.\" $NetBSD: options.4,v 1.11 1997/02/26 07:07:15 leo Exp $ .\" .\" Copyright (c) 1996 .\" Perry E. Metzger. All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" 3. All advertising materials mentioning features or use of this software .\" must display the following acknowledgement: .\" This product includes software developed for the NetBSD Project .\" by Perry E. Metzger. .\" 4. The name of the author may not be used to endorse or promote products .\" derived from this software without specific prior written permission. .\" .\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR .\" IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES .\" OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. .\" IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, .\" INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT .\" NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, .\" DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY .\" THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT .\" (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF .\" THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. .\" .\" .Dd October 20, 1996 .Os NetBSD 1.3 .Dt OPTIONS 4 .Sh NAME .Nm options .Nd Miscellaneous kernel configuration options .Sh SYNOPSIS .Cd options ... .Sh DESCRIPTION This manual page describes a number of miscellaneous kernel configuration options that may be specified in a kernel config file. See .Xr config 8 for information on how to configure and build kernels. .Em Note: Options are passed to the compile process as -D flags to the C compiler, as is the name of the kernel. This means that kernel names (which are set by the file name passed to .Xr config 8 ) and option names must not conflict! Naming your kernel .Em PORTAL or .Em GATEWAY or other such things is the equivalent of setting an option, and can have unintended consequences! (Unfortunately, not all possible kernel options are documented here. You may find out about one the hard way.) .Ss Compatibility Options .Bl -ohang .It Cd options COMPAT_09 Enable binary compatibility with .Nx 0.9 . This enables support for 16-bit user, group, and process ids (following revisions support 32-bit identifiers), It also allows the use of the deprecated getdomainname, setdomainname, and uname syscalls. This option also allows using numeric fileystem identifiers rather than strings. Post 0.9 versions use string identifiers. .It Cd options COMPAT_10 Enable binary compatibility with .Nx 1.0 . This option allows the use of the filesystem name of .Dq ufs as an alias for .Dq ffs . The name .Dq ffs should be used post 1.0 in .Pa /etc/fstab and other files. It also adds old syscalls for the .At V shared memory interface. This was changed post 1.0 to work on 64-bit architectures. This option also enables .Dq sgtty compatibility, without which programs using the old interface produce an .Dq inapropriate ioctl error. .It Cd options COMPAT_11 Enable binary compatibility with .Nx 1.1 . This allows binaries running on the i386 port to gain direct access to the io ports by opening .Pa /dev/io read/write. This functionality was replaced by .Xr i386_iopl 2 post 1.1. On the .Tn Atari port, the location of the disk label was moved after 1.1. When the .Em COMPAT_11 option is set, the kernel will read (pre) 1.1 style disk labels as a last resort. When a disklabel is re-written, the old style label will be replaced with a post 1.1 style label. .It Cd options COMPAT_12 Enable binary compatibility with .Nx 1.2 . This allows the use of old syscalls for reboot. The syscall number was changed post 1.2 to add functionality to the reboot syscall. .It Cd options COMPAT_43 Enables compatibility with .Bx 4.3 . This adds an old syscall for lseek. It also adds the ioctls for TIOCGETP and TIOCSETP. The return values for getpid, getgid, and getuid syscalls are modified as well, to return the parent's pid and uid as well as the current process's. It also enables the deprecated NTTYDISC terminal line disipline. It also provides backwards compatibility with .Dq old SIOC[GS]IF{ADDR,DSTADDR,BRDADDR,NETMASK} interface ioctls, including binary compatibility with code written before the introduction of the sa_len field in sockaddrs. It also enables support for some older pre BSD 4.4 socket calls. .It Cd options COMPAT_SVR4 On those architectures that support it, this enables binary compatibility with .At V.4 applications built for the same architecture. This currently includes the sparc, and i386. .It Cd options COMPAT_LINUX On those architectures that support it, this enables binary compatibility with Linux ELF and a.out applications built for the same architecture. This is currently limited to the i386. .It Cd options COMPAT_SUNOS On those architectures that support it, this enables binary compatibility with SunOS 4.1 applications built for the same architecture. This currently includes the sparc and most or all m68k platforms. .It Cd options COMPAT_ULTRIX On those architectures that support it, this enables binary compatibility with Ultrix applications built for the same architecture. This currently is limited to the pmax. The functionality of this option is unknown. .It Cd options COMPAT_FREEBSD On those architectures that support it, this enables binary compatibility with FreeBSD applications built for the same architecture. This is obviously limited to the i386. .It Cd options COMPAT_HPUX On those architectures that support it, this enables binary compatibility with HP/UX applications built for the same architecture. This is limited to the hp300 port, and has some known bugs. A limited set of programs do work. .It Cd options COMPAT_IBCS2 On those architectures that support it, this enables binary compatibility with iBCS2 applications built for the same architecture. This is currently limited to the i386. .It Cd options COMPAT_OSF1 On those architectures that support it, this enables binary compatibility with Digital UNIX (formerly OSF/1) applications built for the same architecture. This is currently limited to the alpha, and may not even work. .El .Ss Debugging Options .Bl -ohang .It Cd options DDB Compiles in a kernel debugger for diagnosing kernel problems. See .Xr ddb 4 for details. .Em NOTE: not available on all architectures. .It Cd options DDB_ONPANIC If set to non-zero, the DDB will be entered upon kernel panic. The default if not specified is "1". .It Cd options KGDB Compiles in a remote kernel debugger stub for diagnosing kernel problems using the .Dq remote target feature of gdb. See .Xr gdb 1 for details. .Em NOTE: not available on all architectures. .It Cd makeoptions DEBUG="-g" The -g flag causes .Pa netbsd.gdb to be built in addition to .Pa netbsd . .Pa netbsd.gdb is useful for debugging kernel crash dumps with gdb. The command .Dl gdb -k invokes gdb in kernel debugger mode. See .Xr gdb 1 for details. This also turns on .Em options DEBUG (which see). .It Cd options DEBUG Turns on miscellaneous kernel debugging. Since options are turned into preprocessor defines (see above), .Em options DEBUG is equivalent to doing a .Em #define DEBUG throughout the kernel. Much of the kernel has .Em #ifdef DEBUG conditionalized debugging code. Note that many parts of the kernel (typically device drivers) include their own .Em #ifdef XXX_DEBUG conditionals instead. This option also turns on certain other options, notably the .Em KMEMSTATS option, which may decrease system performance. .It Cd options DIAGNOSTIC Adds code to the kernel that does internal consistency checks. This code will cause the kernel to panic if corruption of internal data structures is detected. .It Cd options KTRACE Add hooks for the system call tracing facility, which allows users to watch the system call invokation behavior of processes. See .Xr ktrace 1 for details. .El .Ss File Systems .Bl -ohang .It Cd file-system FFS Includes code implementing the Berkeley Fast File System .Em ( FFS ) . Most machines need this if they are not running diskless. .It Cd file-system LFS Include the log structured file system .Em ( LFS ) . See .Xr mount_lfs 8 and .Xr newlfs 8 for details. .It Cd file-system MFS Include the memory file system .Em ( MFS ) . This file system stores files in swappable memory, and produces notable performance improvements when it is used as the file store for .Pa /tmp and similar file systems. See .Xr mount_mfs 8 for details. .It Cd file-system NFS Include the client side of the .Em NFS (Network File System) remote file sharing protocol. Although the bulk of the code implementing .Em NFS is kernel based, several user level daemons are needed for it to work. See .Xr mount_nfs 8 and .Xr nfsiod 8 for details. .It Cd file-system CD9660 Includes code for the ISO 9660 + Rock Ridge file system, which is the standard file system on many CD-ROMs. Useful mostly if you have a CD drive. See .Xr mount_cd9660 8 for details. .It Cd file-system MSDOSFS Includes the .Tn MS-DOS FAT file system, which is reportedly still used by unfortunate people who have not heard about .Nx . Also implements the .Tn Windows 95 extensions to the same, which permit the use of longer, mixed case file names. see .Xr mount_msdos 8 and .Xr fsck_msdos 8 for details. .It Cd file-system FDESC Includes code for a file system, conventionally mounted on .Pa /dev/fd , which permits access to the per-process file descriptor space via special files in the file system. See .Xr mount_fdesc 8 for details. Note that this facility is redundant, and thus unneeded on most .Nx systems, since the .Xr fd 4 pseudodevice driver already provides identical functionality. On most .Nx systems, instances of .Xr fd 4 are mknoded under .Pa /dev/fd/ and on .Pa /dev/stdin , .Pa /dev/stdout , and .Pa /dev/stderr . .It Cd file-system KERNFS Includes code which permits the mounting of a special file system (normally mounted on .Pa /kern ) in which files representing various kernel variables and parameters may be found. See .Xr mount_kernfs 8 for details. .It Cd file-system NULLFS Includes code for a loopback file system. This permits portions of the file hierarchy to be re-mounted in other places. The code really exists to provide an example of a stackable file system layer. See .Xr mount_null 8 for details. .It Cd file-system PORTAL Includes the (experimental) portal filesystem. This permits interesting tricks like opening TCP sockets by opening files in the file system. The portal file system is conventionally mounted on .Pa /p and is partially implemented by a special daemon. See .Xr mount_portal 8 for details. .It Cd file-system PROCFS Includes code for a special file system (conventionally mounted on .Pa /proc ) in which the process space becomes visible in the file system. Among other things, the memory spaces of processes running on the system are visible as files, and signals may be sent to processes by writing to .Pa ctl files in the procfs namespace. See .Xr mount_procfs 8 for details. .It Cd file-system UMAPFS Includes a loopback file system in which user and group ids may be remapped -- this can be useful when mounting alien file systems with different uids and gids than the local system. See .Xr mount_umap 8 for details. .It Cd file-system UNION Includes code for the union file system, which permits directories to be mounted on top of each other in such a way that both file systems remain visible -- this permits tricks like allowing writing (and the deleting of files) on a read-only file system like a CD-ROM by mounting a local writable file system on top of the read-only file system. See .Xr mount_union 8 for details. .El .Ss File System Options .Bl -ohang .It Cd options NFSSERVER Include the server side of the .Em NFS (Network File System) remote file sharing protocol. Although the bulk of the code implementing .Em NFS is kernel based, several user level daemons are needed for it to work. See .Xr mountd 8 and .Xr nfsd 8 for details. .It Cd options QUOTA Enables kernel support for file system quotas. See .Xr quotaon 8 , .Xr edquota 8 , and .Xr quota 1 for details. Note that quotas only work on .Dq ffs file systems, although .Xr rpc.rquotad 8 permits them to be accessed over .Em NFS . .It Cd options FIFO Augments the system to permit the use of .At V style FIFOs (i.e. .Dq named pipes ). This option is recommended. .It Cd options NVNODE=integer This option sets the size of the cache used by the name-to-inode translation routines, (a.k.a. the .Fn namei cache, though called by many other names in the kernel source). By default, this cache has NPROC (set as 20 + 16 * MAXUSERS) * (80 + NPROC / 8) entries. A reasonable way to derive a value of NVNODE, should you notice a large number of namei cache misses with a tool such as .Xr systat 1 , is to examine your system's current computed value with .Xr sysctl 1 , (which calls this parameter "kern.maxvnodes") and to increase this value until either the namei cache hit rate improves or it is determined that your system does not benefit substantially from an increase in the size of the namei cache. .El .Ss Miscellaneous Options .Bl -ohang .It Cd options LKM Enable loadable kernel modules. See .Xr lkm 4 for details. .Em NOTE: not available on all architectures. .It Cd options INSECURE Hardwires the kernel security level at -1. This means that the system always runs in secure level 0 mode, even when running multiuser. See the manual page for .Xr init 8 for details on the implications of this. The kernel secure level may manipulated by the superuser by altering the .Em kern.securelevel sysctl variable. (It should be noted that the secure level may only be lowered by a call from process id 1, i.e. .Em init . ) See also .Xr sysctl 8 and .Xr sysctl 3 . .It Cd options UCONSOLE Normally, only the superuser can execute the TIOCCONS ioctl, which redirects console output to a non-console tty. (See .Xr tty 4 for details). This option permits any user to execute the ioctl. This is useful on machines such as personal workstations which run X servers, where one would prefer to permit console output to be viewed in a window without requiring a suid root program to do it. .It Cd options MACHINE_NONCONTIG This option changes part of the VM/pmap interface, to allow for non-contiguous memory. On some ports it is not an option. These ports typically only use one of the interfaces. .It Cd options MEMORY_DISK_HOOKS This option allows for some machine dependent functions to be called when the ramdisk driver is configured. This can result in automatically loading a ramdisk from floppy on open (among other things). .It Cd options MEMORY_DISK_IS_ROOT Forces the ramdisk to be the root device. This can only be overridden when the kernel is booted in the 'ask-for-root' mode. .It Cd options NTP Turns on in-kernel precision timekeeping support used by software implementing .Em NTP (Network Time Protocol, RFC1305). The .Em NTP option adds an in-kernel phase-locked loop (PLL) for normal .Em NTP operation, and a frequency-locked loop (FLL) for intermittently-connected operation. .Xr xntpd 8 will employ a user-level PLL when kernel support is unavailable, but the in-kernel version has lower latency and more precision, and so typically keeps much better time. The interface to the kernel .Em NTP support is provided by the .Xr ntp_adjtime 2 and .Xr ntp_gettime 2 system calls, which are intended for use by .Xr xntpd 8 and are enabled by the option. On systems with sub-microsecond resolution timers, or where (HZ / 100000) is not an integer, the .Em NTP option also enables extended-precision arithmetic to keep track of fractional clock ticks at NTP time-format precision. .It Cd options PPS This option enables a kernel serial line discipline for receiving time phase signals from an external reference clock such as a radio clock. (The .Em NTP option (which see) must be on if the .Em PPS option is used.) Some reference clocks generate a pulse per second (PPS) signal in phase with their time source. The .Em PPS line discipline receives this signal on either the data leads or the DCD control lead of a serial port. .Em NTP uses the PPS signal to discipline the local clock oscillator to a high degree of precision (typically less than 50 microseconds in time and 0.1 ppm in accuracy). .Em PPS can also generate a serial output pulse when the system receives a PPS interrupt. This can be used to measure the system interrupt latency and thus calibrate .Em NTP to account for it. Using .Em PPS usually requires a gadget box to convert from TTL to RS-232 signal levels. The gadget box and PPS are described in more detail in the HTML documentation shipped with the xntpd distribution. .It Cd option SETUIDSCRIPTS Allows scripts with the setuid bit set to execute as the effective user rather than the real user, just like binary executables. NOTE: Using this option will also enable .Em option FDSCRIPTS .It Cd option FDSCRIPTS Allows execution of scripts with the execute bit set, but not the read bit, by opening the file and passing the file descriptor to the shell, rather than the filename. NOTE: Execute only (non-readable) scripts will have .Va argv[0] set to .Pa /dev/fd/* . What this option allows as far as security is concerned, is the ability to safely ensure that the correct script it run by the interpreter, as it is passed as an already open file. .It Cd options RTC_OFFSET=integer The kernel (and typically the hardware battery backed-up clock on those machines that have one) keeps time in .Em UTC (Universal Coordinated Time, once known as .Em GMT , or Greenwich Mean Time) and not in the time of the local time zone. The .Em RTC_OFFSET option is used on some ports (such as the i386) to tell the kernel that the hardware clock is offset from .Em UTC by the specified number of minutes. This is typically used when a machine boots several operating systems and one of them wants the hardware clock to run in the local time zone and not in .Em UTC , e.g. .Em RTC_OFFSET=300 means the hardware clock is set to US Eastern Time (300 minutes behind .Em UTC ) , and not .Em UTC . (Note: .Em RTC_OFFSET is used to initialize a kernel variable named .Va rtc_offset which is the source actually used to determine the clock offset, and which may be accessed via the kern.rtc_offset sysctl variable. See .Xr sysctl 8 and .Xr sysctl 3 for details. Since the kernel clock is initialized from the hardware clock very early in the boot process, it is not possible to meaningfully change .Va rtc_offset in system initialization scripts. Changing this value currently may only be done at kernel compile time or by patching the kernel and rebooting.) .It Cd options CCDNBUF=integer The .Xr ccd 4 device driver uses "component buffers" to distribute I/O requests to the components of a concatenated disk. It keeps a freelist of buffer headers in order to reduce use of the kernel memory allocator. .Em CCDNBUF is the number of buffer headers allocated on the freelist for each component buffer. It defaults to 8. .It Cd options KMEMSTATS The kernel memory allocator, .Xr malloc 9 , will keep statistics on its performance if this option is enabled. Unfortunately, this option therefore essentially disables .Fn MALLOC and .Fn FREE forms of the memory allocator, which are used to enhance the performance of certain critical sections of code in the kernel. This option therefore can lead to a significant decrease in the performance of certain code in the kernel if enabled. Examples of such code include the .Fn namei routine, the .Xr ccd 4 driver, the .Xr ncr 4 driver, and much of the networking code. .Em N.B. This option is silently .Em turned on by the DEBUG option. .El .Ss Networking Options .Bl -ohang .It Cd options GATEWAY Enables .Em IPFORWARDING (which see) and (on most ports) increases the size of .Em NMBCLUSTERS (which see). In general, .Em GATEWAY is used to indicate that a system should act as a router, and .Em IPFORWARDING is not invoked directly. (Note that .Em GATEWAY has no impact on protocols other than IP, such as CLNP or XNS.) .It Cd options IPFORWARDING Enables IP routing behavior. With this option enabled, the machine will forward IP datagrams between its interfaces that are destined for other machines. Note that even without this option, the kernel will still forward some packets (such as source routed packets) -- removing .Em GATEWAY and .Em IPFORWARDING is insufficient to stop all routing through a bastion host on a firewall -- source routing is controlled independently. To turn off source routing, use .Em options IPFORWSRCRT=0 (which see). Note that IP forwarding may be turned on and off independently of the setting of the .Em IPFORWARDING option through the use of the .Em net.inet.ip.forwarding sysctl variable. If .Em net.inet.ip.forwarding is 1, IP forwarding is on. See .Xr sysctl 8 and .Xr sysctl 3 for details. .It Cd options IPFORWSRCRT=value If .Em value is set to zero, source routing of IP datagrams is turned off. If .Em value is set to one (the default) or the option is absent, source routed IP datagrams are forwarded by the machine. Note that source routing of IP packets may be turned on and off independently of the setting of the .Em IPFORWSRCRT option through the use of the .Em net.inet.ip.forwsrcrt sysctl variable. If .Em net.inet.ip.forwsrcrt is 1, forwarding of source routed IP datagrams is on. See .Xr sysctl 8 and .Xr sysctl 3 for details. .It Cd options INET Includes support for the TCP/IP protocol stack. You almost certainly want this. See .Xr inet 4 for details. This option is currently required. .It Cd options MCLSHIFT=value This option is the base-2 logarithm of the size of mbuf clusters. The BSD networking stack keeps network packets in a linked list, or chain, of kernel buffer objects called mbufs. The system provides larger mbuf clusters as an optimization for large packets, instead of using long chains for large packets. The mbuf cluster size, or .Em MCLBYTES, must be a power of two, and is computed as two raised to the power .Em MCLSHIFT. On systems with Ethernet network adaptors, .Em MCLSHIFT is often set to 11, giving 2048-byte mbuf clusters, large enough to hold a 1500-byte Ethernet frame in a single cluster. Systems with networks supporting larger frame sizes like ATM, FDDI, or HIPPI may perform better with MCLSHIFT set to 12 or 13, giving mbuf cluster sizes of 4096 and 8192 bytes, respectively. .It Cd options NS Include support for the Xerox XNS protocol stack. See .Xr ns 4 for details. .It Cd options ISO,TPIP Include support for the ubiquitous OSI protocol stack. See .Xr iso 4 for details. .It Cd options EON Include support for OSI tunneling over IP. .It Cd options CCITT,LLC,HDLC Include support for the X.25 protocol stack. The state of this code is currently unknown, and probably contains bugs. .It Cd options IPNOPRIVPORTS Normally, only root can bind a socket descriptor to a so-called .Dq privileged TCP port, that is, a port number in the range 0-1023. This option eliminates those checks from the kernel. This can be useful if there is a desire to allow daemons without privileges to bind those ports, e.g. on firewalls. The security tradeoffs in doing this are subtle. This option should only be used by experts. .It Cd options TCP_COMPAT_42 TCP bug compatibility with 4.2BSD. In 4.2BSD, TCP sequence numbers were 32-bit signed values. Modern implementations of TCP use unsigned values. This option clamps the initial sequence number to start in the range 2^31 rather than the full unsigned range of 2^32. Also, under 4.2BSD, keepalive packets must contain at least one byte or else the remote end would not respond. .It Cd options PFIL_HOOKS This option turns on the packet filter interface hooks. See .Xr pfil 9 for details. .El .Ss System V IPC Options .Bl -ohang .It Cd options SYSVMSG Includes support for .At V style message queues. See .Xr msgctl 2 , .Xr msgget 2 , .Xr msgrcv 2 , .Xr msgsnd 2 . .It Cd options SYSVSEM Includes support for .At V style semaphores. See .Xr semctl 2 , .Xr semget 2 , .Xr semop 2 . .It Cd options SYSVSHM Includes support for .At V style shared memory. See .Xr shmat 2 , .Xr shmctl 2 , .Xr shmdt 2 , .Xr shmget 2 . .It Cd options SHMPAXPGS=value Sets the maximum number of .At V style shared memory pages that are available through the .Xr shmget 2 system call. Default value is 1024 on most ports. See .Pa /usr/include/machine/vmparam.h for the default. .El .Ss VM Related Options .Bl -ohang .It Cd options SWAPPAGER Turns on paging. (To be specific, this enables the virtual memory module responsible for handling page faults for .Dq anonymous objects (i.e. BSS pages)). .Em MANDATORY -- you cannot actually run without this .Dq option . .It Cd options VNODEPAGER Support for mmap()ing of files. (Specifically, this enables the virtual memory module responsible for handling page faults on mapped files ( .Dq plain file vnodes)). .Em MANDATORY -- you cannot actually run without this .Dq option . .It Cd options DEVPAGER Support for mmap()ing of devices. (Specifically, this enables the virtual memory module responsible for handling page faults on mapped devices ( .Dq cdev vnodes)). .Em MANDATORY -- you cannot actually run without this .Dq option . .It Cd options NMBCLUSTERS=value Size of kernel mbuf cluster map, .Em mb_map , in CLBYTES-sized logical pages. Default on most ports is 256 (512 with .Dq options GATEWAY ). See .Pa /usr/include/machine/param.h for exact default information. Increase this value if you get .Dq mb_map full messages. .It Cd options NKMEMCLUSTERS=value Size of kernel malloc arena in CLBYTES-sized logical pages. This area is covered by the kernel submap .Em kmem_map . See .Pa /usr/include/machine/param.h for the default value, which is port specific. Increase this value if you get .Dq out of space in kmem_map panics. .\" , which mean you have run out of mallocable kernel memory. .It Cd options NBUF=value .It Cd options BUFPAGES=value These option set the number of pages available for the buffer cache. Their default value is a machine depedant value, often calculated as between 5% and 10% of total available RAM. .El .\" The following requests should be uncommented and used where appropriate. .\" .Sh FILES .\" .Sh EXAMPLES .Sh SEE ALSO .Xr config 8 , .Xr init 8 , .Xr gettimeofday 2 , .Xr sysctl 8 , .Xr sysctl 3 , .Xr xntpd 8 , .Xr ntp_adjtime 2 , .Xr ntp_gettime 2 , .Xr i386_iopl 2 , .Xr msgctl 2 , .Xr msgget 2 , .Xr msgrcv 2 , .Xr msgsnd 2 , .Xr semctl 2 , .Xr semget 2 , .Xr semop 2 , .Xr shmat 2 , .Xr shmctl 2 , .Xr shmdt 2 , .Xr shmget 2 , .Xr ddb 4 , .Xr lkm 4 , .Xr inet 4 , .Xr ns 4 , .Xr iso 4 , .Xr mount_lfs 8 , .Xr newlfs 8 , .Xr mount_mfs 8 , .Xr mount_nfs 8 , .Xr mount_cd9660 8 , .Xr mount_msdos 8 , .Xr mount_fdesc 8 , .Xr mount_kernfs 8 , .Xr mount_null 8 , .Xr mount_portal 8 , .Xr mount_procfs 8 , .Xr mount_umap 8 , .Xr mount_union 8 , .Xr edquota 8 , .Xr quotaon 8 , .Xr quota 1 , .Xr rpc.rquotad 8 , .Xr ktrace 1 , .Xr gdb 1 .Sh HISTORY The .Nm man page first appeared in .Nx 1.3 . .Sh BUGS The .Em INET and the .Em VNODEPAGER options should not be required.