| .. SPDX-License-Identifier: GPL-2.0+ OR BSD-3-Clause |
| .. sectionauthor:: Nishanth Menon <nm@ti.com> |
| |
| J721E/TDA4VM Beagleboard.org BeagleBone AI-64 |
| ============================================= |
| |
| Introduction: |
| ------------- |
| |
| BeagleBoard.org BeagleBone AI-64 is an open source hardware single |
| board computer based on the Texas Instruments TDA4VM SoC featuring |
| dual-core 2.0GHz Arm Cortex-A72 processor, C7x+MMA and 2 C66x |
| floating-point VLIW DSPs, 3x dual ARM Cortex-R5 co-processors, |
| 2x 6-core Programmable Real-Time Unit and Industrial Communication |
| SubSystem, PowerVR Rogue 8XE GE8430 3D GPU. The board features 4GB |
| DDR4, USB3.0 Type-C, 2x USB SS Type-A, miniDisplayPort, 2x 4-lane |
| CSI, DSI, 16GB eMMC flash, 1G Ethernet, M.2 E-key for WiFi/BT, and |
| BeagleBone expansion headers. |
| |
| Further information can be found at: |
| |
| * Product Page: https://beagleboard.org/ai-64 |
| * Hardware documentation: https://git.beagleboard.org/beagleboard/beaglebone-ai-64 |
| |
| Boot Flow: |
| ---------- |
| Below is the pictorial representation of boot flow: |
| |
| .. image:: ../ti/img/boot_diagram_j721e.svg |
| :alt: Boot flow diagram |
| |
| - On this platform, DMSC runs 'TI Foundational Security' (TIFS) which |
| functions as the security enclave master. The 'Device Manager' (DM), |
| also known as the 'TISCI server' in "TI terminology", running on boot |
| R5F, offers all the essential services required for device management. |
| The A72, C7x, C6x or R5F (Aux cores) sends requests to TIFS/DM to |
| accomplish the needed services, as illustrated in the diagram above. |
| |
| Sources: |
| -------- |
| .. include:: ../ti/k3.rst |
| :start-after: .. k3_rst_include_start_boot_sources |
| :end-before: .. k3_rst_include_end_boot_sources |
| |
| Build procedure: |
| ---------------- |
| 0. Setup the environment variables: |
| |
| .. include:: ../ti/k3.rst |
| :start-after: .. k3_rst_include_start_common_env_vars_desc |
| :end-before: .. k3_rst_include_end_common_env_vars_desc |
| |
| .. include:: ../ti/k3.rst |
| :start-after: .. k3_rst_include_start_board_env_vars_desc |
| :end-before: .. k3_rst_include_end_board_env_vars_desc |
| |
| Set the variables corresponding to this platform: |
| |
| .. include:: ../ti/k3.rst |
| :start-after: .. k3_rst_include_start_common_env_vars_defn |
| :end-before: .. k3_rst_include_end_common_env_vars_defn |
| .. prompt:: bash $ |
| |
| export UBOOT_CFG_CORTEXR=j721e_beagleboneai64_r5_defconfig |
| export UBOOT_CFG_CORTEXA=j721e_beagleboneai64_a72_defconfig |
| export TFA_BOARD=generic |
| # we dont use any extra TFA parameters |
| unset TFA_EXTRA_ARGS |
| export OPTEE_PLATFORM=k3-j721e |
| # we dont use any extra OP-TEE parameters |
| unset OPTEE_EXTRA_ARGS |
| |
| .. include:: ../ti/j721e_evm.rst |
| :start-after: .. j721e_evm_rst_include_start_build_steps |
| :end-before: .. j721e_evm_rst_include_end_build_steps |
| |
| Target Images |
| -------------- |
| Copy the below images to an SD card and boot: |
| |
| * tiboot3-j721e-gp-evm.bin from R5 build as tiboot3.bin |
| * tispl.bin_unsigned from Cortex-A build as tispl.bin |
| * u-boot.img_unsigned from Cortex-A build as u-boot.img |
| |
| Image formats |
| ------------- |
| |
| - tiboot3.bin |
| |
| .. image:: ../ti/img/no_multi_cert_tiboot3.bin.svg |
| :alt: tiboot3.bin image format |
| |
| - tispl.bin |
| |
| .. image:: ../ti/img/dm_tispl.bin.svg |
| :alt: tispl.bin image format |
| |
| - sysfw.itb |
| |
| .. image:: ../ti/img/sysfw.itb.svg |
| :alt: sysfw.itb image format |
| |
| Additional hardware for U-Boot development |
| ------------------------------------------ |
| |
| * Serial Console is critical for U-Boot development on BeagleBone AI-64. See |
| `BeagleBone AI-64 connector documentation |
| <https://docs.beagleboard.org/latest/boards/beaglebone/ai-64/ch07.html>`_. |
| * uSD is preferred option over eMMC, and a SD/MMC reader will be needed. |
| * (optionally) JTAG is useful when working with very early stages of boot. |
| |
| Default storage options |
| ----------------------- |
| |
| There are multiple storage media options on BeagleBone AI-64, but primarily: |
| |
| * Onboard eMMC (default) - reliable, fast and meant for deployment use. |
| * SD/MMC card interface (hold 'BOOT' switch and power on) - Entirely |
| depends on the SD card quality. |
| |
| Flash to uSD card or how to deal with "bricked" Board |
| -------------------------------------------------------- |
| |
| When deploying or working on Linux, it's common to use the onboard |
| eMMC. However, avoiding the eMMC and using the uSD card is safer when |
| working with U-Boot. |
| |
| If you choose to hand format your own bootable uSD card, be |
| aware that it can be difficult. The following information |
| may be helpful, but remember that it is only sometimes |
| reliable, and partition options can cause issues. These |
| can potentially help: |
| |
| * https://git.ti.com/cgit/arago-project/tisdk-setup-scripts/tree/create-sdcard.sh |
| * https://elinux.org/Beagleboard:Expanding_File_System_Partition_On_A_microSD |
| |
| The simplest option is to start with a standard distribution |
| image like those in `BeagleBoard.org Distros Page |
| <https://www.beagleboard.org/distros>`_ and download a disk image for |
| BeagleBone AI-64. Pick a 16GB+ uSD card to be on the safer side. |
| |
| With an SD/MMC Card reader and `Balena Etcher |
| <https://etcher.balena.io/>`_, having a functional setup in minutes is |
| a trivial matter, and it works on almost all Host Operating Systems. |
| Yes Windows users, Windows Subsystem for Linux(WSL) based development |
| with U-Boot and update uSD card is practical. |
| |
| Updating U-Boot is a matter of copying the tiboot3.bin, tispl.bin and |
| u-boot.img to the "BOOT" partition of the uSD card. Remember to sync |
| and unmount (or Eject - depending on the Operating System) the uSD |
| card prior to physically removing from SD card reader. |
| |
| Also see following section on switch setting used for booting using |
| uSD card. |
| |
| .. note:: |
| Great news! If the board has not been damaged physically, there's no |
| need to worry about it being "bricked" on this platform. You only have |
| to flash an uSD card, plug it in, and reinstall the image on eMMC. This |
| means that even if you make a mistake, you can quickly fix it and rest |
| easy. |
| |
| If you are frequently working with uSD cards, you might find the |
| following useful: |
| |
| * `USB-SD-Mux <https://www.linux-automation.com/en/products/usb-sd-mux.html>`_ |
| * `SD-Wire <https://wiki.tizen.org/SDWire>`_ |
| |
| Flash to eMMC |
| ------------- |
| |
| The eMMC layout selected is user-friendly for developers. The |
| boot hardware partition of the eMMC only contains the fixed-size |
| tiboot3.bin image. This is because the contents of the boot partitions |
| need to run from the SoC's internal SRAM, which remains a fixed size |
| constant. The other components of the boot sequence, such as tispl.bin |
| and u-boot.img, are located in the /BOOT partition in the User Defined |
| Area (UDA) hardware partition of the eMMC. These components can vary |
| significantly in size. The choice of keeping tiboot3.bin in boot0 or |
| boot1 partition depends on A/B update requirements. |
| |
| .. image:: img/beagleplay_emmc.svg |
| :alt: eMMC partitions and boot file organization for BeagleBone AI-64 |
| |
| The following are the steps from Linux shell to program eMMC: |
| |
| .. prompt:: bash # |
| |
| # Enable Boot0 boot |
| mmc bootpart enable 1 2 /dev/mmcblk0 |
| mmc bootbus set single_backward x1 x8 /dev/mmcblk0 |
| mmc hwreset enable /dev/mmcblk0 |
| |
| # Clear eMMC boot0 |
| echo '0' >> /sys/class/block/mmcblk0boot0/force_ro |
| dd if=/dev/zero of=/dev/mmcblk0boot0 count=32 bs=128k |
| # Write tiboot3.bin |
| dd if=tiboot3.bin of=/dev/mmcblk0boot0 bs=128k |
| |
| # Copy the rest of the boot binaries |
| mount /dev/mmcblk0p1 /boot/firmware |
| cp tispl.bin /boot/firmware |
| cp u-boot.img /boot/firmware |
| sync |
| |
| .. warning :: |
| |
| U-Boot is configured to prioritize booting from an SD card if it |
| detects a valid boot partition and boot files on it, even if the |
| system initially booted from eMMC. The boot order is set as follows: |
| |
| * SD/MMC |
| * eMMC |
| * USB |
| * PXE |
| |
| LED patterns during boot |
| ------------------------ |
| |
| .. list-table:: USR LED status indication |
| :widths: 16 16 |
| :header-rows: 1 |
| |
| * - USR LEDs (012345) |
| - Indicates |
| |
| * - 00000 |
| - Boot failure or R5 image not started up |
| |
| * - 11111 |
| - A53 SPL/U-boot has started up |
| |
| * - 10101 |
| - OS boot process has been initiated |
| |
| * - 01010 |
| - OS boot process failed and drops to U-Boot shell |
| |
| .. note :: |
| |
| In the table above, 0 indicates LED switched off and 1 indicates LED |
| switched ON. |
| |
| .. warning :: |
| |
| The green LED very next to the serial connector labelled "WKUP UART0" |
| is the power LED (LED6). This is the same color as the rest of the USR |
| LEDs. If the "green" LED6 power LED is not glowing, the system power |
| supply is not functional. Please refer to `BeagleBone AI-64 documentation |
| <https://beagleboard.org/ai-64/>`_ for further information. |
| |
| Switch Setting for Boot Mode |
| ---------------------------- |
| |
| The boot time option is configured via "BOOT" button on the board. |
| See `BeagleBone AI-64 Schematics <https://git.beagleboard.org/beagleboard/beaglebone-ai-64/-/blob/main/BeagleBone_AI-64_SCH.pdf>`_ |
| for details. |
| |
| .. list-table:: Boot Modes |
| :widths: 16 16 16 |
| :header-rows: 1 |
| |
| * - BOOT Switch Position |
| - Primary Boot |
| - Secondary Boot |
| |
| * - Not Pressed |
| - eMMC |
| - SD Card |
| |
| * - Pressed |
| - SD Card |
| - SD Card |
| |
| To switch to SD card boot mode, hold the BOOT button while powering on |
| with Type-C power supply, then release when power LED lights up. |
| |
| Debugging U-Boot |
| ---------------- |
| |
| See :ref:`Common Debugging environment - OpenOCD<k3_rst_refer_openocd>`: for |
| detailed setup and debugging information. |
| |
| .. warning:: |
| |
| **OpenOCD support since**: v0.12.0 |
| |
| If the default package version of OpenOCD in your development |
| environment's distribution needs to be updated, it might be necessary to |
| build OpenOCD from the source. |
| |
| .. include:: ../ti/k3.rst |
| :start-after: .. k3_rst_include_start_openocd_connect_tag_connect |
| :end-before: .. k3_rst_include_end_openocd_connect_tag_connect |
| |
| .. include:: ../ti/k3.rst |
| :start-after: .. k3_rst_include_start_openocd_cfg_external_intro |
| :end-before: .. k3_rst_include_end_openocd_cfg_external_intro |
| |
| For example, with BeagleBone AI-64 (J721e platform), the openocd_connect.cfg: |
| |
| .. code-block:: tcl |
| |
| # TUMPA example: |
| # http://www.tiaowiki.com/w/TIAO_USB_Multi_Protocol_Adapter_User's_Manual |
| source [find interface/ftdi/tumpa.cfg] |
| |
| transport select jtag |
| |
| # default JTAG configuration has only SRST and no TRST |
| reset_config srst_only srst_push_pull |
| |
| # delay after SRST goes inactive |
| adapter srst delay 20 |
| |
| if { ![info exists SOC] } { |
| # Set the SoC of interest |
| set SOC j721e |
| } |
| |
| source [find target/ti_k3.cfg] |
| |
| ftdi tdo_sample_edge falling |
| |
| # Speeds for FT2232H are in multiples of 2, and 32MHz is tops |
| # max speed we seem to achieve is ~20MHz.. so we pick 16MHz |
| adapter speed 16000 |