mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-11-26 06:30:39 +00:00
971a54193c
The DT spec demands a unit-address in a node name to match the "reg" property in that node. Newer dtc versions will throw warnings if this is not the case. Fix all occurences in various documentation files where this was not observed, to not give bad examples to the reader. Signed-off-by: Andre Przywara <andre.przywara@arm.com>
407 lines
13 KiB
Text
407 lines
13 KiB
Text
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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