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slackbuilds/vde/build/Using_VDE_with_QEMU_HOWTO.txt

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=============================================================================
This HOWTO originally appeared on:
http://lists.gnu.org/archive/html/qemu-devel/2004-10/msg00067.html
=============================================================================
Using VDE with Qemu HOWTO
by Jim Brown
5 Oct 2004
Version 0.2
-----------------------------------------------------------------------------
Introduction
Copyright
What is qemu?
What is VDE?
Configuring and Installing VDE
Installation
vdeq & vdeqemu
User-mode networking
How to enable user-mode networking
Firewall configuration
Slirp (rootless) networking
What is slirp networking?
How to enable slirp networking?
Setting up qemu
How to set up the guest OS
Credits
-----------------------------------------------------------------------------
Introduction
Copyright
Copyright (c) 2004 Jim Brown.
Permission is granted to copy, distribute and/or modify this document
under the terms of the GNU Free Documentation License, Version 1.2
or any later version published by the Free Software Foundation;
with no Invariant Sections, no Front-Cover Texts, and no Back-Cover
Texts. A copy of the license is available at http://www.gnu.org/licenses/fdl.txt
What is qemu?
Qemu is a FAST! processor emulator by Fabrice Bellard, available at
http://fabrice.bellard.free.fr/qemu/. It is capable of emulationg the x86 and
PowerPC processors with support for other processors on the way. The original
purpose of qemu was to allow running x86-specific Linux applications, such as
WINE or DosEmu, on non-x86 systems. However, qemu has expanded into becoming
a full-fledged emulator. On the x86 side, it is capable of running Linux,
MS-DOS, Windows 95/98/Me, Windows NT/2k, Windows XP, Solaris, OpenBSD, and
FreeBSD. See http://fabrice.bellard.free.fr/qemu/ossupport.html for the full
listing.
This howto assumes that you have already installed and set up qemu.
What is VDE?
VDE is short for Virtual Distributed Ethernet. VDE, written by
Renzo Davoli, is based off of uml_switch by Jeff Dike. It is available at
http://sourceforge.net/projects/vde/. It has many uses, the main one providing
support for networking with emulated computers. (Not just qemu, but support
for user-mode linux and Bochs also exists). VDE must be set up and installed by
root, but the programs which use it do not need root privligies.
This howto will walk you through the simple process of installing
VDE and setting up qemu to use it.
-----------------------------------------------------------------------------
Configuring and Installing VDE
Installation
You may obtain the source code at http://sourceforge.net/projects/vde/.
The version of VDE which I used was 1.4.1, but this HOWTO should apply to all
versions.
Once you have downloaded the source code, extract it. I assume you
will have extracted it to /space/vde. Go into that directory, and simply type
"make" followed by "make install". Now you should have vde_switch in /usr/bin.
vdeq & vdeqemu
Now cd into the qemu directory. Type "make". This will build vdeq.
Qemu on its own only supports full networking with tuntap, which requires
root priviliges or an exposed /dev/net/tun. There is a -user-net option, but
that is not as useful as full networking. In order for qemu to use VDE, it must
be passed the file descriptor for a tun device. Futhermore the tun device itself
must already be configured to use VDE. vdeq sets this up and passes it to qemu
via the -tun-fd switch.
There is no "make install". Instead, you just manually copy vdeq to
/usr/bin. It might also be helpful to copy or link vdeq to vdeqemu. vdeq
requires that the location of the qemu binary be passes to it as the first
command line parameter, but vdeqemu only needs the options you want to pass to
qemu. vdeqemu will locate the qemu binary itself (this requires that you install
qemu system-wide or have the qemu directory in your PATH).
For example if you have:
vdeq qemu -hda /mnt/myimage -m 64 -boot a
you can shorten this into
vdeqemu -hda /mnt/myimage -m 64 -boot a
-----------------------------------------------------------------------------
User-mode Networking
How to enable user-mode networking
The following commands will need to be run as root:
# vde_switch -tap tap0 -daemon
If you need to run a sniffer, just in case you want to analyze the traffic,
you can also run it like this:
# vde_switch -hub -tap tap0 -daemon
(The -hub option is not available for version 1.4.1 of VDE, you will need a
later version. I don't know what the minimal version is but 1.5.1 does support
this option.)
Then you must run this:
# ifconfig tap0 <ip>
# chmod 755 /tmp/vde.ctl
The vde_switch command will run VDE in the background. The -tap tap0
parameter tells VDE to set up the device tap0 using tuntap. -daemon runs
vde_switch in the background. -hub tells VDE to broadcast the message to all
segment, just like real hub that you use on real network.
<ip> is the ip address of the gateway you want to use for the guest
OS(es). For example:
# ifconfig tap0 192.168.254.254
will make 192.168.254.254 the gateway between guest and host, and your
guest OS(es) will belong to the subnet 192.168.254.0 with a netmask of 255.255.255.0
and an ip address of 192.168.254.XXX (where you get to pick the XXX). You must have
the IP of the qemu guest and the IP of the gateway on the same subnet! While it
may be possible to have them on separate subnets, it will certainly be harder
to configure (and you won't like the way your routing tables will look either).
[Sidebar: The "gateway" is actually the host OS itself on the tap0 interface.
The host on the tap0 interface, aka 192.168.254.254, routes between the guest
OS and the host's eth0 interface (which on is the real network). The host on the
eth0 interface (ex. 192.168.0.2) can then route between the tap0 interface and
the real network / the internet.]
(Note that you might be required to do this:
# ifconfig tap0 192.168.254.254 netmask 255.255.255.0
Normally ifconfig should pick the correct netmask for you, but if it doesn't
for some reason then you will have to specify it manually. See ifconfig(8) for
details.
)
Note that you must run this before you run your firewall. I found it helpful
to put this into a script, and have the script load before the firewall does.
Firewall configuration
You will need to enable masquerading between tap0 and your local area
network (for example, eth0). You will also need to enable masquerading between
tap0 and ppp0 if you use a dialup connection to the internet. The commands
# echo "1" > /proc/sys/net/ipv4/ip_forward
# iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
# iptables -t nat -A POSTROUTING -o ppp0 -j MASQUERADE
will allow you to enable this manually.
-----------------------------------------------------------------------------
Slirp networking
What is slirp networking?
Slirp was an early program that existed before the masses knew of the internet.
Back then, those who knew of it could access it only in one way: through a
Unix shell account (or other such terminal account). This meant that one had to
do all the things they wanted to in that terminal window. Back then, there were
two dial up protocols: PPP and SLIP. PPP is now the standard but back then SLIP
was more common (as it was cheaper).
Slirp was designed to turn those shell accounts into SLIP connections. It worked
by converting SLIP packets into socket connections. What you had to do was to
run slirp on the computer you had the shell account on, and then connect your
SLIP driver/dialer to the terminal slirp was running on (normally this
'terminal' was in fact a modem). Slirp would then interpret the data that SLIP
sent and transfer the data between the user's computer and the internet. To
the user, it looked like they were actually connected directly to the internet
through a firewall.
Slirp is not used today (to the best of my knowledge) but the innovative idea it
had is used by both qemu and vde. Instead of converting SLIP packets however,
they convert ethernet packets. qemu's slirp networking is similar to vde's
but it is simpler to use and also limited to a single qemu instance (you can
not link multiple guest OSes together on the same network with slirp networking
unless you use VDE).
How to enable slirp networking?
This is very similar to TUNTAP networking in the previous section, but the
commands are slightly different. In addition, you do not need to set up
routing or firewall rules.
First off, you load vde_switch (no parameters are required for this case,
although you can pass the -unix parameter if you want to use a different
socket - required if you already have tuntap networking on the default
socket).
vde_switch
or
vde_switch -unix /tmp/unx.ctl
The latter is required if you are running both slirp and tuntap or multiple
slirp networks (for that matter, if you are running multiple tuntap networks).
More on that later.
Now you need the slirpvde command. slirpvde is the utilitry that provides the
slirp functionality - it intercepts ethernet packets on the network and
forwards them through the real network via emulation. To use it, you want
to do this:
slirpvde -s /tmp/unx.ctl -n 192.168.2.0 -d
The -s tells slirpvde that vde_switch is running on /tmp/unx.ctl [this switch
can be omitted if you called vde_switch by itself]. The -d switch tells
slirpvde to emulate a DHCP server. This is not required but it allows for
automatic configuration of the guest OS (it is basicly the same as qemu's
builtin DHCP server). Depending on your needs, you may be better off running
a real DHCP server in one of the guest OSes.
The last option, -n, tells slirpvde
what subnet the network should be on (this is also used by the DHCP server to
figure out what ip addresses to assign). The gateway ip when using slirpvde
is X.X.X.2 (where X.X.X equals the first 3 parts of the subnet you passed to
it via -n, in this example 192.168.2) and the default DNS server is X.X.X.3
You can not change the gateway ip to something other than .2 and the DNS ip
to something other than .3 unless you change the source in slirpvde and
recompile.
-----------------------------------------------------------------------------
Setting up qemu
How to set up the guest OS
Set up the guest OS so that the default route is through the gateway
ip, <ip> (for example 192.168.254.254). Also set up the subnet and netmask
parameters as appropriate (for example 192.168.254.0 and 255.255.255.0).
The guest OS should see the ethernet device and be able to use it to access
the gateway. (Caveat: I haven't been able to do this for MS-DOS, and for Minix
2.0.4 I had to apply a patch to qemu since Minix is broken. Uodate: Minix 2.0.4
is still broken but a patch has been released to fix it. Using this patch,
Minix works on a vanilla qemu.) Also don't forget to set up the IP of the guest
OS itself (for example 192.168.254.1).
-----------------------------------------------------------------------------
Credits
This HOWTO relied heavily on the documentation that Renzo wrote for
vde-1.4.1.
Thanks to Mulyadi Santosa for helping with the first revision of
this document, and to Renzo for his input. (P.S. Will add info for ale4net
and slirpvde as soon as I figure out how to use it ;)