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https://github.com/AsahiLinux/u-boot
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doc: board: ti: Use prompt prompt_style to simplify documentation
The sphinx-prompt documentation[0] provides examples on how we can use prompt as a parameter to simplify the description. Use the same. While at it, ensure to make all relevant prompts clarified such as gdb prompts. [0] http://sbrunner.github.io/sphinx-prompt/ Signed-off-by: Nishanth Menon <nm@ti.com> Signed-off-by: Heinrich Schuchardt <heinrich.schuchardt@canonical.com>
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4 changed files with 41 additions and 60 deletions
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@ -84,8 +84,7 @@ bootable image was not created.
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Within the SECDEV package exists an image creation script:
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.. prompt:: bash
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:prompts: $
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.. prompt:: bash $
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${TI_SECURE_DEV_PKG}/scripts/create-boot-image.sh
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@ -97,8 +96,7 @@ possible.
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The script is basically the only required interface to the TI SECDEV
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package for creating a bootable SPL image for secure TI devices.
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.. prompt:: bash
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:prompts: $
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.. prompt:: bash $
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create-boot-image.sh \
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<IMAGE_FLAG> <INPUT_FILE> <OUTPUT_FILE> <SPL_LOAD_ADDR>
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@ -184,8 +182,7 @@ The exact details of the how the images are secured is handled by the
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SECDEV package. Within the SECDEV package exists a script to process
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an input binary image:
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.. prompt:: bash
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:prompts: $
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.. prompt:: bash $
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${TI_SECURE_DEV_PKG}/scripts/secure-binary-image.sh
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@ -206,8 +203,7 @@ only accessible when the ARM core is operating in the secure mode).
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Invoking the secure-binary-image script for Secure Devices
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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.. prompt:: bash
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:prompts: $
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.. prompt:: bash $
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secure-binary-image.sh <INPUT_FILE> <OUTPUT_FILE>
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@ -247,8 +243,7 @@ into memory, then written to NAND.
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2. Flashing NAND via MMC/SD
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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# select BOOTSEL to MMC/SD boot and boot from MMC/SD card
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mmc rescan
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@ -334,8 +329,7 @@ had a FAT partition (such as on a Beaglebone Black) it is not enough to
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write garbage into the area, you must delete it from the partition table
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first.
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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# Ensure we are able to talk with this mmc device
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mmc rescan
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@ -366,8 +360,7 @@ the FAT filesystem (only the uImage MUST be for this to function
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afterwards) along with a Falcon Mode aware MLO and the FAT partition has
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already been created and marked bootable:
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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mmc rescan
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# Load kernel and device tree into memory, perform export
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@ -386,8 +379,7 @@ This will print a number of lines and then end with something like:
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So then you:
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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fatwrite mmc 0:1 0x80f80000 args 8928
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@ -400,8 +392,7 @@ already located on the NAND somewhere (such as filesystem or mtd partition)
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along with a Falcon Mode aware MLO written to the correct locations for
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booting and mtdparts have been configured correctly for the board:
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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nand read ${loadaddr} kernel
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load nand rootfs ${fdtaddr} /boot/am335x-evm.dtb
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@ -425,8 +416,7 @@ The output of the 'dm tree' command shows which driver is bound to which
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device, so the user can easily configure their platform differently from
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the command line:
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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dm tree
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@ -444,8 +434,7 @@ the command line:
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Typically here any network command performed using the usb_ether
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interface would work, while using other gadgets would fail:
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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fastboot usb 0
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@ -462,8 +451,7 @@ least from a bootloader point of view). The solution here would be to
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use the unbind command specifying the class and index parameters (as
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shown above in the 'dm tree' output) to target the driver to unbind:
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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unbind ethernet 1
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@ -471,8 +459,7 @@ The output of the 'dm tree' command now shows the availability of the
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first USB device controller, the fastboot gadget will now be able to
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bind with it:
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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dm tree
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@ -71,8 +71,7 @@ example we load MLO and u-boot.img from the build into DDR and then use
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'mmc bootbus' to set the required rate (see TRM) and 'mmc partconfig' to
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set boot0 as the boot device.
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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setenv autoload no
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usb start
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@ -197,7 +197,7 @@ All of that to say you will need both a 32bit and 64bit cross compiler
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.. k3_rst_include_end_common_env_vars_desc
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.. k3_rst_include_start_common_env_vars_defn
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.. prompt:: bash
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.. prompt:: bash $
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export CC32=arm-linux-gnueabihf-
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export CC64=aarch64-linux-gnu-
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@ -247,7 +247,7 @@ Building tiboot3.bin
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uses the split binary flow)
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.. k3_rst_include_start_build_steps_spl_r5
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.. prompt:: bash
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.. prompt:: bash $
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# inside u-boot source
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make $UBOOT_CFG_CORTEXR
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@ -283,7 +283,7 @@ firmware if your device using a split firmware.
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application cores on the main domain.
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.. k3_rst_include_start_build_steps_tfa
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.. prompt:: bash
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.. prompt:: bash $
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# inside trusted-firmware-a source
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make CROSS_COMPILE=$CC64 ARCH=aarch64 PLAT=k3 SPD=opteed $TFA_EXTRA_ARGS \
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@ -299,7 +299,7 @@ use the `lite` option.
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using the TrustZone technology built into the core.
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.. k3_rst_include_start_build_steps_optee
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.. prompt:: bash
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.. prompt:: bash $
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# inside optee_os source
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make CROSS_COMPILE=$CC32 CROSS_COMPILE64=$CC64 CFG_ARM64_core=y $OPTEE_EXTRA_ARGS \
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@ -311,7 +311,7 @@ use the `lite` option.
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64bit core in the main domain.
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.. k3_rst_include_start_build_steps_uboot
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.. prompt:: bash
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.. prompt:: bash $
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# inside u-boot source
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make $UBOOT_CFG_CORTEXA
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@ -410,14 +410,14 @@ and the same can be extended to other platforms
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be passing to mkimage for signing the fitImage and embedding the key in
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the u-boot dtb.
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.. prompt:: bash
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.. prompt:: bash $
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mkimage -r -f fitImage.its -k $UBOOT_PATH/board/ti/keys -K
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$UBOOT_PATH/build/a72/dts/dt.dtb
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For signing a secondary platform, pass the -K parameter to that DTB
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.. prompt:: bash
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.. prompt:: bash $
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mkimage -f fitImage.its -k $UBOOT_PATH/board/ti/keys -K
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$UBOOT_PATH/build/a72/arch/arm/dts/k3-j721e-sk.dtb
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@ -476,8 +476,7 @@ then the saveenv command and can be used across various bootmodes too.
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**Writing to MMC/EMMC**
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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env export -t $loadaddr <list of variables>
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fatwrite mmc ${mmcdev} ${loadaddr} ${bootenvfile} ${filesize}
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@ -490,8 +489,7 @@ mmcdev) and set the environments.
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If manually needs to be done then the environment can be read from the
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filesystem and then imported
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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fatload mmc ${mmcdev} ${loadaddr} ${bootenvfile}
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env import -t ${loadaddr} ${filesize}
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@ -551,7 +549,7 @@ Refer to the release notes corresponding to the `OpenOCD version
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box support by OpenOCD. The board-specific documentation will
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cover the details and any adapter/dongle recommendations.
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.. prompt:: bash
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.. prompt:: bash $
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openocd -v
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other package managers. Please refer to the `OpenOCD Documentation
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<https://openocd.org/>`_ for more recent installation steps.
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.. prompt:: bash
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.. prompt:: bash $
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# Check the packages to be installed: needs deb-src in sources.list
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sudo apt build-dep openocd
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@ -599,7 +597,7 @@ The step is not necessary if the distribution supports the OpenOCD, but
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if building from a source, ensure that the udev rules are installed
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correctly to ensure a sane system.
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.. prompt:: bash
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.. prompt:: bash $
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# Go to the OpenOCD source directory
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cd openocd
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@ -617,7 +615,7 @@ Step 2: Setup GDB
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Most systems come with gdb-multiarch package.
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.. prompt:: bash
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.. prompt:: bash $
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# Install gdb-multiarch package
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sudo apt-get install gdb-multiarch
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@ -833,7 +831,7 @@ Startup OpenOCD to debug the platform as follows:
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.. k3_rst_include_start_openocd_cfg_XDS110
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.. prompt:: bash
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.. prompt:: bash $
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openocd -f board/{board_of_choice}.cfg
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<https://github.com/openocd-org/openocd/blob/master/tcl/target/ti_k3.cfg#L59>`_
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to decide if the SoC is supported or not.
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.. prompt:: bash
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.. prompt:: bash $
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openocd -f openocd_connect.cfg
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GDB-based IDE. To start up GDB in the terminal, run the following
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command.
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.. prompt:: bash
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.. prompt:: bash $
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gdb-multiarch
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To connect to your desired core, run the following command within GDB:
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.. code-block:: bash
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.. prompt:: bash (gdb)
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target extended-remote localhost:{port for desired core}
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* Prior to relocation:
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.. code-block:: bash
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.. prompt:: bash (gdb)
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symbol-file {path to elf file}
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* After relocation:
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.. code-block:: bash
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.. prompt:: bash (gdb)
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# Drop old symbol file
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symbol-file
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In the above example of AM625,
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.. code-block:: bash
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.. prompt:: bash (gdb)
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target extended-remote localhost:3338 <- R5F (Wakeup Domain)
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target extended-remote localhost:3334 <- A53 (Main Domain)
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@ -982,7 +980,7 @@ breakpoints. To exit the debug loop added above, add any breakpoints
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needed and run the following GDB commands to step out of the debug
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loop set in the ``board_init_f`` function.
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.. code-block:: bash
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.. prompt:: bash (gdb)
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set x = 0
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continue
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@ -122,8 +122,7 @@ Don't forget to add CROSS_COMPILE.
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To build u-boot.bin, u-boot-spi.gph, MLO:
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.. prompt:: bash
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:prompts: $
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.. prompt:: bash $
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make k2hk_evm_defconfig
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make
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4. Free Run the target as described earlier (step 4) to get U-Boot prompt
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5. At the U-Boot console type following to setup U-Boot environment variables.
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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setenv addr_uboot 0x87000000
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setenv filesize <size in hex of u-boot-spi.gph rounded to hex 0x10000>
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4. Free Run the target as described earlier (step 4) to get U-Boot prompt
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5. At the U-Boot console type following to setup U-Boot environment variables.
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.. prompt:: bash
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:prompts: =>
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.. prompt:: bash =>
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setenv filesize <size in hex of MLO rounded to hex 0x10000>
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run burn_uboot_nand
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@ -249,10 +246,10 @@ Open BMC and regular UART terminals.
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1. On the regular UART port start xmodem transfer of the u-boot.bin
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2. Using BMC terminal set the ARM-UART bootmode and reboot the EVM
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.. prompt:: bash
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.. prompt:: bash BMC>
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BMC> bootmode #4
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MBC> reboot
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bootmode #4
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reboot
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3. When xmodem is complete you should see the U-Boot starts on the UART port
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