Difference between revisions of "FAQ"
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- EPROM/Flash programmer that can program the flash on your motherboard.
- EPROM/Flash programmer that can program the flash on your motherboard.
- ROM emulator
- ROM emulator
- Bios Savior
- Bios Savior
Revision as of 19:16, 16 August 2005
What is LinuxBIOS?
LinuxBIOS aims to replace the normal BIOS found on PCs, Alphas, and other machines with a Linux kernel that can boot Linux from a cold start. LinuxBIOS is primarily Linux - about 10 lines of patches to the current Linux kernel. Additionally, the startup code - about 500 lines of assembly and 5000 lines of C - executes 16 instructions to get into 32-bit mode and then performs DRAM and other hardware initialization required before Linux can take over.
Our primary motivation for the project was maintenance of large clusters, but not surprisingly interest and contributions have come from people with varying backgrounds.
Why do we need LinuxBIOS?
Current PCs used as cluster nodes depend on a vendor-supplied BIOS for booting. The BIOS in turn relies on inherently unreliable devices such as floppy disks and hard drives to boot the operating system. In addition, current BIOS software is unable to accommodate non-standard hardware making it difficult to support experimental work. The BIOS is slow and often erroneous and redundant and, most importantly, maintenance is a nightmare. Imagine walking around with a keyboard and monitor to every one of the 128 nodes in a cluster to change one BIOS setting.
The LinuxBIOS gunzip's the Linux kernel straight out of NVRAM and essentially requires no moving parts other than the fan. It does a minimal amount of hardware initialization before jumping to the kernel start and lets Linux do the rest. As a result, it is much faster (current record 3 seconds), which has sparked interest in the consumer electronics community as well. Moreover, updates can be performed over the network.
Using a real operating system to boot another operating system provides much greater flexibility than using a simple netboot program or the BIOS. Because Linux is the boot mechanism, it can boot over standard Ethernet or over other interconnects such as Myrinet, Quadrics, or SCI. It can use SSH connections to load the kernel, or it can use the InterMezzo caching file system or traditional NFS. Cluster nodes can be as simple as they need to be - perhaps as simple as a CPU and memory, no disk, no floppy, and no file system. The nodes will be much less autonomous thus making them easier to maintain.
Who is working on LinuxBIOS?
The LinuxBIOS project was started in the winter of 1999 in the Advanced Computing Laboratory at Los Alamos National Laboratory by Ron Minnich. Two undergraduate students, James Hendricks and Dale Webster spent their winter vacation putting together the proof of concept implementation.
Since then, a long list of people have contributed both in discussions and actual code. See our contributors page for details. Please don't be shy and let us know if you are missing from the list. It's not a purposeful omission, just an unfortunate mistake.
Who is funding LinuxBIOS?
The LinuxBIOS project is funded by the Los Alamos Computer Science Institute and the Department of Energy's Office of Science.
Will LinuxBIOS work on my machine?
If the above sources don't help, please send the following to the Mailinglist:
- Step 1: A very brief description of your system: CPU and mainboard and optionally other important details.
- Step 2: Linux lspci output for your system, generated by booting Linux via the original BIOS and runnning lspci.
- Step 3: SuperIO chip on the mainboard (report the model numbers on the actual chip - doesn't appear in the lspci output)
- Step 4: Type of BIOS device (See the question "How do I identify the BIOS chip on my mainboard?" below.)
- Step 5: URL to the mainboard specifications page (optional)
- Step 6: Any other relevant information you can provide
If you can't do step 1 above, please describe (as best you can) the specific CPU chip and the chipset used on the mainboard.
Usually in less than a day, someone will respond on the LinuxBIOS mailing list saying your mainboard is supported in the main LinuxBIOS source tree, it is currently in development, it is not yet supported or the manufacturer will not release information needed to provide LinuxBIOS support. In the latter case, please let the manufacturer know that you want LinuxBIOS support and his failure to release chipset informtion is making that very difficult.
What commercial products use LinuxBIOS?
See the products page.
Which different operating systems will LinuxBIOS boot?
Linux (of course)
Windows 2000 (via ADLO)
We have look at some of the BSD OSes but (e.g.) FreeBSD makes BIOS calls, and we don't support BIOS calls. Possibly ADLO could be used to support FreeBSD, but the right thing to do is remove FreeBSD's dependence on BIOS calls.
How can I help with LinuxBIOS?
Contact Ron Minnich for projects related to LinuxBIOS.
What kind of hardware tools do I need?
A motherboard (or mainboard as LinuxBIOS calls it) that has a supported chipset on it. Ok.. Well not exactly. As long as you have the documentation for the chipset/mainboard and it's free of any NDA issues you can use an unsupported chipset/mainboard, but you have a twisty road ahead of you.
And of course you need a Linux development machine. The LinuxBIOS build environment is not supported on Windows. It may be possible to do it under cygwin but nobody has tried.
It's also handy to have one/some/all of the following:
- EPROM/Flash programmer that can program the flash on your motherboard.
Willem Universal EPROM Programmer -- DOS/Windows only (work has started on Linux drivers) ~$50 GALEP-4 -- Has beta linux drivers ~$300
- ROM emulator - Bios Savior
- POST card
http://siliconkit.dnsalias.com/cart/index.tpcip.html http://www.elstonsystems.com/prod/pc_analyzer.html http://shopv2.elstonsystems.com/product_info.php/products_id/57 http://www.uxd.com/trio.html http://www.soyousa.com/products/proddesc.php?id=261
- Compact Flash IDE adaptor
http://siliconkit.dnsalias.com/cart/index.tcfdp.html http://www.cwlinux.com/eng/products/products_ide2cf.php http://www.mini-box.com/s.nl/sc.8/category.14/.f http://www.acscontrol.com/Index_ACS.asp?Page=/Pages/Products/CompactFlash/IDE_To_CF_Adapter.htm
- Oscilliscope - In Circuit Emulator hardware debugger - LinuxBIOS SDK
- In Circuit chip programmer -- should allow you to program your BIOS even if it is soldered to the motherboard.
What documentation do I need?
As much as you can possibly get your hands on. Minimum you need the docs for your chipset. Without chipset docs you are basically lost.
There have been some reports of people making things work by booting with the BIOS that comes with the board. Dumping the PCI config registers and then making LinuxBIOS match those registers. But since sometimes you have to set different bits in a given register at different times so that intermediate info will be lost. Getting a mainboard up with out chipset docs can be a very long and involved process.
What if my chipset docs are covered by an NDA?
If the documentation for your chipset covered by and NDA with no source release agreement you won't be able to release your code back to to the LinuxBIOS project in general or you will violate the GPL. Many vendors accept releasing the source code produced after reading such specs while they don't allow the specs themselves to be revealed. Also, you can offer them to review the code before releasing it.
Where is the mailing list archived?
The official LinuxBIOS mailing list archive is:
The best archive out there is at the University of Maryland.
In addition, we've pieced together an archive that dates back to about the beginning of 2000 (including messages that were going to the freebios and openbios mailing lists).
Where do I get the code?
See the download page.
How do I build?
See the documentation. For help generating a config file, see Generate a config file. (jdarby: this needs to be wikiized)
Why is the code so complicated and what can I do to make it easier?
The reason is the complexity of the problem. We support a lot of hardware, and a given chip on a given board will most likely not be configured quite the same as the same chip on some other board.
To help make code navigation easier, pick a target and build that target. Then, in the build directory, type make tags or make etags to get your favorite tags file.
What chipsets are supported?
See the Supported Chipsets & Devices page
How can I tell if my motherboard is supported by LinuxBIOS?
There are 2 methods:
1) Check Supported Motherboards
If you don't see your chipset/Mainboard listed there then boot linux on your target and send the output of 'lspci -vvv' to the linuxBIOS list asking if this chipset is supported.
2) "Use the source Luke"
Check out the latest copy of LinuxBIOS from CVS Download freebios v2 and look in the freebios2/src/mainboard directory. (The LinuxBios module is called 'freebios2' in CVS for legacy reasons) There are directories for each manufacturer of mainboards that LinuxBIOS supports. Below the manufacturer directory is a directory for each mainboard or family of mainboard. If a directory for your mainboad dosen't exist then theres a good chance LinuxBIOS dosen't support your mainboard out-of-the-box. Posting to the list would probally be the next option. See 'the lspci -vvv' in the earlier part of the question.
If the directory does exist then it still dosen't mean 100% the mainboard will work but at least it probally worked at one time. Posting to the list will probally get you the latest info for that mainboard.
What is this POST card thing?
A POST card will save your life. The term POST means Power On Self Test and comes from the original IBM specifications for the BIOS. Port 80 is a pre-defined port to which programs can output a byte. The POST card displays the byte in hex on its 2 digit display. We use a lot of POST codes in LinuxBIOS, so if you can tell us the POST code you see, we will have some idea of what happened.
If your LinuxBIOS machine is working properly, you will see it count up from 0xd0 to 0xd9 (while it is gunzipping the kernel) and then display 0x98 (Linux idle loop).
PCI POST cards can be found in various places. POST Cards
How do I contribute my changes?
Any one without commit privileges (which is most of you) need to get changes approved by Ron Minnich.
How do I identify the BIOS chip on my mainboard?
Modern mainboards store the BIOS in a reprogrammable flash ROM chip. There are hundreds of different flash ROMs, with variables such as memory size, speed, communication bus (LPC vs. ISA/PCI) and packaging to name just a few. The three most common packages are called DIP, PLCC and TSOP. The BIOS copyright holders often place a fancy sticker on the BIOS chip showing a name or logotype, BIOS version, serial number and copyright notice.
DIP chip with sticker
DIP: Dual In-line Package
A rectangular black plastic block with lots of pins along the two longer sides of the package. DIP ROMs can be socketed which means they are detachable from the mainboard using physical force. Since they haven't been moved in and out of the socket very much (yet, hehe) they can appear to be quite difficult to release from the socket. One way to remove a DIP from a socket is by prying a thin screwdriver in between the plastic package and the socket, along the shorter sides where there are no pins, and then gently bending the screwdriver to push the DIP upwards, away from the mainboard. Alternate between the two sides to avoid bending the pins, and don't touch any of the pins with the screwdriver, see FAQ about ESD, electro-static discharge. If the DIP is soldered directly to the mainboard, it has to be desoldered in order to be reprogrammed outside the mainboard. If you do this, it's a good idea to solder a socket to the mainboard instead, to ease any future experiments.
PLCC chips with and without sticker
PLCC: Plastic Leaded Chip Carrier
Black plastic block again, but this one is much more square. PLCC is becoming the standard for mainboards because of it's smaller physical size. PLCC can also be socketed or soldered directly to the mainboard. Socketed PLCC chips can be removed using a special PLCC removal tool, or using a piece of nylon line tied in a loop around the chip and pulled swiftly straight up, or bending/prying using small screwdrivers if one is careful. PLCC sockets are often fragile so the screwdriver approach is not recommended. While the nylon line method sounds onorthodox it works well. Desoldering PLCC can be painful without specialized desoldering equipment particularly because PLCC chips have leads on all four sides of the package.
TSOP chip on a TSOP->DIP adapter
TSOP: Thin Small-Outline Package
TSOPs are often used in embedded systems where size is important and there is no need for replacement in the field. It is possible to (de)solder TSOPs by hand, but it comes close to wizardry.
How do I (re-)flash the BIOS?
Out of mainboard BIOS (re)flash
If the BIOS chip is socketed, it can be removed and flashed in a rom/flash burner and quickly re-installed. Some of these burners cost $1000 and more plus they complete a flash in 1-2 minutes, but if you are willing to wait 5 minutes for a flash and manually set DIP switches, The Enhanced Willem Universal Programmer will do the job for only $40-60 USD. There are several models of the Willem Programmer, each supporting many chips, but not all, so be sure to get one that supports your BIOS chip. If your chip is PLCC, you will also need a PLCC chip extractor/puller or just thread nylon string under the PLCC chip from corner to corner and yank up it straight up.
Inside mainboard BIOS (re)flash
Download the appropriate flash update utility. Build the romimage as explained above and use the flash update utility to update the BIOS. Be warned that not all update utilities allow you to load your own BIOS image. For example, Intel decided to disallow it for the MS440GX mainboard (probably after hearing about us!) Here are some mainboard specific directions:
LinuxBIOS v2 contains a flash utility called "flash_rom". It can be found at freebios2/util/flash_and_burn.
bash# ./flash_rom Calibrating timer since microsleep sucks ... takes a second Setting up microsecond timing loop 515M loops per second OK, calibrated, now do the deed Enabling flash write on AMD8111...OK Trying Am29F040B, 512 KB probe_29f040b: id1 0x4e, id2 0x41 Trying At29C040A, 512 KB probe_jedec: id1 0xbf, id2 0x51 Trying Mx29f002, 256 KB probe_29f002: id1 0xbf, id2 0x51 Trying SST29EE020A, 256 KB probe_jedec: id1 0xbf, id2 0x51 Trying SST28SF040A, 512 KB probe_28sf040: id1 0x4e, id2 0x41 Trying SST39SF020A, 256 KB probe_jedec: id1 0xbf, id2 0x51 Trying SST39VF020, 256 KB probe_jedec: id1 0xbf, id2 0x51 Trying SST49LF040, 512 KB probe_jedec: id1 0xbf, id2 0x51 SST49LF040 found at physical address: 0xfff80000 Part is SST49LF040 OK, only ENABLING flash write, but NOT FLASHING bash# flash_rom --help usage: ./flash_rom [-rwv] [-c chipname] [-s exclude_start] [-e exclude_end] [file] -r: read flash and save into file -w: write file into flash (default when file is specified) -v: verify flash against file -c: probe only for specified flash chip -s: exclude start position -e: exclude end postion If no file is specified, then all that happens is that flash info is dumped
Besides that, OpenBIOS contains a flash driver called /dev/bios which may support some systems and flash chips unsupported by flash_rom.
SiS 630/950 M/Bs
Ollie Lho provided us with flash utilities for these boards under freebios/util/sis. flash_on turns on the flash write enable. This needs to be run before loading the DoC drivers. flash_rom allows you to use your SiS 630/950 M/Bs as a flash programmer. It currently supports JEDEC flash parts, AMD am29f040b models, MXIC MX29F002 models, and SST28SF040C models.
Get the System Update Package directly from Intel. mcopy the ten files created from running make phlash onto the Intel flash burner disk and use the update utility to burn the BIOS. To restore the original BIOS, set the recovery boot jumper on the motherboard, put the floppy in, and it will load and reflash the original BIOS. How do I actually burn a flash ROM?
Buy your favorite flash burner (we use a Needham Electronics EMP 30). Use make floppy to create the romimage and copy it to a floppy. Then use the provided software to burn the flash.
BIOS Saver RD1
There are some posts about the BIOS Saver RD1 that suggest its integrated flash device is of low quality, and it may take 10 or more flash programming attempts to get a good update to the RD1 flash device. As a result, the following steps have proven to be successful while using the RD1:
- Step 1 - While the system is powered down remove the original BIOS device from the mainboard and insert it into the RD1's socket.
- Step 2 - Insert the RD1 into the mainboard's flash BIOS socket.
- Step 3 - Boot the system with the RD1 set to boot from the original flash device from the mainboard.
- Step 4 - Program the original BIOS image (or other known good BIOS image) into the RD1's integrated flash device for as many times as needed until the device is properly programmed and the system boots corectly from the RD1's integrated flash device. Be sure to check the settings on the RD1 so that the proper flash device is now being programmed. If the RD1 is not set correctly the working BIOS image will be erased and the system may not boot!
- Step 5 - Program the test BIOS image (usually LinuxBIOS images are among this group) into the original flash device from the mainboard. The original BIOS device usually programs OK on the first attempt. Be sure to check the settings again on the RD1 so that the proper flash device is now being programmed!
The RD1 has been used in the above fashion with great success on the Tyan S2885 mainboard. Unfortunately the RD1 does not work on the nVidia CK8-04 CRB mainboard. The CK8-04 CRB may require a flash device that the RD1 does not support.
The RD1 has worked well as a "do nothing" adapter that allows swapping the BIOS flash device between a flash burner and a mainboard without any wear to the mainboard's BIOS socket.
How do I burn a DoC?
Currently, only the DoC Millennium is supported. See the documentation.
Can I do any serious damage mucking around with this stuff?
Any time you stick your hand into an open machine while the power is on, you're risking life and limb. That said, there are also some other not-so-nice things that can happen if you mess up (not that we would know).
- Incorrect insertion of the flash (1 casualty)
- Incorrect jumper settings (1 casualty)
- Aggressive and/or inappropriate use of metal objects such as screwdrivers (2 casualties)
- Miscellaneous miswirings and mishandlings (3+ casualties)
A note on electrostatic discharge (ESD) and ESD protection (thanks to Bari Ari)
ESD can damage disk drives, boards, DoC's and other parts. The majority of the time, ESD events cause the component to degrade, but not fail testing procedures, resulting in failure at a later date. Because components do not fail immediately, technicians often underestimate the cost of not using ESD prevention measures. Provide at minimum some ESD protection by wearing an antistatic wrist strap attached to the chassis ground on your system when handling parts.
Always handle boards carefully. They can be extremely sensitive to ESD. Hold boards only by their edges. After removing a board from its protective wrapper or from the system, place it component side up on a grounded, static free surface. Use a conductive foam pad if available. Do not slide the board over any surface.
To further reduce the chances of ESD, you should create an ESD safe workstation that includes at minimum:
- Conductive rubber mat, with a lead wire that can be connected to a metal surface to create a ground.
- ESD wrist strap, which has a resistor inside the strap and a lead wire that can be connected to a metal surface as a ground. The grounding wire on the wrist strap should have between 1 and 10 Megaohms of resistance. The resistor should protect you in case you come in contact with a voltage source. If the resistor is bad or not included, the wrist strap is useless. An accidental shock could be serious and even deadly!
- Table or workspace that is clean, clear of dust, and away from electrical machinery or other equipment that generates electrical currents.
The idea is to ensure that all components you are going to interact with have the same charge. By connecting everything to the computer case, you ensure that the components of the case, the chair, and your body all have the same charge. If every object has the same charge, the electrons will not jump from one object to another minimizing the risk of ESD damage.
How do I put a filesystem on DoC?
OK, here is a little HOWTO on how to set up MTD with a file system.
This is a m810lmr, booting out of DoC. I am going to reserve the first 2M for kernel. So the layout will be the first 2M for linuxbios and kernel, and 6M for a file system. Kernel is 2.4.17, with linux-2.4.17-sis.patch from linuxbios source tree, and config-2.4.17-sis from the linuxbios source tree. Mainboard is the pcchips m810lmr.
modprobe doc2001 modprobe docprobe dmesg
DiskOnChip Millennium found at address 0xFFFC8000 Flash chip found: Manufacturer ID: 98, Chip ID: E6 (Toshiba TC58V64AFT/DC) 1 flash chips found. Total DiskOnChip size: 8 MiB mtd: Giving out device 0 to DiskOnChip Millennium Ignoring DiskOnChip Millennium at 0xFFFCA000 - already configured Ignoring DiskOnChip Millennium at 0xFFFCC000 - already configured Ignoring DiskOnChip Millennium at 0xFFFCE000 - already configured Ignoring DiskOnChip Millennium at 0xFFFD0000 - already configured Ignoring DiskOnChip Millennium at 0xFFFD2000 - already configured Ignoring DiskOnChip Millennium at 0xFFFD4000 - already configured Ignoring DiskOnChip Millennium at 0xFFFD6000 - already configured (etc..) Now I need MTD utilities. So I: cvs -d :pserver:email@example.com:/home/cvs login CVS password: (password is anoncvs) Then: cvs -d :pserver:firstname.lastname@example.org:/home/cvs co mtd
Forget the drivers and such, you don't need them. What you need is the tools.
cd mtd/tools make
Go ahead and copy the executables somewhere handy, you'll need them.
Now we need to make the last 6M into a "disk". We need to format it. The tool is nftl_format, so:
[root@carly util]# ./nftl_format $Id: nftl_format.c,v 1.17 2001/08/29 14:28:48 dwmw2 Exp $ Usage: ./nftl_format [ ] [root@carly util]# expr 2048 \* 1024 2097152 [root@carly util]# expr 6 \* 1024 \* 1024 6291456 [root@carly util]# ./nftl_format /dev/mtd0 2097152 6291456 $Id: nftl_format.c,v 1.17 2001/08/29 14:28:48 dwmw2 Exp $ Phase 1. Checking and erasing Erase Zones from 0x00200000 to 0x00800000 Phase 2.a Writing NFTL Media Header and Bad Unit Table Phase 2.b Writing Spare NFTL Media Header and Spare Bad Unit Table Phase 3. Writing Unit Control Information to each Erase Unit
we now have a formatted disk in there. We can now partition it.
[root@carly util]# modprobe nftl
dmesg shows LOTS of errors, since this was never partitioned ...
Also, if you don't have /dev/nftla,
[root@carly util]# mknod /dev/nftla b 93 0
Don't use the script just yet, it makes /dev/nftla as b 93 16, which is the wrong unit #.
now fdisk /dev/nftla
[root@carly util]# fdisk /dev/nftlA Command (m for help): n Command action e extended p primary partition (1-4) p Partition number (1-4): 1 First cylinder (1-1, default 1): Using default value 1 Command (m for help): p Disk /dev/nftlA: 1 heads, 12224 sectors, 1 cylinders Units = cylinders of 12224 * 512 bytes Device Boot Start End Blocks Id System /dev/nftlA1 1 1 6111+ 83 Linux Partition 1 has different physical/logical endings: phys=(768, 0, 0) logical=(0, 0, 12224) Partition 1 does not end on cylinder boundary: phys=(768, 0, 0) should be (768, 0, 12224) Command (m for help): w The partition table has been altered! Calling ioctl() to re-read partition table. WARNING: If you have created or modified any DOS 6.x partitions, please see the fdisk manual page for additional information. Syncing disks. [root@carly util]# mknod /dev/nftlA1 b 93 1 [root@carly util]# mke2fs /dev/nftlA1 mke2fs 1.23, 15-Aug-2001 for EXT2 FS 0.5b, 95/08/09 Filesystem label= OS type: Linux Block size=1024 (log=0) Fragment size=1024 (log=0) 1528 inodes, 6111 blocks 305 blocks (4.99%) reserved for the super user First data block=1 1 block group 8192 blocks per group, 8192 fragments per group 1528 inodes per group Writing inode tables: done Writing superblocks and filesystem accounting information: done
This filesystem will be automatically checked every 37 mounts or 180 days, whichever comes first. Use tune2fs -c or -i to override.
[root@carly util]# mount /dev/nftlA1 /mnt [root@carly util]# cd /mnt [root@carly mnt]# df . Filesystem 1k-blocks Used Available Use% Mounted on /dev/nftlA1 5915 13 5597 1% /mnt [root@carly mnt]#
and so you now have an ext2 file system on the DoC.
(Above is from Ron Minnich)
How do I turn off embedded sis630 devices?
From email@example.com Mon Mar 25 08:54:07 2002 Date: Mon, 25 Mar 2002 22:07:54 +0800 From: Andrew Ip To: Kei Furuuchi Cc: firstname.lastname@example.org Subject: Re: How to turn off unused pci device. Hi, > I have pcchips m758lmr which has audio chip besides sis630. > those functions in sis630 are not used in the motherboard. > But, the functions keep coming up. How do I turn off those? The following is from Nikolai Valdych previous message. Hope this help. -Andrew -- Andrew Ip Email: email@example.com Actualy, it was pretty simple 0x7c00 - All devices enabled, You play with first 4 bits only. Cos there are 4 devices, so you have any combination of 4 bits. Set bit to 1 to turn off the device, bit 0 to enable it. This is the device list: Multimedia Audio controler Modem controler Ethernet sis930 controler USB controler. For example, to turn off Ethernet + USB it would be: 0x7c0c -> 1100 in binary (first 4 bits) To turn off Multimedia audio : 0x7c01 -> 0001 in binary and so on... maybe there are more detail, but this is enogh for me, Ollie, again thanks! nikolai p.s. though my modem is not yet working..... damn driver......
What is a PIRQ table?
From Adam Sulmicki: I found beautfiul descrition of the BIOS implementation of the PIRQ in the red PCI book. I found the description of the $PIR data structure in the http://www.microsoft.com/whdc/archive/pciirq.mspx looking over linuxbios sources I see that it saves the $PIR data structure somewhere between 0xf0000 & 0x100000. so it seems I'll have to search for $PIR and then save it before copying over our bios. sigh. hoped for some fixed address in mem. -- Adam http://www.eax.com The Supreme Headquarters of the 32 bit registers
How do I set up etherboot with LinuxBIOS?
Note from Ron: I have edited this somewhat to remove Geode-specific items.
Christer Weinigel writes: To: firstname.lastname@example.org Cc: email@example.com Subject: Re: LinuxBIOS + Etherboot HOWTO? I had some trouble using LinuxBIOS + etherboot... My bad, I messed up and used mkelfImage-1.6 that I got from ftp.lnxi.com, when I realized that I ought to use the one from freebios/util everything started working. Here's what I did to get LinuxBIOS + Etherboot loading and booting a Linux kernel using TFTP. /Christer Get etherboot-5.0 from the CVS tree on etherboot.sourceforge.net. Modify etherboot-5.0/src/Config, comment out: # BIOS select don't change unless you know what you are doing #CFLAGS32+= -DPCBIOS and uncomment the following: # Options to make a version of Etherboot that will work under linuxBIOS. CFLAGS32+= -DLINUXBIOS -DCONFIG_TSC_CURRTICKS -DCONSOLE_SERIAL \ -DCOMCONSOLE=0x3f8 -DCOMPRESERVE -DCONFIG_PCI_DIRECT -DELF_IMAGE Compile Etherboot to make an elf file for your ethernet card: make bin32/natsemi.elf Compile and install mkelfImage from freebios/util/mkelfImage. Create a bootimage to put on your TFTP server: mkelfImage --command-line="root=/dev/hda2 console=ttyS0,38400" \ --kernel vmlinux -o /tftpboot/kernel Finally, make sure that your BOOT/DCHP server is answering and that the TFTP server is active. Tell LinuxBIOS to boot an elf Image, and tell LinuxBIOS where it is: option USE_ELF_BOOT=1 I have placed natsemi.elf in the first 64k of my BIOS flash chip, and LinuxBIOS in the second 64k. insmod bios.o dd if=natsemi.elf of=/dev/bios bs=64k dd if=linuxbios.rom of=/dev/bios bs=64k seek=1 Finally boot LinuxBIOS.
How do I set GEODE video?
From firstname.lastname@example.org Wed Nov 27 07:47:17 2002 Date: 27 Nov 2002 10:55:01 +0100 From: Christer Weinigel To: Adam Bezanson Cc: email@example.com Subject: Re: Geode Kernel Config "Adam Bezanson" writes: > I've got an Eval card from National Semi that contains > the SC1200. I'd like to try LinuxBios on it. > I've downloaded both the 2.4.18 and 2.4.19 kernels to start with. > What patches do I need to apply to the kernel? > Is there a config file I can use to configure the kernel, or > should I do it manually? A normal 2.4 Linux kernel will work fine as long as you compile for a 586 CPU (CONFIG_M586), not Pentium or higher (CONFIG_M586TSC and up) since the TSC behaves a bit differently. If you want support for the watchdog or the GPIO pins in a 2.4 kernel, you can find an old patch from me at: http://groups.google.com/groups?selm=20020226015215.20118F5B%40acolyte.hack.org&oe=UTF-8&output=gplain An updated version of this patch has been included in Linux 2.5. Alan Cox' 2.5 kernel also has support for doing DMA on the SC1200 IDE controller; I don't know if there is a corresponding patch for 2.4. Other than that, take a look at the freebios/src/mainboard/nano/nano directory and make a copy of it. All you should have to do is to modify the Pin Multiplexing Register (PMR) and Miscellaneous Config Register (MCR) in the Config file and to modify the irq assignments. Depending on what you want to do, there are a few limitations with the current LinuxBIOS on the SC1200: There is no video support in LinuxBIOS itself, so you won't get any video until you have loaded the NatSemi Geode Linux framebuffer driver (can be found at www.linux4.tv under the heading SP1SC10 Platform Image). There is no SMM/VSA support at all, this means that anything relying on it won't work. What this means is that Audio won't work. Other than that everything works fine, IDE in PIO mode, the PCI bus, watchdog, GPIOs, everything. /Christer -- "Just how much can I get away with and still go to heaven?" Freelance consultant specializing in device driver programming for Linux Christer Weinigel http://www.weinigel.se _______________________________________________ Linuxbios mailing list Linuxbios@clustermatic.org http://www.clustermatic.org/mailman/listinfo/linuxbios
How do I set up testbios?
From firstname.lastname@example.org Wed Oct 6 10:23:10 2004 Date: Tue, 5 Oct 2004 15:19:24 -0400 From: Dave Aubin To: email@example.com Subject: RE: Testbios help with nvidia 6800Gt and simple how to I've taken the time to put together a simple testbios faq. I hope it is helpful. Feedback and additions are welcome. Thanks, Dave
Testbios (vgabios) Faq
Date: 10/5/2004 Author(s): David Aubin firstname.lastname@example.org
Purpose: Testbios is an i386 emulator that sits on top of userspace linux. It's primary purpose is to provide program video rom's in to the cached memory area.
Where to obtain testbios
Testbios(vgabios) can be retrieved from the linuxbios/freebios source tree: 
You must have installed pci-utils
How to build testbios
- cd freebios/util/vgabios
- Edit ./Makefile and fill in the correct values for your environment (I build on a 64 AMD so my makefile looks like this)
Begin ./Makefile for x64:
CC = gcc ARCH := $(shell uname -m | sed -e s,i86,i386,) INCLUDE = -I ../pciutils-2.1.11 CFLAGS = -Wall -Ix86emu/include -O2 -g $(INCLUDE) INTOBJS = int10.o int15.o int16.o int1a.o inte6.o OBJECTS = testbios.o helper_exec.o helper_mem.o $(INTOBJS) LDFLAGS = -static-libgcc -static LIBS = x86emu/src/x86emu/libx86emu.a ../pciutils-2.1.11/lib/libpci.a # user space pci is the only option right now. OBJECTS += pci-userspace.o ifeq ($(shell if test "$(ARCH)" == "x86_64" ; then echo 1; fi), 1) CFLAGS +=-m32 -march=i386 endif all: testbios testbios: $(OBJECTS) $(LIBS) $(CC) $(CFLAGS) -o testbios $(OBJECTS) $(LDFLAGS) $(LIBS) helper_exec.o: helper_exec.c test.h x86emu/src/x86emu/libx86emu.a: $(MAKE) -C x86emu/src/x86emu/ -f makefile.linux clean: $(MAKE) -C x86emu/src/x86emu/ -f makefile.linux clean rm -f *.o *~ testbios distclean: clean $(MAKE) -C x86emu/src/x86emu/ -f makefile.linux clean
- Edit ~vgabios/x86emu/src/x86emu/makefile.linux and fill in the correct values for your environment (I build on a 64 AMD so my makefile looks like this)
############################################################################# # # Realmode X86 Emulator Library # # Copyright (C) 1996-1999 SciTech Software, Inc. # # ======================================================================== # # Permission to use, copy, modify, distribute, and sell this software and # its documentation for any purpose is hereby granted without fee, # provided that the above copyright notice appear in all copies and that # both that copyright notice and this permission notice appear in # supporting documentation, and that the name of the authors not be used # in advertising or publicity pertaining to distribution of the software # without specific, written prior permission. The authors makes no # representations about the suitability of this software for any purpose. # It is provided "as is" without express or implied warranty. # # THE AUTHORS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, # INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO # EVENT SHALL THE AUTHORS BE LIABLE FOR ANY SPECIAL, INDIRECT OR # CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF # USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR # OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR # PERFORMANCE OF THIS SOFTWARE. # # ======================================================================== # # Descripton: Linux specific makefile for the x86emu library. # ############################################################################# TARGETLIB = libx86emu.a OBJS=\ debug.o \ decode.o \ fpu.o \ ops.o \ ops2.o \ prim_ops.o \ sys.o $(TARGETLIB): $(OBJS) ar rv $(TARGETLIB) $(OBJS) INCS = -I. -Ix86emu -I../../include CFLAGS += -D__DRIVER__ -DFORCE_POST -D_CEXPORT= -DNO_LONG_LONG -DDEBUG ARCH := $(shell uname -m | sed -e s,i86,i386,) ifeq ($(shell if test "$(ARCH)" == "x86_64" ; then echo 1; fi), 1) CFLAGS +=-m32 -march=i386 endif .c.o: # gcc -m32 -march=i386 -g -O -Wall -c $(CFLAGS) $(INCS) $*.c gcc -g -O -Wall -c $(CFLAGS) $(INCS) $*.c .cpp.o: # gcc -m32 -march=i386 -c $(CFLAGS) $(INCS) $*.cpp gcc -c $(CFLAGS) $(INCS) $*.cpp clean: rm -f *.a *.o validate: validate.o libx86emu.a gcc -o validate validate.o -lx86emu -L.
- Once built you could have a 32bit testbios executable made. Depending on your embedded environment you might want to have it built shared as the above example makes it static. Just remove -static-libgcc -static from the LDFLAGS on ./Makefile if you wish to have it built shared.
How to retrieve a good video bios
There are sites that have video bios roms on their website. (I know of this one for nvidia cards: )
However you should be able to retrieve your own video bios as well with linux.
- Boot up a machine with a commercial bios (not linux bios) with the video card you wish to work under linux bios.
- From the command line enter:
dd if=/dev/mem of=vgabios.bin skip=1536 count=128 or
dd if=/dev/mem of=vgabios.bin bs=1k count=64 skip=786432
This assumes you card's bios is cached in 0xc0000. You
can see where and how much your card's bios is using by
doing a cat iomem | grep "Video ROM"
- dd Explained (man dd to learn more):
- if is the location to retrieve from.
- of is the output file (your rom image)
- skip jumps n blocks where the default n is 512 bytes
- count is how many blocks you wish to read
- bs is the block size
- dd Explained (man dd to learn more):
- You now have a video bios image
- From the command line enter:
How to use testbios
- Currently testbios only works from user space linux (10/4/04)
- Example from a linux command line or script enter the following to get your video bios programmed:
./testbios -s 65536 --abseg /dev/mem ./vgabios.bin
- Testbios explained
- -s how much of the video bios is there
- --abseg where would you like to write this (/dev/mem default)
- filename of video bios
- -d diag mode
- How to get pci busdevfn
- look for your video card
2 (00 << 3) | 00 = 0x200
0 (12 << 3) | 0 = 0x90
- -t dump
- -c codesegment Where do you want to start, default is 0xc0000
- -b base Where do you want base to be default is 0xc000
- -i instruction pointer usually left off as the default
- Testbios explained
Followup to Testbios FAQ
-----Original Message----- From: email@example.com  On Behalf Of Dave Aubin Sent: Tuesday, October 05, 2004 2:22 PM To: Richard Smith Cc: firstname.lastname@example.org Subject: RE: Testbios help with nvidia 6800Gt and simple how to Hi, Thank you:) Yes, it was at 0xc0000-0xc7fff, which is only 32k. But the image I got from the windows tool was 64k (double 8000). Weird. I would like to stay away from window tools. The info you provided is nice. I wish there was a way for us To make a faq and we could add this to the testbios faq. There Is a lot of good info on the clustermatic list, but it is all Dispersed. Ron if I write a simple faq can you provide some mechanism to Allow updates to it? Thanks, Dave -----Original Message----- From: Richard Smith  Sent: Tuesday, October 05, 2004 2:16 PM To: Dave Aubin Cc: email@example.com Subject: Re: Testbios help with nvidia 6800Gt and simple how to Dave Aubin wrote: > It seems my dd returned an unusable binary. I found a good binary for > The nvidia card from here: > http://whitebunny.demon.nl/hardware/chipset_nvidia.html > I was wondering about your dd command that but I had not had a chance to respond yet. This is what I use: dd if=/dev/mem of=vbios.bin bs=1k count=64 skip=786432 That will rip the bios from 0x0c0000. You can verify that you actually have bios there with 'hd -s 0x0c0000 -n 256 /dev/mem' in some cases it may be located at 0x0e0000 rather than 0x0c0000. It should start with the 0x55aa (Little endian) or 0xaa55 (big endian) and futher on you should see some text identifying the bios. -- Richard A. Smith _______________________________________________ Linuxbios mailing list Linuxbios@clustermatic.org http://www.clustermatic.org/mailman/listinfo/linuxbios