Usage
-=====
+^^^^^
snf-image-creator comes in 2 variants:
- * snf-mkimage: A user-friendly dialog-based program
* snf-image-creator: A non-interactive command line program
+ * snf-mkimage: A user-friendly dialog-based program
+
+Non-interactive version
+=======================
+
+snf-image-creator receives the following options:
+
+.. code-block:: console
+
+ $ snf-image-creator --help
+
+ Usage: snf-image-creator [options] <input_media>
+
+ Options:
+ --version show program's version number and exit
+ -h, --help show this help message and exit
+ -o FILE, --outfile=FILE
+ dump image to FILE
+ -f, --force overwrite output files if they exist
+ -s, --silent silent mode, only output errors
+ -u FILENAME, --upload=FILENAME
+ upload the image to pithos with name FILENAME
+ -r IMAGENAME, --register=IMAGENAME
+ register the image with ~okeanos as IMAGENAME
+ -a ACCOUNT, --account=ACCOUNT
+ Use this ACCOUNT when uploading/registering images
+ [Default: None]
+ -m KEY=VALUE, --metadata=KEY=VALUE
+ Add custom KEY=VALUE metadata to the image
+ -t TOKEN, --token=TOKEN
+ Use this token when uploading/registering images
+ [Default: None]
+ --print-sysprep print the enabled and disabled system preparation
+ operations for this input media
+ --enable-sysprep=SYSPREP
+ run SYSPREP operation on the input media
+ --disable-sysprep=SYSPREP
+ prevent SYSPREP operation from running on the input
+ media
+ --no-sysprep don't perform system preparation
+ --no-shrink don't shrink any partition
+
+
+Most input options are self-describing. If you want to save a local copy for
+the image you create, you specify *-o* option. To upload the image to
+*pithos+*, you specify valid credentials with *-a* and *-t* options and a
+filename using *-u*. If you want to register the image with *~okeanos*,
+in addition to *-u* specify a registration name using *-r*.
+
+By default snf-image-creator will perform a number of system preparation
+operations on the snapshot of the media and will shrink the last partition
+found, before extracting the image. Both can be disabled by specifying
+*--no-sysprep* and *--no-shrink* respectively.
+
+If *--print-sysprep* is defined, the program will exit after outputing a
+list of enabled and disabled system preparation operation appliable to this
+media source. The user can enable or disable specific *syspreps* when creating
+an image, using *-{enable,disable}-sysprep* options. You can specify those
+options multiple times to enable or disable multiple *syspreps*.
+
+Running *snf-image-creator* with *--print-sysprep* on a raw file that hosts a
+debian system, we get the following output:
+
+.. _sysprep:
+
+.. code-block:: console
+
+ $ snf-image-creator --print-sysprep debian_desktop.img
+
+ snf-image-creator 0.1
+ =====================
+ Examining source media `debian_desktop.img'... looks like an image file
+ Snapshotting media source... done
+ Enabling recovery proc
+ Launching helper VM... done
+ Inspecting Operating System... found a(n) debian system
+ Mounting the media read-only... done
+
+ Enabled system preparation operations:
+ cleanup-cache:
+ Remove all regular files under /var/cache
+
+ cleanup-log:
+ Empty all files under /var/log
+
+ cleanup-passwords:
+ Remove all passwords and lock all user accounts
+
+ cleanup-tmp:
+ Remove all files under /tmp and /var/tmp
+
+ cleanup-userdata:
+ Delete sensitive userdata
+
+ fix-acpid:
+ Replace acpid powerdown action scripts to immediately shutdown the
+ system without checking if a GUI is running.
+
+ remove-persistent-net-rules:
+ Remove udev rules that will keep network interface names persistent
+ after hardware changes and reboots. Those rules will be created again
+ the next time the image runs.
+
+ remove-swap-entry:
+ Remove swap entry from /etc/fstab. If swap is the last partition
+ then the partition will be removed when shrinking is performed. If the
+ swap partition is not the last partition in the disk or if you are not
+ going to shrink the image you should probably disable this.
+
+ use-persistent-block-device-names:
+ Scan fstab & grub configuration files and replace all non-persistent
+ device references with UUIDs.
+
+ Disabled system preparation operations:
+ cleanup-mail:
+ Remove all files under /var/mail and /var/spool/mail
+
+ remove-user-accounts:
+ Remove all user accounts with id greater than 1000
+
+
+ cleaning up...
+
+If we want the image to have all normal user accounts and all mail files
+removed, we can create it specifying *--enable-sysprep* option like this:
+
+.. code-block:: console
+
+ $ snf-image-creator --enable-sysprep cleanup-mail --enable-sysprep remove-user-accounts ...
+
+Dialog-based version
+====================
+
+*snf-mkimage* receives the following options:
+
+.. code-block:: console
+
+ $ Usage: snf-mkimage [options] [<input_media>]
+
+ Options:
+ --version show program's version number and exit
+ -h, --help show this help message and exit
+ -l FILE, --logfile=FILE
+ log all messages to FILE
+
+If the input media is not specified in the command line, in the first dialog
+box the user will be asked to specify it. After the input media is examined and
+the program is initialized, the user will be given the choice to run
+*snf-mkimage* in *wizard* or *expert* mode.
+
+Wizard mode
+-----------
+
+When *snf-mkimage* runs in *wizard* mode, the user is just asked to provide the
+following basic information:
+
+ * Name: A short name for the image (ex. "Slackware")
+ * Description: An one-line description for the image (ex. "Slackware Linux 14.0 with KDE")
+ * Account: An *~okeanos* account email
+ * Token: A token corresponding to the account defined previously
+
+After confirming, the image will be extracted, uploaded to *pithos+* and
+registered to *~okeanos*. The user will also be given the choice to keep a local
+copy of it. For most users the functionality this mode provides should be
+sufficient.
+
+Expert mode
+-----------
+
+Expert mode allows the user to have better control on the image creation
+process. In the picture below the main menu can be seen:
+
+.. image:: /snapshots/main_menu.png
+
+In the *Customize* sub-menu the user can control:
+
+ * The system preparation operations that will be applied on the media
+ * Whether the image will be shrunk or not
+ * The properties associated with the image
+ * The configuration tasks that will run during image deployment
+
+In the *Register* sub-menu the user can provide:
+
+ * The credentials to login to *~okeanos*
+ * A pithos filename for the uploaded *diskdump* image
+ * A name for the image to be registered to *~okeanos* with
+
+By choosing the *Extract* menu entry the user can dump the image to the local
+file system and finally, if the user selects *Reset*, the system will ignore
+all changes made so far and will start the image creation process again.
Creating a new image
---------------------
+====================
-Suppose you want to create a new ubuntu server image. Download the installation
-disk from the internet:
+Suppose you want to create a new Ubuntu server image. Download the installation
+disk from the Internet:
.. code-block:: console
$ wget http://ubuntureleases.tsl.gr/12.04.1/ubuntu-12.04.1-server-amd64.iso
+Verify that it has been downloaded correctly:
+
+.. code-block:: console
+
+ $ echo 'a8c667e871f48f3a662f3fbf1c3ddb17 ubuntu-12.04.1-server-amd64.iso' > check.md5
+ $ md5sum -c check.md5
+
Create a 2G sparce file to host the new system:
.. code-block:: console
$ truncate -s 2G ubuntu_hd.raw
-And install the ubuntu system on this file:
+And install the Ubuntu system on this file:
.. code-block:: console
$ sudo kvm -boot d -drive file=ubuntu_hd.raw,format=raw,cache=none,if=virtio \
- -cdrom ubuntu-12.04.1-server-amd64.iso
+ -m 1000 -cdrom ubuntu-12.04.1-server-amd64.iso
+
+.. note::
+
+ During the installation, you will be asked about the partition scheme. Since
+ snf-image-creator does not support LVM partitions, you are advised to create
+ regular partitions.
+
+When the installation is complete, you can close the QEMU window. You
+will be able to boot your installed OS and make any changes you want to it
+(e.g. install openssh-server) using the following command::
+
+ $ sudo kvm -m 1000 -drive file=linuxmint.raw,format=raw,cache=none,if=virtio
-After this, become root, activate the virtual environment you have installed
-snf-image-creator in, and use *snf-mkimage* to create and upload the image:
+After you're done, become root, activate the virtual environment you have
+installed snf-image-creator in, and use *snf-mkimage* to create and upload the
+image:
.. code-block:: console
$ snf-mkimage ubuntu_hd.raw
In the first screen you will be asked to choose if you want to run the program
-in *Wizand* or *Expert* mode. Choose *Wizard*.
+in *Wizard* or *Expert* mode. Choose *Wizard*.
.. image:: /snapshots/01_wizard.png
-Then you will be asked to provide a name, a description, an ~okeanos account
+Then you will be asked to provide a name, a description, an *~okeanos* account
and the token corresponding to this account. After that you will be asked to
confirm the provided data.
.. image:: /snapshots/06_confirm.png
-Choosing *YES* will create the image and upload it to your ~okeanos account.
+Choosing *YES* will create the image and upload it to your *~okeanos* account.
+
+Some caveats on image creation
+==============================
+
+Para-virtualized drivers
+------------------------
+
+*~Okeanos* uses the *VirtIO* framework. The disk I/O controller and the
+Ethernet cards on the VM instances are para-virtualized and need special
+*VirtIO* drivers. Those drivers are included in the Linux Kernel mainline since
+version 2.6.25 and are shipped with all the popular Linux distributions. The
+problem is that if the driver for the para-virtualized disk I/O controller is
+built as module, it needs to be preloaded using an initial ramdisk, otherwise
+the VM will not be able to boot.
+
+In the image creation demonstration above, we initially installed the Ubuntu
+system on a hard disk (*ubuntu_hd.raw*) that was connected on a
+para-virtualized interface (pay attention to the *if=virtio* option of the kvm
+line). Ubuntu and Debian create a generic initial ramdisk file that contains
+many different modules, including the VirtIO drivers. In many distros this is
+not the case. In Arch Linux for example, the user needs to manually add
+*virtio_blk* and *virtio_pci* drivers in */etc/mkinitcpio.conf* and rebuild the
+initial ramdisk [#f1]_ to make the virtio drivers get preloaded during boot.
+For now, *snf-image-creator* cannot resolve this kind of problems and it's left
+to the user to do it.
+
+Swap partitions
+---------------
+
+If you want your image to have a swap partitions, make sure this is the last
+partition on the disk. If snf-image-creator detects a swap partition in the end
+of the input media, it will remove the partition when shrinking and will save
+enough information to be able to recreate it during image deployment. This will
+make the image smaller and will speed up the deployment process.
+
+.. rubric:: Footnotes
+
+.. [#f1] https://wiki.archlinux.org/index.php/KVM#Paravirtualized_guests_.28virtio.29