r command-line option to ftpd(8) in inetd.conf(5) Do you wish to continue configuring anonymous FTP? [ Yes ] No
This message informs you that the FTP service will also have to be enabled in /etc/inetd.conf if you want to allow anonymous FTP connections, see Section 2.10.3. Select [ Yes ] and press Enter to continue; the following screen will display:
Use Tab to select the information fields and fill in appropriate information:
The user ID you wish to assign to the anonymous FTP user. All files uploaded will be owned by this ID.
Which group you wish the anonymous FTP user to be in.
String describing this user in /etc/passwd.
Where files available for anonymous FTP will be kept.
Where files uploaded by anonymous FTP users will go.
The FTP root directory will be put in /var by default. If you do not have enough room there for the anticipated FTP needs, the /usr directory could be used by setting the FTP root directory to /usr/ftp.
When you are satisfied with the values, press Enter to continue.
User Confirmation Requested Create a welcome message file for anonymous FTP users? [ Yes ] No
If you select [ Yes ] and press Enter, an editor will automatically start allowing you to edit the message.
This is a text editor called ee. Use the instructions to change the message or change the message later using a text editor of your choice. Note the file name/location at the bottom of the editor screen.
Press Esc and a pop-up menu will default to a) leave editor. Press Enter to exit and continue. Press Enter again to save changes if you made any.
Network File System (NFS) allows sharing of files across a network. A machine can be configured as a server, a client, or both. Refer to Section 29.3 for a more information.
User Confirmation Requested Do you want to configure this machine as an NFS server? Yes [ No ]
If there is no need for a Network File System server, select [ No ] and press Enter.
If [ Yes ] is chosen, a message will pop-up indicating that the exports file must be created.
Message Operating as an NFS server means that you must first configure an /etc/exports file to indicate which hosts are allowed certain kinds of access to your local filesystems. Press [Enter] now to invoke an editor on /etc/exports [ OK ]
Press Enter to continue. A text editor will start allowing the exports file to be created and edited.
Use the instructions to add the actual exported filesystems now or later using a text editor of your choice. Note the file name/location at the bottom of the editor screen.
Press Esc and a pop-up menu will default to a) leave editor. Press Enter to exit and continue.
The NFS client allows your machine to access NFS servers.
User Confirmation Requested Do you want to configure this machine as an NFS client? Yes [ No ]
With the arrow keys, select [ Yes ] or [ No ] as appropriate and press Enter.
There are several options available to customize the system console.
User Confirmation Requested Would you like to customize your system console settings? [ Yes ] No
To view and configure the options, select [ Yes ] and press Enter.
A commonly used option is the screen saver. Use the arrow keys to select Saver and then press Enter.
Select the desired screen saver using the arrow keys and then press Enter. The System Console Configuration menu will redisplay.
The default time interval is 300 seconds. To change the time interval, select Saver again. At the Screen Saver Options menu, select Timeout using the arrow keys and press Enter. A pop-up menu will appear:
The value can be changed, then select [ OK ] and press Enter to return to the System Console Configuration menu.
Selecting Exit and pressing Enter will continue with the post-installation configurations.
Setting the time zone for your machine will allow it to automatically correct for any regional time changes and perform other time zone related functions properly.
The example shown is for a machine located in the Eastern time zone of the United States. Your selections will vary according to your geographical location.
User Confirmation Requested Would you like to set this machine's time zone now? [ Yes ] No
Select [ Yes ] and press Enter to set the time zone.
User Confirmation Requested Is this machine's CMOS clock set to UTC? If it is set to local time or you don't know, please choose NO here! Yes [ No ]
Select [ Yes ] or [ No ] according to how the machine's clock is configured and press Enter.
The appropriate region is selected using the arrow keys and then pressing Enter.
Select the appropriate country using the arrow keys and press Enter.
The appropriate time zone is selected using the arrow keys and pressing Enter.
Confirmation Does the abbreviation 'EDT' look reasonable? [ Yes ] No
Confirm the abbreviation for the time zone is correct. If it looks okay, press Enter to continue with the post-installation configuration.
User Confirmation Requested Would you like to enable Linux binary compatibility? [ Yes ] No
Selecting [ Yes ] and pressing Enter will allow running Linux software on FreeBSD. The install will add the appropriate packages for Linux compatibility.
If installing by FTP, the machine will need to be connected to the Internet. Sometimes a remote ftp site will not have all the distributions like the Linux binary compatibility. This can be installed later if necessary.
This option will allow you to cut and paste text in the console and user programs with a 3-button mouse. If using a 2-button mouse, refer to manual page, moused(8), after installation for details on emulating the 3-button style. This example depicts a non-USB mouse configuration (such as a PS/2 or COM port mouse):
User Confirmation Requested Does this system have a PS/2, serial, or bus mouse? [ Yes ] No
Select [ Yes ] for a PS/2, serial or bus mouse, or [ No ] for a USB mouse and press Enter.
Use the arrow keys to select Type and press Enter.
The mouse used in this example is a PS/2 type, so the default Auto was appropriate. To change protocol, use the arrow keys to select another option. Ensure that [ OK ] is highlighted and press Enter to exit this menu.
Use the arrow keys to select Port and press Enter.
This system had a PS/2 mouse, so the default PS/2 was appropriate. To change the port, use the arrow keys and then press Enter.
Last, use the arrow keys to select Enable, and press Enter to enable and test the mouse daemon.
Move the mouse around the screen and verify the cursor shown responds properly. If it does, select [ Yes ] and press Enter. If not, the mouse has not been configured correctly -- select [ No ] and try using different configuration options.
Select Exit with the arrow keys and press Enter to return to continue with the post-installation configuration.
Packages are pre-compiled binaries and are a convenient way to install software.
Installation of one package is shown for purposes of illustration. Additional packages can also be added at this time if desired. After installation sysinstall can be used to add additional packages.
User Confirmation Requested The FreeBSD package collection is a collection of hundreds of ready-to-run applications, from text editors to games to WEB servers and more. Would you like to browse the collection now? [ Yes ] No
Selecting [ Yes ] and pressing Enter will be followed by the Package Selection screens:
Only packages on the current installation media are available for installation at any given time.
All packages available will be displayed if All is selected or you can select a particular category. Highlight your selection with the arrow keys and press Enter.
A menu will display showing all the packages available for the selection made:
The bash shell is shown selected. Select as many as desired by highlighting the package and pressing the Space key. A short description of each package will appear in the lower left corner of the screen.
Pressing the Tab key will toggle between the last selected package, [ OK ], and [ Cancel ].
When you have finished marking the packages for installation, press Tab once to toggle to the [ OK ] and press Enter to return to the Package Selection menu.
The left and right arrow keys will also toggle between [ OK ] and [ Cancel ]. This method can also be used to select [ OK ] and press Enter to return to the Package Selection menu.
Use the Tab and arrow keys to select [ Install ] and press Enter. You will then need to confirm that you want to install the packages:
Selecting [ OK ] and pressing Enter will start the package installation. Installing messages will appear until completed. Make note if there are any error messages.
The final configuration continues after packages are installed. If you end up not selecting any packages, and wish to return to the final configuration, select Install anyways.
You should add at least one user during the installation so that you can use the system without being logged in as root. The root partition is generally small and running applications as root can quickly fill it. A bigger danger is noted below:
User Confirmation Requested Would you like to add any initial user accounts to the system? Adding at least one account for yourself at this stage is suggested since working as the "root" user is dangerous (it is easy to do things which adversely affect the entire system). [ Yes ] No
Select [ Yes ] and press Enter to continue with adding a user.
Select User with the arrow keys and press Enter.
The following descriptions will appear in the lower part of the screen as the items are selected with Tab to assist with entering the required information:
The login name of the new user (mandatory).
The numerical ID for this user (leave blank for automatic choice).
The login group name for this user (leave blank for automatic choice).
The password for this user (enter this field with care!).
The user's full name (comment).
The groups this user belongs to (i.e. gets access rights for).
The user's home directory (leave blank for default).
The user's login shell (leave blank for default, e.g. /bin/sh).
The login shell was changed from /bin/sh to /usr/local/bin/bash to use the bash shell that was previously installed as a package. Do not try to use a shell that does not exist or you will not be able to login. The most common shell used in the BSD-world is the C shell, which can be indicated as /bin/tcsh.
The user was also added to the wheel group to be able to become a superuser with root privileges.
When you are satisfied, press [ OK ] and the User and Group Management menu will redisplay:
Groups can also be added at this time if specific needs are known. Otherwise, this may be accessed through using sysinstall after installation is completed.
When you are finished adding users, select Exit with the arrow keys and press Enter to continue the installation.
Message Now you must set the system manager's password. This is the password you'll use to log in as "root". [ OK ] [ Press enter or space ]
Press Enter to set the root password.
The password will need to be typed in twice correctly. Needless to say, make sure you have a way of finding the password if you forget. Notice that the password you type in is not echoed, nor are asterisks displayed.
New password: Retype new password :
The installation will continue after the password is successfully entered.
If you need to configure additional network services or any other configuration, you can do it at this point or after installation with sysinstall.
User Confirmation Requested Visit the general configuration menu for a chance to set any last options? Yes [ No ]
Select [ No ] with the arrow keys and press Enter to return to the Main Installation Menu.
Select [X Exit Install] with the arrow keys and press Enter. You will be asked to confirm exiting the installation:
User Confirmation Requested Are you sure you wish to exit? The system will reboot (be sure to remove any floppies/CDs/DVDs from the drives). [ Yes ] No
Select [ Yes ] and remove the floppy if booting from the floppy. The CDROM drive is locked until the machine starts to reboot. The CDROM drive is then unlocked and the disk can be removed from drive (quickly).
The system will reboot so watch for any error messages that may appear, see Section 2.10.16 for more details.
Configuring network services can be a daunting task for new users if they lack previous knowledge in this area. Networking, including the Internet, is critical to all modern operating systems including FreeBSD; as a result, it is very useful to have some understanding FreeBSD's extensive networking capabilities. Doing this during the installation will ensure users have some understanding of the various services available to them.
Network services are programs that accept input from anywhere on the network. Every effort is made to make sure these programs will not do anything “harmful”. Unfortunately, programmers are not perfect and through time there have been cases where bugs in network services have been exploited by attackers to do bad things. It is important that you only enable the network services you know that you need. If in doubt it is best if you do not enable a network service until you find out that you do need it. You can always enable it later by re-running sysinstall or by using the features provided by the /etc/rc.conf file.
Selecting the Networking option will display a menu similar to the one below:
The first option, Interfaces, was previously covered during the Section 2.10.1, thus this option can safely be ignored.
Selecting the AMD option adds support for the BSD automatic mount utility. This is usually used in conjunction with the NFS protocol (see below) for automatically mounting remote file systems. No special configuration is required here.
Next in line is the AMD Flags option. When selected, a menu will pop up for you to enter specific AMD flags. The menu already contains a set of default options:
-a /.amd_mnt -l syslog /host /etc/amd.map /net /etc/amd.map
The -a
option sets the default mount location which is
specified here as /.amd_mnt. The -l
option specifies the default log file; however, when syslogd is used all log activity will be sent to the system log
daemon. The /host directory is used to mount an exported file
system from a remote host, while /net directory is used to
mount an exported file system from an IP
address. The /etc/amd.map file defines the default options for
AMD exports.
The Anon FTP option permits anonymous FTP connections. Select this option to make this machine an anonymous FTP server. Be aware of the security risks involved with this option. Another menu will be displayed to explain the security risks and configuration in depth.
The Gateway configuration menu will set the machine up to be a gateway as explained previously. This can be used to unset the Gateway option if you accidentally selected it during the installation process.
The Inetd option can be used to configure or completely disable the inetd(8) daemon as discussed above.
The Mail option is used to configure the system's default MTA or Mail Transfer Agent. Selecting this option will bring up the following menu:
Here you are offered a choice as to which MTA to install and set as the default. An MTA is nothing more than a mail server which delivers email to users on the system or the Internet.
Selecting Sendmail will install the popular sendmail server which is the FreeBSD default. The Sendmail local option will set sendmail to be the default MTA, but disable its ability to receive incoming email from the Internet. The other options here, Postfix and Exim act similar to Sendmail. They both deliver email; however, some users prefer these alternatives to the sendmail MTA.
After selecting an MTA, or choosing not to select an MTA, the network configuration menu will appear with the next option being NFS client.
The NFS client option will configure the system to communicate with a server via NFS. An NFS server makes file systems available to other machines on the network via the NFS protocol. If this is a stand-alone machine, this option can remain unselected. The system may require more configuration later; see Section 29.3 for more information about client and server configuration.
Below that option is the NFS server option, permitting you to set the system up as an NFS server. This adds the required information to start up the RPC remote procedure call services. RPC is used to coordinate connections between hosts and programs.
Next in line is the Ntpdate option, which deals with time synchronization. When selected, a menu like the one below shows up:
From this menu, select the server which is the closest to your location. Selecting a close one will make the time synchronization more accurate as a server further from your location may have more connection latency.
The next option is the PCNFSD selection. This option will install the net/pcnfsd package from the Ports Collection. This is a useful utility which provides NFS authentication services for systems which are unable to provide their own, such as Microsoft's MS-DOS® operating system.
Now you must scroll down a bit to see the other options:
The rpcbind(8), rpc.statd(8), and rpc.lockd(8) utilities are all used for Remote Procedure Calls (RPC). The rpcbind utility manages communication between NFS servers and clients, and is required for NFS servers to operate correctly. The rpc.statd daemon interacts with the rpc.statd daemon on other hosts to provide status monitoring. The reported status is usually held in the /var/db/statd.status file. The next option listed here is the rpc.lockd option, which, when selected, will provide file locking services. This is usually used with rpc.statd to monitor what hosts are requesting locks and how frequently they request them. While these last two options are marvelous for debugging, they are not required for NFS servers and clients to operate correctly.
As you progress down the list the next item here is Routed, which is the routing daemon. The routed(8) utility
manages network routing tables, discovers multicast routers, and supplies a copy of the
routing tables to any physically connected host on the network upon request. This is
mainly used for machines which act as a gateway for the local network. When selected, a
menu will be presented requesting the default location of the utility. The default
location is already defined for you and can be selected with the Enter key. You will then be presented with yet another menu, this time
asking for the flags you wish to pass on to routed. The
default is -q
and it should already appear on the screen.
Next in line is the Rwhod option which, when selected, will start the rwhod(8) daemon during system initialization. The rwhod utility broadcasts system messages across the network periodically, or collects them when in “consumer” mode. More information can be found in the ruptime(1) and rwho(1) manual pages.
The next to the last option in the list is for the sshd(8) daemon. This is the secure shell server for OpenSSH and it is highly recommended over the standard telnet and FTP servers. The sshd server is used to create a secure connection from one host to another by using encrypted connections.
Finally there is the TCP Extensions option. This enables the TCP Extensions defined in RFC 1323 and RFC 1644. While on many hosts this can speed up connections, it can also cause some connections to be dropped. It is not recommended for servers, but may be beneficial for stand alone machines.
Now that you have configured the network services, you can scroll up to the very top item which is X Exit and continue on to the next configuration item or simply exit sysinstall in selecting X Exit twice then [X Exit Install].
If everything went well, you will see messages scroll off the screen and you will arrive at a login prompt. You can view the content of the messages by pressing Scroll-Lock and using PgUp and PgDn. Pressing Scroll-Lock again will return to the prompt.
The entire message may not display (buffer limitation) but it can be viewed from the command line after logging in by typing dmesg at the prompt.
Login using the username/password you set during installation (rpratt, in this example). Avoid logging in as root except when necessary.
Typical boot messages (version information omitted):
Copyright (c) 1992-2002 The FreeBSD Project. Copyright (c) 1979, 1980, 1983, 1986, 1988, 1989, 1991, 1992, 1993, 1994 The Regents of the University of California. All rights reserved. Timecounter "i8254" frequency 1193182 Hz CPU: AMD-K6(tm) 3D processor (300.68-MHz 586-class CPU) Origin = "AuthenticAMD" Id = 0x580 Stepping = 0 Features=0x8001bf<FPU,VME,DE,PSE,TSC,MSR,MCE,CX8,MMX> AMD Features=0x80000800<SYSCALL,3DNow!> real memory = 268435456 (262144K bytes) config> di sn0 config> di lnc0 config> di le0 config> di ie0 config> di fe0 config> di cs0 config> di bt0 config> di aic0 config> di aha0 config> di adv0 config> q avail memory = 256311296 (250304K bytes) Preloaded elf kernel "kernel" at 0xc0491000. Preloaded userconfig_script "/boot/kernel.conf" at 0xc049109c. md0: Malloc disk Using $PIR table, 4 entries at 0xc00fde60 npx0: <math processor> on motherboard npx0: INT 16 interface pcib0: <Host to PCI bridge> on motherboard pci0: <PCI bus> on pcib0 pcib1: <VIA 82C598MVP (Apollo MVP3) PCI-PCI (AGP) bridge> at device 1.0 on pci0 pci1: <PCI bus> on pcib1 pci1: <Matrox MGA G200 AGP graphics accelerator> at 0.0 irq 11 isab0: <VIA 82C586 PCI-ISA bridge> at device 7.0 on pci0 isa0: <ISA bus> on isab0 atapci0: <VIA 82C586 ATA33 controller> port 0xe000-0xe00f at device 7.1 on pci0 ata0: at 0x1f0 irq 14 on atapci0 ata1: at 0x170 irq 15 on atapci0 uhci0: <VIA 83C572 USB controller> port 0xe400-0xe41f irq 10 at device 7.2 on pci0 usb0: <VIA 83C572 USB controller> on uhci0 usb0: USB revision 1.0 uhub0: VIA UHCI root hub, class 9/0, rev 1.00/1.00, addr 1 uhub0: 2 ports with 2 removable, self powered chip1: <VIA 82C586B ACPI interface> at device 7.3 on pci0 ed0: <NE2000 PCI Ethernet (RealTek 8029)> port 0xe800-0xe81f irq 9 at device 10.0 on pci0 ed0: address 52:54:05:de:73:1b, type NE2000 (16 bit) isa0: too many dependant configs (8) isa0: unexpected small tag 14 fdc0: <NEC 72065B or clone> at port 0x3f0-0x3f5,0x3f7 irq 6 drq 2 on isa0 fdc0: FIFO enabled, 8 bytes threshold fd0: <1440-KB 3.5" drive> on fdc0 drive 0 atkbdc0: <keyboard controller (i8042)> at port 0x60-0x64 on isa0 atkbd0: <AT Keyboard> flags 0x1 irq 1 on atkbdc0 kbd0 at atkbd0 psm0: <PS/2 Mouse> irq 12 on atkbdc0 psm0: model Generic PS/2 mouse, device ID 0 vga0: <Generic ISA VGA> at port 0x3c0-0x3df iomem 0xa0000-0xbffff on isa0 sc0: <System console> at flags 0x1 on isa0 sc0: VGA <16 virtual consoles, flags=0x300> sio0 at port 0x3f8-0x3ff irq 4 flags 0x10 on isa0 sio0: type 16550A sio1 at port 0x2f8-0x2ff irq 3 on isa0 sio1: type 16550A ppc0: <Parallel port> at port 0x378-0x37f irq 7 on isa0 ppc0: SMC-like chipset (ECP/EPP/PS2/NIBBLE) in COMPATIBLE mode ppc0: FIFO with 16/16/15 bytes threshold ppbus0: IEEE1284 device found /NIBBLE Probing for PnP devices on ppbus0: plip0: <PLIP network interface> on ppbus0 lpt0: <Printer> on ppbus0 lpt0: Interrupt-driven port ppi0: <Parallel I/O> on ppbus0 ad0: 8063MB <IBM-DHEA-38451> [16383/16/63] at ata0-master using UDMA33 ad2: 8063MB <IBM-DHEA-38451> [16383/16/63] at ata1-master using UDMA33 acd0: CDROM <DELTA OTC-H101/ST3 F/W by OIPD> at ata0-slave using PIO4 Mounting root from ufs:/dev/ad0s1a swapon: adding /dev/ad0s1b as swap device Automatic boot in progress... /dev/ad0s1a: FILESYSTEM CLEAN; SKIPPING CHECKS /dev/ad0s1a: clean, 48752 free (552 frags, 6025 blocks, 0.9% fragmentation) /dev/ad0s1f: FILESYSTEM CLEAN; SKIPPING CHECKS /dev/ad0s1f: clean, 128997 free (21 frags, 16122 blocks, 0.0% fragmentation) /dev/ad0s1g: FILESYSTEM CLEAN; SKIPPING CHECKS /dev/ad0s1g: clean, 3036299 free (43175 frags, 374073 blocks, 1.3% fragmentation) /dev/ad0s1e: filesystem CLEAN; SKIPPING CHECKS /dev/ad0s1e: clean, 128193 free (17 frags, 16022 blocks, 0.0% fragmentation) Doing initial network setup: hostname. ed0: flags=8843<UP,BROADCAST,RUNNING,SIMPLEX,MULTICAST> mtu 1500 inet 192.168.0.1 netmask 0xffffff00 broadcast 192.168.0.255 inet6 fe80::5054::5ff::fede:731b%ed0 prefixlen 64 tentative scopeid 0x1 ether 52:54:05:de:73:1b lo0: flags=8049<UP,LOOPBACK,RUNNING,MULTICAST> mtu 16384 inet6 fe80::1%lo0 prefixlen 64 scopeid 0x8 inet6 ::1 prefixlen 128 inet 127.0.0.1 netmask 0xff000000 Additional routing options: IP gateway=YES TCP keepalive=YES routing daemons:. additional daemons: syslogd. Doing additional network setup:. Starting final network daemons: creating ssh RSA host key Generating public/private rsa1 key pair. Your identification has been saved in /etc/ssh/ssh_host_key. Your public key has been saved in /etc/ssh/ssh_host_key.pub. The key fingerprint is: cd:76:89:16:69:0e:d0:6e:f8:66:d0:07:26:3c:7e:2d root@k6-2.example.com creating ssh DSA host key Generating public/private dsa key pair. Your identification has been saved in /etc/ssh/ssh_host_dsa_key. Your public key has been saved in /etc/ssh/ssh_host_dsa_key.pub. The key fingerprint is: f9:a1:a9:47:c4:ad:f9:8d:52:b8:b8:ff:8c:ad:2d:e6 root@k6-2.example.com. setting ELF ldconfig path: /usr/lib /usr/lib/compat /usr/X11R6/lib /usr/local/lib a.out ldconfig path: /usr/lib/aout /usr/lib/compat/aout /usr/X11R6/lib/aout starting standard daemons: inetd cron sshd usbd sendmail. Initial rc.i386 initialization:. rc.i386 configuring syscons: blank_time screensaver moused. Additional ABI support: linux. Local package initialization:. Additional TCP options:. FreeBSD/i386 (k6-2.example.com) (ttyv0) login: rpratt Password:
Generating the RSA and DSA keys may take some time on slower machines. This happens only on the initial boot-up of a new installation. Subsequent boots will be faster.
If the X server has been configured and a Default Desktop chosen, it can be started by typing startx at the command line.
Once the install procedure has finished, you will be able to start FreeBSD by typing something like this to the SRM prompt:
>>>BOOT DKC0
This instructs the firmware to boot the specified disk. To make FreeBSD boot automatically in the future, use these commands:
>>> SET BOOT_OSFLAGS A >>> SET BOOT_FILE '' >>> SET BOOTDEF_DEV DKC0 >>> SET AUTO_ACTION BOOT
The boot messages will be similar (but not identical) to those produced by FreeBSD booting on the i386™.
It is important to properly shutdown the operating system. Do not just turn off power. First, become a superuser by typing su at the command line and entering the root password. This will work only if the user is a member of the wheel group. Otherwise, login as root and use shutdown -h now.
The operating system has halted. Please press any key to reboot.
It is safe to turn off the power after the shutdown command has been issued and the message “Please press any key to reboot” appears. If any key is pressed instead of turning off the power switch, the system will reboot.
You could also use the Ctrl+Alt+Del key combination to reboot the system, however this is not recommended during normal operation.
This, and other documents, can be downloaded from ftp://ftp.FreeBSD.org/pub/FreeBSD/doc/.
For questions about FreeBSD, read the documentation before contacting <questions@FreeBSD.org>.
For questions about this documentation, e-mail <doc@FreeBSD.org>.