This toolkit re-implements most of the functionality from frederic's scripts.
The key difference here, is that this tool uses pyamlboot
instead of the proprietary update
binary from Amlogic,
which allows it to work on many more platforms!
Everything in images/
came directly from frederic's repo.
The purpose of this tool is to provide useful, working examples for how to use pyamlboot
to perform development-related tasks on the Spotify Car Thing.
Contributions are welcome. This code is unlicensed: you can do whatever you want with it.
pyamlboot
is Apache-2.0, libusb
is LGPL-2.1
NOTE: This is not working well on Windows anymore due to issues with libusb, I suggest using Linux or macOS.
None. You definitely can mess up your device in ways that are difficult to recover. I cannot promise a bug in this script will not brick your device. By using this tool, you accept responsibility for the outcome.
I highly recommend connecting to the UART console, frederic's repo has some good pictures showing where the pads are.
Make backups.
This tool tries to replace the proprietary update
binary from Amlogic, and it covers enough functionality to be useful for superbird.
However, dumping partitions is MUCH slower.
The original tool from Amlogic manages to read directly from the mmc, without having to first read it into memory,
so it is a lot faster at about 12MB/s
or about 7 minutes to dump all partitions.
Unfortunately, we cannot currently replicate this method using pyamlboot
.
Instead, to dump partitions we first have to tell the device to read a chunk (128KB) into memory, and then we can read it from memory out to a file, one chunk at a time.
The copy rate for reading is about 545KB/s
, and in my testing on Ubuntu x86_64 it takes about 110 minutes to dump all partitions!
The same thing must be done in reverse to restore a partition, but writing is much faster, and we can use larger chunks (512KB),
so copy rate for writing is about 4.9MB/s
, and it takes about 17 minutes to write all partitions.
Partitions 2MB and smaller can be written in a single chunk, but using 2MB chunks for larger partitions eventually fails about 300MB through; I have not yet figured out why. In the meantime, it seems that 512KB chunks work well for larger partitions.
The only requirements to run this are:
You need to install pyamlboot from github master branch because the current pypy package is too old,
and is missing bulkcmd
functionality.
Tested on aarch64
and x86_64
On macOS, you must install python3
and libusb
from homebrew, and execute using that version of python
brew install python3 libusb
/opt/homebrew/bin/python3 -m pip install git+https://github.com/superna9999/pyamlboot
/opt/homebrew/bin/python3 superbird_tool.py --find_device
root
is not needed on macOS
Tested on aarch64
and x86_64
On Linux, you just need to install pyamlboot.
However, root
is needed on Linux, unless you fiddle with udev rules, which means the pip package also needs to be installed as root
sudo python3 -m pip install git+https://github.com/superna9999/pyamlboot
sudo ./superbird_tool.py --find_device
Tested on x86_64
, but it seems really difficult to get this working consistently on Windows. I recommend Linux or macOS.
On Windows, setup is a little more involved. First download and install python for windows (tested with 3.10 and 3.11). Then you need to install drivers; I have included windows/USB_Burning_Tool_setup_v2.0.9.exe
, which includes the needed driver.
The actual USB Burning Tool is not useful for Car Thing, but it includes the right driver.
Next you need to install a couple extra packages:
python -m pip install git+https://github.com/superna9999/pyamlboot
python -m pip install pyusb
python -m pip install libusb
You also need to add to add to your PATH:
rem NOTE: Python310 for python 3.10.x
%LOCALAPPDATA%\Programs\Python\Python310\Lib\site-packages\libusb\_platform\_windows\x64
This stackoverflow post has a good visual explanation of how to edit PATH in Windows 10
And finally, you should be able to run the tool
python superbird_tool.py --find_device
Confirm things actually work by connecting device in USB Mode (hold buttons 1 & 4 while connecting), and then entering USB Burn Mode:
python superbird_tool.py --burn_mode
Options cannot be combined; do one thing at a time :)
options:
-h, --help show this help message and exit
--find_device find superbird device and show its current boot mode
--burn_mode enter USB Burn Mode (if currently in USB Mode)
--continue_boot continue booting normally (if currently in USB Burn Mode)
--bulkcmd COMMAND run a uboot command on the device
--boot_adb_kernel BOOT_SLOT
boot a kernel with adb enabled on chosen slot (A or B)(not persistent)
--enable_uart_shell enable UART shell
--disable_avb2 BOOT_SLOT
disable A/B booting, lock to chosen slot(A or B)
--enable_burn_mode enable USB Burn Mode at every boot (when connected to USB host)
--enable_burn_mode_button
enable USB Burn Mode if preset button 4 is held while booting (when connected to USB host)
--disable_burn_mode Disable USB Burn Mode at every boot (when connected to USB host)
--disable_charger_check
disable check for valid charger at boot
--enable_charger_check
enable check for valid charger at boot
--dump_device OUTPUT_FOLDER
Dump all partitions to a folder
--restore_device INPUT_FOLDER
Restore all partitions from a folder
--dump_partition PARTITION_NAME OUTPUT_FILE
Dump a partition to a file
--restore_partition PARTITION_NAME INPUT_FILE
Restore a partition from a dump file
--restore_stock_env wipe env, then restore default env values from stock_env.txt
--send_env ENV_TXT import contents of given env.txt file (without wiping)
--send_full_env ENV_TXT
wipe env, then import contents of given env.txt file
--convert_env_dump ENV_DUMP OUTPUT_TXT
convert a local dump of env partition into text format
--get_env ENV_TXT dump device env partition, and convert it to env.txt format
There are four possible boot modes
This is what you get if you hold buttons 1 & 4 while plugging in the device.
The UART console will print:
G12A:BL:0253b8:61aa2d;FEAT:F0F821B0:12020;POC:D;RCY:0;USB:0;
In this mode, the device shows up on USB as: 1b8e:c003 Amlogic, Inc. GX-CHIP
This is a special uboot image, which we can interact with via usb.
The UART console output will typicaly end with:
U-Boot 2015.01 (Jan 21 2022 - 08:55:34 - v1.0-57-gec3ec936c2)
DRAM: 512 MiB
Relocation Offset is: 16e42000
InUsbBurn
[MSG]sof
Set Addr 11
Get DT cfg
Get DT cfg
set CFG
Which indicates it is ready to receive commands
In this mode, the device shows up on USB as: 1b8e:c003 Amlogic, Inc.
If USB Burn mode is not enabled at every boot, or if you use --continue_boot
, the device will boot up normally and launch the Spotify app.
In this mode, the device does not show up on USB.
If you use --boot_adb_kernel
, a modified kernel and image will be uploaded to the device (non-persistent), which enables USB Gadget.
The USB Gadget can be configured to provide adb
(like an Android phone), among other possible functionality including rndis
for usb networking.
In this mode, the device shows up on USB as: 18d1:4e40 Google Inc. Nexus 7 (fastboot)
Please do NOT try to use fastboot with superbird device, there is potential to brick it.
I have provided an S49usbgadget
, which can be placed on the device at /etc/init.d/S49usbgadget
(make it executable).
This is a modified version of what frederic provided,
where I added a lot of comments, and added rndis
function, to allow usb networking in addition to adb
.
Please read it carefully before using.
You can try this host setup script to configure a Linux machine as host. I am using a RockPi-E with Armbian Community Kinetic 22.10 with success
As an example (on Linux), here are steps to enable persistent adb and usbnet, disable a/b booting, and disable charger check, on a fresh device.
# starting from a fresh device
# plug in with buttons 1 & 4 held
sudo ./superbird_tool.py --find_device # check that it is in usb mode
sudo ./superbird_tool.py --burn_mode
sudo ./superbird_tool.py --enable_burn_mode
sudo ./superbird_tool.py --disable_avb2 # disable A/B, lock to A
sudo ./superbird_tool.py --disable_charger_check
# unplug and replug without holding any buttons
sudo ./superbird_tool.py --find_device # check that it is in usb burn mode
sudo ./superbird_tool.py --boot_adb_kernel
# device boots to spotify logo, but app does not launch
adb devices # check that your device shows up in adb
# setup persistent USB Gadget (adb and usbnet)
adb shell mount -o remount,rw /
adb shell umount /etc/init.d/S49usbgadget
adb push S49usbgadget /etc/init.d/
adb shell chmod +x /etc/init.d/S49usbgadget
adb shell mount -o remount,ro / # OK if this step fails
adb shell reboot
# device can take a while to reboot, just watch what the screen does and run --find_device until it shows up
sudo ./superbird_tool.py --find_device # check that it is in usb burn mode
sudo ./superbird_tool.py --disable_burn_mode
# unplug and replug without holding any buttons
# it should boot normally (app should launch), now with adb and usbnet enabled
ip addr # you should see usb0 listed
--enable_uart_shell
is really only meant to be run on a fresh device. It will rewrite initargs
env var, removing any other changes you made like using a particular system partition every boot.--disable_avb2
will ALSO enable the uart shell; consider using that instead.--disable_burn_mode
, then boot to USB Mode (hold 1 & 4), and use --burn_mode
, followed by --boot_adb_kernel
, it will fail with an error about device tree
--enable_burn_mode
, let it boot to USB Burn Mode automatically, then use --boot_adb_kernel
, it works fine--boot_adb_kernel
I have provided a (very barebones) script to generate a standalone superbird_tool
binary using nuitka
.
You need to install nuitka
, zstandard
and ordered-set
packages from pip to use it.
On Linux, you also need to install patchelf
from your system package manager. ex: sudo apt-get install -y patchelf
I have not tested this much yet, just a neat idea for now.
Compilied binaries include images/
so they should work fine standalone.