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|
Freedom-Maker - Bdale's building tools for the FreedomBox project
Welcome to the FreedomBox! This project is the central hub of the FreedomBox
project, it builds and installs the file-system image that turns any computer
into a FreedomBox.
There are a couple ways to use this system:
1. If you just want to use a FreedomBox and don't care about changing how it
works or mucking about in its insides (if you're like most people), you
should get a pre-built image from someone and copy it to an SD card or USB
drive. If you don't have a JTAG or don't know what one is, make sure to ask
for the SD card image.
2. If you want to change and build on it, you can use:
A. A USB stick. This requires a JTAG, but doesn't require opening up the
DreamPlug, or,
B. A microSD card and adapter. You can use the one from inside the
DreamPlug. You won't need a JTAG, but you will need to open the DreamPlug
and void the warranty.
***
*** Warning! There are no "training wheels" here .. read the scripts and
*** understand what they're going to do before you run them...
***
# Recent Firmware Necessary!
Modern kernels need a relatively recent version of the u-boot firmware. If
you still use old firmware (including what Global Scale ships on the units by
default), then you need to update, which requires having the JTAG dongle (to
gain console serial port access). One way to know you've got old firmware
is if booting a Linux kernel results in errors about corrupt gzip data and
a failure to launch the kernel.
Note that re-flashing firmware will erase all configuration variables. If
preserving your exising boot config is important, use printenv and make notes
before proceeding. Also note that any time you're re-flashing boot firmware,
there is a slight chance you could 'brick' your device leaving it unbootable.
If that happens, the JTAG interface can be used to recover.
The instructions for updating firmaware go something like this (thanks to
Ian Campbell for his notes):
Using 2012.04.01-2 which is current Wheezy. Prep by mounting a USB stick.
wget http://http.debian.net/debian/pool/main/u/u-boot/u-boot_2012.04.01-2_armel.deb
dpkg-deb -x u-boot_2012.04.01-2_armel.deb u-boot_2012.04.01-2_armel
cp u-boot_2012.04.01-2_armel/usr/lib/u-boot/dreamplug/* /media/usbdisk
Move the USB stick to your DreamPlug. Flash the new firmare:
usb start
fatload usb 2 0x6400000 u-boot.kwb
sf probe 0
sf erase 0x0 0x80000
sf write 0x6400000 0x0 0x${filesize}
(You must, of course, fill in the size of the file you're loading in hex)
At this point, you should be able to reset the DreamPlug and have it boot to
a serial console prompt. If that fails, you'll need real JTAG magic to try
again.
Note that if you use the 'make usb' target to create a bootable USB stick
image, we include the required firmware in /boot/dreamplug, so the above
fatload command might be replaced with:
fatload usb 2 0x6400000 dreamplug/u-boot.kwb
# To Use It
You'll need to copy the image to the memory card or USB stick:
1. Figure out which device your card actually is.
A. Unplug your card.
B. Run "df" to show you the list of devices your computer actually knows
about.
C. Plug your card in.
D. Run "df" again, your computer should know about a new device or two: your
memory card. It's probably "/dev/sd(someletter)". It *won't be*
/dev/sda.
2. Decompress the image:
$ tar -xjvf freedombox-unstable_*.tar.bz2
3. Copy the image to your card. Whatever you do, make sure you don't copy it to
/dev/sda. That'll break your system.
# dd bs=1M if=freedombox-unstable_*.img of=/dev/sd(thesameletter)
When picking a device, use the drive-letter destination, like /dev/sdb, not a
numbered destination, like /dev/sdb1. The device-without-a-number refers to
the entire device, while the device-with-a-number refers to a specific
partition. We want to use the whole device.
Now, what you need to do depends on whether you're using the microSD card or USB
stick method:
- USB drive: You'll hook the JTAG up to the DreamPlug before booting and use the
JTAG to control the boot process, so we can boot from the USB drive.
- microSD card: You'll put the microSD card into the DreamPlug's internal
microSD card slot and boot the DreamPlug. It'll restart once to finish the
install process, then it's ready to use.
## Running from a microSD Card
When DD has finished, take the microSD card out of your computer and plug it
into your DreamPlug. If you have a JTAG, you can watch it boot. You'll see it
restart once during the boot process. If you don't have a JTAG, wait a while (5
minutes or less) and it'll be available over SSH (port 22). You might need to
use nmap to find it:
$ nmap -p 22 --open -sV 192.168.0.0/24
...
Interesting ports on 192.168.0.13:
PORT STATE SERVICE VERSION
22/tcp open ssh OpenSSH 6.0p1 Debian 2 (protocol 2.0)
Service Info: OS: Linux
...
Once you've found it, SSH into the box:
$ ssh root@192.168.0.13
## Running from a USB Stick
Move the USB stick to the DreamPlug, obtain a serial console, and hit reset. A
good way to access the serial console (actually USB serial emulation provided by
the optional JTAG dongle), is to use 'screen', like so:
screen /dev/ttyUSB0 115200
Interrupt the boot by pressing a key during the autoboot countdown, and type the
following to boot from the USB stick:
setenv bootcmd '${x_bootcmd_usb}; ${x_bootcmd_kernel}; ${x_bootcmd_initrd}; setenv bootargs ${x_bootargs} ${x_bootargs_root}; bootm 0x6400000 0x6900000;'
setenv x_bootcmd_kernel fatload usb 2 0x6400000 uImage
setenv x_bootcmd_initrd fatload usb 2 0x6900000 uInitrd
setenv x_bootargs_root root=/dev/sdc2 rootdelay=10
boot
The system should boot to a login prompt, using only the bits on the stick.
The default root password is 'freedom'. The normal user is "fbx" and the
password is "frdm".
- - - - -
To set things up to boot from the internal microSD card, once you're logged into
the system booted from root on USB stick you can use:
/sbin/copy2dream
Note that if you don't have a reasonable system date and time set in the
DreamPlug before running this command, you may see a long stream of warnings
from tar about timestamps being in the future. It is safe to ignore these.
On reboot, you may want to interrupt the boot and type the following to ensure
you boot from the internal microSD by default. This bootcmd line elides the
time-consuming attempts to boot grom gigE, which makes boot go much faster:
setenv bootcmd '${x_bootcmd_usb}; ${x_bootcmd_kernel}; ${x_bootcmd_initrd}; setenv bootargs ${x_bootargs} ${x_bootargs_root}; bootm 0x6400000 0x6900000;'
setenv x_bootcmd_kernel fatload usb 0 0x6400000 uImage
setenv x_bootcmd_initrd fatload usb 0 0x6900000 uInitrd
setenv x_bootargs_root root=/dev/sda2 rootdelay=10
saveenv
reset
# To Make It
If you want to build your own image yourself, you're more than welcome to.
Whether you're using a USB drive or a microSD card, you'll need to ensure that
it's at least 2 GB in size and that it has two partitons:
1. The stick must start with a 128 MB FAT partition for the boot directory.
2. The rest of the stick is an EXT2 partition, for the main installation.
The rest of the steps you need to follow depend on whether you're using a USB
stick or a microSD card.
## Building on a USB Stick
Partition a USB stick to have a small FAT partition and large ext2 partition,
create a /media/freedom mount point, and add entries to /etc/fstab like:
/dev/sdb1 /media/freedom/boot vfat user,noauto 0 0
/dev/sdb2 /media/freedom ext2 user,noauto 0 0
This will allow the Makefile to mount and unmount the stick at will.
If you have a favorite Debian mirror, update the file fbx-base.conf setting the
source= line.
To populate the stick with bits for a DreamPlug, just plug it in to your
computer and type:
make
This will build a file tree under build/dreamplug, representing the contents of
a root file system, then that content will be copied to the stick.
## Building it on a microSD card.
Changing the image and building your own is a simple 18 step process! Lots of
thanks to Nick Hardiman for putting these instructions together.
### Get Ready
1. Start your workstation.
2. Use a Debian OS, the version doesn't matter. A virtual image, such
as a VirtualBox image, is fine. Usually.
3. Use the root account.
### Prepare an SD Card
4. Find a microSD card with SD card holder. It must be at least 2GB
in size.
5. Insert the card into your workstation.
6. Install a partition editor. Install parted if you are a masochist.
# apt-get install parted
7. Create 2 partitions. Use cfdisk, parted, gparted or similar.
# cfdisk /dev/sdb
a. First partition: 128meg (no smaller or the kernel copy will run
out of room and make - see below - will end with an error).
b. Second partition: The rest of the card (anything over 600 MB
should work).
8. Make a note of the SD card’s device name. Mine is /dev/sdb (my
workstation’s layout is simple: one disk called /dev/sda and
nothing else defined).
9. Format the two partitions.
a. First partition: FAT
# mkdosfs /dev/sdb1
b. Second partition: ext3
# mkfs.ext3 /dev/sdb2
10. Create the mountpoints on your workstation.
# mkdir -p /media/freedom/boot
11. Mount the second partition.
# mount /dev/sdb2 /media/freedom/
12. Mount the first partition.
# mount /dev/sdb1 /media/freedom/boot/
13. Check your work.
# mount
sysfs on /sys type sysfs (rw,nosuid,nodev,noexec,relatime)
...
/dev/sdb2 on /media/freedom type ext3
(rw,relatime,errors=continue,barrier=1,data=ordered)
/dev/sdb1 on /media/freedom/boot type vfat
(rw,relatime,fmask=0022,dmask=0022,codepage=cp437,iocharset=utf8,shortname=mixed,errors=remount-ro)
### Clone the Git Repository
14. Install git.
# apt-get install git
Reading package lists... Done
...
After this operation, 15.3 MB of additional disk space will be used.
Do you want to continue [Y/n]?
...
15. Clone Nick Daly’s repository.
$ git clone https://github.com/NickDaly/freedom-maker.git
Cloning into 'freedom-maker'...
### Create the Debian OS.
16. Change to the new directory.
$ cd ~/freedom-maker/
17. Kick off:
$ make weekly-card
18. Enter your password when asked by "sudo". If that fails, run:
$ su -c "make weekly-card"
If you do that, you'll need to enter the root password to build the image.
The next part took about an hour, but required no input from me. Packages were
downloaded. Lots of commands were run. Many harmless errors were ignored:
sysvinit: restarting...init: timeout opening/writing control channel /run/initctl
.init: timeout opening/writing control channel /run/initctl
...
There was good news:
Multistrap system installed successfully...
Copying the source directory to the FreedomBox root.
There was an enormous amount of this:
bin/bash
818092 100% 7.07MB/s 0:00:00 (xfer#1, to-check=1102/1123)
bin/cat
42736 100% 362.91kB/s 0:00:00 (xfer#2, to-check=1101/1123)
bin/chgrp
54996 100% 383.62kB/s 0:00:00 (xfer#3, to-check=1100/1123)
...
Finally an image is copied and zipped up for redistribution:
dd if=/dev/sdb of="freedombox-unstable_`date +%Y.%m%d`.img" bs=1M
3781+1 records in
3781+1 records out
3965190144 bytes (4.0 GB) copied, 266.174 s, 14.9 MB/s
Image copied. The microSD card may now be removed.
tar -cjvf "freedombox-unstable_`date +%Y.%m%d`.tar.bz2"
"freedombox-unstable_`date +%Y.%m%d`.img"
freedombox-unstable_2012.0705.img
The end. Hooray! The SD card is ready for the DreamPlug.
# To Understand It
Be aware that this is a *very* imcomplete solution for now, suitable only
for developers .. you will want to at least do things like create unique
ssh host keys for your device!
Digging into the code should be fairly straightforward. There are only six
files you need to be aware of:
- /Makefile: The makefile that describes and builds the system.
- /mk_dreamplug_rootfs: Builds the DreamPlug's root file-system.
- /bin/projects: The place for external projects to hook into and customize
themselves before they're copied to the image.
- /bin/finalize: Finalizes and prepares the build for booting.
- /source: The root file system.
- /source/install.sh: Pre-boot configuration that needs to be run on the device
itself (from within a chroot).
## Makefile
There are three major targets to be aware of:
- dreamstick: The default target. This loads an image to a USB drive that can
be used to install the FreedomBox without opening up your DreamPlug and
voiding the warranty. You'll need a JTAG, though.
- weekly-card: The target used to produce the weekly FreedomBox test release.
This will copy the image to a card that can be popped directly into the
microSD card slot in the DreamPlug. The DreamPlug will boot happily without
needing a JTAG.
- stamp-dreamplug-rootfs: The root file system itself. It doesn't get installed
anywhere (that's done by the other two targets), but is a good way to test
whether the image will actually build, without waiting for all that pesky
hardware I/O.
## mk_dreamplug_rootfs
Starts building the system by creating all the destination directories and
installing the base system.
## /bin/projects
Where projects that want to integrate into the FreedomBox should hook into.
Keep in mind, we aren't in a chroot at this point. The only environment
variables you'll probably need are:
- user: The non-root user's name (uid = 1000).
- homedir: The non-root user's home-directory.
## /bin/finalize
Getting the system ready for boot, doing the things that don't need to be done
inside a chroot. You probably don't need to change this.
## /source
The root file system on the DreamPlug. Modify this, and you're modifying what
ends up on the FreedomBox.
## /source/install.sh
This is executed from a chroot during the build process to do configuration that
needs to be done on the device itself. You shouldn't need to modify this. If
you're installing a project that needs to change how the system configures
itself, you're probably doing something wrong.
|