Difference between revisions of "Vnx-examples"
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{{Title|VNX Simple Scenarios}} | {{Title|VNX Simple Scenarios}} | ||
− | Several simple example scenarios are included in VNX to allow testing its functionalities with the different types of virtual machines supported (see /usr/share/vnx/examples directory). | + | Several simple example scenarios are included in VNX distribution to allow testing its functionalities with the different types of virtual machines supported (see /usr/share/vnx/examples directory). |
Three types of scenarios are included: | Three types of scenarios are included: |
Revision as of 13:46, 27 July 2011
VNX Simple Scenarios
Several simple example scenarios are included in VNX distribution to allow testing its functionalities with the different types of virtual machines supported (see /usr/share/vnx/examples directory).
Three types of scenarios are included:
- simple-XXXX.xml, which are a set of simple scenarios made of one virtual machine with one network interface.
- simple_uml.xml: a single Linux virtual machine started using UML with address 10.0.0.2
- simple_xp.xml: a single Windows XP virtual machine started using libvirt with address 10.0.0.3
- simple_win7.xml: a single Windows 7 virtual machine started using libvirt with address 10.0.0.4
- simple_ubuntu.xml: a single Ubuntu 10.04.1 server virtual machine started using libvirt with address 10.0.0.5
- simple_ubuntu-gui.xml: a single Ubuntu 10.04.1 virtual machine with a minimal GNOME gui started using libvirt with address 10.0.0.6
- simple_freebsd.xml: a single FreeBSD 8.1 server virtual machine started using libvirt with address 10.0.0.7
- simple_freebsd-gui.xml: a single FreeBSD 8.1 virtual machine with a minimal GNOME gui started using libvirt with address 10.0.0.8
All scenarios share the same network (Net0, 10.0.0.0/24) to allow connectivity among all the virtual machines and the host (which has address 10.0.0.1)
To test the scenarios:
- Open a root shell from the graphical console of the host machine. If you are not sat in front of host's console you can access it using ssh with X-forwarding activated. For example, from a Unix machine you can use:
ssh -X <host-addr>
In this case, it is recommended to test that X-forwarding is working by launching a "xterm" or "xeyes" application and seeing that the application window is correctly launched. Besides, as the access to the virtual machine consoles is tipically made using virt-viewer application (VNC protocol), you need a good connectivity between your machine and the host were VNX runs.
Contents
Simple scenarios (simple_XXXX.xml)
- Start simple scenarios by means of:
sudo vnx -f /usr/share/vnx/examples/simple_XXXX.xml -v --create
For example, to start an XP virtual machine type:
sudo vnx -f /usr/share/vnx/examples/simple_xp.xml -v --create
Just after the execution, you will see the console of the Windows XP machine starting. Once the machine has completely started, the VNX autoconfiguration daemon will configure its name and the network interfaces and restart the machine for the changes to take effect. After the restart, the virtual machine will be available for interacting with it.
Note: virt-viewer console application "captures" the mouse when interacting with the virtual machines. You have to type "Ctrl-Alt" to release the mouse.
root@tutatis:/usr/share/vnx/examples# ping -c 4 10.0.0.3 PING 10.0.0.3 (10.0.0.3) 56(84) bytes of data. 64 bytes from 10.0.0.3: icmp_seq=1 ttl=128 time=0.312 ms 64 bytes from 10.0.0.3: icmp_seq=2 ttl=128 time=0.376 ms 64 bytes from 10.0.0.3: icmp_seq=3 ttl=128 time=0.249 ms 64 bytes from 10.0.0.3: icmp_seq=4 ttl=128 time=0.260 ms --- 10.0.0.3 ping statistics --- 4 packets transmitted, 4 received, 0% packet loss, time 2999ms rtt min/avg/max/mdev = 0.249/0.299/0.376/0.051 ms
sudo vnx -f /usr/share/vnx/examples/simple_xp.xml -v --exe calc
This command has been specified inside the simple_xp.xml file in the line:
<exec seq="calc" type="verbatim" mode="system">calc.exe</exec>
Note: the previous command does not end till you close the calc application.
You can also copy a text file from the host to the virtual machine and show it using Notepad by issuing:
sudo vnx -f /usr/share/vnx/examples/simple_xp.xml -v --exe vnxtxt
This command is specified using the following two lines:
<filetree seq="vnxtxt" root="c:\temp">conf/txtfile</filetree> <exec seq="vnxtxt" type="verbatim" mode="system">start /max notepad c:\temp\vnx.txt</exec>
sudo vnx -f /usr/share/vnx/examples/simple_ubuntu.xml -v --create
And start a web server inside it with:
sudo vnx -f /usr/share/vnx/examples/simple_ubuntu.xml -v --exe start-www
And test the web server access from the XP virtual machine by manually opening a web navigator and loading URL http://10.0.0.4.
sudo vnx -f /usr/share/vnx/examples/simple_xp.xml -v --shutdown
You can later restart the scenario with:
sudo vnx -f /usr/share/vnx/examples/simple_xp.xml -v --create
sudo vnx -f /usr/share/vnx/examples/simple_xp.xml -v --destroy
Tutorial scenarios (tutorial_root1_XXXX.xml)
- To start the tutorial scenario with linux, FreeBSD, XP and Win7 virtual machines just type:
sudo vnx -f tutorial_root1_all.xml -v --create
Other interesting options
You can see a graphical map of the virtual scenario using the --show-map option:
sudo vnx -f tutorial_root1_all.xml -v --show-map
Modify root filesystem scenarios (root_fs_XXX.xml)
To modify a root filesystem, for example, installing new software packages, just start the associated libvirt scenario with:
virsh create root_fs_XXX.xml
And open the console using:
virt-viewer VMNAME
being VMNAME the name assigned to the virtual machine (you can get it with "virsh list" command or just looking for the <name> tag in root_fs_XXX.xml file).
To easy the process, you can use the vnx_modify_rootfs simple script that starts the virtual machine and opens the console:
/usr/share/vnx/bin/vnx_modify_rootfs root_fs_XXX.xml