Live GIS Build

=About=


 * See the Live GIS Disc for the main project page

Arramagong is an xUbuntu based Virtual Machine and Live DVD which has been installed with a suite of the best Open Source Geospatial software.

=How to add your project or data to the LiveGIS Disc/VM=

All that's required to add your favorite package into the build is to:


 * Recommended: Subscribe to the Live Demo email list to discuss issues.


 * Optional: Install the latest Arramamgong / GIS virtual machine as per: Live GIS Disc Quick Start.
 * Write a shell script which installs and configures your stable package into the current Live GIS virtual machine (which will usually be the same as installing on Xubuntu or Ubuntu).
 * All install scripts for building the LiveGIS disc shall be licensed as LGPL.


 * Add the script to subversion, in https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/bin/, as per http://wiki.osgeo.org/wiki/Live_GIS_Disc#Subversion
 * If you are unfamiliar with subversion then you can send the script to the OSGeo live-demo mailing list as an attachment and we'll see that it makes it in.


 * Notify the LiveGIS team to test your script, and will ensure to reference your script from main.sh.

Getting started
The first think you will want to do is check out a copy of the existing build scripts using Subversion: svn co https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk osgeo_live/trunk/

Example scripts
You can view example scripts at:
 * https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/bin/

The script may be as simple as: install_mapserver.sh, which just apt-get install mapserver

Projects that haven't been packaged for Ubuntu yet are slightly more complicated:

The uDig package is a good example: install_udig.sh

cp -f ../sources.list/ubuntugis.list /etc/apt/sources.list.d/
 * 3rd Party Repositories: Create an .list file with your repository in sources.list.d/ in the svn, in your script copy the file to the local machine like

don't forget to add the repository key like so apt-key adv --keyserver keyserver.ubuntu.com --recv-keys 68436DDF

Packaging conventions

 * sudo: Assume the script is to be executed as root. This means that sudo is only needed if you need to execute a command as e.g. the database user.
 * This means that ~/ refers to the directory /home/root/, so you should use ~user/ to reference /home/user/.
 * Preferred method is to put the USER_NAME and USER_HOME variables at the top, so these can be easily changed in all scripts if needed.

USER_NAME="user" USER_HOME="/home/$USER_NAME" cp package_readme.txt "$USER_HOME"


 * Called twice: Assume that the script will be executed multiple times, (as people may re-run the install process to get it right).
 * Make sure that nothing is corrupted if the script runs a second time.


 * No Prompts: Try not to have any interactive steps which prompt the user for an answer, as we want the scripts to be run automatically. In particular, try running the script a second time, and see if you get prompted to overwrite files.


 * /tmp: Copy all downloads into /tmp/build_ /
 * Don't delete the /tmp/build_ directory afterwards. If the script is re-run, then time and bandwidth is saved by not having to download large files again.


 * Icons: Where appropriate, create an icon on the desktop which loads the application. The file should be called .desktop and placed in /home/user/Desktop/ for further processing. The icons will be sorted and the Geospatial menu will be auto-generated from here.
 * Install .png icon files to the /usr/share/icons/ directory.
 * see install_qgis.sh for an example


 * Browser bookmarks: If the application is launched from the browser, then include the application in Firefox bookmarks.
 * (Todo: How do we do this?)

wget -c package.tar.gz
 * wget: When downloading large files using wget, use the "-c" continue command, as it will not re-download files if they already exist, and will continue if one is partially downloaded:
 * Do not use -c if there is a chance the file of that name will change on the server. Add "--progress=dot:mega" to the wget command line if the file is at all large.
 * Tiny files should use wget's -nv (non-verbose) flag.

mkdir -p
 * mkdir: Use -p (create parents too) option when creating a directory, as it doesn't complain about creating the directory a second time.


 * Binary files: Do not put large (>5mb) binary files into the SVN repository without asking first. Due to SVN's preservation of history, once they are added they can never be removed, and forever-more clog up the backend database. Subversion is designed to be a source code management tool, not a data warehouse. There is space for large static data files (e.g. sample data) at http://download.osgeo.org/livedvd/data/. Just ask on the mailing list if you'd like to house something there.

Definition document
Each project is to have a distinct one or two sentences defining the project, as a html snippet inside a tag. There is a template here: https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/doc/template_definition.html.

The debian package title should provide a suitable description for .deb packaged projects. Provided by: dpkg -s $PACKAGE | grep '^Description:' | cut -f2- -d' '

Save the file here: https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/doc/descriptions/ _definition.html

These files will be later assembled into the master disc contents help page.

Description document

 * (how best to do this is the subject of ongoing discussion, check on the mailing list)

Each project is to also have up to one page description about how to use the project on the live DVD, saved in the .odt format (which can be edited with Open Office or AbiWord). See example here: https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/doc/template_description.odt

Once complete, save your docs into _description.odt, and email the Live-demo list to ensure it is reviewed by the community. This file will be converted to html format as part of the build process.

You may include links to locally installed or remote pdf or html manuals, but keep in mind that there is a good chance that the user will not have internet access.

Save the file here: https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/doc/descriptions/project_definition.odt

Licence document
Each project should create one table row for each licence offered by the project. A template for the file to be produced is here: https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/doc/template_licence.html

Save the file here: https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/doc/descriptions/project_licence.html

Please also include the software license info in the package_description file.

Add to the master project list
Once your application is added in SVN please make sure the information about it is up to date on the status table at: http://spreadsheets.google.com/ccc?key=0Al9zh8DjmU_RdGIzd0VLLTBpQVJuNVlHMlBWSDhKLXc&hl=en_GB

Testing procedure
Provide test steps for your application as per the Live GIS Disc Testing wiki page.

Once the application has been included into a release candidate, ensure the test steps are executed and work on the release candidate. Write up the results as per the Live GIS Disc Testing wiki page.

= Packaging considerations =

The criteria used to select applications for the LiveGIS follow.

Space considerations

 * DVD: approx 4.2gb compressed
 * USB stick: For a 4gb persistent USB stick with some room left over for user-workspace, 3.2-3.5gb compressed. (This pretty much works out to the DVD version minus the preloaded Mac and Windows installers)
 * Virtual Machines: theoretically unlimited, but in practice 20gb uncompressed

So smaller apps (<30mb) of lesser priority may easily slip in under the ire radar, but an external project that wants to use a 25% of the available disc space would be the first to be compromised away.

Memory considerations
Both Virtual Machines, and a LiveDVD images are likely to be constrained by limited memory. So to reduce memory usage. Disk image size is not of major concern, as we can just distribute less data.

The following principles should be followed.
 * Do not start applications upon power up. (Ie, don't start deamons, allow users to start them instead).
 * Set up examples which, by default, don't depend on other applications. Less applications open, means less memory. Ie, Have GeoServer access a shapefile instead of PostGIS.
 * Try to avoid scenarios which write data to disk, as disk space in the Live DVD is stored in RAM, and is not cleared afterward.

File permissions and filesystem user IDs can get garbled during the ISO build process. Therefore a special method is used to ensure that data files which must be read-write can be accessed.

To install a writable data directory or files, change its group to "users" and set the file(s) as group-writable:

adduser $USER_NAME users chmod -R g+w /usr/local/share/ /data/ chown -R root.users /usr/local/share/ /data/

and symlink into the user's home directory if necessary.

Setting files to have universal write permission is strongly discouraged.

What gets on the disc?

 * OSGeo projects and projects-in-incubation and their sample data + tutorials are given first priority. This will be followed by software needed by the FOSS4G conference Workshops and Tutorial sessions, and projects already involved with OSGeo Labs.

External projects may be given a spot on the disc as space allows. If an installer has to be disabled or sample data cut down, this will be done by name in the main build script, the package's install script will remain on the disc in case the user wants to add the extra package by hand, or to allow other packagers to create a remix disc with minimal effort.


 * External projects must be Open Source*, and must have a Geospatial component.


 * [*] (i.e. using an OSI approved license and be freely redistributable)

Your project should designate an official contact person and script maintainer. We will help as we can, but in the end it is the individual project's responsibility to update and maintain your install script as versions/URLs evolve. If a package remains broken by the time the release-candidate builds are being produced/tested and the script maintainer is AWOL, the most likely outcome is that your program will be dropped from that release.

How should it be packaged?
The key here is to minimize the maintenance load of the team building the disc. The idea is to make it quick and easy to update and rebuild the disc with a minimum of effort.

The best way to do this is to have your package already included in the main Ubuntu distribution. This should be your goal. The next best thing is to have it packaged for Ubuntu and available via a Launchpad PPA (e.g. available from the UbuntuGIS repository). Next would be packaged into .debs from your own Ubuntu repository. An official Debian package could be used, but we'd have to rebuild it from source (this takes time but is fairly easy; usually these are already sucked in Ubuntu automatically so it isn't an issue).


 * Programmers are encouraged to move their software into the UbuntuGIS or DebianGIS repositories.

If you must build from source, building a .deb package and installing that is preferred to "make install". If you do need to "make install", please set the path prefix to /usr/local/ and ensure that your package does not introduce namespace conflicts.

In practice a number of scripts employ a hybrid approach, with as much as possible installed via official packages, and the occasional plugin compiled from source.

A base set of build-tools are already included, but if you install a bunch of -dev packages to build your app, make sure that you clean them all up after you are done.

Which version to use?

 * Stable, always! LiveGIS users are mainly starters. So they obviously are better with stable software. They have enough problems already and will gladly be happier without bleeding-edge software bugs.

For people who want the latest version, they can create a modified upgrade script.

In future, if space allows, in exceptional circumstances we will consider shipping beta software as a technology preview. These will have to remain a low priority in the battle for disc space, especially if a stable version of the software is already shipped on the disc.

= Directory Structure =


 * 1) /tmp Temporary files (e.g., downloaded archives) go into /tmp. Please create a separate folder for your project.
 * 2) /usr/lib application are usually installed into /usr/lib
 * 3) /usr/bin things that get executed by the user such as startup scripts or links to them should go into /usr/bin
 * 4) /etc/init.d startup/shutdown scripts for services (e.g., postgres, apache, tomcat) are stored in /etc/init.d
 * 5) /usr/local/share sample data and documentation goes into /usr/local/share
 * 6) /etc config files are stored in /etc
 * 7) /home/user user specific config files or working directories can go into /home/user/. However, keep files in /home/user as small as possible as this folder is loaded into memory in the Live DVD. Symlinks into /usr/local can be useful here.


 * You are strongly encouraged to use /usr/local/ and /var/local/ for storing non-packaged content.

= Mounting a Virtual Image = For the purposes of faster dissemination of updates to the Live image via something like rsync you can mount an image file. Make sure you turn off the virtual machine before you attempt to mount it, and that you unmount it before you attempt to run the vm again.

Mount VMWare Server
This method assumes you have vmware server installed, the key is that the vmware-mount script is on your system somewhere. This instructions use /space/virtual as the vmware installation folder and /space/virtual/machines as the location of the disk images. For more information see the VMware mounting guide sudo ln -s /space/virtual/lib/vmware/ libdir cd /space/virtual/bin/ sudo ./vmware-mount -p /space/virtual/machines/gisvm20090828x.vmdk mkdir /space/virtual/machines/mountedimage sudo ./vmware-mount /space/virtual/machines/gisvm20090828x.vmdk 1 /space/virtual/machines/mountedimage sudo ./vmware-mount -d /space/virtual/machines/mountedimage
 * If it complains about not finding libdir/lib/libcrypto.so.0.9.8/libcrypto.so.0.9.8
 * It's because it's looking for it in your vmware bin/libdir which doesn't exist so symlink
 * Temporarily move your .vmx file out of the directory
 * Move to you vmware bin folder
 * Should be partition 1
 * Make a directory to mount to somewhere easy to find, in my case where I keep my vm images
 * Mount it
 * Don't forget to umount when you're done

Mount VirtualBox
These instructions have not been tested yet, they require VirtualBox 2.0+ http://forums.virtualbox.org/viewtopic.php?f=7&t=17574

Run the the ISO in a QEMU / KVM Virtual Machine
(Linux host only)

If you have KVM installed use "qemu-kvm" or "kvm" instead of qemu</tt> on the command line. The usage is the same. It will be a lot faster. To run KVM you will have to have a newer CPU which supports hardware virtualization, a recent kernel, and have virtualization enabled in the BIOS. You'll want to make sure that the kvm kernel modules are loaded, /dev/kvm exists, and your user account belongs to the 'kvm' group. Older releases of QEMU may be partially accelerated by installing the KQEMU plugin. Without any sort of acceleration it will still run, but very very slowly.

Running live from a bootable ISO file
Specify that at least 512mb of RAM should be used. In this example 720mb has been requested which is a bit more comfortable and the ISO will be run live.

qemu -m 720 -cdrom osgeo_live.iso or kvm -m 720 -cdrom osgeo_live.iso

For me the mouse didn't work (it was just stuck in the middle of the screen). The fix was to set this environment variable before running kvm</tt>: export SDL_VIDEO_X11_DGAMOUSE=0


 * There is a good HowTo here: http://wiki.centos.org/HowTos/KVM

Install to a persistent VM
Create a permanent 5gb VM to work in: qemu-img create -f qcow2 livedisc.img 6G or kvm-img create -f qcow2 livedisc.img 6G

Next start kvm with the ISO as the virtual CD drive and the VM image file as the the first hard drive (hda). The "-boot d" option tells it to try to boot from the virtual CD drive first.
 * (from now on I'll just give the kvm</tt> version of the commands)

kvm -hda livedisc.img -cdrom osgeo_live.iso -m 720 -boot d

From within the VM, run the installer either from the boot menu or from the icon on the desktop of the Live OS. You should see the empty 6gb partition you created a few minutes ago. You can decide yourself if you want a swap space partition or not. I didn't, will adjust the -m size on the command line if I need more.

After it has installed you can restart qemu/kvm but without the -cdrom this time: kvm -hda livedisc.img -m 720

At this time it might be a good idea to zip up a copy of the VM. If you want to start fresh later you can just delete the working image and replace it with the fresh version you zipped earlier.

Getting in via ssh
(ssh'ing out is trivial)

Instructions on how to ssh into the QEMU/KVM VM can be found in the OLPC wiki.


 * Within the VM install the openssh-server package. This should generate RSA keys.

kvm [...] -redir 'tcp:2222::22'
 * Start the VM on the host with the command line option:

ssh -p 2222 user@127.0.0.1
 * This will allow you to ssh to port 2222 on the host machine to get into the VM:


 * Add the "-nographic" command line option when you start up kvm if you want to start it headless.
 * Add "-X" as a ssh command line option if you want to be able to tunnel X-Window apps from the VM.

Mount the ISO as a readonly filesystem

 * Not recommeded, it's preferred to get the image right to start, you will not be able to edit files inside the squashfs this way.

mkdir test_iso mount -t iso9660 -o loop,ro livedvd.iso ./test_iso

If you want to do this without su rights, use the FuseISO package. fuseiso -p livedvd.iso ./test_iso.$$

Unmount the FuseISO filesystem with: fusermount -u ./test_iso.$$

Mount the ISO for changes
If you're on ubuntu to can edit and remaster and ISO with ISOMaster sudo apt-get install isomaster

On Windows try Daemon tools and related software.

= Creating a fresh Virtual Machine =

System Requirements

 * RAM: You can only just get away with 1 Gig. 2 Gig is what you will require to avoid slowdowns due to memory swapping.
 * About 10 Gig of spare hard disk for building a Virtual Machine.(20GB if you intend to build an ISO as well.)
 * Recommended: An Ubuntu based linux distribution. We built this Live DVD process using an Ubuntu based system, and some of the steps assume the hosting operating system is Ubuntu, however you should be able to achieve all the steps (some slightly modified) from Windows.

Selecting a Virtual Machine
The arramagong Live DVD can be built using a range of virtual machines. Here we explain our preferences and reasons:


 * VirtualBox
 * VirtualBox is provided as Open Source and can be downloaded onto an Ubuntu based system using apt-get which is great.

VirtualBox is our current recommendation, as it has been the more stable of our implementations so far.

Unfortunately, we haven't worked out how to convert from VirtualBox back to VMware images yet, and so far VMware Player software is more widely deployed than VirtualBox. So for the moment, we plan to build vmware images then convert to virtual box (rather than the other way around).


 * VMware Server
 * VMware server provides a browser based interface to the virtual machine which can be accessed over the internet. (This is a good way to let others view your virtual machine without them having to download the large Virtual Machine)

VMware Server also provides compression tools which we use at the end of the build process. (These are not provided by VMWare Player) Unfortunately, there are instability issues with VMWare 2.0.2 + Ubuntu 9.04 / 9.10 (as a host), which means we have been unable to use this combination to build Arramagong 3.0. (The compression tools still seem to work). The vmware images that are created can be used with VMWare Server, VMWare Player and relatively easily can be converted to VirtualBox format. (We haven't worked out how to convert from VirtualBox back to VMware images yet).


 * VMware Player
 * VMware Player provides a desktop application which runs a Virtual Machine, and can be used to create a vmware image. It doesn't provide the image compression utilities. (Can we download these from somewhere?)


 * QEMU with KVM acceleration
 * Very well supported by newer Linux kernels (KVM is the kernel developer's darling right now). Fully open source and installs from standard Ubuntu packages. Very easy to run. Only runs with Linux as the host, but can run any OS as the guest. See instructions elsewhere on this page. The kvm-img virtual-disk image creating program can create in a number of different VM formats by changing the -f parameter. (used by HB)


 * Click2Try
 * http:/click2try.com provide a web site for trialing virtual machines. They built an arramagong 2.0 release for FOSS4G 2009, and as of Feb 2009, have been working on setting an environment set up for 3.0. This should provide a good development environment once set up, but we will need to have a parallel VM development as well as I don't think they will not be building a VM for us.

Install VMWare Server
'''Note: During the building of Arramagong 3.0, we have found VMWare Server installed on Ubuntu 9.04 and 9.10 to be unstable to the point of being unusable.

We have successfully installed used a CentOS 5.3 host + VMware Server 2.0.2 (Make sure you don't accept any security updates as this introduces the bug which makes VMWare unstable). We suspect that Ubuntu 8.04 (LTS) + VMware should work as it is supposed to be supported, but we haven't verified this yet.

Alternatively, you can build images in VMWare Player.'''

You will need VMWare server which provides all the tools for configuring a VM, setting the disk size, compressing the image etc. VirtualBox doesn't seem to have the compression scripts required, and it doesn't seem to have a way to copy your image to VMWare.

If you are installing on linux, the installer will ask a series of questions. Answer the default for everything, except the default administrator. For this, you need to enter in your <user_id> for the local computer you are installing on.

Once running, you should be able to access vmware server at: https://127.0.0.1:8333

As explained here, firefox has issues connecting to VM until you fix it by doing the following:
 * Go to the url: about:config
 * Update the following:
 * security.enable.ssl2 from false to true

Create an Xubuntu Virtual Machine for VirtualBox
If you already have an Xubuntu (or similar) Virtual Machine, you can skip this step.

Otherwise, run VirtualBox, and create an image.

Download the latest desktop i386 Xubuntu ISO. Copy to the Virtual Machine directory: mv xubuntu-10.04-desktop-i386.iso "~/.VirtualBox"

To boot from the ISO: To allow ssh access to the the VM:
 * Run VirtualBox
 * Select Name=osgeolive
 * Operating System=Linux
 * Version=Ubuntu
 * Base Memory Size (RAM) = 512 MB
 * Create a new hard disk
 * Select "Dynamically expanding storage"
 * Hard Disk Size = 20 GB
 * Select Settings->Storage->CD/DVD Device-> Add -> select the xubuntu ISO
 * Select the Xubuntu ISO
 * Select Settings -> Network -> Adapter 2 -> Enable Network Adapter -> Attached to: Bridged Adapter, Name: eth0

The following settings were required with an Ubuntu 9.10 guest operating system, but don't seem to be required for Ubuntu 10.04:

If the display is not rendering for the VM, try:
 * in Settings -> System -> Motherboard -> Extended Features:, untick "Enable ACPI"
 * in Settings -> Display -> Video, set Video Memory = 64 MB.

Run the Virtual Machine, which will boot from the Xubuntu CD. Select to install Xubuntu, using defaults, plus:
 * Language: English (default)
 * Location: (FOSS4G City)
 * Prepare disk space: Erase and use the entire disk (default)
 * Keyboard layout: USA (default)
 * Name: user
 * Login name: user
 * Password: user
 * Computer name: osgeolive
 * [x] Log in automatically

After installing xubuntu, disconnect the ISO image from the CD and reference the physical drive instead.
 * select Settings->Storage->CD/DVD Device: Empty

The save the virtual machine for use later on:
 * select File->Export Appliance ... -> accept defaults

Create an Xubuntu Virtual Machine for VMWare
If you already have an Xubuntu (or similar) Virtual Machine, you can skip this step.

Otherwise, run VMWare Server, and create an image.

Download the latest Xubuntu ISO. Copy to the Virtual Machine directory:

wget http://mirror.internode.on.net/pub/ubuntu/xubuntu/9.04/release/xubuntu-9.04-desktop-i386.iso mv xubuntu-9.04-desktop-i386.iso "/var/lib/vmware/Virtual Machines/"

Run vmware, which opens up a browser based User Interface. vmware

Create a new Virtual Machine with:
 * Virtual Machine name = "osgeolive"
 * RAM = 512 Gig (we might want to experiment with less)
 * Hard Disk = 20 Gig (If you plan to make an ISO you will need the space, just the VM install will fit in 8GB with little extra room, but it is a pain to increase later, and can't be done from VMWare Player)
 * Mount the XUbuntu ISO image for the disk drive

For VirtualBox, select the virtual machine -> Settings The following will allow ssh into the virtual machine (for easy building):
 * Network -> Adapter 2 -> Enable Network Adapter -> Attached to: Bridged Adapter -> Name: eth0 (usually)
 * Display -> Video Memory:64K, Enable 3D acceleration.

Run the Virtual Machine, which will boot from the Xubuntu CD. Select to install Xubuntu, using defaults, plus:
 * What is your name?
 * user


 * What is your password?
 * user


 * What is the name of your computer?
 * arramagong


 * [x] Log in automatically

After installing xubuntu, in the VMWare Summary tab, select the change the CD drive from pointing to the xubuntu iso to point to the actual hard drive.

Alternative: build ISO using vmbuilder
Side note: vmbuilder is reported to be a good way to create an Ubuntu image. I haven't tried it, and haven't worked out if it can create the smaller Xubuntu image. (Please update this wiki if you try it). Note: This method requires you to be running the same or newer version of Ubuntu than you want to make an image for.

host$ sudo apt-get install python-vm-builder host$ sudo vmbuilder vmserver ubuntu --suite karmic --arch i386 \ --mem 512 --rootsize=20000 --user user --pass user

Backup base Virtual Machine
You should now have a XUbuntu Virtual Machine image in /var/lib/vmware/Virtual Machines/. It would be a good idea to save a copy of this machine somewhere, so you can use it again.

= Creating a Click2Try Virtual Machine = Click2Try provides a public website that people can use to create a Virtual Machine, and our project has been given a free account to use Click2Try as a development platform, which makes collaborative development much easier.

A'''s of 20 Feb 2010, the click2try website were having technical difficulties getting an Xunbutu 9.10 base image working. They are still working on it.'''

Click2Try Account details
Go to http://www.click2try.com and login with:
 * User Name: osgeo
 * password: .ask Cameron Shorter.

Once logged in, click on the “My Dashboard” link located on the upper right corner of the page. Then click the “Application Manager” tab. You will notice that there are two virtual machines already defined in your dashboard. They are:


 * base-xubuntu-9-04:
 * This is a base xubuntu virtual machine. Do not alter this one.  Create copies from this VM when you want a fresh virtual machine to start installing stuff on. If you have a point in time that you want to save.  Simply shut down the vm.  make a copy of it.  Rename the copy to what you want.


 * base-arramagong-2-0:
 * This is the base arramagong 2.0.3 application released at FOSS4G 2009. Do not run this version.


 * arramagong-2-0:
 * This is the arramagong 2.0.3 application released at FOSS4G 2009. You can run this version.

Create Click2Try base Xubuntu image
Tom Callighan from Click2Try created a base Xubuntu system for us. Ask him for a new Xubuntu base image, or ask him to fill in the steps so that we can do it.

Click2Try: Add user=user
The base Xubuntu image only has a root user. The following needs to be done to add user="user", pass="user"


 * In order to allow a low security password, Update /etc/common-password/common-password

Once we place above file then we can create user "user" and set password.

Here are the steps which we have followed.


 * 1) useradd user


 * 1) passwd user [Set the password as "user"]


 * 1) usermod -u 499 user


 * 1) su user

Above command will create directory once we login using user "user".

About ubuntu release version, yes for gisvm which we build earlier stage was ubuntu904 as per requirement.

Please mail us if you find issues.

Click2Try: Create an Arramagong base image
click on the public access button. This feature actually has a second benefit. It keeps the VM running even when you leave the VM from the viewer. That way, when you log back into click2try you can access the VM much quicker.
 * Copy the base-xubuntu-9-10 image, call it arramagong-
 * Make the image external: Highlight the VM in the application manager, shut the VM down (make sure you save the session), click on the sharing tab,

Click2Try: Create default user

 * Launch the new image you created
 * Log in with: user=root, password=.Same as above.

= Creating the GIS Virtual Machine =

Set the Version Number and Changes
Update https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/VERSION.txt with the current version number.

Update https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/CHANGES.txt with changes since the last release.

Copy base virtual machine
Copy the base virtual machine to a new directory and rename it to the current version:

host$ cd /var/lib/vmware/Virtual\ Machines/ host$ cp -pr xubuntu-9.10/ arramagong-3.0-rc2


 * Log into the control panel: https://127.0.0.1:8333/ui
 * Select the base xubuntu image VM: Inventory -> arramagong
 * Select Summary tab
 * In the "Commands" pane, select "Configure VM"
 * Change the hostname from "arramagong" to a name which includes version number. Eg: "arramagong-3.0-rc2"

Alternative name change: displayName = "arramagong-3.0rc2"
 * You can change the image name in /var/lib/vmware/Virtual\ Machines/arramagong-3.0-rc2/arramagong.vmx . Update the following line as:

Bootstrap the Live DVD
arramagong$ cd /tmp arramagong$ wget https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/bin/bootstrap.sh arramagong$ chmod a+x bootstrap.sh arramagong$ sudo ./bootstrap.sh
 * Start the Xubuntu Virtual Machine
 * Open a terminal
 * Copy the bootstrap script into your home directory and execute it
 * This will install subversion, and the install scripts, and create a link to them from your home directory.

Install all applications
sudo rsync -avz username@hostname.org:/path_to_tmp_dir/ /tmp/ sudo mkdir /var/cache/apt sudo cp /tmp/apt/* /var/cache/apt/ cd ~/gisvm/bin sudo ./main.sh 2>&1 | tee /var/log/arramagong/main_install.log
 * Optional: If you have run through this process a number of times, you might be smart enough to have saved a local copy of the tmp/ directory. You can save time and bandwidth by copying the tmp/ contents onto the live DVD:
 * cd to the install scripts directory, and run the main.sh installer. Note, that we log the output into tee, so that we can search for errors later.
 * Answer prompts as they come up, there are a few at the start. Wait for a few hours while everything is downloaded and installed.
 * When finished, and before you shutdown your virtual machine, copy the download directories in /tmp to your local computer. (This is to save you re-downloading the files if you are to run through the process again.)
 * The Live DVD should now be ready to test.

= Virtual Machine specific steps = Take a copy of the Virtual Machine, as you don't want VMWare tools installed on the ISO image (in the next step).

Install VMWare tools
VMWare tools allow cut and paste from the host operating system to a VMWare virtual machine, and also speeds up graphic rendering on VMWare.

In the VMWare browser control panel, select the virtual machine, then "Summary" tab. Turn on the virtual machine, then select "Install VMWare tools". This mounts the vmware-tools scripts in the arramagong virtual machine, so that it can be installed. Which you can do using the following commands:

arramagong$ cd /tmp arramagong$ tar -zxf /media/cdrom0/VMwareTools-7.7.5-156745.tar.gz arramagong$ cd vmware-tools-distrib/ arramagong$ sudo ./vmware-install.pl arramagong$ # answer defaults to all questions

Power off
Then poweroff the virtual machine. (Note that this removes all files in the tmp/ directory). arramagong$ sudo halt

Package the VMWare VM
Note: ''Most of this step is covered in the package.sh script. Check and update the variables in the script before running on an Ubuntu based system.'' On the host computer, all temporally files can be removed from the virtual machine folder: log files, ram files, etc. Remove all files EXCEPT: *.vmx (VM definition file) and *.vmdk (virtual disk file)

Shrink the virtual machine: (requires VMWare Server installed) Note: If you get an error from this command, you may need to temporarily rename the *.vmx file before operation and then name it back after

host$ vmware-vdiskmanager -k *.vmdk

Zip the image up: host$ 7z a -mx=9 ArramagongGISVM2009alpha4.7z ArramagongGISVM2009alpha4/

If the image is greater than 2 Gig, then you also need to split the image. The OSGeo download server isn't configured to accept files of a greater size. host$ split -b 1500M ArramagongGISVM2009alpha4.7z ArramagongGISVM2009alpha4.7z

Create the md5sum checksums, so which can be used to confirm that the images have been downloaded correctly: host$ md5sum *.7z*

= Build the Live DVD ISO image =

Build ISO
The ISO will be built as part of the main.sh script and stored in /tmp/remastersys/. Make sure to copy the ISO onto the osgeo server, and then remove /tmp/remastersys/ or reboot the VM to remove it(must boot up again) before packaging the VM. sudo ./build_iso.sh 2>&1 | tee /var/log/arramagong/build_iso.log
 * Run the script to build the ISO, this includes downloading close to 1GB of Windows and Mac installers.

scp /tmp/remastersys/arramagong-livedvd-2.0-final.iso.md5 user@server.org:destination/path/ scp /tmp/remastersys/arramagong-livedvd-2.0-final.iso user@server.org:destination/path/
 * Once the ISO is complete copy it out to a server (a local server is fastest)
 * And/OR Wget or scp the file to the upload.osgeo.org server (Note wget is much faster if you have a good webserver to host from)

Backup files
Optional: To save time and bandwidth, it is a good idea to back up all the files downloaded into your /tmp directory and the apt-get cache (var/cache/apt), which you can then copy onto future images you create before starting the build process. These files are copied into /tmp/ / during the build process: host$ scp -pr user@ /tmp/3.1alpha1 arragmagong_tmp_3.1alpha1

= Upload to the OSGeo Server =

host$ scp -pr arramagong-gisvm-2.0-alpha5 username@upload.osgeo.org:/osgeo/download/livedvd/

Update the index.html file at: https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk/download/index.html

Check the result at: http://download.osgeo.org/livedvd

Creating a torrent file
Several tools exist for creating torrents. Below are the key settings you need.

Deluge with the torrent creator plugin has been tested. http://tracker.openbittorrent.com/announce udp://tracker.openbittorrent.com:80/announce OR http://tracker.publicbt.com:80/announce udp://tracker.publicbt.com:80/announce
 * Make sure you have a copy of the file you want to create a torrent for. Mounted remote drives may work.
 * Web Seed - URL to a web server that hosts the file, adds speed to the torrents especially at the start. (Most clients implement this now)
 * Note: Currently OSGeo servers can not handle downloads of files over 2GB, do not web seed from OSGeo for larger files.
 * Tracker - There are 2 open and free trackers that have been tested, use one or the other as most clients do not handle multiple trackers yet.
 * Upload the .torrent file of your iso file for others to grab
 * Start the torrent on your machine or dedicated seeder, so that others have somewhere to start.

= SVN branches and tags =

Naming

 * main development happens in "trunk</tt>" (aka HEAD)
 * a branch is split off before release time. Bug fixes (only) happen in it and updates like version 2.1 are tagged from it.
 * its name might be like "arramagong_2</tt>"


 * a tag is a snapshot of the svn at some point in time, aka a release name. It does not make sense to checkin fixes to one. They should ideally be set as read-only after creation to prevent this.
 * its name might be like "release_20090927_arramagong_2_0</tt>"

Creating
cd livedvd/gisvm/ svn copy trunk branches/arramagong_2 svn commit branches/arramagong_2 -m "Splitting off branch for 2.x" cd branches/arramagong_2/bin/ sed -e 's+gisvm/trunk+gisvm/branches/arramagong_2+g' *.sh | less  # check sed -i -e 's+gisvm/trunk+gisvm/branches/arramagong_2+g' *.sh      # execute cd - svn copy branches/arramagong_2 tags/release_20090927_arramagong_2_0 svn commit tags/release_20090927_arramagong_2_0 -m "tag release 2.0"
 * 1) something like this, maybe need a for loop or xargs:

Merging
To merge a change from trunk</tt> into a release branch use "svn merge</tt>", as follows: (in this example r2131 from trunk)

svn up branches/arramagong_2/ cd branches/arramagong_2/ svn merge -c 2131 https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk svn diff svn commit -m "bugfix: bikeshed should be orange! (merge from trunk r2131)"

If you do this a lot you might make a little shell script. Here's one called svn_merge_livefromtrunk.sh: svn merge -c $1 https://svn.osgeo.org/osgeo/livedvd/gisvm/trunk
 * 1) !/bin/sh
 * 2) Usage: svn_merge_livefromtrunk