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This page discusses things for [[Unix]] systems, there is a separate page for
[[Microsoft_Windows]] systems.
See the discussion about [[hurd/running/qemu/writeback_caching]].
# Readily Available Images
You can use the following images to give the GNU/Hurd a try.
## Debian GNU/Hurd
[[!inline pages=hurd/running/debian/qemu_image raw=yes feeds=no]]
## [[Nix]]
## Unofficial Images
Note that the following images are unofficial ones: they have been prepared by
volunteers and may not have been tested extensively.
* [Disk image](http://draketo.de/dateien/hurd/bab-hurd-qemu-2008-10-29.img.tar.bz2)
with a short intro on translators. Just start it with `qemu -m 512
-drive cache=writeback,index=0,media=disk,file=disk_image.img`.
It should work without any of the configuration below. If you want to know what you can do
with it, please have a look at [[its_wikipage|hurd/running/qemu/babhurd_image]]. And when
you use it, please [tell me your experience with it](http://draketo.de/contact)! - [[community/weblogs/ArneBab]]
# Arch Hurd Live CD
Also you can use QEMU to easily try one of the
[[Hurd_LiveCDs|hurd/running/live_cd/]].
# What is Needed to create a QEMU image
## Debian Installer
Instructions for creating a qemu image from the install CDs from debian installer can be found in the README alongside the d-i Hurd images:
## Old method
1. First thing is to install [[/QEMU]].
2. A [[grub]] boot disk for the floppy disk image needed for booting. The [0\.97 version](ftp://alpha.gnu.org/gnu/grub/grub-0.97-i386-pc.ext2fs) works fine. I downloaded it and renamed to `floppy.img`. Alternatively, the Debian grub-disk package (up till version 0.97-28) is fine as well.
3. You will need a [Debian/Hurd installation CD](http://www.debian.org/ports/hurd/hurd-cd). K16 works fine.
# KVM acceleration
Check if your CPU supports kvm:
$ egrep '^flags.*(vmx|svm)' /proc/cpuinfo
#### If you don't have hardware support (slow):
$ apt-get install qemu
Do not enable kernel-kqemu, as that assumes some particular behavior from the guest kernel, which we are reluctant to artificially add to gnumach.
If QEMU with KVM is not available, [[Virtualbox]] reportedly has better
performance.
#### If you have hardware support (recommended):
$ apt-get install qemu-kvm
$ modprobe kvm
Intel VTx/VTd: Enable Intel kvm in the BIOS
On a HP xw4600 Workstation: F10, Security->System Security; Enable VTx and VTd
Check that the kvm module is loaded:
$ lsmod|grep kvm
kvm_intel 38050 0
kvm 213800 1 kvm_intel
$ ls -l /dev/kvm
crw-rw----+ 1 root kvm 10, 232 Mar 14 15:02 /dev/kvm
Add yourself to the kvm group:
$ adduser your_user kvm; logout; login
AMD SVM (AMD-V): Enable AMD-V in the BIOS if not enabled.
Check that the kvm module is loaded:
$ lsmod|grep kvm
kvm_amd 31862 0
kvm 214088 1 kvm_amd
More info on kvm at: http://www.linux-kvm.org/page/FAQ
If your machine supports hardware acceleration, you should really use the kvm variant of qemu, as it speeds things quite a lot. Note however that kvm tends to make assumptions when accelerating things in the linux kernel, you may need some -no-kvm-something option. At the moment in Debian you need to pass
-no-kvm-irqchip
to the command line, see below, if you are running Linux kernels 2.6.37 or 2.6.38 else IRQs may hang sooner or later. The kvm irq problems will be solved in kernel 2.6.39.
IRC, freenode, #hurd, 2012-08-29:
youpi: do you remember which linux versions require the
-no-kvm-irqchip option ?
your page indicates 2.6.37-38, but i'm seeing weird things on
2.6.32
looks like a good thing to use that option all the time actually
seems like kvm -h says: -no-kvm-irqchip and man kvm says:
-machine kernel_irqchip=off
/!\ Note that there are known performance issues with KVM on Linux 2.6.39
kernels, compared to 2.6.32: [[!debbug 634149]]. We're preparing on a change
on our side to work around this.
# HAP/EPT/NPT acceleration
Performance will be yet better if HAP (EPT or NPT) is available:
$ grep ept /proc/cpuinfo
$ grep npt /proc/cpuinfo
# Installing Debian/Hurd with QEMU using the Debian installer
Note: If you have hardware support, replace the qemu commands below with kvm, e.g. qemu-ing -> kvm-img.
First off you will need to create a disk image using `qemu-img`. I have set mine to 4 GiB, although you should be able to get away with less.
$ qemu-img create hd0.img 4G
Next you will want to start up QEMU and begin the installation process.
$ qemu -m 512 -drive cache=writeback,index=0,media=disk,file=hd0.img -cdrom mini.iso -net nic,model=rtl8139 -net user
Now at his point do the regular install using `hd0` as your harddrive. Partition it and install the base system.
In the installer make your choice of install option: Default install (or your choice)
Language: English
Country, territory or area: your_choice
Locale: your_choice
Note that even if you can set the country and locale, your local keyboard is not yet supported.
In case of problems with timezone or locale settings do the following after the installation is completed
To get the correct timezone:
$ dpkg-reconfigure tzdata
To get your locale setting:
$ nano /etc/locale.gen
$ locale-gen
Network: Now configured automatically with dhcp
IP address: 10.0.2.15
Netmask: 255.255.0.0
Gateway: 10.0.2.2
Nameserver: 10.0.2.3
Qemu network setup:
QEMU VLAN <------> Firewall/DHCP server <-----> Internet
| (10.0.2.2)
|
----> DNS server (10.0.2.3)
|
----> SMB server (10.0.2.4)
Partitioning method: Guided (or your choice)
Partitioning `/dev/hd0`: All files in one partition.
**Important**: Since partman does not yet mount other partitions than / automatically at reboot, it is crucial that you choose this option for now.
Once you have finished installing the base system (might take some time) the system is rebooted and next boot will be from the hard disk. Now you are able to log in to your newly installed GNU/Hurd system.
Also see another text about how to [[gnu/create_an_image]] for the
[[GNU_system|gnu]].
## Running the installed system
Starting qemu/qemu-kvm:
$ kvm -m 512 -net nic,model=rtl8139 -net user,hostfwd=tcp::5555-:22 -drive cache=writeback,index=0,media=disk,file=hd0.img -vga vmware
vmsvga_value_write: guest runs Linux.
Note: See below on port forwarding in the networking section.
Note: Using the vmware vga driver is useful for setting up X windows, see [Debian GNU/Hurd](http://www.debian.org/ports/hurd/hurd-install)
If you have problems with grub hanging during boot with the vmware vga driver: Disable the graphic boot
$ nano /etc/default/grub
uncomment GRUB_TERMINAL=console
$ /usr/sbin/update-grub
### A few words about the qemu console
During the graphical emulation, you can use the following keys:
-f Toggle full screen
-u Restore the screen's un-scaled dimensions
-n Switch to virtual console 'n'. Standard console mappings are:
1 Target system display
2 Monitor
3 Serial port
Toggle mouse and keyboard grab.
# Transferring Files
## Mounting Disk Image on Host
You may wish to mount your disk image on your host system to transfer files. To do this you will first need to find the offset of the partition you wish to mount.
# fdisk -ul hd0.img
...
128 heads, 63 sectors/track, 0 cylinders, total 0 sectors
Units = sectors of 1 * 512 = 512 bytes
Device Boot Start End Blocks Id System
hd0.img1 * 63 3515903 1757920+ 83 Linux
hd0.img2 3515904 4193279 338688 82 Linux swap / Solaris
Now take the number of sectors for the beginning of the partition and multiply it by the sector size. My partition starts at sector 63 and I have a sector size of 512 therefore my offset is 32256. For a start at 2048 the ofsset is 1048576.
# mount -o loop,offset=32256 hd0.img /mnt/diskimage
## Having QEMU create *virtual FAT disk images*
[Link to the manual](http://www.nongnu.org/qemu/qemu-doc.html#SEC25).
QEMU has a facility to create FAT file systems on-the-fly:
qemu [...] -hdc fat:[somewhere]
The Hurd [[`fatfs`_translator|translator/fatfs]] currently is read-only, but
for testing executables (etc.) that is enough. And it is much easier than
loop-mounting the file systems images. (Also you don't need `root' rights.)
However, note that there is a bug in [[translator/fatfs]]: [[!GNU_Savannah_bug
25961]].
# Networking in QEMU
Some further notes about [[networking]] and home hints about
[[networking/sharing_files]].
## Internet Access
If you just want to access the internet from within QEMU, you can setup pfinet for QEMU's user-networking:
# settrans -afgp /servers/socket/2 /hurd/pfinet -i eth0 -a 10.0.2.15 -g 10.0.2.2 -m 255.255.255.0
# echo "nameserver 10.0.2.3" > /etc/resolv.conf
If you are on [[Debian GNU/Hurd|debian]], you can even use [[debian/DHCP]].
To get ssh working:
# apt-get install random-egd openssh-server (Similarly for telnet if preferred)
(See also .)
Outgoing internet connections should just work then.
Testing it can be difficult with a minimal installation,
but `apt-get update` should work after you have filled out
`/etc/apt/sources.list`.
After that you should be able to install other network packages,
but note that `ping` doesn't work with QEMU's user-networking stack.
If you want to connect from the host system to the Hurd system running in QEMU, you can use port forwarding in QEMU or to setup something more advanced, like bridged networking.
## Port Forwarding in QEMU
(In the following we assume we use kvm!)
#### Logging in to Hurd from a terminal in your host system
This is the recommended way to work with a Command Line Interface (CLI) since all your keyboard and locale settings are preserved.
a) with ssh (assuming you have installed openssh-server)
$ kvm -m 512 -net nic,model=rtl8139 -net user,hostfwd=tcp::5555-:22 -drive cache=writeback,index=0,media=disk,file=hd0.img &
Logging in to the running Hurd:
$ ssh -p5555 localhost
Copying files:
1) On your host
To Hurd: scp -p -P5555 file localhost:
From Hurd: scp -p -P5555 localhost:file .
2) On Hurd
To host: scp -p file {10.0.2.2,your_host_ip}: .
From host: scp -p {10.0.2.2,your_host_ip}:file .
b) with telnet (assuming you have installed a telnet server, like telnetd)
$ kvm -m 512 -net nic,model=rtl8139 -net user,hostfwd=tcp::5556-:23 -drive cache=writeback,index=0,media=disk,file=hurd-install.qemu &
Logging in to the running Hurd:
$ telnet localhost 5556
c) With the tap interface, see below.
## Bridged Networking
### What is Needed
1. Your Linux kernel will need 802.1d Ethernet Bridging support and TUN/TAP device driver support.
2. You will need to install [bridge-utils](http://bridge.sourceforge.net).
### Setting Up the Host Bridge
You need to setup a bridge on the host first. This assumes `eth0` is down. I have modified my hosts network startup scripts to automatically setup a bridge, you may want to do this also.
# brctl addbr br0
# ifconfig eth0 0.0.0.0 promisc up
# brctl addif br0 eth0
At this point you will need to setup `br0` as you would normally `eth0` (`dhcpcd br0` for example).
### The qemu-ifup Script
This script gets called when QEMU starts and will attach the tun device to the bridge. QEMU will look for this file at `/etc/qemu-ifup` and that is where I keep mine.
#!/bin/sh
sudo ifconfig $1 0.0.0.0 promisc up
sudo brctl addif br0 $1
### Setting up the Network in the Hurd
Now it is time to start-up your QEMU Hurd system and get networking going in there.
**Important:** Remember you may need to use the `-M isapc` or `-isa` flag if using an older version of the gnumach package.
$ qemu -m 512 -drive cache=writeback,index=0,media=disk,file=hd0.img -cdrom debian-K9-hurd-i386-CD1.iso -fda floppy.img -boot a -net nic -net tap
Once you have logged in as `root` run the `pfinet` translator with values that apply to your network. Think of your QEMU client as another computer in your network.
# settrans -fgap /servers/socket/2 /hurd/pfinet -i eth0 -a xxx.xxx.xxx.xxx -g xxx.xxx.xxx.xxx -m xxx.xxx.xxx.xxx
That should do it! Do not forget to edit/update `/etc/resolv.conf` to get DNS working.
# Related Links
These are links that users may find helpful.
Debian [[debian/after_install]] -- good source of information pertaining to your
system after installation.
[[Image_for_L4]] -- a QEMU image for the Hurd/L4 project.