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U-Boot for UniPhier SoC family
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==============================
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Recommended toolchains
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----------------------
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The UniPhier platform is well tested with Linaro toolchains.
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You can download pre-built toolchains from:
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http://www.linaro.org/downloads/
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Compile the source
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------------------
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The source can be configured and built with the following commands:
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$ make <defconfig>
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$ make CROSS_COMPILE=<toolchain-prefix> DEVICE_TREE=<device-tree>
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The recommended <toolchain-prefix> is `arm-linux-gnueabihf-` for 32bit SoCs,
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`aarch64-linux-gnu-` for 64bit SoCs, but you may wish to change it to use your
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favorite compiler.
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The following tables show <defconfig> and <device-tree> for each board.
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32bit SoC boards:
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Board | <defconfig> | <device-tree>
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---------------|-----------------------------|------------------------------
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LD4 reference | uniphier_ld4_sld8_defconfig | uniphier-ld4-ref (default)
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sld8 reference | uniphier_ld4_sld8_defconfig | uniphier-sld8-def
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Pro4 reference | uniphier_v7_defconfig | uniphier-pro4-ref
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Pro4 Ace | uniphier_v7_defconfig | uniphier-pro4-ace
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Pro4 Sanji | uniphier_v7_defconfig | uniphier-pro4-sanji
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Pro5 4KBOX | uniphier_v7_defconfig | uniphier-pro5-4kbox
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PXs2 Gentil | uniphier_v7_defconfig | uniphier-pxs2-gentil
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PXs2 Vodka | uniphier_v7_defconfig | uniphier-pxs2-vodka (default)
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LD6b reference | uniphier_v7_defconfig | uniphier-ld6b-ref
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64bit SoC boards:
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Board | <defconfig> | <device-tree>
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---------------|-----------------------|----------------------------
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LD11 reference | uniphier_v8_defconfig | uniphier-ld11-ref
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LD11 Global | uniphier_v8_defconfig | uniphier-ld11-global
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LD20 reference | uniphier_v8_defconfig | uniphier-ld20-ref (default)
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LD20 Global | uniphier_v8_defconfig | uniphier-ld20-global
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PXs3 reference | uniphier_v8_defconfig | uniphier-pxs3-ref
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For example, to compile the source for PXs2 Vodka board, run the following:
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$ make uniphier_v7_defconfig
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$ make CROSS_COMPILE=arm-linux-gnueabihf- DEVICE_TREE=uniphier-pxs2-vodka
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The device tree marked as (default) can be omitted. `uniphier-pxs2-vodka` is
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the default device tree for the configuration `uniphier_v7_defconfig`, so the
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following gives the same result.
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$ make uniphier_v7_defconfig
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$ make CROSS_COMPILE=arm-linux-gnueabihf-
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Booting 32bit SoC boards
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------------------------
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The build command will generate the following:
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- u-boot.bin
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- spl/u-boot.bin
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U-Boot can boot UniPhier 32bit SoC boards by itself. Flash the generated images
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to the storage device (NAND or eMMC) on your board.
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- spl/u-boot-spl.bin at the offset address 0x00000000
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- u-boot.bin at the offset address 0x00020000
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The `u-boot-with-spl.bin` is the concatenation of the two (with appropriate
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padding), so you can also do:
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- u-boot-with-spl.bin at the offset address 0x00000000
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If a TFTP server is available, the images can be easily updated.
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Just copy the u-boot-spl.bin and u-boot.bin to the TFTP public directory,
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and run the following command at the U-Boot command line:
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To update the images in NAND:
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=> run nandupdate
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To update the images in eMMC:
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=> run emmcupdate
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Booting 64bit SoC boards
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------------------------
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The build command will generate the following:
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- u-boot.bin
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However, U-Boot is not the first stage loader for UniPhier 64bit SoC boards.
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U-Boot serves as a non-secure boot loader loaded by [ARM Trusted Firmware],
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so you need to provide the `u-boot.bin` to the build command of ARM Trusted
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Firmware.
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[ARM Trusted Firmware]: https://github.com/ARM-software/arm-trusted-firmware
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Verified Boot
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-------------
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U-Boot supports an image verification method called "Verified Boot".
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This is a brief tutorial to utilize this feature for the UniPhier platform.
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You will find details documents in the doc/uImage.FIT directory.
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Here, we take LD20 reference board for example, but it should work for any
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other boards including 32 bit SoCs.
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1. Generate key to sign with
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$ mkdir keys
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$ openssl genpkey -algorithm RSA -out keys/dev.key \
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-pkeyopt rsa_keygen_bits:2048 -pkeyopt rsa_keygen_pubexp:65537
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$ openssl req -batch -new -x509 -key keys/dev.key -out keys/dev.crt
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Two files "dev.key" and "dev.crt" will be created. The base name is arbitrary,
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but need to match to the "key-name-hint" property described below.
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2. Describe FIT source
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You need to write an FIT (Flattened Image Tree) source file to describe the
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structure of the image container.
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The following is an example for a simple usecase:
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---------------------------------------->8----------------------------------------
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/dts-v1/;
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/ {
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description = "Kernel, DTB and Ramdisk for UniPhier LD20 Reference Board";
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#address-cells = <1>;
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images {
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kernel {
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description = "linux";
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data = /incbin/("PATH/TO/YOUR/LINUX/DIR/arch/arm64/boot/Image.gz");
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type = "kernel";
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arch = "arm64";
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os = "linux";
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compression = "gzip";
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load = <0x82080000>;
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entry = <0x82080000>;
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hash-1 {
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algo = "sha256";
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};
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};
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fdt-1 {
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description = "fdt";
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data = /incbin/("PATH/TO/YOUR/LINUX/DIR/arch/arm64/boot/dts/socionext/uniphier-ld20-ref.dtb");
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type = "flat_dt";
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arch = "arm64";
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compression = "none";
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hash-1 {
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algo = "sha256";
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};
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};
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ramdisk {
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description = "ramdisk";
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data = /incbin/("PATH/TO/YOUR/ROOTFS/DIR/rootfs.cpio");
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type = "ramdisk";
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arch = "arm64";
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os = "linux";
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compression = "none";
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hash-1 {
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algo = "sha256";
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};
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};
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};
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configurations {
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default = "config-1";
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config-1 {
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description = "Configuration0";
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kernel = "kernel";
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fdt = "fdt-1";
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ramdisk = "ramdisk";
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signature-1 {
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algo = "sha256,rsa2048";
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key-name-hint = "dev";
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sign-images = "kernel", "fdt", "ramdisk";
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};
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};
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};
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};
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---------------------------------------->8----------------------------------------
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You need to change the three '/incbin/' lines, depending on the location of
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your kernel image, device tree blob, and init ramdisk. The "load" and "entry"
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properties also need to be adjusted if you want to change the physical placement
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of the kernel.
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The "key-name-hint" must specify the key name you have created in the step 1.
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The FIT file name is arbitrary. Let's say you saved it into "fit.its".
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3. Compile U-Boot with FIT and signature enabled
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To use the Verified Boot, you need to enable the following two options:
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CONFIG_FIT
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CONFIG_FIT_SIGNATURE
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They are disabled by default for UniPhier defconfig files. So, you need to
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tweak the configuration from "make menuconfig" or friends.
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$ make uniphier_v8_defconfig
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$ make menuconfig
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[ enable CONFIG_FIT and CONFIG_FIT_SIGNATURE ]
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$ make CROSS_COMPILE=aarch64-linux-gnu-
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4. Build the image tree blob
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After building U-Boot, you will see tools/mkimage. With this tool, you can
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create an image tree blob as follows:
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$ tools/mkimage -f fit.its -k keys -K dts/dt.dtb -r -F fitImage
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The -k option must specify the key directory you have created in step 1.
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A file "fitImage" will be created. This includes kernel, DTB, Init-ramdisk,
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hash data for each of the three, and signature data.
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The public key needed for the run-time verification is stored in "dts/dt.dtb".
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5. Compile U-Boot again
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Since the "dt.dtb" has been updated in step 4, you need to re-compile the
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U-Boot.
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$ make CROSS_COMPILE=aarch64-linux-gnu-
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The re-compiled "u-boot.bin" is appended with DTB that contains the public key.
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6. Flash the image
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Flash the "fitImage" to a storage device (NAND, eMMC, or whatever) on your
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board.
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Please note the "u-boot.bin" must be signed, and verified by someone when it is
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loaded. For ARMv8 SoCs, the "someone" is generally ARM Trusted Firmware BL2.
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ARM Trusted Firmware supports an image authentication mechanism called Trusted
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Board Boot (TBB). The verification process must be chained from the moment of
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the system reset. If the Chain of Trust has a breakage somewhere, the verified
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boot process is entirely pointless.
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7. Boot verified kernel
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Load the fitImage to memory and run the following from the U-Boot command line.
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> bootm <addr>
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Here, <addr> is the base address of the fitImage.
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If it is successful, you will see messages like follows:
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---------------------------------------->8----------------------------------------
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## Loading kernel from FIT Image at 84100000 ...
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Using 'config-1' configuration
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Verifying Hash Integrity ... sha256,rsa2048:dev+ OK
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Trying 'kernel' kernel subimage
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Description: linux
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Created: 2017-10-20 14:32:29 UTC
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Type: Kernel Image
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Compression: gzip compressed
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Data Start: 0x841000c8
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Data Size: 6957818 Bytes = 6.6 MiB
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Architecture: AArch64
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OS: Linux
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Load Address: 0x82080000
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Entry Point: 0x82080000
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Hash algo: sha256
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Hash value: 82a37b7f11ae55f4e07aa25bf77e4067cb9dc1014d52d6cd4d588f92eee3aaad
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Verifying Hash Integrity ... sha256+ OK
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## Loading ramdisk from FIT Image at 84100000 ...
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Using 'config-1' configuration
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Trying 'ramdisk' ramdisk subimage
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Description: ramdisk
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Created: 2017-10-20 14:32:29 UTC
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Type: RAMDisk Image
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Compression: uncompressed
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Data Start: 0x847a5cc0
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Data Size: 5264365 Bytes = 5 MiB
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Architecture: AArch64
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OS: Linux
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Load Address: unavailable
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Entry Point: unavailable
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Hash algo: sha256
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Hash value: 44980a2874154a2e31ed59222c9f8ea968867637f35c81e4107a984de7014deb
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Verifying Hash Integrity ... sha256+ OK
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## Loading fdt from FIT Image at 84100000 ...
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Using 'config-1' configuration
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Trying 'fdt-1' fdt subimage
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Description: fdt
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Created: 2017-10-20 14:32:29 UTC
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Type: Flat Device Tree
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Compression: uncompressed
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Data Start: 0x847a2cb0
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Data Size: 12111 Bytes = 11.8 KiB
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Architecture: AArch64
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Hash algo: sha256
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Hash value: c517099db537f6d325e6be46b25c871a41331ad5af0283883fd29d40bfc14e1d
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Verifying Hash Integrity ... sha256+ OK
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Booting using the fdt blob at 0x847a2cb0
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Uncompressing Kernel Image ... OK
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reserving fdt memory region: addr=80000000 size=2000000
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Loading Device Tree to 000000009fffa000, end 000000009fffff4e ... OK
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Starting kernel ...
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---------------------------------------->8----------------------------------------
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Please pay attention to the lines that start with "Verifying Hash Integrity".
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"Verifying Hash Integrity ... sha256,rsa2048:dev+ OK" means the signature check
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passed.
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"Verifying Hash Integrity ... sha256+ OK" (3 times) means the hash check passed
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for kernel, DTB, and Init ramdisk.
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If they are not displayed, the Verified Boot is not working.
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UniPhier specific commands
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--------------------------
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- pinmon (enabled by CONFIG_CMD_PINMON)
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shows the boot mode pins that has been latched at the power-on reset
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- ddrphy (enabled by CONFIG_CMD_DDRPHY_DUMP)
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shows the DDR PHY parameters set by the PHY training
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- ddrmphy (enabled by CONFIG_CMD_DDRMPHY_DUMP)
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shows the DDR Multi PHY parameters set by the PHY training
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Supported devices
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-----------------
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- UART (on-chip)
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- NAND
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- SD/eMMC
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- USB 2.0 (EHCI)
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- USB 3.0 (xHCI)
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- GPIO
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- LAN (on-board SMSC9118)
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- I2C
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- EEPROM (connected to the on-board I2C bus)
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- Support card (SRAM, NOR flash, some peripherals)
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Micro Support Card
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------------------
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The recommended bit switch settings are as follows:
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SW2 OFF(1)/ON(0) Description
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------------------------------------------
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bit 1 <---- BKSZ[0]
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bit 2 ----> BKSZ[1]
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bit 3 <---- SoC Bus Width 16/32
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bit 4 <---- SERIAL_SEL[0]
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bit 5 ----> SERIAL_SEL[1]
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bit 6 ----> BOOTSWAP_EN
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bit 7 <---- CS1/CS5
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bit 8 <---- SOC_SERIAL_DISABLE
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SW8 OFF(1)/ON(0) Description
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------------------------------------------
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bit 1 <---- CS1_SPLIT
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bit 2 <---- CASE9_ON
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bit 3 <---- CASE10_ON
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bit 4 Don't Care Reserve
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bit 5 Don't Care Reserve
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bit 6 Don't Care Reserve
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bit 7 ----> BURST_EN
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bit 8 ----> FLASHBUS32_16
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The BKSZ[1:0] specifies the address range of memory slot and peripherals
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as follows:
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BKSZ Description RAM slot Peripherals
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--------------------------------------------------------------------
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0b00 15MB RAM / 1MB Peri 00000000-00efffff 00f00000-00ffffff
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0b01 31MB RAM / 1MB Peri 00000000-01efffff 01f00000-01ffffff
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0b10 64MB RAM / 1MB Peri 00000000-03efffff 03f00000-03ffffff
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0b11 127MB RAM / 1MB Peri 00000000-07efffff 07f00000-07ffffff
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Set BSKZ[1:0] to 0b01 for U-Boot.
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This mode is the most handy because EA[24] is always supported by the save pin
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mode of the system bus. On the other hand, EA[25] is not supported for some
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newer SoCs. Even if it is, EA[25] is not connected on most of the boards.
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--
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Masahiro Yamada <yamada.masahiro@socionext.com>
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Oct. 2017
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