OpenBSD/sparc64 runs on the 64-bit Sun UltraSPARC machines based on
the UltraSPARC I, II, III, IV, T1 and T2 processors, Oracle Sun SPARC
machines based on the SPARC T3, T4, T5, M5, M6, M7 and S7 processors,
and the Fujitsu SPARC64 machines based on the SPARC64-V, SPARC64-VI,
SPARC64-VII and SPARC64-X processors.
A mailing list dedicated to the OpenBSD/sparc and OpenBSD/sparc64 ports is
available at [email protected].
To join the OpenBSD/sparc and OpenBSD/sparc64 mailing list, send a message
body of "subscribe sparc" to
[email protected].
Please be sure to check our mailing list policy before
subscribing.
The current port maintainer is Mark Kettenis
([email protected]).
Others are definitely welcome to contribute!
|
History:
The original port was made for NetBSD by Eduardo Horvath and released for
the first time in January 1999.
The porting to OpenBSD started in August 2001 and in the end of September the
first binary snapshot was released. The porting was done mainly by Jason
Wright and Artur Grabowski and was done on both SBus and PCI machines so that
a decently wide range of hardware support was ready even before the system
could boot multiuser.
OpenBSD 3.0 was the first official release of OpenBSD/sparc64, and since
that release support for many more devices has been added (including
devices required for X11R6 support). The other architectures that
OpenBSD supports have benefited because some kinds of bugs are
exposed more often by the 64-bit big endian nature of UltraSPARC.
Sun refused access to the necessary documentation for the (very bizarre)
host bridge and caches in the UltraSPARC III machines, so a few years were
lost before some reverse engineering figured out the changes in these
machines (and the undocumented processor bugs, too). In 2007, Sun
was finally convinced to release the missing
information, and development progress became more rapid.
OpenBSD 4.0 was the first release to ship with support for the
UltraSPARC III based machines; OpenBSD 4.3 first with SMP support, and
OpenBSD 4.4 has been the first to support the UltraSPARC IV,
UltraSPARC T1, UltraSPARC T2, SPARC64-V, SPARC64-VI and SPARC64-VII
processors. OpenBSD 5.7 has been the first to support the SPARC T3,
SPARC T4, SPARC T5, SPARC M5, SPARC M6 and SPARC64-X processors.
And since there are always little bits missing, work is continuing...
Current status:
Currently most of the hardware available to the developers boots
multiuser and supports enough of the on-board devices to be generally
usable.
The X Window System is supported on most systems.
Accelerated drivers are available for ATI graphics adapters, Tech
Source graphics adapters and the UPA Creator, Creator 3D and Elite 3D.
It is possible to use X in frame buffer mode with all supported SBus
cards, as well as the on-board ATI graphics, the UPA Creator,
Creator 3D or Elite 3D, and the Expert 3D at the boot resolution/depth
using either the wsfb(4) or the wildcatfb(4) driver.
Supported hardware:
Supported machines
OpenBSD/sparc64 is known or expected to work on the following machines:
- Ultra 1/1E
- Ultra 2
- Ultra 3 Mobile Workstation
- Ultra 5/10
- Ultra 25/45
- Ultra 30/60/80
- SPARCengineUltra AX
- SPARCengineUltra AXe
- SPARCengineUltra AXi
- SPARCengineUltra AXdp
- SPARCengineUltra AXmp
- SPARCengine CP1500
- Enterprise 150
- Enterprise 220R
- Enterprise 250
- Enterprise 420R
- Enterprise 450
- Enterprise 3000/4000/5000/6000
- Enterprise 3500/4500/5500/6500
- Enterprise 10000
- Sun Blade 100/150
- Sun Blade 1000/2000
- Sun Blade 1500/2500
- Sun Blade T6300
- Sun Blade T6320
- Sun Blade T6340
- Sun Fire V100/V120
- Sun Fire V125
- Sun Fire V210/V240/V440
- Sun Fire V215/V245/V445
- Sun Fire V250
- Sun Fire 280R
- Sun Fire V480/V880
- Sun Fire V490/V890
- Sun Fire V1280
- Sun Fire 3800/4800/4810/6800
- Sun Fire E2900/E4900/E6900
- Sun Fire T1000/T2000
- Sun SPARC Enterprise M4000/M5000
- Sun SPARC Enterprise M8000/M9000
- Sun SPARC Enterprise T1000/T2000
- Sun SPARC Enterprise T5120/T5220
- Sun SPARC Enterprise T5140/T5240
- Sun SPARC Enterprise T5440
- Sun SX1500
- Sun SX2500
- Sun SX3200
- Oracle SPARC T3-1
- Oracle SPARC T3-2
- Oracle SPARC T3-4
- Oracle SPARC T4-1
- Oracle SPARC T4-2
- Oracle SPARC T4-4
- Oracle SPARC T5-2
- Oracle SPARC T5-4
- Oracle SPARC T5-8
- Oracle SPARC T7-1
- Oracle SPARC T7-2
- Oracle SPARC T7-4
- Oracle SPARC S7-2
- Oracle SPARC S7-2L
- Netra AX1105
- Netra AX2200
- Netra X1
- Netra 20/T4
- Netra 120
- Netra 210/240/440
- Netra 1280
- Netra 1290
- Netra T1 100/105
- Netra T1 AC200/DC200
- Netra T 1100
- Netra T 1120/1125
- Netra T 1400/1405
- Netra CP3060
- Netra CP3260
- Netra T2000
- Netra T5220
- Netra T5440
- Netra SPARC T3-1
- Netra SPARC T4-1
- Netra SPARC T4-2
- Momentum Leopard-V
- Fujitsu PRIMEPOWER 1
- Fujitsu PRIMEPOWER 250/450
- Fujitsu PRIMEPOWER 650/850
- Fujitsu SPARC Enterprise M4000/M5000/M8000/M9000
- Fujitsu SPARC Enterprise T1000/T2000
- Fujitsu SPARC Enterprise T5120/T5220
- Fujitsu SPARC Enterprise T5140/T5240
- Fujitsu SPARC Enterprise T5440
- Fujitsu SPARC M10-1
- Fujitsu SPARC M10-4
- Fujitsu SPARC M10-4S
- Fujitsu SPARC M12-1
- Fujitsu SPARC M12-2
- Fujitsu SPARC M12-2S
- RDI/Tadpole Ultrabook 170/200
- Tadpole Ultrabook IIe
- Tadpole SPARCLE 550SX/650SX
- Tadpole Viper
- Tadpole/Sun Voyager IIi
- Naturetech GENIALstation 777S
- Naturetech PowerBook 777S
- Naturetech PowerBook 888P
OpenBSD 4.4 may trigger a hardware fault on the SPARC Enterprise
M4000/M5000/M8000/M9000 that can only be cleared by a field engineer.
A workaround for this problem is available in OpenBSD 4.5 and later.
The PRIMEPOWER 650/850 machines are only supported with SPARC64-V CPUs.
The Fujitsu M10 and M12 machines have only been tested with OpenBSD
running in a logical domain.
Please note, some machines like the Ultra1, Ultra2, Enterprise 220R
and SPARC Enterprise T5120/T5220 may require upgrading the flashprom
before OpenBSD can be successfully installed. The SPARC Enterprise
T5120/T5220 needs at least OBP 4.28.0.
On machines like the Oracle SPARC T4-2, older firmware versions from
around 2011 are known to cause kernel panics and crashes in
ldomd; later
versions, at least SysFW 8.9.11 from 2018, are known to work.
Supported devices
- Processors
- Sun UltraSPARC I
- Sun UltraSPARC II, IIi, IIe
- Sun UltraSPARC III, III+, IIIi
- Sun UltraSPARC IV, IV+
- Sun UltraSPARC T1
- Sun UltraSPARC T2, T2+
- Oracle SPARC T3
- Oracle SPARC T4
- Oracle SPARC T5
- Oracle SPARC M5
- Oracle SPARC M6
- Oracle SPARC M7
- Oracle SPARC S7
- Fujitsu SPARC64-V
- Fujitsu SPARC64-VI
- Fujitsu SPARC64-VII
- Fujitsu SPARC64-X
- Fujitsu SPARC64-XII
- Keyboards/Mice
- Type 4, 5, and 6 keyboards on Zilog serial ports (zskbd)
- Type 4, 5, and 6 keyboards on NS16550 serial ports (comkbd)
- Type 6 and 7 keyboards on USB (ukbd)
- PS/2 AT keyboards (pckbd)
- Sun mice on Zilog (zstty) or NS16550 (com) serial ports
- Sun mice on USB (ums)
- PS/2 mice (pms)
- Frame buffers
- SBus Video:
- bwtwo - monochrome, unaccelerated
- cgthree - 8-bit color, unaccelerated
- cgsix - 8-bit color, accelerated
- cgtwelve - 24-bit color, accelerated (but the driver does not support hardware acceleration)
- Fujitsu AG-10e
(agten)
- 24-bit color, accelerated (currently only supported in unaccelerated 8-bit
mode)
- Parallax XVideo and PowerVideo
(tvtwo)
- 24-bit color, accelerated (but the driver does not support hardware
acceleration)
- RasterFlex family
(rfx)
- 8/24-bit color, accelerated (currently only supported in unaccelerated 8-bit
mode)
- Southland Media Systems MGX and MGXPlus (mgx)
- 24-bit color, accelerated (currently only supported in unaccelerated 8-bit
mode)
- Vigra
VS10, VS11 and VS12 SBus frame buffers - 8-bit color, unaccelerated, selectable
VGA and Sun-compatible video modes
- ZX
(aka Leo) - 8 or 24-bit color, overlay planes,
double-buffered, 3-D acceleration
- PCI Video:
- Sun PGX, PGX24 and PGX64
(machfb)
- 8/24-bit color, accelerated
- Tech Source Raptor GFX-4M/8M
(raptor)
- 8/24-bit color, accelerated
- Tech Source Raptor GFX-8P/Sun PGX32
(gfxp)
- 8/24-bit color, accelerated
- Sun XVR-100 and XVR-300
(radeonfb)
- 8/24-bit color, accelerated
- Sun Expert3D, Expert3D-Lite, XVR-500, XVR-600 and XVR-1200
(ifb)
- 24-bit color, accelerated (currently restricted to 8-bit, unaccelerated
on the XVR-500 and XVR-600, accelerated on the Expert3D, Expert3D-Lite and
XVR-1200)
- UPA Video:
- Creator/Creator 3D/Elite 3D (creator)
- SCSI Host Adapters
- SBus NCR53c9x adapters (esp)
- SBus 10/100Mbit SunSwift Ethernet+SCSI cards, aka HME + FAS366 cards (esp)
- SBus and PCI QLogic adapters
(qla,
qle,
qlw)
- PCI NCR53c8xx adapters (siop)
- Adaptec AIC-7770, AIC-7850, AIC-7860, AIC-7870, AIC-7880, AIC-7890,
AIC-7891, AIC-7892, AIC-7895, AIC-7896, AIC-7897 and AIC-7899 based PCI
host adapters
(ahc)
- AMD Am53c974 PCscsi-PCI host adapters including the Tekram DC-390
(pcscp)
- LSI Logic Fusion-MPT (Symbios Logic/NCR)
(mpi)
- LSI53C1020, LSI53C1020A, LSI53C1030, LSI53C1030T, LSI53C1035,
- LSIFC909, LSIFC919, LSIFC919X, LSIFC929, LSIFC929X, LSIFC949, LSIFC949X,
- LSISAS1064, LSISAS1064E, LSISAS1068, LSISAS1068E
- Areca Technology Corporation PCI-X and PCI Express Sata RAID controllers
(arc)
- PCI IDE Controllers (pciide)
- Acer Labs M5229
- CMD Technology PCI0646, PCI0680
- National Semiconductor PC87415
- Promise PDC20262, PDC20267, PDC20268
Other PCI IDE adapters may work, but are untested.
- CD-ROM and DVD-ROM Drives (cd)
- Most SCSI CD-ROM, CD-R, CD-RW, DVD and DVD-RW drives.
- Most ATAPI (IDE) CD-ROM, CD-R, CD-RW, DVD and DVD-RW drives.
- Ethernet Adapters
- onboard SBus AMD Lance Ethernet (le)
- SBus AMD Lance cards (le)
- SBus 10/100Mbit qec+be Sun FastEthernet 1.0 cards (qec/be)
- SBus Quad 10Mbit qec+qe Sun Quad Ethernet (qec/qe)
- onboard SBus and PCI HME Ethernet (hme)
- SBus 10/100Mbit hme Ethernet cards (hme)
- SBus 10/100Mbit SunSwift Ethernet+SCSI cards (hme)
- SBus Quad 10/100Mbit hme and qfe Quad Fast Ethernet cards (hme)
- SBus Gigabit Ethernet 1.0/1.1 (ti)
- SBus Gigabit Ethernet 2.0 (gem)
- PCI Fast Ethernet (hme)
- PCI Quad Fast Ethernet (hme)
- PCI Gigabit Ethernet 1.0/1.1 (ti)
- PCI Gigabit Ethernet 2.0 (gem)
- PCI GigaSwift Ethernet (cas)
- Alteon Tigon I/II-based adapters (ti)
- Digital DC21x4x-based PCI adapters (de)
- Davicom DM9102 Ethernet (dc)
- Intel 21145-based adapters (dc)
- Intel i8255x-based (except the i82556) adapters (fxp)
- 3Com 3c9xx EtherLink XL adapters (xl)
- SMC 83C170 ("EtherPower II") (EPIC/100) (epic)
- AMD PCnet-based PCI adapters (pcn)
- Intel PRO/1000 based adapters (em)
- Broadcom BCM57xx/BCM590x (a.k.a. Tigon3) based PCI adapters (bge)
- Broadcom NetXtreme II based PCI adapters (bnx)
- Sundance/Tamarack TC9021 based PCI adapters (stge)
- RealTek 8129/8139-based adapters (rl)
- Realtek 8169/8169S/8110S based PCI adapters (re)
- SysKonnect XMAC II and Marvell Yukon based PCI adapters (sk)
- Tehuti Networks 10Gb based PCI adapters
(tht)
- ADMtek AN986-based USB adapters (aue)
- ASIX Electronics AX88172 based USB adapters (axe)
- CATC USB-EL1210A-based USB adapters (cue)
- Davicom DM9601 USB Ethernet adapters (udav)
- Kawasaki LSI KL5KUSB101B-based USB adapters (kue)
- Realtek RTL8150L based USB adapters (url)
- Wireless Ethernet Adapters
- Atheros IEEE 802.11a/b/g PCI/CardBus adapters (ath)
- Atheros IEEE 802.11a/g/n PCI/CardBus adapters (athn)
- Atheros USB IEEE 802.11a/b/g USB adapters (uath)
- Atmel AT76C50x IEEE 802.11b USB adapters (atu)
- Conexant/Intersil Prism GT Full-MAC IEEE 802.11a/b/g PCI adapters (pgt)
- Marvell Libertas IEEE 802.11b/g Compact Flash adapters (will be detected as PCMCIA adapters) (malo)
- Ralink Technology IEEE 802.11a/g/n PCI/CardBus adapters (ral)
- Ralink Technology IEEE 802.11b/g USB adapters (ural)
- Ralink Technology IEEE 802.11a/b/g USB adapters (rum)
- Ralink Technology IEEE 802.11a/g/n USB adapters (run)
- TI ACX100/ACX111 IEEE 802.11a/b/g PCI adapters (acx)
- WaveLAN/IEEE, PRISM 2-3, and Spectrum24 IEEE 802.11b PCMCIA/PCI/USB (wi)
- Universal Serial Bus (USB) Devices
- USB Audio (uaudio)
- USB Diamond MultiMedia Rio MP3 players (urio)
- USB Ethernet adapters (
aue,
axe,
cue,
kue,
udav,
url)
see above
- USB Generic Human Interface Devices (catch-all) (uhid)
- USB Handspring Visor (uvisor)
- USB Hubs (uhub)
- USB Keyboards (ukbd)
- USB Mass Storage devices, i.e., USB floppy drives and USB memory stick controllers (umass)
- USB Mice (ums)
- USB Modems (umodem)
- USB Printers (ulpt)
- USB-USB cables (upl)
- USB Y@p phone (uyap)
- Sound Devices
- onboard SBus CS4231 (audiocs)
- onboard EBus/PCI CS4231 (audioce)
- Trident 4DWAVE-DX/NX, Sis 7018, ALi M5451 (autri)
- Ensoniq AudioPCI (eap)
- ESS Solo-1 PCI AudioDrive (eso)
- Serial Devices
- onboard SBus Zilog 8530 (zs)
- onboard EBus Infineon (Siemens) 82532 (sab)
- onboard 16550 compatibles (com)
- SBus magma serial port cards, including: 4Sp, 8Sp, 12Sp, 16Sp, LC2+1Sp, 2+1Sp, 4+1Sp, 8+2Sp, 2+1HS Sp (magma)
- SBus spif serial port cards (spif)
- Aurora SBus sio2/pio1 (asio/apio)
- PCI serial/parallel communication cards (puc)
- PC Cards (PCMCIA)
- PCMCIA Controllers:
- Wireless Ethernet Adapters:
- Radio Receiver Devices (radio)
- D-Link DSB-R100 USB radio device (udsbr)
- Miscellaneous Devices
- EBus beeper (beeper)
- performance counters/system controller (uperf)
- FireHose controller (fhc)
- Central controller (central)
- Clock board (clkbrd)
- SBus Expansion Subsystem (SUNW,xbox) (xbox)
[Currently restricted to non-DMA devices]
- onboard floppy drive on SBus systems (such as Ultra 1 and Ultra 2)
(fdc)
- Hardware monitoring sensors, including:
- Analog Devices AD7416, AD7417 and AD7418 (adc)
- Analog Devices ADM1021 (admtemp)
- Analog Devices ADM1024 (admlc)
- Analog Devices ADM1025 (admtm)
- Analog Devices ADM1030 (admtmp)
- Analog Devices ADM1031 (admtt)
- Analog Devices ADT7460 (adt)
- National Semiconductor LM75, LM77 (lmtemp)
- National Semiconductor LM78, LM78-J, LM79 (lm)
- National Semiconductor LM87 (lmenv)
- Maxim DS1624/DS1631/DS1721 (maxds)
- Maxim MAX6642/MAX6690 (maxtmp)
- Philips PCF8591 (pcfadc)
- Meinberg Funkuhren radio clocks, including:
- GPS170PCI 3.3V/5V 6-channel GPS receiver card (mbg)
- PCI32 5V DCF77 time signal station receiver card (mbg)
- PCI509 5V DCF77 time signal station receiver card (mbg)
- PCI511 3.3V/5V DCF77 time signal station receiver card (mbg)
- UVC-compatible Video devices (uvideo)
Untested machines (please help us test!)
The following machines may work, but have never been tested:
- Sun Fire 12K/15K
- Sun Fire E20K/E25K
- Sun Netra CT 400
- Sun Netra CT 410
- Sun Netra CT 800
- Sun Netra CT 810
- Sun Netra CT 820
- Sun Netra FT 1800
- Sun Netra CP2040
- Sun Netra CP2060
- Sun Netra CP2080
- Sun Netra CP2140
- Sun Netra CP2160
- Sun Netra CP2300
- Oracle SPARC T3-1B
- Oracle SPARC T4-1B
- Oracle SPARC T5-1B
- Oracle SPARC M5-32
- Oracle SPARC M6-32
- Fujitsu PRIMEPOWER 200/400/600/1000/2000 (with SPARC64-V CPUs)
- Fujitsu PRIMEPOWER 900/1500/2500
- Fujitsu FX1
- Tadpole Ultrabook IIi
- Tadpole Sparcbook 5000/6500
- Tadpole Bullfrog / Bullfrog EXP / V2 Bullfrog I
- Naturetech Meso 999
- Naturetech GENIALstation 737S/747S
- Naturetech PowerBook 737S/747S
- Naturetech PowerBook 777E/ES/P/V
- Naturetech PowerBook 878P
- Naturetech Proso 2000
- Naturetech Proso 2400
- Naturetech Proso 2600
- Themis USP-2
- Themis USPIIi-1V/3V
- Themis USPIIe-Gb/USB/cPCI
- Themis USPIIIi
- Themis RES-32s
- Themis T2BC
- Force Computers CPU-50/CPU-50G
- Force Computers CPU-56/CPU-56T
- Force Computers CPCI-520
- Force Computers CPSB-560
Most of these machines will almost certainly just work. If you have
one of these machines available for testing, please give it a try and
tell us about the result.
Unsupported machines
The following machines do not run OpenBSD/sparc64 just yet:
- Fujitsu HALstation 330/350/375/385
- Fujitsu S-7/300
- Fujitsu GP7000F Model 200/400/600/1000/2000
- Fujitsu PRIMEPOWER 200/400/600/1000/2000 (with SPARC64-IV CPUs)
- Fujitsu SPARC Enterprise M3000
- Sun SPARC Enterprise M3000
OpenBSD may trigger a hardware fault on the SPARC Enterprise M3000.
With older versions of the firmware, this fault can only be cleared by
a field engineer. Make sure you update the firmware before trying to
run OpenBSD on these machines. Firmware XCP 1116 and later are known
to allow end users to clear the fault themselves. There is no
evidence that running OpenBSD actually damages the hardware.
Unsupported devices
- SBus cards other than those listed above.
- PCI video cards other than those listed above.
Hardware documentation:
Previous to 2007, it was extremely difficult or impossible to get much of
the necessary hardware documentation for these machines. Members of our
team (in particular David Gwynne) were instrumental in pressuring and
convincing Sun to go back into their archives and dig up the data sheets
that they had written in-house, describing the operation of their chips to
their own engineers. These documents can now be found at
http://wikis.sun.com/display/FOSSdocs/Home.
Some documents are still missing at that site, so we ask that interested
developers contact Sun and request additional information.
Getting and installing OpenBSD/sparc64:
The latest supported OpenBSD/sparc64 release is
OpenBSD 7.6.
Here are the
OpenBSD/sparc64 installation instructions.
Snapshots are made available from time to time, in
this location
as well as on a few
mirrors.
Here are the
OpenBSD/sparc64 snapshot installation instructions as well.
There are several installation media provided, so that
OpenBSD/sparc64 can be installed or upgraded via CD, floppy boot images on
some models, miniroot images for machines without floppies,
as well as network and diskless installs.
- CD image (install76.iso)
Booting off a CD provides a small ffs filesystem with a kernel containing
drivers for the most popular devices found on UltraSPARC hardware.
For the latest list of drivers available on this image, take a look at the
RAMDISK
kernel configuration file.
The CD can be booted off the OpenFirmware prompt with
{0} ok boot cdrom
- Floppy A (floppy76.img)
Booting off the floppy provides a small ffs filesystem with a kernel
containing supporting the following sparc64 hardware:
as well as support for the on-board devices found on these machines.
However due to lack of space there are only a few other drivers.
In particular, this floppy lacks cdrom support and will not
allow installation from cdrom media.
For the latest list of drivers available on this image, take a look at the
RAMDISKU1
kernel configuration file.
The floppy can be booted off the OpenFirmware prompt with
{0} ok boot floppy
- Floppy B (floppyB76.img)
Booting off the floppy provides a small ffs filesystem with a kernel
containing supporting the following sparc64 hardware:
- SPARCengineUltra AX
- SPARCengineUltra AXe
- SPARCengineUltra AXi
as well as support for the on-board devices found on these machines.
However due to lack of space there are only a few other drivers.
In particular, this floppy lacks cdrom support and will not
allow installation from cdrom media.
For the latest list of drivers available on this image, take a look at the
RAMDISKU5
kernel configuration file.
The floppy can be booted off the OpenFirmware prompt with
{0} ok boot floppy
- Miniroot (miniroot76.img)
The miniroot provides the same installation environment as the CD ISO,
and is intended for easy bootstrap if there is already an operating system
installed on the machine.
After dumping the miniroot to the primary swap partition with dd, the
miniroot can be booted off the OpenFirmware prompt with a command such as
{0} ok boot disk:b
(the disk designation may be different, depending on the chosen swap
partition).
- Network boot (ofwboot.net, bsd.rd)
Using a diskless setup, it is also possible to boot the OpenBSD/sparc64
boot loader, ofwboot.net
, from the network via tftp, and access
the bsd.rd
standalone miniroot over NFS.
Refer to the
diskless(8)
manual page for details on how to setup a network boot environment.
Please note that booting from floppy might not work on your machine; also,
Ultra 1, 1E and 2 systems might require a PROM update (they usually don't if
they are able to boot Solaris in 64bit-mode); please refer to the
installation notes for details.