| .. SPDX-License-Identifier: GPL-2.0+ |
| |
| U-Boot for the ASUS Transformer device family |
| ============================================= |
| |
| ``DISCLAMER!`` Moving your ASUS Transformer to use U-Boot assumes replacement |
| of the vendor ASUS bootloader. Vendor Android firmwares will no longer be |
| able to run on the device. This replacement IS reversible. |
| |
| Quick Start |
| ----------- |
| |
| - Build U-Boot |
| - Process U-Boot |
| - Flashing U-Boot into the eMMC |
| - Flashing U-Boot into the SPI flash |
| - Boot |
| - Self Upgrading |
| |
| Build U-Boot |
| ------------ |
| |
| Device support is implemented by applying a config fragment to a generic board |
| defconfig. Valid fragments are ``tf201.config``, ``tf300t.config``, |
| ``tf300tg.config``, ``tf300tl.config``, ``tf700t.config``, ``tf600t.config`` and |
| ``p1801-t.config``. |
| |
| .. code-block:: bash |
| |
| $ export CROSS_COMPILE=arm-linux-gnueabi- |
| $ make transformer_t30_defconfig tf201.config # For TF201 |
| $ make |
| |
| After the build succeeds, you will obtain the final ``u-boot-dtb-tegra.bin`` |
| image, ready for further processing. |
| |
| Process U-Boot |
| -------------- |
| |
| ``DISCLAMER!`` All questions related to the re-crypt work should be asked |
| in re-crypt repo issues. NOT HERE! |
| |
| re-crypt is a tool that processes the ``u-boot-dtb-tegra.bin`` binary into form |
| usable by device. This process is required only on the first installation or |
| to recover the device in case of a failed update. You need to know your |
| tablet's individual SBK to continue. |
| |
| Permanent installation can be performed either by using the nv3p protocol or by |
| pre-loading just built U-Boot into RAM. |
| |
| Processing for the NV3P protocol |
| ******************************** |
| |
| .. code-block:: bash |
| |
| $ git clone https://gitlab.com/grate-driver/re-crypt.git |
| $ cd re-crypt # place your u-boot-dtb-tegra.bin here |
| $ ./re-crypt.py --dev tf201 --sbk <your sbk> |
| |
| where SBK has next form ``0xXXXXXXXX`` ``0xXXXXXXXX`` ``0xXXXXXXXX`` ``0xXXXXXXXX`` |
| |
| The script will produce a ``repart-block.bin`` ready to flash. |
| |
| Processing for pre-loaded U-Boot |
| ******************************** |
| |
| The procedure is the same, but the ``--split`` argument is used with the |
| ``re-crypt.py``. The script will produce ``bct.img`` and ``ebt.img`` ready |
| to flash. |
| |
| Flashing U-Boot into the eMMC |
| ----------------------------- |
| |
| ``DISCLAMER!`` All questions related to NvFlash should be asked in the proper |
| place. NOT HERE! Flashing U-Boot will erase all eMMC, so make a backup before! |
| |
| Permanent installation can be performed either by using the nv3p protocol or by |
| pre-loading just built U-Boot into RAM. |
| |
| Flashing with the NV3P protocol |
| ******************************* |
| |
| Nv3p is a custom Nvidia protocol used to recover bricked devices. Devices can |
| enter it either by using ``wheelie`` with the correct ``blob.bin`` file or by |
| pre-loading vendor bootloader with the Fusée Gelée. |
| |
| With nv3p, ``repart-block.bin`` is used. It contains BCT and a bootloader in |
| encrypted state in form, which can just be written RAW at the start of eMMC. |
| |
| .. code-block:: bash |
| |
| $ wheelie --blob blob.bin |
| $ nvflash --resume --rawdevicewrite 0 1024 repart-block.bin |
| |
| When flashing is done, reboot the device. |
| |
| Flashing with a pre-loaded U-Boot |
| ********************************* |
| |
| U-Boot pre-loaded into RAM acts the same as when it was booted "cold". Currently |
| U-Boot supports bootmenu entry fastboot, which allows to write a processed copy |
| of U-Boot permanently into eMMC. |
| |
| While pre-loading U-Boot, hold the ``volume down`` button which will trigger |
| the bootmenu. There, select ``fastboot`` using the volume and power buttons. |
| After, on host PC, do: |
| |
| .. code-block:: bash |
| |
| $ fastboot flash 0.1 bct.img |
| $ fastboot flash 0.2 ebt.img |
| $ fastboot reboot |
| |
| Device will reboot. |
| |
| Flashing U-Boot into the SPI Flash |
| ---------------------------------- |
| |
| Some of Transformers use a separate 4 MB SPI flash, which contains all data |
| required for boot. It is flashed from within U-Boot itself, preloaded into RAM |
| using Fusée Gelée. |
| |
| After creating your ``repart-block.bin`` you have to place it on a 1st partition |
| of microSD card formated in fat. Then insert this microSD card into your tablet |
| and boot it using Fusée Gelée and U-Boot, which was included into |
| ``repart-block.bin``, while booting you must hold the ``volume down`` button. |
| |
| The process should take less than a minute, if everything goes correctly, |
| on microSD will appear ``spi-flash-backup.bin`` file, which is the dump of your |
| SPI Flash content and can be used to restore UEFI, do not lose it, tablet will |
| power itself off. |
| |
| Self-updating of U-Boot is performed by placing ``u-boot-dtb-tegra.bin`` on 1st |
| partition of microSD, inserting it into the tablet and booting with a pressed |
| ``volume down`` button. |
| |
| Boot |
| ---- |
| |
| To boot Linux, U-Boot will look for an ``extlinux.conf`` on MicroSD and then on |
| eMMC. Additionally, if the Volume Down button is pressed while booting, the |
| device will enter bootmenu. Bootmenu contains entries to mount MicroSD and eMMC |
| as mass storage, fastboot, reboot, reboot RCM, poweroff, enter U-Boot console |
| and update bootloader (check the next chapter). |
| |
| Flashing ``repart-block.bin`` eliminates vendor restrictions on eMMC and allows |
| the user to use/partition it in any way the user desires. |
| |
| Self Upgrading |
| -------------- |
| |
| Place your ``u-boot-dtb-tegra.bin`` on the first partition of the MicroSD card |
| and insert it into the tablet. Enter bootmenu, choose update the bootloader |
| option with the Power button and U-Boot should update itself. Once the process |
| is completed, U-Boot will ask to press any button to reboot. |