Debian would be a great linux distro to port to the Novena because of the large number of derivative distros (Ubuntu, gNewSense, TAILS, etc). The DFSG also set a high bar for "libre-ness".
As of January 2013 this may be premature as there is no finalized application-specific Novena hardware. Nonetheless, it would be nice to get the ball rolling and clear any blockers to having debian run on generic Freescale i.mx6-based devices.
bnewbold will try to hand-hold this process. He will target the wheezy release, which is currently testing but will hopefully be released as stable in the next few months.
Device-specific debian support for Novena would be similar to the device-specific support for the Marvell Dreamplug device used by the FreedomBox project. Ian Campbell seems to have led upstreaming efforts for that device, here are some of the patches and emails from that process:
Subj: include DTB in linux-image files on armel http://osdir.com/ml/debian-kernel/2012-04/msg00475.html
Subj: ARM: backporting dreamplug patches for Wheezy Date: Thu, 01 Mar 2012 From: Ian Campbell <email@example.com> https://lists.debian.org/debian-kernel/2012/03/msg00006.html
Subj: flash-kernel: Please add support for Dreamplug / Marvell Kirkwood FDT Date: April 05th, 2012 From: Ian Campbell http://us.generation-nt.com/answer/bug-667681-flash-kernel-please-add-support-dreamplug-marvell-kirkwood-fdt-help-207026612.html#r
Mainline linux patches: ARM: kirkwood: add dreamplug (fdt) support. http://git.kernel.org/?p=linux/kernel/git/arm/arm-soc.git;a=commit;h=3d468b6d6052293ad3b8538b8277077981c28286 ARM: kirkwood: convert uart0 to devicetree. http://git.kernel.org/?p=linux/kernel/git/arm/arm-soc.git;a=commit;h=759a45185ac0e4dfaf8bbfcb390ec73aca4b7a34
What does it mean to "run vanilla debian on the Novena hardware"?
- All of the software, files, and drivers for the board to boot and run come from .deb packages which are accepted into the debian.org repositories.
- Being able to build a binary image using debian tools would be nice, but not necessary.
- Being able to upgrade the kernel and bootloader using the apt-get mechanism would be nice and is a long term goal, but probably isn't worth biting off in the first whack at porting.
What needs to be done to "run vanilla debian on the Novena hardware"?
For basic ("headless") functionality the vanilla/mainline linux 3.7 kernel works fine because of patches already applied for the Sabre Lite i.mx6 development board. A Novena-specific device tree file needs to be applied to the kernel image to boot properly; this step happens at kernel installation/upgrade time (automated by the flash-kernel package in debian).
A new device tree file is necessary. The compiled binary device tree can either be inserted into the kernel uImage file at kernel install time (as was the method for the DreamPlug) or left as a separate file and loaded to the appropriate memory location by u-boot (the current method used with Novena). The necessary device tree files (novena.dts, imx6q.dtsi) are traditionally added to the linux kernel sources at ./arch/arm/boot/dts, but the combined .dtb file can be compiled separately using the device-tree-compiler tool. The debian linux-image package (eg, for -kirkwood) can contain separate .dtb files for each supported hardware device, which end up at /usr/lib/linux-image-<version>-<flavor>/<flavor>-<device>.dtb.
Customizations to the u-boot booatloader are more extensive and (at the moment) volatile. The way u-boot is installed (written to an offset on the SD card) is fairly unique and there is no "debian way" to do this at the moment. This operation is a bit risky and maybe should only be done by an image build script and not by an automatic u-boot-tools apt-get command? As of January 2013 the debian version of the u-boot package is also out of date; the Novena customizations are on top of the more recent 2012.10 version.
build a Novena binary SD card image from scratch using debian tools document image building processNovena/DebianBuildProcess
- test merging novena kernel defconfig with debian armhf defconfig to identify any conflicts
- stabilize Novena-specific u-boot tweaks
- (potentially) extend ``flash-kernel`` package to apply device tree file, allowing apt-get kernel updates
- add/merge kernel support for: SATA, PCIe
- kernel and u-boot build/install instructions that use optional modules and initrd
- test building linux-image .deb package that includes uImage, device tree, and builds initrd
- kernel module to configure PMIC (currently enabled with manual i2cset command; enables USB hub)
Later "full featured" laptop support might entail:
- libre unaccelerated video output (framebuffer?) OR reverse engineered GPU acceleration drivers OR non-free GPU acceleration drivers
- battery board firmware, kernel support (?), and utilities
- kernel module for audio output codec chip
- debian-installer support for installing from an SD card, USB stick, or other media
- extensions to u-boot or a second-stage bootloader to modify settings at boot time using keyboard and monitor (not serial console)
- update u-boot and u-boot-tools packages to 2012.10 or newer
- merge custom Novena-specific u-boot tweaks
- add a "-mx6" or unified "-mx" armhf kernel flavor
- merge device tree (sabre lite one might be acceptable?) (after Kosagi finishes)
- merge fixes for SATA, PCI express (after Kosagi finishes)
There are many ways to set up cross-compiling on an x86 linux host targeting ARM devices like Novena. The following directions for a debian host are pretty simple and up to date as of January 2013; note that you will need to add squeeze apt repositories to your host's /etc/apt/sources.list if you run wheezy or sid: Cross-compiling an Allwinner A10 ARM Linux kernel on Debian AMD64
Eventually, of course, the Novena will be self-hosting and new kernels and packages could be built locally.
There is an 'mx5' flavor of the Debian armhf kernel (eg, wheezy/linux-image-mx5). A '-mx6' flavor might be created, or a '-mx' flavor might combine the two.
The Freescale i.mx6 would use the armhf architecture. armel binaries will run just fine, even with armhf kernel (confirmed).
Set serial login on ttymxc1; append to /etc/inittab:
3:23:respawn:/sbin/getty 115200 ttymxc1
Set mac address; insert in /etc/network/interfaces:
hwaddress ether 00:1f:16:33:aa:aa
Other i.MX6 Devices
- Boundry Device's Nitrogen6 and Sabre Lite development boards: recommended by Freescale and the basis for existing mainline Kernel work
- Wandboard: i.MX6 Solo or Duallite, may eventually be open hardware
- Ampe A10 tablet: i.MX6 quad. review with benchmarks
- Zealz GK802 Android "TV stick" device: i.MX6 quad