# $NetBSD: GENERIC,v 1.21 1999/11/21 14:00:44 itojun Exp $ include "arch/sparc64/conf/std.sparc64" maxusers 32 ## System kernel configuration. See options(4) for more detail. # Options for variants of the Sun SPARC architecure. # We currently support three architecture types; at least one is required. options SUN4U # sun4u - Ultra 140 and 170 options TRAPWIN options __ELF__ # we use elf #options _LP64 # we're using a 64-bit compiler ## System options specific to the sparc machine type ## Use a faster console than the PROM's slow drawing routines. Not needed ## for headless (no framebuffer) machines. # XXX broken on sparc64 #options RASTERCONSOLE # fast rasterop console #### System options that are the same for all ports ## Root device configuration: change the ?'s if you are going to use a ## nonstandard root partition (other than where the kernel is booted from) ## and/or nonstandard root type (not ffs or nfs). Normally this can be ## automagically determined at boot time. config netbsd root on ? type ? ## UVM options. #options UVM_PAGE_TRKOWN #options UVMHIST #options UVMHIST_PRINT # Loud! ## System call tracing (see ktrace(1)). options KTRACE ## Collect statistics on kernel malloc's and free's. This does have a ## significant performance hit on slower machines, so it is intended for ## diagnostic use only. #options KMEMSTATS ## System V compatible IPC subsystem. (msgctl(2), semctl(2), and shmctl(2)) options SYSVMSG # System V message queues options SYSVSEM # System V semaphores options SYSVSHM # System V shared memory #options SHMMAXPGS=1024 # 1024 pages is the default ## Loadable kernel module support; still under development. options LKM ## NFS boot options; default on sparc is the bootparam protocol options NFS_BOOT_BOOTPARAM #options NFS_BOOT_BOOTP #options NFS_BOOT_DHCP #### Debugging options ## The DDB in-kernel debugger runs at panic (unless DDB_ONPANIC=0), or at ## serial console break or keyboard reset, where the PROM would normally ## intercept. DDB_HISTORY_SIZE adds up/down arrow command history. # we enable DDB in GENERIC for now. options DDB # kernel dynamic debugger options DDB_HISTORY_SIZE=100 # enable history editing in DDB #options DDB_ONPANIC # see also sysctl(8): `ddb.onpanic' ## You may also use gdb, on another computer connected to this machine over ## a serial port. Both KGDBDEV and KGDBRATE should be specified; KGDBDEV is ## a dev_t encoded device number of the serial port to use. ## (0xc01 = ttya, 0xc02 = ttyb.) #options KGDB # support for kernel gdb #options KGDBDEV=0xc01 # kgdb device number (this sample is `ttyb') #options KGDBRATE=38400 # baud rate ## Compile the kernel with debugging symbols (`netbsd.gdb' is the debug file), ## such that gdb(1) can be used on a kernel coredump. #makeoptions DEBUG="-g" ## Adds code to the kernel that does internal consistency checks, and will ## cause the kernel to panic if corruption of internal data structures ## is detected. #options DIAGNOSTIC # extra kernel sanity checking ## Enable (possibly expensive) debugging code that may also display messages ## on the system console #options DEBUG ## Make SCSI error messages more verbose when explaining their meanings. options SCSIVERBOSE options PCIVERBOSE ## `INSECURE' turns off the kernel security level (securelevel = 0 always). ## This allows writing to /dev/mem, loading kernel modules while multi-user, ## and other insecurities good only for development work. Do not use this ## option on a production machine. #options INSECURE ## Allow non-root users to grab /dev/console with programs such as xconsole. ## `xconsole' therefore does not need setuid root with this option enabled. #options UCONSOLE ## `FDSCRIPTS' allows non-readable but executable scripts by providing a ## pre-opened opaque file to the script interpreter. `SETUIDSCRIPTS', ## which implies FDSCRIPTS, allows scripts to be set-user-id using the same ## opaque file mechanism. Perl calls this "secure setuid scripts." #options FDSCRIPTS #options SETUIDSCRIPTS ## Options for compatibility with previous releases foreign system binaries. ## In the cases of COMPAT_SUNOS and COMPAT_SVR4, you may need to set up ## additional user-level utilities or system configuration files. See ## compat_sunos(8) and compat_svr4(8). options COMPAT_43 # 4.3BSD system interfaces options COMPAT_10 # NetBSD 1.0 binary compatibility options COMPAT_11 # NetBSD 1.1 binary compatibility options COMPAT_12 # NetBSD 1.2 binary compatibility options COMPAT_13 # NetBSD 1.3 binary compatibility options COMPAT_14 # NetBSD 1.4 binary compatibility #options COMPAT_NETBSD32 # NetBSD/sparc binary compatibility -- 64-bit only options COMPAT_SUNOS # SunOS 4.x binary compatibility options COMPAT_SVR4 # SunOS 5.x binary compatibility options EXEC_ELF32 # Exec module for SunOS 5.x binaries. #options EXEC_ELF64 # Exec module for sparc64 & SunOs 5.x binaries. -- 64-bit only #options SYSCALL_DEBUG options COMPAT_AOUT # NetBSD/sparc compat support options EXEC_AOUT # execve(2) support for a.out binaries ## File systems. You probably need at least one of FFS or NFS. file-system FFS # Berkeley Fast Filesystem file-system NFS # Sun NFS-compatible filesystem client file-system KERNFS # kernel data-structure filesystem file-system NULLFS # NULL layered filesystem file-system MFS # memory-based filesystem file-system FDESC # user file descriptor filesystem file-system UMAPFS # uid/gid remapping filesystem file-system LFS # Log-based filesystem (still experimental) file-system PORTAL # portal filesystem (still experimental) file-system PROCFS # /proc file-system CD9660 # ISO 9660 + Rock Ridge file system file-system UNION # union file system file-system MSDOSFS # MS-DOS FAT filesystem(s). ## File system options. options NFSSERVER # Sun NFS-compatible filesystem server options QUOTA # FFS quotas #options FFS_EI # FFS Endian Independent support #options SOFTDEP # FFS soft updates support. # Pull in config fragments for kernel crypto. This is required for # options IPSEC etc. to work. If you want to run with IPSEC, uncomment # one of these, based on whether you use crypto-us or crypto-intl, and # adjust the prefixes as necessary. #prefix ../crypto-us/sys #cinclude "conf/files.crypto-us" #prefix #prefix ../crypto-intl/sys #cinclude "conf/files.crypto-intl" #prefix ## Network protocol support. In most environments, INET is required. options INET # IP (Internet Protocol) v4 options INET6 # IPV6 #options IPSEC # IP security #options IPSEC_ESP # IP security (encryption part; define w/IPSEC) #options IPSEC_DEBUG # debug for IP security options TCP_COMPAT_42 # 4.2BSD IP implementation compatibility #options GATEWAY # packet forwarding ("router switch") options MROUTING # packet forwarding of multicast packets #options DIRECTED_BROADCAST # allow broadcasts through routers options NS # Xerox NS networking #options NSIP # Xerox NS tunneling over IP options ISO,TPIP # OSI networking options EON # OSI tunneling over IP #options CCITT,LLC,HDLC # X.25 packet switched protocol options NETATALK # AppleTalk (over Ethernet) protocol options NTP # Network Time Protocol in-kernel support #options PPS_SYNC # Add serial line synchronization for NTP options PFIL_HOOKS # Add pfil(9) hooks, intended for custom LKMs. options IPFILTER_LOG # Add ipmon(8) logging for ipfilter device options PPP_BSDCOMP # Add BSD compression to ppp device options PPP_DEFLATE # Add deflate (libz) compression to ppp device options PPP_FILTER # Add active filters for ppp (via bpf) #### Main bus and CPU .. all systems. mainbus0 at root cpu0 at mainbus0 #### Bus types found on SPARC systems. sbus0 at mainbus0 # Ultra 1 #upa0 at mainbus0 # Ultra 1E, Ultra 2, Ex0000 psycho* at mainbus0 # Darwin, Ultra5 pci* at psycho? pci* at simba? simba* at pci? dev ? function ? # `APB' support. ebus* at pci? # ebus devices #### Standard system devices -- all required for a given architecture ## Auxiliary system registers -- We use the OBP for power management #auxreg0 at sbus0 #auxreg0 at pci0 # We also need: # bpp0 at sbus0 # parallel port # ecpp0 at pci0 # parallel port ? lpt* at ebus? # parallel port ## Mostek clock found on 4/300, sun4c, sun4m and sun4u systems. ## The Mostek clock NVRAM is the "eeprom" on sun4/300 systems. clock0 at sbus0 slot ? offset ? clock0 at ebus? ## Timer chip found on 4/300, sun4c, sun4m and sun4u systems. timer0 at mainbus0 # sun4c #### Serial port configuration ## Zilog 8530 serial chips. Each has two-channels. ## zs0 is ttya and ttyb. zs1 is the keyboard and mouse. zs0 at sbus0 slot ? offset ? zstty0 at zs0 channel 0 # ttya zstty1 at zs0 channel 1 # ttyb zs1 at sbus0 slot ? offset ? kbd0 at zs1 channel 0 # keyboard ms0 at zs1 channel 1 # mouse ## PCI machines apparently have serial ports ## Siemens SAB82532 controller: ttya and ttyb (sab) ## Part of NS PC87332VLJ Super I/O controller: kbd/mouse (com) ## These are two SAB82532 controllers #sab0 at ebus? # ttya/ttyb #sabtty0 at sab0 channel 0 # ttya #sabtty1 at sab0 channel 1 # ttyb ## Part of a PC87332VLJ? #ucom0 at ebus? addr 0x3083f8 # `com' driver #ucom1 at ebus? addr 0x3062f8 # #ucom0 at ebus? # `com' driver #ucom1 at ebus? # #kbd0 at ucom0 channel 0 # keyboard #ms0 at ucom1 channel 1 # mouse #### Disk controllers and disks ## The following flags may be set for the NCR53c94 based esp driver: ## bits 0-7: disable disconnect/reselect for the corresponding target ## bits 8-15: disable synchronous negotiation for target [bit-8] ## sun4/300, sun4c, sun4m and sun4u on-board SCSI, and FSBE/S SBus SCSI cards. ## Both `dma' and `esp' are needed in all cases. ## Two kinds of additional SBus SCSI interfaces are available. One uses ## "esp at sbus" like the sun4c on-board; the other uses "esp at dma". ## sun4/300 SCSI - an NCR53c94 or equivalent behind ## an LSI Logic DMA controller dma0 at sbus0 slot ? offset ? # sun4c/sun4m/sun4u esp0 at dma0 flags 0x0000 # sun4m/sun4u scsibus* at esp? # FSBE/S SCSI dma* at sbus? slot ? offset ? # SBus esp* at dma? flags 0x0000 # SBus scsibus* at esp? ## Qlogic ISP SBus SCSI Card isp* at sbus? slot ? offset ? scsibus* at isp? ## FAS support missing #fas* at sbus? slot ? offset ? #scsibus* at fas? ## GLM support is missing #scsi* at pci? # 53C875 "glm" compatible ## These entries find devices on all SCSI busses and assign ## unit numbers dynamically. sd* at scsibus? target ? lun ? # SCSI disks st* at scsibus? target ? lun ? # SCSI tapes cd* at scsibus? target ? lun ? # SCSI CD-ROMs ch* at scsibus? target ? lun ? # SCSI changer devices ss* at scsibus? target ? lun ? # SCSI scanners uk* at scsibus? target ? lun ? # unknown SCSI # PCI IDE. pciide* at pci ? dev ? function ? flags 0x0000 wd* at pciide? channel ? drive ? flags 0x0000 atapibus* at pciide? channel ? cd* at atapibus? drive ? flags 0x0000 # ATAPI CD-ROM drives sd* at atapibus? drive ? flags 0x0000 # ATAPI disk drives uk* at atapibus? drive ? flags 0x0000 # ATAPI unknown ## Floppy controller and drive found on SPARCstations. # need share with the sparc...uses auxreg. what is this on sparc64? #fdc0 at sbus0 slot ? offset ? #fdc0 at pci? # Called fdthree? #fd* at fdc0 # the drive itself ## A disk-like interface to files. Can be used to create floppy, CD, ## miniroot images, etc. pseudo-device vnd 4 ## Concatenated and striped disks; with this, you can create a software-based ## disk array similar to a "RAID 0" setup. See ccd(4). pseudo-device ccd 4 ## RAIDframe disk driver: software RAID driver. See raid(4). pseudo-device raid 4 ## Memory disk device, used on boot floppies with compressed ## kernel-plus-root-disk images. pseudo-device md 1 #### Network interfaces ## LANCE Ethernet - an AMD 7990 LANCE behind specialized DMA glue ## Three flavors of additional SBus ethernets are available. One attaches ## directly like the sun4c on-board, one uses the ledma device like the ## sun4m on-board, and one uses the lebuffer device. ledma0 at sbus0 slot ? offset ? # sun4m on-board le0 at ledma0 # sun4m on-board le* at sbus? slot ? offset ? # SBus ledma* at sbus? slot ? offset ? # SBus le* at ledma? # SBus lebuffer0 at sbus? slot ? offset ? # SBus le0 at lebuffer? # SBus lebuffer* at sbus? slot ? offset ? # SBus le* at lebuffer? # SBus ## HME not supported yet #hme* at sbus0 slot ? offset ? #network* at pci? # "hme" compatible ## qec/be, qec/hme qec* at sbus? slot ? offset ? be* at qec? qe* at qec? ## Loopback network interface; required pseudo-device loop ## SLIP and CSLIP interfaces, for IP over a serial line. pseudo-device sl 2 ## PPP, the successor to SLIP. See pppd(8). pseudo-device ppp 2 ## Starmode Radio IP, a special hardware network device. pseudo-device strip 1 ## Network "tunnel" device, allowing protocol stacks to run in the userland. ## This is used by the third-party user-mode "ppp" program, and others. pseudo-device tun 4 ## Generic L3 over IP tunnel #pseudo-device gre 2 # generic L3 over IP tunnel ## Berkeley Packet Filter, required to run RARPD. A generic C-language ## interface that allows selective examining of incoming packets. pseudo-device bpfilter 8 ## IP Filter, used in firewall and NAT applications. See ipnat(8) for ## one example of the use of the IP Filter. pseudo-device ipfilter ## for IPv6 pseudo-device gif 4 # IPv[46] over IPv[46] tunnel (RFC1933) #pseudo-device faith 1 # IPv[46] tcp relay translation i/f #### Audio and video devices ## /dev/audio support (`audiocs' plus `audio') ## audiocs0 at sbus0 slot ? offset ? # SUNW,CS4231 audio* at audiocs0 ## Sun "bwtwo" black and white framebuffer, found on sun4, sun4c, and sun4m ## systems. If your sun4 system has a cgfour installed in the P4 slot, ## the P4 entries for "bwtwo" will attach to the overlay plane of the ## "cgfour". #bwtwo0 at sbus0 slot ? offset ? # sun4c and sun4m #bwtwo* at sbus? slot ? offset ? # ## Sun "cgthree" Sbus color framebuffer #cgthree0 at sbus? slot ? offset ? #cgthree* at sbus? slot ? offset ? ## Sun "cgsix" accelerated color framebuffer. cgsix0 at sbus? slot ? offset ? cgsix* at sbus? slot ? offset ? ## Sun "tcx" accelerated color framebuffer. #tcx0 at sbus? slot ? offset ? #tcx* at sbus? slot ? offset ? # Sun "cgfourteen" accelerated 24-bit framebuffer. #cgfourteen0 at obio0 # sun4m ## Sun FFB not supported #ffb* at upa? #### Other device configuration ## Pseudo ttys, required for network logins and programs like screen. ## 32 is a good number for average systems; you may have as many as you ## like, though 256 is more or less the upper limit. Increasing this ## number still requires you to run /dev/MAKEDEV to create the files ## for the ptys. pseudo-device pty 64 # pseudo-ttys (for network, etc.) ## Random device, used to implement /dev/random (a source of random noise), ## and generate randomness for some kernel formulae. ## THIS DEVICE IS EXPERIMENTAL; use at your own risk. pseudo-device rnd