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system(4)			 File Formats			     system(4)

NAME
       system -	system configuration information file

DESCRIPTION
       The  system file	is used	for customizing	the operation of the operating
       system kernel. The recommended procedure	is to  preserve	 the  original
       system file before modifying it.

       The  system  file contains commands which are read by the kernel	during
       initialization and used to customize  the  operation  of	 your  system.
       These  commands	are useful for modifying the system's treatment	of its
       loadable	kernel modules.

       The syntax of the system	file consists of a list	of keyword/value pairs
       which  are  recognized  by  the system as valid commands. Comment lines
       must begin with an asterisk (*) or a hash mark (#) and end with a  new-
       line character. All commands are	case-insensitive except	where noted. A
       command line can	be no more than	80 characters in length.

       Commands	that modify the	system's operation with	 respect  to  loadable
       kernel  modules	require	 you to	specify	the module type	by listing the
       module's	namespace. The following namespaces are	currently supported on
       all platforms:

       drv   Modules in	this namespace are device drivers.

       exec  Modules  in this namespace	are execution format modules. The fol-
	     lowing exec modules are currently provided:

	     Only on SPARC system:

		   aoutexec

	     Only on IA	system:

		   coffexec

	     On	SPARC and IA systems:

		   elfexec
		   intpexec
		   javaexec

       fs    These modules are filesystems.

       sched These modules implement a process scheduling algorithm.

       strmod
	     These modules are STREAMS modules.

       sys   These modules implement loadable system-call modules.

       misc  These modules do not fit into any of the above categories,	so are
	     considered	"miscellaneous"	modules.

       SPARC only:

       dacf  These  modules provide rules and actions for device auto-configu-
	     ration.

       tod   These modules provide support for the time	of day hardware.

       cpu   These modules provide CPU-specific	kernel routines.

       A description of	each of	the supported commands follows:

       exclude:	<namespace>/<modulename>
	     Do	not allow the listed loadable kernel module to be loaded.  ex-
	     clude  commands are cumulative; the list of modules to exclude is
	     created by	combining every	exclude	entry in the system file.

       include:	<namespace>/<modulename>
	     Include the listed	loadable kernel	module.	This is	 the  system's
	     default, so using include does not	modify the system's operation.
	     include commands are cumulative.

       forceload: <namespace>/<modulename>
	     Force this	kernel module to be loaded during  kernel  initializa-
	     tion. The default action is to automatically load the kernel mod-
	     ule when its services are first accessed. forceload commands  are
	     cumulative.

       rootdev:	<device	name>
	     Set  the root device to the listed	value instead of using the de-
	     fault root	device as supplied by the boot program.

       rootfs: <root filesystem	type>
	     Set the root filesystem type to the listed	value.

       moddir: <first module path>[[{:,	}<second ...>]...]
	     Set the search path for loadable kernel modules. This command op-
	     erates  very much like the	PATH shell variable. Multiple directo-
	     ries to search can	be listed together, delimited either by	 blank
	     spaces or colons.

       set [_module_:]_symbol_ {=, |, &} [~][-]_value_
	     Set  an  integer or character pointer in the kernel or in the se-
	     lected kernel module to a new value.  This	 command  is  used  to
	     change kernel and module parameters and thus modify the operation
	     of	your system. Assignment	operations are not cumulative, whereas
	     bitwise AND and OR	operations are cumulative.

	     Operations	 that  are  supported  for modifying integer variables
	     are: simple assignment, inclusive bitwise OR, bitwise AND,	 one's
	     complement, and negation. Variables in a specific loadable	module
	     can be targeted for modification by specifying the	variable  name
	     prefixed  with  the kernel	module name and	a colon	(:) separator.
	     Values can	be specified as	hexadecimal (0x10),  Octal  (046),  or
	     Decimal (5).

	     The  only operation supported for modifying character pointers is
	     simple assignment.	Static string data such	 as  character	arrays
	     cannot  be	 modified  using  the set command. Use care and	ensure
	     that the variable you  are	 modifying  is	in  fact  a  character
	     pointer.  The set command is very powerful, and will likely cause
	     problems if used carelessly. The entire  command,	including  the
	     quoted  string, cannot exceed 80 characters. The following	escape
	     sequences are supported within the	quoted string:

		    \n	 (newline)
		    \t	 (tab)
		    \b	 (backspace)

EXAMPLES
       Example 1: A sample system file.

       The following is	a sample system	file.

       * Force the ELF exec kernel module to be	loaded during kernel
       * initialization. Execution type	modules	are in the exec	namespace.
       forceload: exec/elfexec
       * Change	the root device	to /sbus@1,f8000000/esp@0,800000/sd@3,0:a.
       * You can derive	root device names from /devices.
       * Root device names must	be the fully expanded Open Boot	Prom
       * device	name. This command is platform and configuration specific.
       * This example uses the first partition (a) of the SCSI disk at
       * SCSI target 3 on the esp host adapter in slot 0 (on board)
       * of the	SBus of	the machine.
       * Adapter unit-address 3,0 at sbus unit-address 0,800000.
       rootdev:	/sbus@1,f8000000/esp@0,800000/sd@3,0:a
       * Set the filesystem type of the	root to	ufs. Note that
       * the equal sign	can be used instead of the colon.
       rootfs:ufs
       * Set the search	path for kernel	modules	to look	first in
       * /usr/phil/mod_test for	modules, then in /kernel/modules (the
       * default) if not found.	Useful for testing new modules.
       * Note that you can delimit your	module pathnames using
       * colons	instead	of spaces: moddir:/newmodules:/kernel/modules
       moddir:/usr/phil/mod_test /kernel/modules.
       * Set the configuration option {_POSIX_CHOWN_RESTRICTED}	:
       * This configuration option is enabled by default.
       set rstchown = 1
       * Disable the configuration option {_POSIX_CHOWN_RESTRICTED} :
       set rstchown = 0
       * Turn on debugging messages in the modules mydriver. This is useful
       * during	driver development.
       set mydriver:debug = 1
       * Bitwise AND the kernel	variable "moddebug" with the
       * one's complement of the hex value 0x880, and set
       * "moddebug" to this new	value.
       set moddebug & ~0x880
       * Demonstrate the cumulative effect of the SET
       * bitwise AND/OR	operations by further modifying	"moddebug"
       * by ORing it with 0x40.
       set moddebug | 0x40

SEE ALSO
       boot(1M), init(1M), kernel(1M)

WARNINGS
       Lines in	the system file	must be	fewer than 80 characters in length.

       Use care	when modifying the system file;	it modifies the	 operation  of
       the kernel. If you preserved the	original system	file, you can boot us-
       ing boot	-a, which will ask you to specify the path to the saved	 file.
       This  should allow the system to	boot correctly.	If you cannot locate a
       system file that	will work, you may specify /dev/null. This acts	as  an
       empty  system  file,  and the system will attempt to boot using its de-
       fault settings.

NOTES
       The /etc/system file is read only once, at boot time.

SunOS 5.9			  24 Jul 2001			     system(4)

NAME | DESCRIPTION | EXAMPLES | SEE ALSO | WARNINGS | NOTES

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