Fedora Test Days | |
---|---|
World IPv6 Test Day | |
Date | June-08-2011 |
Time | all day |
Website | http://isoc.org/wp/worldipv6day/ |
IRC | #fedora-test-day (webirc) |
Mailing list | test |
What to test?
Since June 8, 2011 is the World IPv6 Day, today's installment of Fedora Test Day will focus on IPv6 testing.
Who's available
The following cast of characters will be available testing, workarounds, bug fixes, and general discussion...
- Development - User:Thomas Graf (irc: tgraf), User:Herbert Xu (irc: herbert), User: lwang (irc: lwang)
Prerequisite for Test Day
List any prerequisite needs for the test event.
- An up-to-date Fedora 15 system with IPv6 enabled
- An internet connection via an ISP who supports IPv6 and an IPv6 address from that ISP, or an IPv6 tunnel broker (see below for instructions on this)
How to test?
Update your machine
If you're running Fedora 15, make sure you have all the current updates for it installed, using the update manager.
Live image
Optionally, you may download a non-destructive live image for your architecture. Tips on using a live image are available at FedoraLiveCD. Live images can be downloaded here.
Prepare an IPv6 connection
Native IPv6
- Check if your ISP offers native IPv6 connectivity. If so, follow the instructions of your ISP. If not, you are going to need a tunnel broker: see below.
Tunnel Broker via Hurricane Electric
For this example we are going to use http://www.tunnelbroker.net/ by Hurricane Electric but any tunnel broker will work.
- Go to http://www.tunnelbroker.net/register.php and fill out the form to create a new account.
- Login to your account and click on Create Regular Tunnel.
- Enter your public IPv4 address in the IPv4 Endpoint field. To find this address, visit http://www.whatismyip.com (Note: You can change your endpoint address later any time if your address is not 100% static). Select the tunnel server closest to you and click on the Create Tunnel button.
- You will be given multiple example scripts to set up the tunnel on your end or you can use the script provided below. (Select OS: linux-route2)
- Click on Main Page to find a list of your tunnels at the end. You can modify your tunnel, allocate your own /48 or set up rDNS delegation by clicking on the tunnel.
- Feel free to enable forwarding on your tunnel machine and assign addresses from your own /64 or /48 to the machines on your network to provide IPv6 connectivity to your own network.
Example tunnel script
Go to the configuration page of your tunnel (Main Page => Click on your tunnel) to find the settings needed to fill into the sample script below to replace the places where the word CHANGE!!! appears. Then save the script to your home directory or to /usr/local/bin
- for example, /usr/local/bin/ipv6-tunnel.sh
- and make it executable: chmod ugo+x /usr/local/bin/ipv6-tunnel.sh
. Then simply run the script to bring up the IPv6 tunnel.
#!/bin/sh LOCAL=CHANGE!!! # Client Ipv4 address ADDR=CHANGE!!! # Client Ipv6 address REMOTE=CHANGE!!! # Server IPv4 address ip tunnel del he-ipv6 > /dev/null 2>&1 ip tunnel add he-ipv6 mode sit remote ${REMOTE} local ${LOCAL} ttl 255 ip link set he-ipv6 up ip addr add ${ADDR} dev he-ipv6 ip route add ::/0 dev he-ipv6
Network configuration file
The tunnel can also be configured like any other physical interface. Once this is done, the tunnel can be started and stopped via ifup
/ifdown
, and the interface can be configured to start on boot. To do so, use the settings from the script above to create the file, /etc/sysconfig/network-scripts/ifcfg-he-ipv6
, as follows:
DEVICE=he-ipv6 TYPE=sit BOOTPROTO=none ONBOOT=yes # set to "no" if you prefer to start the tunnel manually IPV6INIT=yes IPV6TUNNELIPV4=CHANGE!!! # Server IPv4 address IPV6ADDR=CHANGE!!! # Client IPv6 address
Also, add the following to /etc/sysconfig/network
:
IPV6_DEFAULTDEV=he-ipv6
This ensures that IPv6 traffic is sent via the tunnel interface.
To bring up the interface, run ifup he-ipv6
. To bring the interface down, run ifdown he-hpv6
.
Tunnel Broker via Sixxs.net
For this example, we are going to use http://www.sixxs.net/ which provides tunnels to ISP-hosted servers in several countries.
- Request a new account at https://www.sixxs.net/main/ and select "Signup for new users". See https://www.sixxs.net/faq/account/?faq=10steps for further details on creating and configuring your account, and requesting your first tunnel. Account requests are processed manually and may take a few days, so start early.
- Install aiccu.
sudo yum install aiccu
- Configure your /etc/aiccu.conf file with your sixxs.net username, password, and optionally, your tunnel ID as obtained above.
- Test your aiccu configuration.
sudo /usr/sbin/aiccu autotest
- Start aiccu.
sudo /sbin/chkconfig aiccu on; sudo /sbin/service aiccu start
- If you provide sixxs.net a LinkedIn or Xing profile, you will be given enough credits to request a /48 subnet delegation immediately. Once approved, you may enable forwarding on your tunnel machine and assign addresses from your own /48 to the machines on your network to provide IPv6 connectivity to your own network.
Exploratory testing
- ifconfig your interface to make sure your IPv6 address are setup correctly.
- ping various external ipv6 websites such as 'ipv6.google.com' to see if you can download the web content through your ipv6 connection
- run test program here: http://test-ipv6.com/
Reporting results
Send email to kernel-network-list@redhat.com.
Test Cases
Provide a list of test areas or test cases that you'd like contributors to execute. For other examples, see Category:Test_Cases.
To test IPv6 on Network Manager, please see following link for instruction:
http://fedoraproject.org/wiki/QA:Testcase_NetworkManager_ipv6
To test IPv6 on NFS filesystem, please see following link for instruction: http://fedoraproject.org/wiki/QA:Testcase_NFS_ipv6
To test IPv6 printer: 1. setup the system using ipv6 address 2. setup printer's ipv6 address via printer instructions 3. setup the printer queue as if the the printer
Test Results
Construct a table or list to allow testers to post results. Each column should be a test case or configuration, and each row should consist of test results. Include some instructions on how to report bugs, and any special instructions. Here's an example, from a Palimpsest test day:
If you have problems with any of the tests, report a bug to Bugzilla usually for the component udisks, or gnome-disk-utility for bugs in the Palimpsest graphical front end itself. If you are unsure about exactly how to file the report or what other information to include, just ask on IRC and we will help you. Once you have completed the tests, add your results to the Results table below, following the example results from the first line as a template. The first column should be your name with a link to your User page in the Wiki if you have one, and the second should be a link to the Smolt profile of the system you tested. For each test case, use the result template to enter your result, as shown in the example result line.
User | Smolt Profile | Sample test 1 | Sample test 2 | Sample test 3 | Sample test 4 | References |
---|---|---|---|---|---|---|
Sample User | HW |