doc/board/amlogic/libretech-cc.rst - filogic/uboot - Gitiles

 .. SPDX-License-Identifier: GPL-2.0+

 U-Boot for LibreTech CCs
 ========================

 LibreTech CC is a single board computer manufactured by Libre Technology
 with the following specifications:

 V1:

  - Amlogic S905X ARM Cortex-A53 quad-core SoC @ 1.5GHz
  - ARM Mali 450 GPU
  - 2GB DDR3 SDRAM
  - 10/100 Ethernet
  - HDMI 2.0 4K/60Hz display
  - 40-pin GPIO header
  - 4 x USB 2.0 Host
  - eMMC, microSD
  - Infrared receiver
  - Jack for CVBS and Audio

 V2:

  - Added SPI NOR
  - Removed Jack

 Schematics are available on the manufacturer website.

 U-Boot compilation
 ------------------

 .. code-block:: bash

     $ export CROSS_COMPILE=aarch64-none-elf-
     $ make libretech-cc_defconfig
     $ make

 Use libretech-cc_v2_defconfig for v2.

 Image creation
 --------------

 To boot the system, u-boot must be combined with several earlier stage
 bootloaders:

 * bl2.bin: vendor-provided binary blob
 * bl21.bin: built from vendor u-boot source
 * bl30.bin: vendor-provided binary blob
 * bl301.bin: built from vendor u-boot source
 * bl31.bin: vendor-provided binary blob
 * acs.bin: built from vendor u-boot source

 These binaries and the tools required below have been collected and prebuilt
 for convenience at <https://github.com/BayLibre/u-boot/releases/>. These
 apply to both v1 and v2.

 Download and extract the libretech-cc release from there, and set FIPDIR to
 point to the `fip` subdirectory.

 .. code-block:: bash

     $ export FIPDIR=/path/to/extracted/fip

 Alternatively, you can obtain the original vendor u-boot tree which
 contains the required blobs and sources, and build yourself.
 Note that old compilers are required for this to build. The compilers here
 are suggested by Amlogic, and they are 32-bit x86 binaries.

 .. code-block:: bash

     $ wget https://releases.linaro.org/archive/13.11/components/toolchain/binaries/gcc-linaro-aarch64-none-elf-4.8-2013.11_linux.tar.xz
     $ wget https://releases.linaro.org/archive/13.11/components/toolchain/binaries/gcc-linaro-arm-none-eabi-4.8-2013.11_linux.tar.xz
     $ tar xvfJ gcc-linaro-aarch64-none-elf-4.8-2013.11_linux.tar.xz
     $ tar xvfJ gcc-linaro-arm-none-eabi-4.8-2013.11_linux.tar.xz
     $ export PATH=$PWD/gcc-linaro-aarch64-none-elf-4.8-2013.11_linux/bin:$PWD/gcc-linaro-arm-none-eabi-4.8-2013.11_linux/bin:$PATH
     $ git clone https://github.com/BayLibre/u-boot.git -b libretech-cc amlogic-u-boot
     $ cd amlogic-u-boot
     $ make libretech_cc_defconfig
     $ make
     $ export FIPDIR=$PWD/fip

 Once you have the binaries available (either through the prebuilt download,
 or having built the vendor u-boot yourself), you can then proceed to glue
 everything together. Go back to mainline U-Boot source tree then :

 .. code-block:: bash

     $ mkdir fip

     $ cp $FIPDIR/gxl/bl2.bin fip/
     $ cp $FIPDIR/gxl/acs.bin fip/
     $ cp $FIPDIR/gxl/bl21.bin fip/
     $ cp $FIPDIR/gxl/bl30.bin fip/
     $ cp $FIPDIR/gxl/bl301.bin fip/
     $ cp $FIPDIR/gxl/bl31.img fip/
     $ cp u-boot.bin fip/bl33.bin

     $ $FIPDIR/blx_fix.sh \
     	fip/bl30.bin \
     	fip/zero_tmp \
     	fip/bl30_zero.bin \
     	fip/bl301.bin \
     	fip/bl301_zero.bin \
     	fip/bl30_new.bin \
     	bl30

     $ $FIPDIR/acs_tool.pyc fip/bl2.bin fip/bl2_acs.bin fip/acs.bin 0

     $ $FIPDIR/blx_fix.sh \
     	fip/bl2_acs.bin \
     	fip/zero_tmp \
     	fip/bl2_zero.bin \
     	fip/bl21.bin \
     	fip/bl21_zero.bin \
     	fip/bl2_new.bin \
     	bl2

     $ $FIPDIR/gxl/aml_encrypt_gxl --bl3enc --input fip/bl30_new.bin
     $ $FIPDIR/gxl/aml_encrypt_gxl --bl3enc --input fip/bl31.img
     $ $FIPDIR/gxl/aml_encrypt_gxl --bl3enc --input fip/bl33.bin
     $ $FIPDIR/gxl/aml_encrypt_gxl --bl2sig --input fip/bl2_new.bin --output fip/bl2.n.bin.sig
     $ $FIPDIR/gxl/aml_encrypt_gxl --bootmk \
     		--output fip/u-boot.bin \
     		--bl2 fip/bl2.n.bin.sig \
     		--bl30 fip/bl30_new.bin.enc \
     		--bl31 fip/bl31.img.enc \
     		--bl33 fip/bl33.bin.enc

 and then write the image to SD with:

 .. code-block:: bash

     $ DEV=/dev/your_sd_device
     $ dd if=fip/u-boot.bin.sd.bin of=$DEV conv=fsync,notrunc bs=512 skip=1 seek=1
     $ dd if=fip/u-boot.bin.sd.bin of=$DEV conv=fsync,notrunc bs=1 count=444

 Note that Amlogic provides aml_encrypt_gxl as a 32-bit x86 binary with no
 source code. Should you prefer to avoid that, there are open source reverse
 engineered versions available:

 1. gxlimg <https://github.com/repk/gxlimg>, which comes with a handy
    Makefile that automates the whole process.
 2. meson-tools <https://github.com/afaerber/meson-tools>

 However, these community-developed alternatives are not endorsed by or
 supported by Amlogic.
	.. SPDX-License-Identifier: GPL-2.0+

	U-Boot for LibreTech CCs
	========================

	LibreTech CC is a single board computer manufactured by Libre Technology
	with the following specifications:

	V1:

	- Amlogic S905X ARM Cortex-A53 quad-core SoC @ 1.5GHz
	- ARM Mali 450 GPU
	- 2GB DDR3 SDRAM
	- 10/100 Ethernet
	- HDMI 2.0 4K/60Hz display
	- 40-pin GPIO header
	- 4 x USB 2.0 Host
	- eMMC, microSD
	- Infrared receiver
	- Jack for CVBS and Audio

	V2:

	- Added SPI NOR
	- Removed Jack

	Schematics are available on the manufacturer website.

	U-Boot compilation
	------------------

	.. code-block:: bash

	$ export CROSS_COMPILE=aarch64-none-elf-
	$ make libretech-cc_defconfig
	$ make

	Use libretech-cc_v2_defconfig for v2.

	Image creation
	--------------

	To boot the system, u-boot must be combined with several earlier stage
	bootloaders:

	* bl2.bin: vendor-provided binary blob
	* bl21.bin: built from vendor u-boot source
	* bl30.bin: vendor-provided binary blob
	* bl301.bin: built from vendor u-boot source
	* bl31.bin: vendor-provided binary blob
	* acs.bin: built from vendor u-boot source

	These binaries and the tools required below have been collected and prebuilt
	for convenience at <https://github.com/BayLibre/u-boot/releases/>. These
	apply to both v1 and v2.

	Download and extract the libretech-cc release from there, and set FIPDIR to
	point to the `fip` subdirectory.

	.. code-block:: bash

	$ export FIPDIR=/path/to/extracted/fip

	Alternatively, you can obtain the original vendor u-boot tree which
	contains the required blobs and sources, and build yourself.
	Note that old compilers are required for this to build. The compilers here
	are suggested by Amlogic, and they are 32-bit x86 binaries.

	.. code-block:: bash

	$ wget https://releases.linaro.org/archive/13.11/components/toolchain/binaries/gcc-linaro-aarch64-none-elf-4.8-2013.11_linux.tar.xz
	$ wget https://releases.linaro.org/archive/13.11/components/toolchain/binaries/gcc-linaro-arm-none-eabi-4.8-2013.11_linux.tar.xz
	$ tar xvfJ gcc-linaro-aarch64-none-elf-4.8-2013.11_linux.tar.xz
	$ tar xvfJ gcc-linaro-arm-none-eabi-4.8-2013.11_linux.tar.xz
	$ export PATH=$PWD/gcc-linaro-aarch64-none-elf-4.8-2013.11_linux/bin:$PWD/gcc-linaro-arm-none-eabi-4.8-2013.11_linux/bin:$PATH
	$ git clone https://github.com/BayLibre/u-boot.git -b libretech-cc amlogic-u-boot
	$ cd amlogic-u-boot
	$ make libretech_cc_defconfig
	$ make
	$ export FIPDIR=$PWD/fip

	Once you have the binaries available (either through the prebuilt download,
	or having built the vendor u-boot yourself), you can then proceed to glue
	everything together. Go back to mainline U-Boot source tree then :

	.. code-block:: bash

	$ mkdir fip

	$ cp $FIPDIR/gxl/bl2.bin fip/
	$ cp $FIPDIR/gxl/acs.bin fip/
	$ cp $FIPDIR/gxl/bl21.bin fip/
	$ cp $FIPDIR/gxl/bl30.bin fip/
	$ cp $FIPDIR/gxl/bl301.bin fip/
	$ cp $FIPDIR/gxl/bl31.img fip/
	$ cp u-boot.bin fip/bl33.bin

	$ $FIPDIR/blx_fix.sh \
	fip/bl30.bin \
	fip/zero_tmp \
	fip/bl30_zero.bin \
	fip/bl301.bin \
	fip/bl301_zero.bin \
	fip/bl30_new.bin \
	bl30

	$ $FIPDIR/acs_tool.pyc fip/bl2.bin fip/bl2_acs.bin fip/acs.bin 0

	$ $FIPDIR/blx_fix.sh \
	fip/bl2_acs.bin \
	fip/zero_tmp \
	fip/bl2_zero.bin \
	fip/bl21.bin \
	fip/bl21_zero.bin \
	fip/bl2_new.bin \
	bl2

	$ $FIPDIR/gxl/aml_encrypt_gxl --bl3enc --input fip/bl30_new.bin
	$ $FIPDIR/gxl/aml_encrypt_gxl --bl3enc --input fip/bl31.img
	$ $FIPDIR/gxl/aml_encrypt_gxl --bl3enc --input fip/bl33.bin
	$ $FIPDIR/gxl/aml_encrypt_gxl --bl2sig --input fip/bl2_new.bin --output fip/bl2.n.bin.sig
	$ $FIPDIR/gxl/aml_encrypt_gxl --bootmk \
	--output fip/u-boot.bin \
	--bl2 fip/bl2.n.bin.sig \
	--bl30 fip/bl30_new.bin.enc \
	--bl31 fip/bl31.img.enc \
	--bl33 fip/bl33.bin.enc

	and then write the image to SD with:

	.. code-block:: bash

	$ DEV=/dev/your_sd_device
	$ dd if=fip/u-boot.bin.sd.bin of=$DEV conv=fsync,notrunc bs=512 skip=1 seek=1
	$ dd if=fip/u-boot.bin.sd.bin of=$DEV conv=fsync,notrunc bs=1 count=444

	Note that Amlogic provides aml_encrypt_gxl as a 32-bit x86 binary with no
	source code. Should you prefer to avoid that, there are open source reverse
	engineered versions available:

	1. gxlimg <https://github.com/repk/gxlimg>, which comes with a handy
	Makefile that automates the whole process.
	2. meson-tools <https://github.com/afaerber/meson-tools>

	However, these community-developed alternatives are not endorsed by or
	supported by Amlogic.