Android TI Guide: Difference between revisions

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<!-- Set release according to "release" parameter in URL and use am62-android-13_09.00.00-v1.0 as default
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--> {{#lst:Android_Platform_Customization|{{#var:RELEASE_PARAM|am62-android-13_09.00.00-v1.0}}}} <!--
--> {{#lst:Android_Platform_Customization|{{#var:RELEASE_PARAM|am62-android-13_09.00.00-v1.0}}}} <!--
--> {{PageHeader|{{#var:HARDWARE_NAME}} - {{#var:ANDROID_TI_VERSION}} Developer Guide}} {{DocImage|category1=Android|category2={{#var:HARDWARE_NAME}}}} __toc__
--> {{PageHeader|{{#var:HARDWARE_NAME}} - {{#var:ANDROID_TI_VERSION}} Developer Guide}} {{DocImage|category1=Android|category2={{#var:HARDWARE_NAME}}}} __toc__
= Introduction<br/> =
= Introduction =


This page describes how to build and deploy {{#switch: Android 13 = {{#var:ANDROID_NAME}} | Android {{#var:ANDROID_NAME}} }} on the {{#var:HARDWARE_NAME}}.<br> It is based on TI's {{#var:ANDROID_TI_VERSION}} release
This page describes how to build and deploy {{#var:ANDROID_NAME}} on the {{#var:HARDWARE_NAME}}. It is based on TI's {{#var:ANDROID_TI_VERSION}} release.


= Overview =
= Overview =
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*Download & build the sources.
*Download & build the sources.
*Install the binaries on the {{#var:HARDWARE_NAME}} SOM and variants.
*Install the binaries on the {{#var:HARDWARE_NAME}} SOM and variants.
*Making Changes to kernel/configuration and update {{#var:HARDWARE_NAME}} SOM and variants.
= Supported Hardware and Features =


= Supported hardware and features =
= Hardware Requirements =
= Hardware Requirements =
You will need the Variscite {{#var:HARDWARE_NAME}} based evaluation kit.
You will need the Variscite {{#var:HARDWARE_NAME}} based evaluation kit.


== Host (PC) setup requirements ==
== Host (PC) Setup Requirements ==


The host development environment for Android is based on Ubuntu, please install one of the following Ubuntu versions:
The host development environment for Android is based on Ubuntu, please install one of the following Ubuntu versions:
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Before starting a build, make sure you have adequate free space available.
Before starting a build, make sure you have adequate free space available.


{{Note|'''Note:''' Do not use other Ubuntu releases other than the ones recommended above. Variscite provides Docker containers that can be used for a development environment as an alternative to using a virtual machine or a dedicated computer.
{{Note|'''NOTE:''' Avoid using Ubuntu releases other than those recommended above. </br></br>Variscite offers Docker containers as an alternative for a development environment, which can be used instead of a virtual machine or a dedicated computer. </br>To learn more, please see Variscite's [[Docker_Build_Environment | Docker Build Environment]] guide. </br>Windows with WSL/WSL2 is not supported for Android BSP.}}
 
To learn more, please see Variscite's [[Docker_Build_Environment | Docker Build Environment]] guide.
Windows with WSL/WSL2 is not supported for Android BSP}}


=== Install required packages on host PC ===
=== Install required packages on host PC ===
<pre>
<pre>
$ sudo apt-get -y install gnupg flex bison gperf build-essential zip gcc-multilib g++-multilib  
$ sudo apt -y install gnupg flex bison gperf build-essential gcc-multilib g++-multilib
$ sudo apt-get -y install libc6-dev-i386 libncurses5 libncurses5-dev x11proto-core-dev libx11-dev lib32z-dev libz-dev libssl-dev
$ sudo apt -y install python3-pyelftools python3-dev python3.6 python2 python-is-python3
$ sudo apt-get -y install ccache libgl1-mesa-dev libxml2-utils xsltproc unzip bc
$ sudo apt -y install libc6-dev-i386 libncurses5 libncurses5-dev lib32z-dev libz-dev liblz-dev liblzo2-2 liblzo2-dev lzop lz4 cpio
$ sudo apt-get -y install uuid uuid-dev zlib1g-dev liblz-dev liblzo2-2 liblzo2-dev lzop git curl 
$ sudo apt -y install libgl1-mesa-dev libxml2-utils xsltproc unzip bc libssl-dev ccache curl
$ sudo apt-get -y install u-boot-tools mtd-utils android-tools-fsutils device-tree-compiler gdisk m4 dwarves libgnutls28-dev
$ sudo apt -y install git zip swig mtools uuid uuid-dev zlib1g-dev u-boot-tools lib32z1-dev fontconfig
$ sudo apt-get -y install libelf-dev cpio lz4 python-is-python3
$ sudo apt -y install mtd-utils device-tree-compiler gdisk m4 dwarves libgnutls28-dev libelf-dev x11proto-core-dev libx11-dev
</pre>
</pre>


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The package '''android-tools-fsutils''' is obsolete and has been replaced by '''android-sdk-libsparse-utils'''.
The package '''android-tools-fsutils''' is obsolete and has been replaced by '''android-sdk-libsparse-utils'''.
<pre>
<pre>
$ sudo apt-get -y install android-sdk-libsparse-utils
$ sudo apt -y install android-sdk-libsparse-utils
</pre>
</pre>


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To install it:
To install it:


  $ sudo apt-get update
  $ sudo apt update
  $ sudo apt-get install openjdk-8-jdk
  $ sudo apt install openjdk-8-jdk


If your Ubuntu version is missing the package (which shouldn't happen), add the PPA repository and run the previous commands again:
If your Ubuntu version is missing the package (which shouldn't happen), add the PPA repository and run the previous commands again:
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Android 13 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | {{#vardefine:HOST_OS|UBUNTU_16_04_18_04}}}}
Android 13 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | {{#vardefine:HOST_OS|UBUNTU_16_04_18_04}}}}


 
=== Check Python Version ===
=== Check python version ===
In the next steps, we will download (from Google repositories) the command repo, used to download all the Android source repositories.
In the next steps, we will download (from Google repositories) the command repo, used to download all the Android source repositories.
{{#switch: {{#var:ANDROID_NAME}} | Android 10 = {{#vardefine:HOST_OS|UBUNTU_16_04_18_04}} | Android 11 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | Android 12 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | Android 13 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | {{#vardefine:HOST_OS|UBUNTU_16_04_18_04}}}}
{{#switch: {{#var:ANDROID_NAME}} | Android 10 = {{#vardefine:HOST_OS|UBUNTU_16_04_18_04}} | Android 11 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | Android 12 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | Android 13 = {{#vardefine:HOST_OS|UBUNTU_18_04_20_04_22_04}} | {{#vardefine:HOST_OS|UBUNTU_16_04_18_04}}}}
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  $ sudo add-apt-repository ppa:deadsnakes/ppa
  $ sudo add-apt-repository ppa:deadsnakes/ppa
  $ sudo apt-get update
  $ sudo apt update
  $ sudo apt-get install python3.6 python2
  $ sudo apt install python3.6 python2
|
|
Certain tools like bpttools requires python2 which is not available default on Ubuntu 20.04 or 22.04 LTS. <br>
Certain tools like bpttools requires python2 which is not available default on Ubuntu 20.04 or 22.04 LTS. <br>
Ubuntu 20.04/22.04 LTS users can install it running
Ubuntu 20.04/22.04 LTS users can install it running


$ sudo apt install software-properties-common
  $ sudo add-apt-repository ppa:deadsnakes/ppa
  $ sudo add-apt-repository ppa:deadsnakes/ppa
  $ sudo apt-get update
  $ sudo apt update
  $ sudo apt-get install python3.6 python2
  $ sudo apt install python3.6 python2


  {{#switch: {{#var:ANDROID_NAME}} | Android 10 =   
  {{#switch: {{#var:ANDROID_NAME}} | Android 10 =   
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}}
}}


= Obtain source code =
= Obtain Source Code =


Variscite's Linux kernel and U-Boot are available through Github.<br>
Variscite's Linux kernel and U-Boot are available through Github. Required patches for the Android file system are pre-installed<br>
Required patches for the Android file system are pre-installed<br>
<br>
<br>


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  $ export PATH=~/bin:$PATH
  $ export PATH=~/bin:$PATH


== Clone Variscite's U-Boot and Linux kernel sources ==
== Clone Variscite's U-Boot and Linux kernel Sources ==
  $ mkdir {{#var:BUILD_FOLDER}} && cd $_
  $ mkdir {{#var:BUILD_FOLDER}} && cd $_
  $ export YOUR_PATH=$PWD
  $ export YOUR_PATH=$PWD
  $ mkdir -p ${YOUR_PATH}/ti-bootloader-aosp/
 
  $ repo init -u git@github.com:varigit-dev/variscite-bsp-platform.git -b develop_ti_android13_RND-1731_android -m RLS_09_00_Bootloader.xml
  $ mkdir -p ${YOUR_PATH}/ti-bootloader-aosp/ && cd $_
  $ repo sync -j4
  $ repo init -u https://github.com/varigit/variscite-bsp-platform.git -b {{#var:ANDROID_MANIFEST_BRANCH}} -m {{#var:AM62_BOOTLOADER_MANIFEST}}.xml
  $ repo sync -j$(nproc)
 
  $ mkdir -p ${YOUR_PATH}/ti-kernel-aosp/ && cd $_
  $ mkdir -p ${YOUR_PATH}/ti-kernel-aosp/ && cd $_
  $ repo init -u git@github.com:varigit-dev/variscite-bsp-platform.git -b develop_ti_android13_RND-1731_android -m RLS_09_00_Kernel.xml
  $ repo init -u https://github.com/varigit/variscite-bsp-platform.git -b {{#var:ANDROID_MANIFEST_BRANCH}} -m {{#var:AM62_KERNEL_MANIFEST}}.xml
  $ repo sync -j4
  $ repo sync -j$(nproc)


== Clone Variscite's AOSP sources ==
== Clone Variscite's AOSP Sources ==
  $ mkdir -p ${YOUR_PATH}/ti-aosp-13 && cd $_
  $ mkdir -p ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}} && cd $_
  $ repo init -u git@github.com:varigit-dev/variscite-bsp-platform.git -b develop_ti_android13_RND-1731_android -m RLS_09_00.xml
  $ repo init -u https://github.com/varigit/variscite-bsp-platform.git -b {{#var:ANDROID_MANIFEST_BRANCH}} -m {{#var:AM62_AOSPFS_MANIFEST}}.xml
$ repo sync -j$(nproc)


= Setup toolchain for Bootloader Components =
== Apply Variscite's platforms patches and install toolchains ==
  $ cd ${YOUR_PATH}/ti-bootloader-aosp/
$ cd ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}/device
$ variscite/scripts/install.sh
 
= Build Bootloader Components =
 
== Export Toolchains and setup paths ==
 
  $ export PATH=$PATH:${YOUR_PATH}/ti-bootloader-aosp/toolchain/{{#var:ARMv8_TOOLCHAIN}}/bin:${YOUR_PATH}/ti-bootloader-aosp/toolchain/{{#var:ARMv7_TOOLCHAIN}}/bin


== Download Toolchain and setup PATH ==
$ mkdir -p toolchain
$ wget https://developer.arm.com/-/media/Files/downloads/gnu-a/9.2-2019.12/binrel/gcc-arm-9.2-2019.12-x86_64-arm-none-linux-gnueabihf.tar.xz && \
  tar -Jxvf gcc-arm-9.2-2019.12-x86_64-arm-none-linux-gnueabihf.tar.xz -C toolchain && \
  wget https://developer.arm.com/-/media/Files/downloads/gnu-a/9.2-2019.12/binrel/gcc-arm-9.2-2019.12-x86_64-aarch64-none-linux-gnu.tar.xz && \
  tar -Jxvf gcc-arm-9.2-2019.12-x86_64-aarch64-none-linux-gnu.tar.xz -C toolchain
$ export PATH=$PATH:${YOUR_PATH}/ti-bootloader-aosp/toolchain/gcc-arm-9.2-2019.12-x86_64-aarch64-none-linux-gnu/bin:${YOUR_PATH}/ti-bootloader-aosp/toolchain/toolchain/gcc-arm-9.2-2019.12-x86_64-arm-none-linux-gnueabihf/bin
$ export G_CORE_SECDEV_K3_SRC_DIR="${DEF_SRC_DIR}/core-secdev-k3"
$ export G_CORE_K3_IMAGE_GEN_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/k3-image-gen"
$ export G_CORE_LINUX_FIRMWARE_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/ti-linux-firmware"
  $ export G_ATF_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/arm-trusted-firmware"
  $ export G_ATF_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/arm-trusted-firmware"
  $ export G_OPTEE_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/optee_os"
  $ export G_OPTEE_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/optee_os"
$ export G_CORE_LINUX_FIRMWARE_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/ti-linux-firmware"
  $ export G_UBOOT_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/ti-u-boot"
  $ export G_UBOOT_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/ti-u-boot"
  $ export G_UBOOT_DEF_CONFIG_R="am62x_var_som_r5_defconfig"
  $ export G_UBOOT_DEF_CONFIG_R="am62x_var_som_r5_defconfig"
  $ export G_UBOOT_DEF_CONFIG_A="am62x_var_som_a53_android_defconfig"
  $ export G_UBOOT_DEF_CONFIG_A="am62x_var_som_a53_defconfig"
$ export G_CROSS_COMPILER_JOPTION="-j $(nproc)"


== Build ATF ==
== Building ARM Trusted Firmware (ATF) ==
  $ cd ${YOUR_PATH}/ti-bootloader-aosp/
  $ cd ${G_ATF_SRC_DIR}
  $ make -C ${G_OPTEE_SRC_DIR} clean
  $ make distclean
  $ make -C ${G_ATF_SRC_DIR} E=0 CROSS_COMPILE=aarch64-none-linux-gnu- ARCH=aarch64 PLAT=k3 TARGET_BOARD=lite SPD=opteed CFLAGS+="-DK3_PM_SYSTEM_SUSPEND=1"
  $ make -j$(nproc) E=0 CROSS_COMPILE=aarch64-none-linux-gnu- ARCH=aarch64 PLAT=k3 TARGET_BOARD=lite SPD=opteed CFLAGS+="-DK3_PM_SYSTEM_SUSPEND=1"


== Build OPTEE ==
== Building OP-TEE OS ==
  $ cd ${YOUR_PATH}/ti-bootloader-aosp/
  $ cd ${G_OPTEE_SRC_DIR}
  $ make clean
  $ make clean && rm -rf out
  $ make -C ${G_OPTEE_SRC_DIR} CROSS_COMPILE32=arm-none-linux-gnueabihf- CROSS_COMPILE64=aarch64-none-linux-gnu- PLATFORM=k3-am62x CFG_ARM64_core=y
  $ make -j$(nproc) PLATFORM=k3 CFG_ARM64_core=y CROSS_COMPILE=arm-none-linux-gnueabihf- CROSS_COMPILE64=aarch64-none-linux-gnu-


== Build ti-boot3 R5 ==
== Building U-Boot for R5 Core ==
  $ cd ${YOUR_PATH}/ti-u-boot/
  $ cd ${G_UBOOT_SRC_DIR}
  $ rm -rf out
  $ make mrproper
  $ make -C ${G_UBOOT_SRC_DIR} mrproper
  $ make -C ${G_UBOOT_SRC_DIR} mrproper
  $ make -j4 ARCH=arm O=out/r5
  $ make ARCH=arm CROSS_COMPILE=arm-none-linux-gnueabihf- ${G_UBOOT_DEF_CONFIG_R} O=${G_UBOOT_SRC_DIR}/out/r5
$ make -C ${G_UBOOT_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm O=${G_UBOOT_SRC_DIR}/out/r5 \
  $ make -j$(nproc) ARCH=arm CROSS_COMPILE=arm-none-linux-gnueabihf- BINMAN_INDIRS=${G_CORE_LINUX_FIRMWARE_SRC_DIR} O=${G_UBOOT_SRC_DIR}/out/r5
                CROSS_COMPILE=arm-none-linux-gnueabihf- \
                ${G_UBOOT_DEF_CONFIG_R}
$ make -C ${G_UBOOT_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm O=${G_UBOOT_SRC_DIR}/out/r5 \
                CROSS_COMPILE=arm-none-linux-gnueabihf-
 
== Build tiboot3-am62x-gp-evm.bin ==
  $ make -C ${G_CORE_K3_IMAGE_GEN_SRC_DIR} mrproper
$ make -C ${G_CORE_K3_IMAGE_GEN_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm \
                CROSS_COMPILE=arm-none-linux-gnueabihf- \
                SOC=am62x SOC_TYPE=gp SBL=$G_UBOOT_SRC_DIR/out/r5/spl/u-boot-spl.bin \
                SYSFW_DIR=${G_CORE_LINUX_FIRMWARE_SRC_DIR}/ti-sysfw
 
== Build tiboot3-am62x-hs-evm.bin ==
$ make -C ${G_CORE_K3_IMAGE_GEN_SRC_DIR} mrproper
$ make -C ${G_CORE_K3_IMAGE_GEN_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm \
                CROSS_COMPILE=arm-none-linux-gnueabihf- \
                SOC=am62x SOC_TYPE=hs SBL=$G_UBOOT_SRC_DIR/out/r5/spl/u-boot-spl.bin \
                SYSFW_DIR=${G_CORE_LINUX_FIRMWARE_SRC_DIR}/ti-sysfw \
                TI_SECURE_DEV_PKG=${G_CORE_SECDEV_K3_SRC_DIR}
 
== Build tiboot3-am62x-hs-fs-evm.bin ==
$ make -C ${G_CORE_K3_IMAGE_GEN_SRC_DIR} mrproper
$ make -C ${G_CORE_K3_IMAGE_GEN_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm \
                CROSS_COMPILE=arm-none-linux-gnueabihf- \
                SOC=am62x SOC_TYPE=hs-fs SBL=$G_UBOOT_SRC_DIR/out/r5/spl/u-boot-spl.bin \
                SYSFW_DIR=${G_CORE_LINUX_FIRMWARE_SRC_DIR}/ti-sysfw \
                TI_SECURE_DEV_PKG=${G_CORE_SECDEV_K3_SRC_DIR}


== Build u-boot A53 Android ==
== Building U-Boot for A53 Core with Android ==
  $ cd ${YOUR_PATH}/ti-bootloader-aosp
  $ cd ${G_UBOOT_SRC_DIR}
  $ make -C ${G_UBOOT_SRC_DIR} mrproper
  $ make mrproper
  $ make -j4 ARCH=arm O=out/r5
  $ make ARCH=arm CROSS_COMPILE=aarch64-none-linux-gnu- ${G_UBOOT_DEF_CONFIG_A} O=${G_UBOOT_SRC_DIR}/out/a53
$ make -C ${G_UBOOT_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm O=${G_UBOOT_SRC_DIR}/out/a53 \
$ make ARCH=arm CROSS_COMPILE=aarch64-none-linux-gnu- am62x_android_a53.config O=${G_UBOOT_SRC_DIR}/out/a53
                CROSS_COMPILE=aarch64-none-linux-gnu- \
$ make -j$(nproc) ARCH=arm CROSS_COMPILE=aarch64-none-linux-gnu- \
                ${G_UBOOT_DEF_CONFIG_A}
      BL31=${G_ATF_SRC_DIR}/build/k3/lite/release/bl31.bin \
$ make -C ${G_UBOOT_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm O=${G_UBOOT_SRC_DIR}/out/a53 \
      TEE=${G_OPTEE_SRC_DIR}/out/arm-plat-k3/core/tee-pager_v2.bin \
                CROSS_COMPILE=aarch64-none-linux-gnu-
      BINMAN_INDIRS=${G_CORE_LINUX_FIRMWARE_SRC_DIR} O=${G_UBOOT_SRC_DIR}/out/a53
== Build tispl.bin and u-boot.img ==
$ make -C ${G_UBOOT_SRC_DIR} ${G_CROSS_COMPILER_JOPTION} ARCH=arm O=${G_UBOOT_SRC_DIR}/out/a53 \
                CROSS_COMPILE=aarch64-none-linux-gnu- \
                BL31=${G_ATF_SRC_DIR}/build/k3/lite/release/bl31.bin \
                TEE=${G_OPTEE_SRC_DIR}/out/arm-plat-k3/core/tee-pager_v2.bin \
                BINMAN_INDIRS=${G_CORE_LINUX_FIRMWARE_SRC_DIR}


== Copy bootloader images to AOSP build ==
== Copying Bootloader Images to AOSP Build ==
  $ cp ${G_CORE_K3_IMAGE_GEN_SRC_DIR}/tiboot3.bin \
  $ cp ${G_UBOOT_SRC_DIR}/out/r5/tiboot3-am62x-hs-fs-am62x-var-som.bin ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}/vendor/ti/am62x/bootloader/am62x-sk/tiboot3-hsfs.bin
                ${G_CORE_K3_IMAGE_GEN_SRC_DIR}/tiboot3-am62x-gp-evm.bin \
$ cp ${G_UBOOT_SRC_DIR}/out/r5/tiboot3-am62x-gp-am62x-var-som.bin ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}/vendor/ti/am62x/bootloader/am62x-sk/tiboot3.bin
                ${G_CORE_K3_IMAGE_GEN_SRC_DIR}/tiboot3-am62x-hs-evm.bin \
$ cp ${G_UBOOT_SRC_DIR}/out/a53/tispl.bin ${G_UBOOT_SRC_DIR}/out/a53/u-boot.img ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}/vendor/ti/am62x/bootloader/am62x-sk/
                ${G_CORE_K3_IMAGE_GEN_SRC_DIR}/tiboot3-am62x-hs-fs-evm.bin \
                ${G_UBOOT_SRC_DIR}/out/a53/tispl.bin \
                ${G_UBOOT_SRC_DIR}/out/a53/u-boot.img \
                ${YOUR_PATH}/ti-aosp-13/vendor/variscite/bootloader/am62x-sk


= Build Kernel Image =
= Building the Kernel Image =
  $ cd ${YOUR_PATH}/ti-kernel-aosp/
  $ cd ${YOUR_PATH}/ti-kernel-aosp/
  $ export DIST_DIR=${YOUR_PATH}/ti-aosp-13/device/variscite/am62x-kernel/kernel/6.1
  $ export DIST_DIR=${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}/device/ti/am62x-kernel/kernel/6.1
$ mkdir -p $DIST_DIR
  $ tools/bazel run //common:ti_dist -- --dist_dir=$DIST_DIR
  $ tools/bazel run --lto=full //common:ti_dist -- --dist_dir=$DIST_DIR
<span style="color:red">Note:</span> The building process using the bazel tool is not a standard kernel build process, unlike make/soong. Google has published the guideline and package GKI bazel build, refer to https://source.android.com/docs/core/architecture/kernel/generic-kernel-image for more details.
PS: This is a GKI bazel build, refer to https://source.android.com/docs/core/architecture/kernel/generic-kernel-image


== To re-build Kernel fast for changes from the previous full build ==
== To re-build Kernel fast for changes from the previous full build ==
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Change to Android top level directory.
Change to Android top level directory.
  $ cd {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}
  $ cd ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}
  $ source build/envsetup.sh
  $ source build/envsetup.sh
  $ lunch {{#var:ANDROID_MACHINE_NAME}}-userdebug
  $ lunch {{#var:ANDROID_MACHINE_NAME}}-userdebug
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</span>  
</span>  
}}
}}
$ export PATH=/usr/lib/jvm/java-8-openjdk-amd64/bin:$PATH
   
   
== Build Android ==
== Build Android File System ==
=== Switching from eMMC build to SD card build and vice versa ===
=== Switching from eMMC build to SD card build and vice versa ===
* For eMMC boot
* For eMMC boot
  $ m TARGET_AVB_ENABLE=true -j4  2>&1 {{!}} tee build1-1.log  
  $ m TARGET_AVB_ENABLE=true -j$(nproc) 2>&1 {{!}} tee build-emmc.log
* For SD boot (Booting the entire Android from SDCard only)
* For SD boot
==== Patch U-boot to be able to flash Android on sdcard via fastboot ====
  $ m TARGET_AVB_ENABLE=true TARGET_SDCARD_BOOT=true -j$(nproc) 2>&1 {{!}} tee build-sd.log
Apply this patch in the U-boot source code:
<syntaxhighlight lang="diff">
diff --git a/configs/am62x_var_som_a53_android_defconfig b/configs/am62x_var_som_a53_android_defconfig
index 43ebd4e2f2..91e7ee0b47 100644
--- a/configs/am62x_var_som_a53_android_defconfig
+++ b/configs/am62x_var_som_a53_android_defconfig
@@ -125,7 +125,7 @@ CONFIG_USB_FUNCTION_FASTBOOT=y
CONFIG_FASTBOOT_BUF_ADDR=0xC0000000
CONFIG_FASTBOOT_BUF_SIZE=0x2F000000
CONFIG_FASTBOOT_FLASH=y
-CONFIG_FASTBOOT_FLASH_MMC_DEV=0
+CONFIG_FASTBOOT_FLASH_MMC_DEV=1
CONFIG_FASTBOOT_CMD_OEM_FORMAT=y
CONFIG_TI_SCI_PROTOCOL=y
CONFIG_SPL_DM_GPIO_LOOKUP_LABEL=y
</syntaxhighlight>
  $ m TARGET_SDCARD_BOOT=true TARGET_AVB_ENABLE=true -j4 2>&1 {{!}} tee build1-1.log


== Images created by the Android build ==
== Images created by the Android build ==
The resulted images are located in out/target/product/{{#if: {{#var:ANDROID_PRODUCT_NAME}} | {{#var:ANDROID_PRODUCT_NAME}} | {{#var:ANDROID_MACHINE_NAME}} }}.
The resulted images are located in out/target/product/{{#var:ANDROID_MACHINE_NAME}}.
{{#lst:Android_Platform_Customization|{{#var:ANDROID_IMAGES_SECTION}}}}
{{#lst:Android_Platform_Customization|{{#var:ANDROID_IMAGES_SECTION}}}}
{{#lst:APC_VAR-SOM-AM62|{{#var:ANDROID_IMAGES_SECTION}}}}
{{#lst:APC_VAR-SOM-AM62|{{#var:ANDROID_IMAGES_SECTION}}}}
Line 290: Line 232:
Boot options of the Android:<br>
Boot options of the Android:<br>
1. U-Boot boots from on-SOM eMMC<br>
1. U-Boot boots from on-SOM eMMC<br>
2. Directly from SD card (Requires separate build for bootloader and AOSP images see above)<br>
2. Directly from SD card (Requires separate build for AOSP images.)<br>




== Flash and boot Android from SD card ==
== Flash and boot Android from SD card ==
=== Create a bootable SD card ===
=== Create a bootable SD card ===
<pre>
$ cd out/target/product/{{#var:ANDROID_MACHINE_NAME}}
$ cd ${YOUR_PATH}/ti-aosp-13/out/target/product/am62x_var_som
$ simg2img super.img super_raw.img
$ sudo ./flashall.sh --board am62x-sk --hsfs /dev/sdX;sync
$ gzip super_raw.img
</pre>
$ cd ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}
OR
$ sudo ./device/variscite/scripts/sh/var-mksdcard.sh /dev/sdX; sync
If you want to boot entire Android from SD Card
<pre>
$ cd ${YOUR_PATH}/ti-aosp-13/out/target/product/am62x_var_som
$ sudo ./flashall.sh --board am62x-sk --sdcard --hsfs /dev/sdX;sync
</pre>
* Replace /dev/sdX with your true device, You can identify it with dmesg.
* Replace /dev/sdX with your true device, You can identify it with dmesg.


=== Boot From SD card ===
=== Boot From SD card ===
{{#lst:Android_Recovery_SD_card|BOOT_FROM_SD_CARD}}
Make sure the BOOT SELECT DIP switch on the carrier board is set correctly before you power on the board.
<pre>
$ SW3
$ 0 : Boot from SD card
$ 1 : Boot from eMMC
</pre>


== Flash and boot Android from eMMC ==
== Flash and boot Android from eMMC ==
Line 322: Line 264:




Further, follow the steps described in paragraph "'''Flashing Android with USB Fastboot'''"
=== Flashing Android with USB Fastboot ===


=== Flashing Android with USB Fastboot ===
==== Install tools on host ====
==== Install tools on host ====
<pre>
<pre>
Line 341: Line 281:
{{#lst:Android_Platform_Customization|{{#var:ANDROID_FASTBOOT_SECTION}}}}
{{#lst:Android_Platform_Customization|{{#var:ANDROID_FASTBOOT_SECTION}}}}


{{#ifeq: {{#var:ANDROID_NAME}} | Pie |
=== Update Android firmware ===
=== Android recovery mode ===
==== Enter board in Android Recovery mode ====
If you are using DT8MCustomBoard or you implemented any recovery key detection in uboot, the device can powered on in recovery mode by holding down the "back" (or any other recovery key) button until the end of the boot, showing the "Android Recovery" menu.
 
Alternatively you can issue the command reboot recovery from the Android console (or using adb shell).
 
==== Control menu in Android Recovery Mode ====
 
If the board has UP, DOWN keys (like DT8MCustomBoard)


# To cycle between menu items, use a short press of UP or DOWN buttons
==== Generate OTA packages ====
# To highlight an item, use a long press of BACK or HOME buttons or long touch the touchscreen
# To activate an item, use a short press of ON/OFF button


If the board has no UP and DOWN keys (like SymphonyBoard)
===== For generating "OTA" packages, use the following commands: =====
 
  $ cd ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}
# To cycle between menu items, use a short press of any buttons or select the item with the touchscreen
# To activate an item, use a long press of any buttons or of the touchscreen
}}
 
==== Update Android firmware ====
 
===== Generate OTA packages =====
For generating "OTA" packages, use the following commands:
  $ cd {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}
{{#switch: {{#var:ANDROID_NAME}}
| Android 10
| Android 11
| Android 12
| Android 13 =
  $ source build/envsetup.sh  
  $ source build/envsetup.sh  
  $ lunch PRODUCT={{#var:ANDROID_MACHINE_NAME}}-userdebug
  $ lunch PRODUCT={{#var:ANDROID_MACHINE_NAME}}-userdebug
  $ ./imx-make.sh bootloader kernel -j4
  $ m TARGET_AVB_ENABLE=true -j$(nproc) otapackage
$ make otapackage -j4 2>&1 || tee build1-1.log
|
$ make PRODUCT={{#var:ANDROID_MACHINE_NAME}}-eng otapackage -j4 2>&1 | tee build1-1.log
}}


===== Install OTA package to device =====
===== Install OTA package to device: =====
* Extract payload.bin and payload_properties.txt from OTA zip file
* Extract payload.bin and payload_properties.txt from OTA zip file
  {{#ifeq: {{#var:ANDROID_NAME}} | Android 11 |
* Push payload.bin to board's /data/ota_package dir: adb push payload.bin /data/ota_package/ .
* Push payload.bin to board's /data/ota_package dir: adb push payload.bin /data/ota_package/ .
  |
  {{#ifeq: {{#var:ANDROID_NAME}} | Android 10 |
* Push payload.bin to board's /sdcard dir: adb push payload.bin /sdcard/ .
  |
* Push file payload.bin to somewhere on the device (typically /data/ota_package folder)
  adb push payload.bin /data/ota_package/payload.bin
  }}}}
* Open payload_properties.txt on an editor to copy its content, lets suppose it's like in the TI manual:
* Open payload_properties.txt on an editor to copy its content, lets suppose it's like in the TI manual:
   FILE_HASH=0fSBbXonyTjaAzMpwTBgM9AVtlBeyOigpCCgkoOfHKY=
   FILE_HASH=wuBhu49k3pCmQmMl8S/n2NRm1he3A+IHshcQiOfCKc4=
   FILE_SIZE=379074366
   FILE_SIZE=501067958
  {{#ifeq: {{#var:ANDROID_NAME}} | Android 10 |
   METADATA_HASH=qPWe72T37KgJtyJhuKSlNkFm1NflKFnLy+An4GnoXyA=
  METADATA_HASH=Icrs3NqoglzyppyCZouWKbo5f08IPokhlUfHDmz77WQ=
   METADATA_SIZE=31967
  |
   METADATA_HASH=Icrs3NqoglzyppyCZouWKbo5f08IPokhlUfHDmz77WQ/de8Dgp9zFXt8Fo+Hxccp465uTOvKNsteWU=
  }}
   METADATA_SIZE=46866
  {{#ifeq: {{#var:ANDROID_NAME}} | Android 11 | Android 12 |
* Input the following command on the board's console to update:
  su
  setenforce 0
  update_engine_client --payload=file:///data/ota_package/payload.bin --update --headers="FILE_HASH=0fSBbXonyTjaAzMpwTBgM9AVtlBeyOigpCCgkoOfHKY=
  |
  {{#ifeq: {{#var:ANDROID_NAME}} | Android 10 |
* Input the following command on the board's console to update:
* Input the following command on the board's console to update:
   su
   su
   setenforce 0
   setenforce 0
   update_engine_client --payload=file:///sdcard/payload.bin --update --headers="FILE_HASH=0fSBbXonyTjaAzMpwTBgM9AVtlBeyOigpCCgkoOfHKY=
   update_engine_client --payload=file:///data/ota_package/payload.bin --update --headers="FILE_HASH=wuBhu49k3pCmQmMl8S/n2NRm1he3A+IHshcQiOfCKc4=
  |
   FILE_SIZE=501067958
* Issue the following command on adb shell:
   METADATA_HASH=qPWe72T37KgJtyJhuKSlNkFm1NflKFnLy+An4GnoXyA=
  update_engine_client --payload=file:///cache/payload.bin --update --headers="FILE_HASH=0fSBbXonyTjaAzMpwTBgM9AVtlBeyOigpCCgkoOfHKY=
   METADATA_SIZE=31967"
  }}}}
   FILE_SIZE=379074366
  {{#ifeq: {{#var:ANDROID_NAME}} | Android 10 |
   METADATA_HASH=Icrs3NqoglzyppyCZouWKbo5f08IPokhlUfHDmz77WQ=
  |
  METADATA_HASH=Icrs3NqoglzyppyCZouWKbo5f08IPokhlUfHDmz77WQ/de8Dgp9zFXt8Fo+Hxccp465uTOvKNsteWU=
  }}
   METADATA_SIZE=46866"


{{#ifeq: {{#var:ANDROID_NAME}} | Android 11 |Android 12 | Android 13
Make sure that the -- header equals to the exact content of payload_properties.txt without "space" or "return"
character.
|
{{#ifeq: {{#var:ANDROID_NAME}} | Android 10 |
Make sure that the -- header equals to the exact content of payload_properties.txt without "space" or "return"
Make sure that the -- header equals to the exact content of payload_properties.txt without "space" or "return"
character.
character.
|
Note that the command argument --headers="..." contains the exact (4-line) content of the payload_properties.txt file between quotes (you can copy and paste it), including 3 newline characters.
}}}}
   
   
After issuing the command, nothing seems to happen on the device, but you can monit logcat for operation progress. After a successful update you can reboot into the updated version.
After issuing the command, nothing seems to happen on the device, but you can monitor logcat for operation progress.  
 
  logcat | grep update_engine
You can check chapter 7 of official TI "Android User Guide" for further "Over-The-Air (OTA) Update" examples.
After a successful update, you can reboot into the updated version (_b/_a) slot.


= Manual operations =
= Manual operations =
Line 443: Line 319:
When you perform changes to the kernel, you may build boot.img solely instead of building the whole Android.
When you perform changes to the kernel, you may build boot.img solely instead of building the whole Android.
  $ cd ${YOUR_PATH}/ti-kernel-aosp/
  $ cd ${YOUR_PATH}/ti-kernel-aosp/
  $ export DIST_DIR=${YOUR_PATH}/ti-aosp-13/device/variscite/am62x-kernel/kernel/6.1
  $ export DIST_DIR=${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}/device/ti/am62x-kernel/kernel/6.1
  $ tools/bazel run --lto=full //common:ti_dist -- --dist_dir=$DIST_DIR
  $ tools/bazel run --lto=full //common:ti_dist -- --dist_dir=$DIST_DIR
$ cd ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}
$ lunch am62x_var_som-userdebug
$ m


== Toolchain setup for manual build ==
== Menu Config ==
Setup the toolchain path to point to arm-linux-androideabi- tools in prebuilts/gcc/linux-x86/aarch64/aarch64-linux-android-4.9/bin
  $ cd ${YOUR_PATH}/ti-kernel-aosp/
  $ export ARCH=arm64
$ tools/bazel run //common:ti_config -- menuconfig
$ export CROSS_COMPILE={{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}/prebuilts/gcc/linux-x86/aarch64/aarch64-linux-android-4.9/bin/aarch64-linux-android-


{{#if: {{#var:ANDROID_FASTBOOT_NEED_UNLOCK}} |
== Porting Drivers Notes ==
== Unlock device for fastboot ==
* Actual Kernel source code is in ${YOUR_PATH}/ti-kernel-aosp/common
* Defconfig Used in the kernel is from Google: ${YOUR_PATH}/ti-kernel-aosp/common/arch/arm64/configs/gki_defconfig
* All drivers and SOC infrastructure is via modules and is setup by: ${YOUR_PATH}/ti-kernel-aosp/common/arch/arm64/configs/ti_gki.fragment
* Your driver/ kernel module .ko must be added to GKI module list
<pre>
    module_outs = COMMON_GKI_MODULES_LIST + [
    "net/wireless/your_module.ko",   
    "drivers/spi/your_driver.ko",
    ]
</pre>


Our build behaves like any other standard Android device.
* Your driver module dependencies must be resolved and must align cd ${YOUR_PATH}/{{#var:BUILD_FOLDER_ANDROID}}/device/variscite/am62x_var_som/BoardConfig.mk
 
with following
To use fastboot, you should go through the following steps
<pre>
 
BOARD_VENDOR_RAMDISK_KERNEL_MODULES += \
* Settings => System => About Tablet => Build number
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/zsmalloc.ko \
* keep on tapping until you see a prompt that says "You are now a developer!"
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/zram.ko \
* Settings => System => Advanced => Developer options => OEM unlocking
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/ti-msgmgr.ko \
* reboot to bootloader
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/ti_sci.ko \
* type "fastboot 0" in the U-Boot command line
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/ti_sci_pm_domains.ko \
* run "sudo `which fastboot` oem unlock" from the Host PC
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/phy-omap-usb2.ko \
* wait until the unlock process is complete
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/syscon-clk.ko \
* proceed for flashing
                |                                   |
 
                |                                   |
}}
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/your_driver.ko
{{#ifeq:{{#var:ANDROID_UUU_SUPPORT}}|true |
</pre>
 
= Flashing Using TI MFGTools - UUU (Universal Update Utility) =
To flash Android OS without using a recovery SD card, UUU (MFG Tools 3.0) can be used.<br>
Please refer to {{Varlink|Android_UUU_IMX8|{{#var:RELEASE_PARAM|RELEASE_O8.1.0_1.3.0_8M_DART-MX8M}}|Flashing Android OS using UUU - USB Boot}}.
}}
{{#ifeq:{{#var:ANDROID_UUU_LATEST}}|true |
{{Note|'''Note:'''The specific version of UUU is required to use this release, as VID/PIDs have been updated in the u-boot by TI. <br>
Please download/build specific version of UUU on your host machine }}
}}
{{#ifeq:{{#var:ANDROID_M4_SUPPORTED}}|true |
 
= Running a M4 demo =
 
Please choose one of the below options while flashing Android from Linux shell
 
imx8mm-var-dart-dt8mcustomboard-legacy-m4 - Supports LVDS / SD / WiFi (DART-MX8M-MINI-M4 on DT8MCustomBoard 1.x)
imx8mm-var-dart-dt8mcustomboard-m4 - Supports LVDS / SD / WiFi (DART-MX8M-MINI-M4 on DT8MCustomBoard 2.x)
imx8mm-var-som-symphony-legacy-m4 - Supports LVDS / SD / WiFi (VAR-SOM-MX8M-MINI-M4 on a Symphony-Board V1.4 and below)
imx8mm-var-som-symphony-m4 - Supports LVDS / SD / WiFi (VAR-SOM-MX8M-MINI-M4 on a Symphony-Board V1.4A and above)
 
=== Running a demo from Linux ===
 
Boot Android to the shell
 
Increase kernel loglevel while debugging:
 
  sysctl kernel.printk=7;
 
Check the state of the m4, it should be running already by U-Boot
 
cat /sys/class/remoteproc/remoteproc0/state
 
If the state is 'running', stop the m4
 
echo stop > /sys/class/remoteproc/remoteproc0/state
 
Load new firmware (.elf file must already exist in /lib/firmware directory)
 
echo rpmsg_lite_pingpong_rtos_linux_remote.elf > /sys/class/remoteproc/remoteproc0/firmware
 
Change the state to running
 
echo start > /sys/class/remoteproc/remoteproc0/state
 
Copy and run demo module
 
From Host PC
$ adb root
$ adb push {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}/out/target/product/dart_mx8mm/obj/KERNEL_OBJ/drivers/rpmsg/imx_rpmsg_pingpong.ko /data
From device shell
$ su
$ cd /data
$ insmod imx_rpmsg_pingpong.ko
 
=== Running a demo from U-Boot ===
{{#ifeq: {{#var:TI_BSP_VERSION}} | i.MX android-11.0.0_2.4.0 |
Enable below node in -m4.dtsi and re-build images as per "Build Android Images" section and follow the steps described in paragraph "Flashing Android with USB Fastboot" to flash the images
 
  &rpmsg{
        status = "okay";
  };
}}
 
From U-Boot shell execute below commands
 
u-boot=> bootmcu
run command: 'bootaux 0x7e0000'
## Starting auxiliary core stack = 0x20020000, pc = 0x1FFE035D...
u-boot=> run bootcmd
 
Follow steps as described in "Copy and run demo module"
|
}}
{{#ifeq:{{#var:ANDROID_8MP_M7_SUPPORTED}}|true |
 
= Running a M7 demo =
 
Please choose one of the below options while flashing Android from Linux shell
 
imx8mp-var-dart-dt8mcustomboard-legacy-m7.img (Variscite DART-MX8M-PLUS M7 LVDS on DT8MCustomBoard 1.x)
imx8mp-var-dart-dt8mcustomboard-m7.img (Variscite DART-MX8M-PLUS M7 LVDS on DT8MCustomBoard 2.x)
imx8mp-var-som-symphony-2nd-ov5640-m7.img (Variscite VAR-SOM-MX8M-PLUS M7 with 2nd OV5640 on Symphony-Board)
imx8mp-var-som-symphony-m7.img (VAR-SOM-MX8M-PLUS M7 LVDS on Symphony-Board)
 
=== Running a demo from Linux ===
 
Boot Android to the shell
 
Increase kernel loglevel while debugging:
 
  sysctl kernel.printk=7;
 
Check the state of the m7, it should be running already by U-Boot
 
cat /sys/class/remoteproc/remoteproc0/state
 
If the state is 'running', stop the m7
 
echo stop > /sys/class/remoteproc/remoteproc0/state
 
Load new firmware (.elf file must already exist in /lib/firmware directory)
 
echo rpmsg_lite_pingpong_rtos_linux_remote.elf.dart > /sys/class/remoteproc/remoteproc0/firmware OR
echo rpmsg_lite_pingpong_rtos_linux_remote.elf.som > /sys/class/remoteproc/remoteproc0/firmware
 
Change the state to running
 
echo start > /sys/class/remoteproc/remoteproc0/state
 
Copy and run demo module
 
From Host PC
$ adb root
$ adb push {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}/out/target/product/dart_mx8mp/obj/KERNEL_OBJ/drivers/rpmsg/imx_rpmsg_pingpong.ko /data
From device shell
$ su
$ cd /data
$ insmod imx_rpmsg_pingpong.ko
 
=== Running a demo from U-Boot ===
 
Enable below node in -m7.dtsi and re-build images as per "Build Android Images" section and follow the steps described in paragraph "Flashing Android with USB Fastboot" to flash the images
 
  &rpmsg{
        status = "okay";
  };
 
From U-Boot shell execute below commands
 
u-boot=> bootmcu
run command: 'bootaux 0x7e0000'
## Starting auxiliary core stack = 0x20020000, pc = 0x0000051D...
u-boot=> run bootcmd
 
Follow steps as described in "Copy and run demo module"
|
}}
{{#ifeq:{{#var:ANDROID_8M_M4_SUPPORTED}}|true |
 
= Running a M4 demo =
 
Please choose one of the below options while flashing Android from Linux shell
 
imx8mq-var-dart-dt8mcustomboard-legacy-m4-wifi-dp - Variscite DART-MX8M on DT8MCustomBoard 1.x M4+WIFI+DP
imx8mq-var-dart-dt8mcustomboard-legacy-m4-wifi-hdmi - Variscite DART-MX8M on DT8MCustomBoard 1.x M4+WIFI+HDMI
imx8mq-var-dart-dt8mcustomboard-legacy-m4-wifi-lvds-dp - Variscite DART-MX8M on DT8MCustomBoard 1.x M4+WIFI+LVDS
imx8mq-var-dart-dt8mcustomboard-legacy-m4-wifi-lvds-hdmi - Variscite DART-MX8M on DT8MCustomBoard 1.x M4+WIFI+LVDS+HDMI
imx8mq-var-dart-dt8mcustomboard-legacy-m4-wifi-lvds - Variscite DART-MX8M on DT8MCustomBoard 1.x M4+WIFI+LVDS
imx8mq-var-dart-dt8mcustomboard-m4-wifi-hdmi - Variscite DART-MX8M on DT8MCustomBoard 2.x M4+WIFI+HDMI
imx8mq-var-dart-dt8mcustomboard-m4-wifi-lvds-hdmi - Variscite DART-MX8M on DT8MCustomBoard 2.x M4+WIFI+LVDS+HDMI
imx8mq-var-dart-dt8mcustomboard-m4-wifi-lvds - Variscite DART-MX8M on DT8MCustomBoard 2.x M4+WIFI+LVDS
 
=== Running a demo from Linux ===
 
Boot Android to the shell
 
Increase kernel loglevel while debugging:
 
  sysctl kernel.printk=7;
 
Check the state of the m4, it should be running already by U-Boot
 
cat /sys/class/remoteproc/remoteproc0/state
 
If the state is 'running', stop the m4
 
echo stop > /sys/class/remoteproc/remoteproc0/state
 
Load new firmware (.elf file must already exist in /lib/firmware directory)
 
echo cm_rpmsg_lite_pingpong_rtos_linux_remote.elf > /sys/class/remoteproc/remoteproc0/firmware
 
Change the state to running
 
echo start > /sys/class/remoteproc/remoteproc0/state
 
Copy and run demo module
 
From Host PC
$ adb root
$ adb push {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}/out/target/product/dart_mx8mq/obj/KERNEL_OBJ/drivers/rpmsg/imx_rpmsg_pingpong.ko /data
From device shell
$ su
$ cd /data
$ insmod imx_rpmsg_pingpong.ko
 
=== Running a demo from U-Boot ===
 
Enable below node in -m4.dtsi and re-build images as per "Build Android Images" section and follow the steps described in paragraph "Flashing Android with USB Fastboot" to flash the images
 
  &rpmsg{
        status = "okay";
  };
 
From U-Boot shell execute below commands
 
u-boot=> bootmcu
run command: 'bootaux 0x7e0000'
## Starting auxiliary core stack = 0x20020000, pc = 0x1FFE035D...
u-boot=> run bootcmd
 
Follow steps as described in "Copy and run demo module"
|
}}
{{#ifeq:{{#var:ANDROID_8X_M4_SUPPORTED}}|true |
 
= Running a M4 demo =
 
Please choose one of the below options while flashing Android from Linux shell
 
imx8qxp-var-som-symphony-wifi-m4 - Variscite M4 LVDS / WiFi
imx8qxp-var-som-symphony-sd-m4 - Variscite M4 LVDS / SD
 
=== Running a demo from Linux ===
 
Boot Android to the shell
 
Increase kernel loglevel while debugging:
 
  sysctl kernel.printk=7;
 
Check the state of the m4, it should be running already by U-Boot
 
cat /sys/class/remoteproc/remoteproc0/state
 
If the state is 'running', stop the m4
 
echo stop > /sys/class/remoteproc/remoteproc0/state
 
Load new firmware (.elf file must already exist in /lib/firmware directory)
 
echo cm_rpmsg_lite_pingpong_rtos_linux_remote.elf > /sys/class/remoteproc/remoteproc0/firmware
 
Change the state to running
 
echo start > /sys/class/remoteproc/remoteproc0/state
 
Copy and run demo module
 
From Host PC
$ adb root
$ adb push {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}/out/target/product/som_mx8q/obj/KERNEL_OBJ/drivers/rpmsg/imx_rpmsg_pingpong.ko /data
From device shell
$ su
$ cd /data
$ insmod imx_rpmsg_pingpong.ko
|
}}
{{#ifeq:{{#var:ANDROID_8Q_M4_SUPPORTED}}|true |
 
= Running a M4 demo =
 
Please choose one of the below options while flashing Android from Linux shell
 
imx8qm-var-som-dp-m4 - Supports VAR-SOM-MX8QM M4 with DP
imx8qm-var-som-hdmi-m4 - Supports VAR-SOM-MX8QM M4 with HDMI
imx8qm-var-som-lvds-m4 - Supports VAR-SOM-MX8QM M4 with LVDS
imx8qm-var-spear-dp-m4 - Supports VAR-SOM-MX8QM M4 with DP
imx8qm-var-spear-hdmi-m4 - Supports SPEAR-MX8QM M4 with HDMI
imx8qm-var-spear-lvds-m4 - Supports SPEAR-MX8QM M4 with LVDS
imx8qp-var-som-dp-m4 - Supports VAR-SOM-MX8QP M4 with DP
imx8qp-var-som-hdmi-m4 - Supports VAR-SOM-MX8QP M4 with HDMI
imx8qp-var-som-lvds-m4 - Supports VAR-SOM-MX8QP M4 with LVDS
imx8qp-var-spear-dp-m4 - Supports VAR-SOM-MX8QP M4 with DP
imx8qp-var-spear-hdmi-m4 - Supports SPEAR-MX8QP M4 with HDMI
imx8qp-var-spear-lvds-m4 - Supports SPEAR-MX8QP M4 with LVDS
 
=== Running a demo from Linux ===
 
Boot Android to the shell
 
Increase kernel loglevel while debugging:
 
  sysctl kernel.printk=7;
 
Check the state of the m4, it should be running already by U-Boot
 
cat /sys/class/remoteproc/remoteprocX/state
 
If the state is 'running', stop the m4
 
echo stop > /sys/class/remoteproc/remoteprocX/state
 
<span style="color:red">Note:</span> Replace 'X' with 0 or 1.
 
Load new firmware (.elf file must already exist in /lib/firmware directory)
 
echo cm_rpmsg_lite_pingpong_rtos_linux_remote_m4X.elf > /sys/class/remoteproc/remoteproc0/firmware
 
Change the state to running
 
echo start > /sys/class/remoteproc/remoteprocX/state
 
Copy and run demo module
 
From Host PC
$ adb root
$ adb push {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}/out/target/product/som_mx8q/obj/KERNEL_OBJ/drivers/rpmsg/imx_rpmsg_pingpong.ko /data
From device shell
$ su
$ cd /data
$ insmod imx_rpmsg_pingpong.ko
|
}}
{{#ifeq:{{#var:BASLER_ISP0}}|true |
 
= Running Camera app using Basler ISP camera =
Connect basler camera
{{#switch: {{#var:ANDROID_NAME}}
| Android 13 =
Flash any of the following dtbo and vbmeta images depending on your platform
* imx8mp-var-som-symphony-basler-isp0 - Supports Variscite VAR-SOM-MX8M-PLUS with Basler camera on Symphony-Board
* imx8mp-var-dart-dt8mcustomboard-basler-isp0 - Supports Variscite DART-MX8M-PLUS with Basler camera DT8MCustomBoard 2.x
* imx8mp-var-dart-dt8mcustomboard-legacy-basler-isp0 - Supports Variscite DART-MX8M-PLUS with Basler camera DT8MCustomBoard 1.x
<br>
* Note: This requires either device unlocked via fastboot or use UUU or recovery sdcard method to program proper images.
|
Please follow the steps to change the default camera configuration file to support Basler ISP Camera.
Unlock the device as per section 8.3
# boot up the system
adb root
# remount after reboot
adb remount
adb reboot
# boot up the system
adb root
# remount after reboot
adb remount
adb shell cp /vendor/etc/configs/camera_config_imx8mp-basler-isp0.json /vendor/etc/configs/camera_config_imx8mp.json
#reboot
}}
 
Launch Camera application using Basler ISP camera.
}}
{{#ifeq:{{#var:VAR_SOM_MX8MN_RPROC_DEMO}}|true |
 
= Running a M7 demo =
Please choose one of the below options while flashing Android from Linux shell
 
imx8mn-var-som-symphony-m7.img -  (VAR-SOM-MX8M-NANO M7 LVDS on Symphony-Board)
 
== Running a demo from Linux ==
 
Boot Android to the shell
 
Increase kernel loglevel while debugging:
 
$ sysctl kernel.printk=7;
 
Check the state of the m7, it should be running already by U-Boot
 
$ cat /sys/class/remoteproc/remoteproc0/state
 
If the state is 'running', stop the m7
 
$ echo stop > /sys/class/remoteproc/remoteproc0/state
 
Load new firmware (.elf file must already exist in /lib/firmware directory)
 
$ echo cm_rpmsg_lite_pingpong_rtos_linux_remote.elf.debug > /sys/class/remoteproc/remoteproc0/firmware OR
$ echo cm_rpmsg_lite_pingpong_rtos_linux_remote.elf.ddr_debug > /sys/class/remoteproc/remoteproc0/firmware
 
Note: elf.debug uses TCM and elf.ddr_debug uses DDR
 
Change the state to running
 
$ echo start > /sys/class/remoteproc/remoteproc0/state
 
Copy and run demo module
 
From Host PC
$ adb root
$ adb push {{#var:BUILD_FOLDER}}/{{#var:BUILD_FOLDER_ANDROID}}/out/target/product/dart_mx8mn/obj/KERNEL_OBJ/drivers/rpmsg/imx_rpmsg_pingpong.ko /data
From device shell
$ su
$ cd /data
$ insmod imx_rpmsg_pingpong.ko
 
== Running a demo from U-Boot ==
 
You need to flash the firmware "Flashing Android with USB Fastboot" to flash the images
Android comes pre-compiled bin file for cortex-m7 for demo,
cm_rpmsg_lite_pingpong_rtos_linux_remote.bin.debug - TCM - Ping Pong Bin file
cm_rpmsg_lite_pingpong_rtos_linux_remote.bin.ddr_debug - DDR - Pingpong Demo bin file
$ fastboot flash mcu_os <bin file> from above
From U-Boot shell execute below commands after reset, hit enter at u-boot shell,
 
u-boot=> bootmcu
run command: 'bootaux 0x7e0000'
## Starting auxiliary core stack = 0x20020000, pc = 0x0000051D...
u-boot=> run bootcmd
 
Follow steps as described in "Copy and run demo module"
 
|
}}
{{#ifeq:{{#var:ANDROID_PCIE_MODEM_SUPPORTED}}|true |
= Setting up the PCI-E modem =
To add modem to your build follow {{Varlink|DART-MX8M_Android_Modem|{{#var:RELEASE_LINK}}|Modem Integration to Android build}}
}}

Latest revision as of 12:02, 27 May 2024

Warning: This page is designed to be used with a 'release' URL parameter.

This page is using the default release am62-android-13_09.00.00-v1.0.
To view this page for a specific Variscite SoM and software release, please follow these steps:

  1. Visit variwiki.com
  2. Select your SoM
  3. Select the software release
VAR-SOM-AM62 - Android 13-09.00.00 Developer Guide

Introduction

This page describes how to build and deploy Android 13 on the VAR-SOM-AM62. It is based on TI's Android 13-09.00.00 release.

Overview

The objective of this document is to guide VAR-SOM-AM62 Android developers to obtain Android 13 sources, setting up host environment, compilation, and deployment.

This document contains instructions for:

  • Hardware and software requirements.
  • Setup the hardware.
  • Setup the toolchain.
  • Download & build the sources.
  • Install the binaries on the VAR-SOM-AM62 SOM and variants.
  • Making Changes to kernel/configuration and update VAR-SOM-AM62 SOM and variants.

Supported Hardware and Features

Hardware Requirements

You will need the Variscite VAR-SOM-AM62 based evaluation kit.

Host (PC) Setup Requirements

The host development environment for Android is based on Ubuntu, please install one of the following Ubuntu versions:

If you are running Linux in a virtual machine you need at least 16GB of RAM and 32 GB of swap.
The build process requires ~250GB of free storage space of SSD.
Before starting a build, make sure you have adequate free space available.


NOTE: Avoid using Ubuntu releases other than those recommended above.

Variscite offers Docker containers as an alternative for a development environment, which can be used instead of a virtual machine or a dedicated computer.
To learn more, please see Variscite's Docker Build Environment guide.
Windows with WSL/WSL2 is not supported for Android BSP.

Install required packages on host PC

$ sudo apt -y install gnupg flex bison gperf build-essential gcc-multilib g++-multilib
$ sudo apt -y install python3-pyelftools python3-dev python3.6 python2 python-is-python3
$ sudo apt -y install libc6-dev-i386 libncurses5 libncurses5-dev lib32z-dev libz-dev liblz-dev liblzo2-2 liblzo2-dev lzop lz4 cpio
$ sudo apt -y install libgl1-mesa-dev libxml2-utils xsltproc unzip bc libssl-dev ccache curl
$ sudo apt -y install git zip swig mtools uuid uuid-dev zlib1g-dev u-boot-tools lib32z1-dev fontconfig
$ sudo apt -y install mtd-utils device-tree-compiler gdisk m4 dwarves libgnutls28-dev libelf-dev x11proto-core-dev libx11-dev

For Ubuntu 20.04 and above:
The package android-tools-fsutils is obsolete and has been replaced by android-sdk-libsparse-utils.

$ sudo apt -y install android-sdk-libsparse-utils

Configure Git

$ git config --global user.name "Your Name"
$ git config --global user.email "Your Email"

Install the OpenJDK

To install it:

$ sudo apt update
$ sudo apt install openjdk-8-jdk

If your Ubuntu version is missing the package (which shouldn't happen), add the PPA repository and run the previous commands again:

$ sudo add-apt-repository ppa:openjdk-r/ppa

Update the default Java version by running:

$ sudo update-alternatives --config java
$ sudo update-alternatives --config javac

Note: The build process requires about 500GB of free space.


Check Python Version

In the next steps, we will download (from Google repositories) the command repo, used to download all the Android source repositories.


Certain tools like bpttools requires python2 which is not available default on Ubuntu 20.04 or 22.04 LTS.
Ubuntu 20.04/22.04 LTS users can install it running

$ sudo apt install software-properties-common
$ sudo add-apt-repository ppa:deadsnakes/ppa
$ sudo apt update
$ sudo apt install python3.6 python2
Make sure you use latest repo tool for all bug fixes

Obtain Source Code

Variscite's Linux kernel and U-Boot are available through Github. Required patches for the Android file system are pre-installed

Download Google Repo Tool

$ mkdir -p ~/bin
$ curl -o ~/bin/repo https://commondatastorage.googleapis.com/git-repo-downloads/repo
$ chmod a+x ~/bin/repo
$ export PATH=~/bin:$PATH

Clone Variscite's U-Boot and Linux kernel Sources

$ mkdir ~/var_aosp_ti-13_09_00_00 && cd $_
$ export YOUR_PATH=$PWD
$ mkdir -p ${YOUR_PATH}/ti-bootloader-aosp/ && cd $_
$ repo init -u https://github.com/varigit/variscite-bsp-platform.git -b ti-android-13.0.0_r62-var01 -m RLS_09_00_Bootloader.xml
$ repo sync -j$(nproc)
$ mkdir -p ${YOUR_PATH}/ti-kernel-aosp/ && cd $_
$ repo init -u https://github.com/varigit/variscite-bsp-platform.git -b ti-android-13.0.0_r62-var01 -m RLS_09_00_Kernel.xml
$ repo sync -j$(nproc)

Clone Variscite's AOSP Sources

$ mkdir -p ${YOUR_PATH}/ti-aosp-13 && cd $_
$ repo init -u https://github.com/varigit/variscite-bsp-platform.git -b ti-android-13.0.0_r62-var01 -m RLS_09_00.xml
$ repo sync -j$(nproc)

Apply Variscite's platforms patches and install toolchains

$ cd ${YOUR_PATH}/ti-aosp-13/device
$ variscite/scripts/install.sh

Build Bootloader Components

Export Toolchains and setup paths

$ export PATH=$PATH:${YOUR_PATH}/ti-bootloader-aosp/toolchain//bin:${YOUR_PATH}/ti-bootloader-aosp/toolchain//bin
$ export G_ATF_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/arm-trusted-firmware"
$ export G_OPTEE_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/optee_os"
$ export G_CORE_LINUX_FIRMWARE_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/ti-linux-firmware"
$ export G_UBOOT_SRC_DIR="${YOUR_PATH}/ti-bootloader-aosp/ti-u-boot"
$ export G_UBOOT_DEF_CONFIG_R="am62x_var_som_r5_defconfig"
$ export G_UBOOT_DEF_CONFIG_A="am62x_var_som_a53_defconfig"

Building ARM Trusted Firmware (ATF)

$ cd ${G_ATF_SRC_DIR}
$ make distclean
$ make -j$(nproc) E=0 CROSS_COMPILE=aarch64-none-linux-gnu- ARCH=aarch64 PLAT=k3 TARGET_BOARD=lite SPD=opteed CFLAGS+="-DK3_PM_SYSTEM_SUSPEND=1"

Building OP-TEE OS

$ cd ${G_OPTEE_SRC_DIR}
$ make clean && rm -rf out
$ make -j$(nproc) PLATFORM=k3 CFG_ARM64_core=y CROSS_COMPILE=arm-none-linux-gnueabihf- CROSS_COMPILE64=aarch64-none-linux-gnu-

Building U-Boot for R5 Core

$ cd ${G_UBOOT_SRC_DIR}
$ make mrproper
$ make -C ${G_UBOOT_SRC_DIR} mrproper
$ make ARCH=arm CROSS_COMPILE=arm-none-linux-gnueabihf- ${G_UBOOT_DEF_CONFIG_R} O=${G_UBOOT_SRC_DIR}/out/r5
$ make -j$(nproc) ARCH=arm CROSS_COMPILE=arm-none-linux-gnueabihf- BINMAN_INDIRS=${G_CORE_LINUX_FIRMWARE_SRC_DIR} O=${G_UBOOT_SRC_DIR}/out/r5

Building U-Boot for A53 Core with Android

$ cd ${G_UBOOT_SRC_DIR}
$ make mrproper
$ make ARCH=arm CROSS_COMPILE=aarch64-none-linux-gnu- ${G_UBOOT_DEF_CONFIG_A} O=${G_UBOOT_SRC_DIR}/out/a53
$ make ARCH=arm CROSS_COMPILE=aarch64-none-linux-gnu- am62x_android_a53.config O=${G_UBOOT_SRC_DIR}/out/a53
$ make -j$(nproc) ARCH=arm CROSS_COMPILE=aarch64-none-linux-gnu- \
      BL31=${G_ATF_SRC_DIR}/build/k3/lite/release/bl31.bin \
      TEE=${G_OPTEE_SRC_DIR}/out/arm-plat-k3/core/tee-pager_v2.bin \
      BINMAN_INDIRS=${G_CORE_LINUX_FIRMWARE_SRC_DIR} O=${G_UBOOT_SRC_DIR}/out/a53

Copying Bootloader Images to AOSP Build

$ cp ${G_UBOOT_SRC_DIR}/out/r5/tiboot3-am62x-hs-fs-am62x-var-som.bin ${YOUR_PATH}/ti-aosp-13/vendor/ti/am62x/bootloader/am62x-sk/tiboot3-hsfs.bin
$ cp ${G_UBOOT_SRC_DIR}/out/r5/tiboot3-am62x-gp-am62x-var-som.bin ${YOUR_PATH}/ti-aosp-13/vendor/ti/am62x/bootloader/am62x-sk/tiboot3.bin
$ cp ${G_UBOOT_SRC_DIR}/out/a53/tispl.bin ${G_UBOOT_SRC_DIR}/out/a53/u-boot.img ${YOUR_PATH}/ti-aosp-13/vendor/ti/am62x/bootloader/am62x-sk/

Building the Kernel Image

$ cd ${YOUR_PATH}/ti-kernel-aosp/
$ export DIST_DIR=${YOUR_PATH}/ti-aosp-13/device/ti/am62x-kernel/kernel/6.1
$ tools/bazel run //common:ti_dist -- --dist_dir=$DIST_DIR

Note: The building process using the bazel tool is not a standard kernel build process, unlike make/soong. Google has published the guideline and package GKI bazel build, refer to https://source.android.com/docs/core/architecture/kernel/generic-kernel-image for more details.

To re-build Kernel fast for changes from the previous full build

$ tools/bazel run --config=fast //common:ti_dist -- --dist_dir=$DIST_DIR

Build Android Images

Change to Android top level directory.

$ cd ${YOUR_PATH}/ti-aosp-13
$ source build/envsetup.sh
$ lunch am62x_var_som-userdebug

or

$ lunch am62x_var_som-user

Note: userdebug build creates a debuggable version of Android.
           user build creates a production version of Android.

Build Android File System

Switching from eMMC build to SD card build and vice versa

  • For eMMC boot
$ m TARGET_AVB_ENABLE=true -j$(nproc) 2>&1 | tee build-emmc.log
  • For SD boot
$ m TARGET_AVB_ENABLE=true TARGET_SDCARD_BOOT=true -j$(nproc) 2>&1 | tee build-sd.log

Images created by the Android build

The resulted images are located in out/target/product/am62x_var_som.


Boot options

Boot options of the Android:
1. U-Boot boots from on-SOM eMMC
2. Directly from SD card (Requires separate build for AOSP images.)


Flash and boot Android from SD card

Create a bootable SD card

$ cd out/target/product/am62x_var_som
$ simg2img super.img super_raw.img
$ gzip super_raw.img
$ cd ${YOUR_PATH}/ti-aosp-13
$ sudo ./device/variscite/scripts/sh/var-mksdcard.sh /dev/sdX; sync
  • Replace /dev/sdX with your true device, You can identify it with dmesg.

Boot From SD card

Make sure the BOOT SELECT DIP switch on the carrier board is set correctly before you power on the board.

 $ SW3
 $ 0 : Boot from SD card
 $ 1 : Boot from eMMC

Flash and boot Android from eMMC

Flashing Android from Linux shell (when the primary installation android)

An example of flashing eMMC, can be found here.

Follow the following steps instructions above:

1. Preparing a rescue SD card;

2. Flash from command line (use the install_android.sh script)


Flashing Android with USB Fastboot

Install tools on host

$ sudo apt-get install android-tools-adb android-tools-fastboot

Note: Make sure you built Android for eMMC
Connect the target with host PC at fastboot mode:

  1. Connect a USB OTG cable from the target board OTG port to a your host machine USB HOST port.
  2. Power up the board and hit return/space to stop the boot at U-Boot.
  3. type fastboot 0 in the U-Boot command line.

On the Host PC:


Update Android firmware

Generate OTA packages

For generating "OTA" packages, use the following commands:
$ cd ${YOUR_PATH}/ti-aosp-13
$ source build/envsetup.sh 
$ lunch PRODUCT=am62x_var_som-userdebug
$ m TARGET_AVB_ENABLE=true -j$(nproc) otapackage
Install OTA package to device:
  • Extract payload.bin and payload_properties.txt from OTA zip file
  • Push payload.bin to board's /data/ota_package dir: adb push payload.bin /data/ota_package/ .
  • Open payload_properties.txt on an editor to copy its content, lets suppose it's like in the TI manual:
 FILE_HASH=wuBhu49k3pCmQmMl8S/n2NRm1he3A+IHshcQiOfCKc4=
 FILE_SIZE=501067958
 METADATA_HASH=qPWe72T37KgJtyJhuKSlNkFm1NflKFnLy+An4GnoXyA=
 METADATA_SIZE=31967
  • Input the following command on the board's console to update:
 su
 setenforce 0
 update_engine_client --payload=file:///data/ota_package/payload.bin --update --headers="FILE_HASH=wuBhu49k3pCmQmMl8S/n2NRm1he3A+IHshcQiOfCKc4=
 FILE_SIZE=501067958
 METADATA_HASH=qPWe72T37KgJtyJhuKSlNkFm1NflKFnLy+An4GnoXyA=
 METADATA_SIZE=31967"

Make sure that the -- header equals to the exact content of payload_properties.txt without "space" or "return" character.

After issuing the command, nothing seems to happen on the device, but you can monitor logcat for operation progress.

 logcat | grep update_engine

After a successful update, you can reboot into the updated version (_b/_a) slot.

Manual operations

Build boot.img

When you perform changes to the kernel, you may build boot.img solely instead of building the whole Android.

$ cd ${YOUR_PATH}/ti-kernel-aosp/
$ export DIST_DIR=${YOUR_PATH}/ti-aosp-13/device/ti/am62x-kernel/kernel/6.1
$ tools/bazel run --lto=full //common:ti_dist -- --dist_dir=$DIST_DIR
$ cd ${YOUR_PATH}/ti-aosp-13
$ lunch am62x_var_som-userdebug
$ m

Menu Config

$ cd ${YOUR_PATH}/ti-kernel-aosp/
$ tools/bazel run //common:ti_config -- menuconfig

Porting Drivers Notes

  • Actual Kernel source code is in ${YOUR_PATH}/ti-kernel-aosp/common
  • Defconfig Used in the kernel is from Google: ${YOUR_PATH}/ti-kernel-aosp/common/arch/arm64/configs/gki_defconfig
  • All drivers and SOC infrastructure is via modules and is setup by: ${YOUR_PATH}/ti-kernel-aosp/common/arch/arm64/configs/ti_gki.fragment
  • Your driver/ kernel module .ko must be added to GKI module list
 
    module_outs = COMMON_GKI_MODULES_LIST + [
     "net/wireless/your_module.ko",    
     "drivers/spi/your_driver.ko",
    ]
  • Your driver module dependencies must be resolved and must align cd ${YOUR_PATH}/ti-aosp-13/device/variscite/am62x_var_som/BoardConfig.mk

with following

BOARD_VENDOR_RAMDISK_KERNEL_MODULES += \
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/zsmalloc.ko \
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/zram.ko \
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/ti-msgmgr.ko \
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/ti_sci.ko \
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/ti_sci_pm_domains.ko \
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/phy-omap-usb2.ko \
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/syscon-clk.ko \
                 |                                   |
                 |                                   |
        device/ti/am62x-kernel/kernel/$(TARGET_KERNEL_USE)/your_driver.ko