mirror of
https://github.com/AsahiLinux/u-boot
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08df746dd1
Add link to the actual platform for folks to find details about the board in addition to the SoC's TRM. Signed-off-by: Nishanth Menon <nm@ti.com>
289 lines
7.4 KiB
ReStructuredText
289 lines
7.4 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+ OR BSD-3-Clause
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.. sectionauthor:: Neha Francis <n-francis@ti.com>
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AM65x Platforms
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===============
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Introduction:
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-------------
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The AM65x family of SoCs is the first device family from K3 Multicore
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SoC architecture, targeted for broad market and industrial control with
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aim to meet the complex processing needs of modern embedded products.
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The device is built over three domains, each containing specific processing
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cores, voltage domains and peripherals:
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1. Wake-up (WKUP) domain:
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* Device Management and Security Controller (DMSC)
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2. Microcontroller (MCU) domain:
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* Dual Core ARM Cortex-R5F processor
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3. MAIN domain:
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* Quad core 64-bit ARM Cortex-A53
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More info can be found in TRM: http://www.ti.com/lit/pdf/spruid7
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Platform information:
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* https://www.ti.com/tool/TMDX654GPEVM
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Boot Flow:
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----------
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On AM65x family devices, ROM supports boot only via MCU(R5). This means that
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bootloader has to run on R5 core. In order to meet this constraint, and for
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the following reasons the boot flow is designed as mentioned:
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1. Need to move away from R5 asap, so that we want to start *any*
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firmware on the R5 cores for example autosar can be loaded to receive CAN
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response and other safety operations to be started. This operation is
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very time critical and is applicable for all automotive use cases.
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2. U-Boot on A53 should start other remotecores for various
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applications. This should happen before running Linux.
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3. In production boot flow, we might not like to use full U-Boot,
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instead use Falcon boot flow to reduce boot time.
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.. image:: img/boot_diagram_am65.svg
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- Here DMSC acts as master and provides all the critical services. R5/A53
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requests DMSC to get these services done as shown in the above diagram.
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Sources:
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--------
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_boot_sources
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:end-before: .. k3_rst_include_end_boot_sources
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Build procedure:
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----------------
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0. Setup the environment variables:
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_common_env_vars_desc
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:end-before: .. k3_rst_include_end_common_env_vars_desc
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_board_env_vars_desc
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:end-before: .. k3_rst_include_end_board_env_vars_desc
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Set the variables corresponding to this platform:
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_common_env_vars_defn
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:end-before: .. k3_rst_include_end_common_env_vars_defn
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.. code-block:: bash
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$ export UBOOT_CFG_CORTEXR=am65x_evm_r5_defconfig
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$ export UBOOT_CFG_CORTEXA=am65x_evm_a53_defconfig
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$ export TFA_BOARD=generic
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$ # we dont use any extra TFA parameters
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$ unset TFA_EXTRA_ARGS
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$ export OPTEE_PLATFORM=k3-am65x
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$ # we dont use any extra OP-TEE parameters
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$ unset OPTEE_EXTRA_ARGS
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.. am65x_evm_rst_include_start_build_steps
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1. Trusted Firmware-A:
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_build_steps_tfa
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:end-before: .. k3_rst_include_end_build_steps_tfa
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2. OP-TEE:
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_build_steps_optee
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:end-before: .. k3_rst_include_end_build_steps_optee
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3. U-Boot:
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* 4.1 R5:
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_build_steps_spl_r5
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:end-before: .. k3_rst_include_end_build_steps_spl_r5
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* 4.2 A53:
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.. include:: k3.rst
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:start-after: .. k3_rst_include_start_build_steps_uboot
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:end-before: .. k3_rst_include_end_build_steps_uboot
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.. am65x_evm_rst_include_end_build_steps
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Target Images
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--------------
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In order to boot we need tiboot3.bin, sysfw.itb, tispl.bin and u-boot.img.
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Each SoC variant (GP and HS) requires a different source for these files.
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- GP
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* tiboot3-am65x_sr2-gp-evm.bin, sysfw-am65x_sr2-gp-evm.itb from step 4.1
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* tispl.bin_unsigned, u-boot.img_unsigned from step 4.2
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- HS
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* tiboot3-am65x_sr2-hs-evm.bin, sysfw-am65x_sr2-hs-evm.itb from step 4.1
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* tispl.bin, u-boot.img from step 4.2
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Image formats:
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--------------
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- tiboot3.bin
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.. image:: img/no_multi_cert_tiboot3.bin.svg
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- tispl.bin
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.. image:: img/nodm_tispl.bin.svg
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- sysfw.itb
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.. image:: img/sysfw.itb.svg
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eMMC:
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-----
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ROM supports booting from eMMC from boot0 partition offset 0x0
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Flashing images to eMMC:
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The following commands can be used to download tiboot3.bin, tispl.bin,
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u-boot.img, and sysfw.itb from an SD card and write them to the eMMC boot0
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partition at respective addresses.
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.. code-block:: text
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=> mmc dev 0 1
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=> fatload mmc 1 ${loadaddr} tiboot3.bin
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=> mmc write ${loadaddr} 0x0 0x400
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=> fatload mmc 1 ${loadaddr} tispl.bin
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=> mmc write ${loadaddr} 0x400 0x1000
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=> fatload mmc 1 ${loadaddr} u-boot.img
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=> mmc write ${loadaddr} 0x1400 0x2000
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=> fatload mmc 1 ${loadaddr} sysfw.itb
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=> mmc write ${loadaddr} 0x3600 0x800
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To give the ROM access to the boot partition, the following commands must be
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used for the first time:
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.. code-block:: text
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=> mmc partconf 0 1 1 1
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=> mmc bootbus 0 1 0 0
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To create a software partition for the rootfs, the following command can be
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used:
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.. code-block:: text
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=> gpt write mmc 0 ${partitions}
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eMMC layout:
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.. image:: img/emmc_am65x_evm_boot0.svg
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Kernel image and DT are expected to be present in the /boot folder of rootfs.
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To boot kernel from eMMC, use the following commands:
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.. code-block:: text
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=> setenv mmcdev 0
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=> setenv bootpart 0
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=> boot
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OSPI:
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-----
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ROM supports booting from OSPI from offset 0x0.
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Flashing images to OSPI:
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Below commands can be used to download tiboot3.bin, tispl.bin, u-boot.img,
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and sysfw.itb over tftp and then flash those to OSPI at their respective
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addresses.
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.. code-block:: text
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=> sf probe
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=> tftp ${loadaddr} tiboot3.bin
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=> sf update $loadaddr 0x0 $filesize
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=> tftp ${loadaddr} tispl.bin
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=> sf update $loadaddr 0x80000 $filesize
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=> tftp ${loadaddr} u-boot.img
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=> sf update $loadaddr 0x280000 $filesize
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=> tftp ${loadaddr} sysfw.itb
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=> sf update $loadaddr 0x6C0000 $filesize
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Flash layout for OSPI:
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.. image:: img/ospi_sysfw.svg
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Kernel Image and DT are expected to be present in the /boot folder of UBIFS
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ospi.rootfs just like in SD card case. U-Boot looks for UBI volume named
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"rootfs" for rootfs.
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To boot kernel from OSPI, at the U-Boot prompt:
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.. code-block:: text
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=> setenv boot ubi
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=> boot
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UART:
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-----
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ROM supports booting from MCU_UART0 via X-Modem protocol. The entire UART-based
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boot process up to U-Boot (proper) prompt goes through different stages and uses
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different UART peripherals as follows:
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.. list-table:: ROM UART Boot Responsibilities
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:widths: 16 16 16 16
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:header-rows: 1
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* - Who
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- Loading What
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- Hardware Module
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- Protocol
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* - Boot ROM
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- tiboot3.bin
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- MCU_UART0
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- X-Modem(*)
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* - R5 SPL
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- sysfw.itb
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- MCU_UART0
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- Y-Modem(*)
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* - R5 SPL
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- tispl.bin
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- MAIN_UART0
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- Y-Modem
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* - A53 SPL
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- u-boot.img
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- MAIN_UART0
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- Y-Modem
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Note that in addition to X/Y-Modem related protocol timeouts the DMSC
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watchdog timeout of 3min (typ.) needs to be observed until System Firmware
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is fully loaded (from sysfw.itb) and started.
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Example bash script sequence for running on a Linux host PC feeding all boot
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artifacts needed to the device:
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.. code-block:: text
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MCU_DEV=/dev/ttyUSB1
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MAIN_DEV=/dev/ttyUSB0
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stty -F $MCU_DEV 115200 cs8 -cstopb -parenb
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stty -F $MAIN_DEV 115200 cs8 -cstopb -parenb
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sb --xmodem tiboot3.bin > $MCU_DEV < $MCU_DEV
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sb --ymodem sysfw.itb > $MCU_DEV < $MCU_DEV
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sb --ymodem tispl.bin > $MAIN_DEV < $MAIN_DEV
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sleep 1
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sb --xmodem u-boot.img > $MAIN_DEV < $MAIN_DEV
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