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<b>GXemul documentation:</b></font> |
<b>Gavare's eXperimental Emulator:</b></font><br> |
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<font color="#000000" size="6"><b>Misc.</b> |
<font color="#000000" size="6"><b>Miscellaneous</b> |
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$Id: misc.html,v 1.42 2005/06/26 08:42:26 debug Exp $ |
$Id: misc.html,v 1.65 2006/10/19 10:15:23 debug Exp $ |
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Copyright (C) 2003-2005 Anders Gavare. All rights reserved. |
Copyright (C) 2003-2006 Anders Gavare. All rights reserved. |
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Redistribution and use in source and binary forms, with or without |
Redistribution and use in source and binary forms, with or without |
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modification, are permitted provided that the following conditions are met: |
modification, are permitted provided that the following conditions are met: |
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<a href="./">Back to the index</a> |
<a href="./">Back to the index</a> |
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<p><br> |
<p><br> |
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<h2>Misc.</h2> |
<h2>Miscellaneous</h2> |
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<p> |
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<ul> |
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<li><a href="#networking">Networking</a> |
<li><a href="#devel">Writing operating system code, or |
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<li><a href="#portmips">Porting operating systems to MIPS using GXemul</a> |
developing firmware, using GXemul</a> |
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<li><a href="#compilercontruct">Using GXemul in compiler contruction courses</a> |
<li><a href="#compilercontruct">Using GXemul in compiler contruction courses</a> |
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<li><a href="#disk">How to start the emulator with a disk image</a> |
<li><a href="#disk">How to start the emulator with a disk image</a> |
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<li><a href="#filexfer">Transfering files to/from the guest OS</a> |
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<li><a href="#largeimages">How to extract large gzipped disk images</a> |
<li><a href="#largeimages">How to extract large gzipped disk images</a> |
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<li><a href="#userland">Running userland binaries</a> |
<li><a href="#userland">Running userland binaries</a> |
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<li><a href="#promdump">Using a PROM dump from a real machine</a> |
<li><a href="#promdump">Using a PROM dump from a real machine</a> |
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<p><br> |
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<a name="networking"></a> |
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<h3>Networking:</h3> |
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It is possible to let the guest OS running inside the emulator get access to |
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the Internet. If you are interested in the technical details, and the |
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reasons why networking is implemented in the emulator the way it currently |
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is implemented, you might want to read the <a href="technical.html#net"> |
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networking section in the technical documentation</a>. |
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<p> |
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The guest OS running inside the emulator uses a private IPv4 address, such |
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as 10.0.0.1, and the emulator acts as a NAT-like gateway/firewall at IPv4 |
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address 10.0.0.254. To the outside world it will seem like it is the host's |
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OS that connects to other machines on the internet, not the guest OS. |
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<p> |
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<font color="#ff0000">NOTE: This is still experimental! |
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As of 2004-07-21, ARP + ICMP + UDP + TCP are emulated well enough to let |
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NetBSD and OpenBSD install via ftp, and use the network for many normal |
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activities, but not everything works yet.</font> |
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<p><br> |
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<a name="devel"></a> |
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<h3>Writing operating system code, or developing firmware, using GXemul:</h3> |
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Is this a good idea? The answer is yes and no, depending on the level of |
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detail you need in your simulations. If you are developing an operating |
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system or operating system kernel of your own, then the emulator can be a |
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complement to testing on real hardware. |
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<p><br> |
<p>Important things to keep in mind: |
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<a name="portmips"></a> |
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<h3>Porting operating systems to MIPS using GXemul:</h3> |
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Is this a good idea? The answer is yes and no, depending on what you are |
<ul> |
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trying to port to. If you are developing an operating system or operating |
<li>Porting code to a specific machine mode, e.g. a Silicon Graphics |
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system kernel of your own, and wish to target MIPS-like systems in general, |
machine, using GXemul, will not "magically" cause the code to |
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then the answer might be yes, for experimental purposes. |
work on a real machine. Sometimes code works in GXemul which doesn't |
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work on real hardware, sometimes it's the other way around. |
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<p> |
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However, if you think that you can port an operating system |
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to, say, the Silicon Graphics machine mode of GXemul and hope that your |
<li>GXemul contains bugs, and many things are not yet implemented. |
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operating system will run on a real SGI machine, then you will most |
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likely fail. GXemul simply does not emulate things well enough for that to work. |
<p> |
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Another example would be specific CPU details; if your code depends on, |
<li><b>Very important!</b> I have only implemented devices in GXemul |
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say, R10000 specifics, chances are that GXemul will not be sufficient. |
to the degree that NetBSD, OpenBSD, Linux, etc don't complain too much. |
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<p> |
If you are developing a driver for a device which is emulated by |
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In many cases, hardware devices in GXemul are only implemented well |
GXemul, and your driver does not seem to be working, then the |
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enough to fool eg. NetBSD that they are working correctly, while in |
probability of a bug in GXemul's implementation of the device is |
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fact they don't work very much at all. Please keep this in mind, if you plan |
very much higher than that of a bug in your driver. |
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to use GXemul when porting your code to MIPS. |
<p> |
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The device implementations in GXemul are based on the assumption |
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that the emulated OS is already developed and bug-free. They are |
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not primarily intended to be used for development of new device |
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driver code in operating systems, so if you do that, then be |
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prepared for bugs and inconsitencies. |
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<p> |
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<li>CPU details in GXemul are usually wrong. If your code depends |
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on, say, R10000 or MIPS64 specifics, chances are that GXemul will |
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not be sufficient. One example is different revisions of ISAs; |
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some instructions which should trigger an exception on a |
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real MIPS processor usually execute anyway in GXemul. Another |
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example is if userland code tries to access kernel memory; in some |
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cases there is protection against this, but not in all cases (to get |
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higher performance). |
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<p> |
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<li>Caches. There is no cache emulation in GXemul right now. Caches |
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for R2000/R3000 are faked well enough to run NetBSD, Ultrix, etc |
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in the DECstation emulation mode, but other than that, cache |
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operations are treated as nops. |
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</ul> |
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<p>The bottom line is that GXemul can be useful as yet another way to test |
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your code during development, but it should not be fully relied on. |
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<h3>Using GXemul in compiler contruction courses:</h3> |
<h3>Using GXemul in compiler contruction courses:</h3> |
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If you are learning how to write a compiler, and wish to target a |
If you are learning how to write a compiler, and wish to target a |
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realistic target platform, then MIPS (as emulated by GXemul) |
realistic target platform, then MIPS or ARM (as emulated by GXemul) |
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might be a suitable choice. |
might be suitable choices. |
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<ul> |
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<li><b>(+)</b> Your compiler needs to output real assembly |
<li><b>(+)</b> Your compiler needs to output real assembly |
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language code, which the assembler (eg gas, the GNU assembler) can |
language code, which the assembler (e.g. gas, the GNU assembler) can |
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then compile into object format, and then you need to link this |
then compile into object format, and then you need to link this |
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into an executable image. This is much closer to how things work |
into an executable image. This is much closer to how things work |
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in real life than running assembly language listings in a simulator |
in real life than running assembly language listings in a simulator |
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(eg SPIM). |
(e.g. SPIM). |
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<p> |
<p> |
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<li><b>(-)</b> GXemul does not simulate out-of-order |
<li><b>(-)</b> GXemul does not simulate out-of-order |
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execution, penalties related to instruction scheduling, or |
execution, penalties related to instruction scheduling, or |
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Here are some examples. If you want to run a NetBSD/pmax kernel on an |
Here are some examples. If you want to run a NetBSD/pmax kernel on an |
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emulated DECstation machine, you would use a command line such as this: |
emulated DECstation machine, you would use a command line such as this: |
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<pre> |
<pre> |
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$ <b>gxemul -E dec -e 3max -d pmax_diskimage.fs netbsd-pmax-INSTALL</b> |
$ <b>gxemul -e 3max -d pmax_diskimage.fs netbsd-pmax-INSTALL</b> |
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</pre> |
</pre> |
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<p> |
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NOTE: For some emulation modes, such as the DECstation mode, you do |
<p>NOTE: For some emulation modes, such as the DECstation mode, you do |
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<i>not</i> have to specify the name of the kernel, if the disk image is |
<i>not</i> actually have to specify the name of the kernel, if the disk |
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bootable! |
image is bootable! |
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<p> |
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It is possible to have more than one disk. For each -d argument, a disk |
<p>It is possible to have more than one disk. For each -d argument, a disk |
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image is added; the first will be SCSI target 0, the second will be target 1, and so on, |
image is added; the first will be SCSI target 0, the second will be target 1, and so on, |
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unless you specify explicitly which ID number the devices should have. |
unless you specify explicitly which ID number the devices should have. |
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<pre> |
<pre> |
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$ <b>gxemul -E dec -e 3max -d disk0.raw -d disk1.raw -d 5:disk2.raw netbsd-pmax-INSTALL</b> |
$ <b>gxemul -e 3max -d disk0.raw -d disk1.raw -d 5:disk2.raw netbsd-pmax-INSTALL</b> |
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</pre> |
</pre> |
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Note: In the example above, disk2.raw will get scsi id 5. |
Note: In the example above, disk2.raw will get scsi id 5. |
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<p> |
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If a filename has a 'c' prefix, or ends with ".iso", then it is assumed to be |
<p>If a filename has a 'c' prefix, or ends with ".iso", then it is assumed to be |
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a CDROM device (this can be overridden with a 'd' prefix, to force a read/write disk). |
a CDROM device (this can be overridden with a 'd' prefix, to force a read/write disk). |
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For example, the following command would start the emulator with two |
For example, the following command would start the emulator with two |
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CDROM images, and one harddisk image: |
CDROM images, and one harddisk image: |
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<pre> |
<pre> |
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$ <b>gxemul -E dec -e 3max -d image.iso -d disk0.img -d c:second_cdrom.img netbsd-pmax-INSTALL</b> |
$ <b>gxemul -e 3max -d image.iso -d disk0.img -d c:second_cdrom.img netbsd-pmax-INSTALL</b> |
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</pre> |
</pre> |
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Usually, the device with the lowest id becomes the boot device. To override |
Usually, the device with the lowest id becomes the boot device. To override |
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this, add a 'b' prefix to one of the devices: |
this, add a 'b' prefix to one of the devices: |
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<pre> |
<pre> |
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$ <b>gxemul -E dec -e 3max -d rootdisk.img -d bc:install-cd.iso name_of_kernel</b> |
$ <b>gxemul -e 3max -d rootdisk.img -d bc:install-cd.iso name_of_kernel</b> |
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</pre> |
</pre> |
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If you have a physical CD-ROM drive on the host machine, say /dev/cd0c, you can |
If you have a physical CD-ROM drive on the host machine, say /dev/cd0c, you can |
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use it as a CD-ROM directly accessible from within the emulator: |
use it as a CD-ROM directly accessible from within the emulator: |
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<pre> |
<pre> |
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$ <b>gxemul -E dec -e 3max -d rootdisk.img -d bc:/dev/cd0c name_of_kernel</b> |
$ <b>gxemul -e 3max -d rootdisk.img -d bc:/dev/cd0c name_of_kernel</b> |
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</pre> |
</pre> |
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It is probably possible to use harddisks as well this way, but I would not |
It is probably possible to use harddisks as well this way, but I would not |
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recommend it. |
recommend it. |
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<p><br> |
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<a name="filexfer"></a> |
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<h3>Transfering files to/from the guest OS:</h3> |
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If the emulated machine supports networking (see <a |
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href="networking.html#intro">this section</a> for more info), then |
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transfering files via FTP is probably easiest. |
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<p>There is another way of transfering files which works for any kind of |
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emulated machine which supports disks (either SCSI or IDE). Any file can |
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be supplied as a disk image. For example, consider the following:<pre> |
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$ <b>gxemul -XEcats -d nbsd_cats.img -d archive.tar.gz netbsd-GENERIC</b> |
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</pre> |
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This will start NetBSD/cats with <tt>nbsd_cats.img</tt> as IDE master on |
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controller 0 (wd0), and <tt>archive.tar.gz</tt> as IDE slave on controller |
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0 (wd1). From inside NetBSD, it is now possible to extract the files using |
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the following command:<pre> |
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(inside emulated NetBSD/cats) |
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# <b>tar zxvf /dev/wd1c</b> |
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</pre> |
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Don't worry if NetBSD complains about lack of disklabel; it doesn't |
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matter. On some machines, NetBSD uses <tt>wd1d</tt> instead of |
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<tt>wd1c</tt> for the entire disk. |
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There is also a minor problem: reading the end of the disk image. If you |
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experience problems untaring archives like this, then pad out the archive |
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first with some zeroes. |
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<p>Transfering files <i>out</i> from the emulated operating system to the |
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host can be done the same way. First, prepare an empty archive file:<pre> |
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$ <b>dd if=/dev/zero of=newarchive.tar bs=1024 count=1 seek=10000</b> |
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</pre>This example created a 10 MB empty file. Then, start the emulator |
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like this:<pre> |
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$ <b>gxemul -XEcats -d nbsd_cats.img -d archive.tar netbsd-GENERIC</b> |
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</pre> |
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and transfer files by creating an archive directly onto the disk image:<pre> |
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(inside emulated NetBSD/cats) |
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# <b>tar cvf /dev/wd1c filenames</b> |
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</pre> |
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where filenames are the files or directories to transfer. |
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<p><br> |
<p><br> |
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<a name="largeimages"></a> |
<a name="largeimages"></a> |
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<h3>How to extract large gzipped disk images:</h3> |
<h3>How to extract large gzipped disk images:</h3> |
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<a name="userland"></a> |
<a name="userland"></a> |
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<h3>Running userland binaries:</h3> |
<h3>Running userland binaries:</h3> |
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You can run (some) userland programs as well. This will not emulate any |
<font color="#ff0000">Note: This feature does not really work yet. |
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particular machine, but instead try to translate syscalls from for example |
It is currently disabled in stable release builds of the emulator.</font> |
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NetBSD/pmax into the host's OS' syscalls. Right now, this is just a |
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proof-of-concept, to show that it would work; there's lots of work left to |
<p>There is some skeleton code for running userland programs as well. This |
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do to make it actually run useful programs (for example dynamically linked |
will not emulate any particular machine, but instead try to translate |
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programs). |
syscalls from e.g. NetBSD/pmax into the host's OS' syscalls. Right now, |
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this is just a proof-of-concept, to show that it could work; there's lots |
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of work left to do to make it actually run useful programs. |
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<p> |
<p> |
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tab.csbnet.se |
tab.csbnet.se |
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</pre> |
</pre> |
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<p> |
<p> |
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<li><b>NetBSD/powerpc:</b> |
<li><b>NetBSD/powerpc:</b> |
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<br> |
<br> |
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Hello, world! |
Hello, world! |
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</pre> |
</pre> |
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--> |
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</ul> |
</ul> |
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</pre> |
</pre> |
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This binary image can now be used in the emulator: |
This binary image can now be used in the emulator: |
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<pre> |
<pre> |
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$ <b>gxemul -E dec -e 3min -Q -M128 -q 0xbfc00000:DECstation5000_125_promdump.bin</b> |
$ <b>gxemul -e 3min -Q -M128 -q 0xbfc00000:DECstation5000_125_promdump.bin</b> |
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KN02-BA V5.7e |
KN02-BA V5.7e |
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?TFL: 3/scc/access (1:Ln1 reg-12: actual=0x00 xpctd=0x01) [KN02-BA] |
?TFL: 3/scc/access (1:Ln1 reg-12: actual=0x00 xpctd=0x01) [KN02-BA] |
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osconsole=3 |
osconsole=3 |
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>> |
>> |
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</pre> |
</pre> |
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<i>(Note: at the moment, this doesn't work. I must have broken something when |
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fixing something else, but this is what it looked like at the time.)</i> |
<p><font color="#ff0000">(Note: at the moment, this doesn't work. |
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<p> |
I must have broken something when fixing something else, but this |
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During bootup, the PROM complains <i>a lot</i> about hardware failures. |
is what it looked like at the time.)</font> |
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<p>During bootup, the PROM complains <i>a lot</i> about hardware failures. |
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That's because the emulator doesn't emulate the hardware well enough yet. |
That's because the emulator doesn't emulate the hardware well enough yet. |
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<p> |
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The command line options used are: -E dec for DECstation, -e 3min for |
<p>The command line options used are: <tt>-e 3min</tt> for |
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"model 3" (5000/1xx), -Q to supress the emulator's own PROM |
"DECstation 3min" (5000/1xx), <tt>-Q</tt> to supress the emulator's own PROM |
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call emulation, -M128 for 128MB RAM (because GXemul doesn't correctly |
call emulation, <tt>-M128</tt> for 128MB RAM (because GXemul doesn't correctly |
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emulate memory detection well enough for the PROM to accept, so it will |
emulate memory detection well enough for the PROM to accept, so it will |
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always believe there is 128MB ram anyway), and -q to supress debug messages. |
always believe there is 128MB ram anyway), and <tt>-q</tt> to supress debug messages. |
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The 0xbfc00000 in front of the filename tells GXemul that it is a raw |
The <tt>0xbfc00000</tt> in front of the filename tells GXemul that it is a raw |
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binary file which should be loaded at a specific virtual address. |
binary file which should be loaded at a specific virtual address. |
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<h4>Dumping the PROM on a SGI O2:</h4> |
<h4>Dumping the PROM on a SGI O2:</h4> |
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The general ideas in this section applies to using ROM images from other |
The general ideas in this section applies to using ROM images from other |
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machines as well. Besides DECstation, I've also tried this on an SGI IP32 |
machines as well. I have also tried this on an SGI IP32 ("O2"), in addition |
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("O2"). |
to the DECstation. |
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<p> |
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For the O2, a suitable command to dump the prom memory range is |
<p>For the O2, a suitable command to dump the prom memory range is |
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<pre> |
<pre> |
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>> <b>dump -b 0xBFC00000:0xBFC80000</b> |
>> <b>dump -b 0xBFC00000:0xBFC80000</b> |
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</pre> |
</pre> |
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Make sure you capture all the output (via serial console) into a file, |
Make sure you capture all the output (via serial console) into a file, |
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and then run experiments/sgiprom_to_bin on the captured file. |
and then run <tt>experiments/sgiprom_to_bin</tt> on the captured file. |
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<p> |
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(2005-01-16: The emulator doesn't really emulate the IP32 well enough to |
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actually run the PROM image without using special hacks, but it might do |
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so some time in the future.) |
|
544 |
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545 |
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<p> |
546 |
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|
547 |
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<a href="sgi-o2-real.jpg"><img src="sgi-o2-real_small.jpg"></a> |
548 |
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549 |
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<a href="20050817-sgi-o2-success-7.png"><img src="20050817-sgi-o2-success-7_small.png"></a> |
550 |
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|
551 |
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<a href="20050817-sgi-o2-success-8.png"><img src="20050817-sgi-o2-success-8_small.png"></a> |
552 |
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|
553 |
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<p>The photo on the left is from the real machine. The other two are |
554 |
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screenshots of the PROM running experimentally in GXemul, using <tt>-Y2</tt> |
555 |
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framebuffer scaledown. |
556 |
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|
557 |
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<p>Normally during bootup, the IP32 PROM does a Power-On test which makes |
558 |
|
sure that the caches and other things are working properly. GXemul doesn't |
559 |
|
emulate all those things well enough for the tests to pass. The |
560 |
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experimental screenshots above were taken with cache detection skipped |
561 |
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manually. |
562 |
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|
563 |
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<p><font color="#ff0000"> |
564 |
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In other words: don't expect this to work out-of-the-box with GXemul right |
565 |
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now. It might work once I've added correct cache emulation.</font> |
566 |
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|
567 |
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<p>The command line used to start the emulator, once correct cache |
568 |
|
emulation has been implemented, would be something like <tt>gxemul -XQeo2 |
569 |
|
0xbfc00000:prom.bin</tt>. |
570 |
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|
571 |
|
<p>The same caution applies when dealing with SGI PROMs as with |
572 |
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DECstation PROMs: GXemul doesn't really emulate the hardware, it only |
573 |
|
"fakes" devices well enough to fool some things, primarily NetBSD, that |
574 |
|
it is emulating a real machine. ROM code is usually a <i>lot</i> more |
575 |
|
picky about the details. |
576 |
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|
577 |
|
<p>The graphics used in the O2 is (as far as I know) undocumented. Combining |
578 |
|
some traces of info from how Linux/O2 draws to the screen with some |
579 |
|
reverse-engineering of my own, I've implemented enough of the controller to |
580 |
|
let the PROM draw rectangles and bitmaps, but not much more. The SCSI |
581 |
|
controller is not implemented yet either. |
582 |
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583 |
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584 |
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