Difference between revisions of "Boot option"
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And [http://opensource.rock-chips.com/wiki_Partitions Rockcip Linux GPT partition] here. | And [http://opensource.rock-chips.com/wiki_Partitions Rockcip Linux GPT partition] here. | ||
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- use Rockchp idbLoader which is combinded by Rockchip ddr init bin and miniloader bin; | - use Rockchp idbLoader which is combinded by Rockchip ddr init bin and miniloader bin; | ||
<pre>+--------+----------------+----------+-------------+---------+ | <pre>+--------+----------------+----------+-------------+---------+ | ||
− | | Boot | Terminology #1 | Actual | Rockchip | | + | | Boot | Terminology #1 | Actual | Rockchip | Image | |
− | | stage | | program | Image | | + | | stage | | program | Image | Location| |
− | | number | | name | Name | | + | | number | | name | Name | (sector)| |
+--------+----------------+----------+-------------+---------+ | +--------+----------------+----------+-------------+---------+ | ||
| 1 | Primary | ROM code | BootRom | | | | 1 | Primary | ROM code | BootRom | | |
Revision as of 03:47, 26 June 2018
Boot introduce
First, let's make the concept clear, there are many boot stages when we boot up a Linux OS;
Then we need to know about how the image should packaged, where the image locate;
At last, we will explain how to write to different media and boot from there.
Here is Rockchip pre-released binaries which may be mentioned later:
https://github.com/rockchip-linux/rkbin
And Rockcip Linux GPT partition here.
Boot flow
Here is a table show the detail what we may use in Rockchip platform, for 2 boot stage:
- use U-Boot SPL;
- use Rockchp idbLoader which is combinded by Rockchip ddr init bin and miniloader bin;
+--------+----------------+----------+-------------+---------+ | Boot | Terminology #1 | Actual | Rockchip | Image | | stage | | program | Image | Location| | number | | name | Name | (sector)| +--------+----------------+----------+-------------+---------+ | 1 | Primary | ROM code | BootRom | | | | Program | | | | | | Loader | | | | | | | | | | | 2 | Secondary | U-Boot |idbloader.img| 0x40 |including u-boot if not use miniloader | | Program | SPL |idbspl.img | | | | Loader (SPL) | | | | | | | | | | | 3 | - | U-Boot | u-boot.itb | 0x4000 | including u-boot and atf | | | | u-boot.bin | | | | | | uboot.img | | only used with miniloader | | | | | | | | | ATF | trust.img | 0x6000 | only used with miniloader for armv8 | | | | | | | 4 | - | kernel | boot.img | 0x8000 | | | | | | | | 5 | - | rootfs | rootfs.img | 0x40000 | +--------+----------------+----------+-------------+---------+
Then when we talking about boot from eMMC/SD/U-Disk/net, they are in different concept:
- Stage 1 is always in boot rom, it loads stage 2 and may load stage 3(when SPL_BACK_TO_BROM option enabled).
- Boot from SPI flash means firmware for stage 2 and 3(SPL and U-Boot only) in SPI flash and stage 4/5 in other place;
- Boot from eMMC means all the firmware(including stage 2, 3, 4, 5) in eMMC;
- Boot from SD card means all the firmware(including stage 2, 3, 4, 5) in SD card;
- Boot from U-Disk means firmware for stage 4 and 5(not including SPL and U-Boot) in Disk, optionally only including stage 5;
- Boot from net/tftp means firmeware for stage 4 and 5(not including SPL and U-Boot) on the network;
Boot Flow 1 is typical Rockchip boot flow with Rockchip miniloader;
Boot Flow 2 is used for most SoCs with U-Boot TPL for ddr init and SPL for trust(ATF/OP-TEE) load and run into next stage;
Boot Flow 3 is use only for RK3399 with SPL ATF support;
Boot Flow 4 is used for armv7 SoCs which do not support trust;
Note 1. If loader1 have more than 1 stage, program will back to bootrom and bootrom load and run into next stage. eg. If loader1 is tpl and spl, the bootrom will run into tpl first, tpl init ddr and back to bootrom, bootrom then load and run into spl.
Note 2. If trust is enabled, loader1 need to load both trust and u-boot, and then run into trust in secure mode(EL3 in armv8), trust do the initialize and run into U-Boot in non-secure mode(EL2 in armv8).
Note 3. For trust(in trust.img or u-boot.itb), armv7 has only one tee.bin with or without ta, armv8 has bl31.elf and option with bl32.
Note 4. In boot.img, content can be zImage and its dtb for Linux, and can optionally be grub.efi, and can be AOSP boot.img, ramdisk is option;
Package option
After we know about the boot stages,
Here are the file list before package for stage 2~4:
- From source code:
- From U-Boot: u-boot-spl.bin, u-boot.bin(may use u-boot-nodtb.bin and u-boot.dtb instead),
- From kernel: kernel Image/zImage file, kernel dtb,
- From ATF: bl31.elf;
- From Rockchip binary:
- ddr, usbplug, miniloader, bl31/op-tee, (all with chip 'rkxx_' prefix and with version '_x.xx.bin' postfix);
We offer two different boot-loader methods for different solutions, the steps and request files are also complete different. But not all the platforms supports the both boot-loader methods. Here are the types to package image from those files:
The Pre-bootloader
Rockchip Miniloader
Package the image from Rockchip binary:
No need to package a idbloader for eMMC because you can use below command to write idbloader from loader:
rkdeveloptool db rkxx_ddr_vx.xx.bin rkdeveloptool ul rkxx_ddr_vx.xx.bin
For SD boot, you need a idbloader(combinded with ddr and miniloader) to write to SD card.
tools/mkimage -n rkxxxx -T rksd -d rkxx_ddr_vx.xx.bin idbloader.img cat rkxx_miniloader_vx.xx.bin >> idbloader.img
idbloader.img with tpl/spl
tools/mkimage -n rkxxxx -T rksd -d tpl/u-boot-tpl.bin idbloader.img cat spl/u-boot-spl.bin >> idbloader.img
idbspl.img
U-Boot SPL support ddr init and load data for next stage, only available in rk3399 now.
mkimage -n rkxxxx -T rksd -d spl/u-boot-spl.bin idbspl.img
Flash the idbloader.img/idbspl.img to offset 0x40 which including stage 2, and you will need a uboot.img for boot stage 3.
U-Boot
uboot.img
When using idbLoader from Rockchip miniloader, need package u-boot.bin into miniloader loadable format by Rockchip tool loaderimage.
tools/loaderimage --pack --uboot u-boot.bin uboot.img
u-boot.itb
When using SPL to load the ATF/OP-TEE, package the bl31.bin, u-boot-nodtb.bin and uboot.dtb into one FIT image. You can skip the step to package the Trust image and flash that image in the next section.
make u-boot.itb
Note: please copy the trust binary() to u-boot root directory and rename it to tee.bin(armv7) or bl31.elf(armv8).
Trust
trust.img
When using idbLoader from Rockchip miniloader, need package bl31.bin into miniloader loadable format by Rockchip tool trustmerge.
tools/trustmerge tools/rk_tools/RKTRUST_RKXXXXTRUST.ini
Flash the trust.img to offset 0x6000 which is for using Rockchip miniloader
boot.img
This image is package the kernel Image and dtb file into a know filesystem(FAT or EXT2) image for distro boot.
See Install kernel for detail about generate boot.img from kernel zImage/Image, dtb.
Flash the boot.img to offset 0x8000 which is stage 4.
rootfs.img
Flash the rootfs.img to offset 0x40000 which is stage 5. As long as the kernel you chosen can support that filesystem, there is not limit in the format of the image.
rkxx_loader_vx.xx.xxx.bin
This is provide by Rockchip in binary mode, which is used for firmware upgrade to eMMC with rkdeveloptool, can not be wirte to media device directly.
This is a package from ddr.bin, usbplug.bin, miniloader.bin, Rockchip tool DB command will make usbplug.bin running in target which perform as a Rockusb device. You can skip to package this image, Rockchip will offer this image at the most of time.
Flash and boot from Media device
Here we introduce how to write image to different Medeia device.
Get image Ready:
- For armv7 with SPL with SPL_BACK_TO_BROM option enabled:
- idbLoader.img
- boot.img or boot folder with zImage, dtb and exitlinulx inside
- rootfs.img
- For armv7 with SPL with SPL_BACK_TO_BROM option disabled:
- idbspl.img
- u-boot.bin
- boot.img or boot folder with zImage, dtb and exitlinulx inside
- rootfs.img
- For armv7 with miniloader
- idbLoader.img
- uboot.img
- boot.img or boot folder with zImage, dtb and exitlinulx inside
- rootfs.img
- For armv8 with SPL:
- idbspl.img
- bl3.itb
- boot.img or boot folder with Image, dtb and exitlinulx inside
- rootfs.img
- For armv8 with miniloader
- idbLoader.img
- uboot.img
- trust.img
- boot.img or boot folder with Image, dtb and exitlinulx inside
- rootfs.img
Boot from eMMC
The eMMC is on the hardware board, so we need:
- Get the board into maskrom mode;
- Connect the target to PC with USB cable;
- Flash the image to eMMC with rkdeveloptool
Example commands for flash image to target.
Flash the gpt partition to target:
rkdeveloptool db rkxx_loader_vx.xx.bin rkdeveloptool gpt parameter_gpt.txt
- For armv7 with SPL with SPL_BACK_TO_BROM option enabled(rk3036, rk3188, rk3288):
rkdeveloptool db rkxx_loader_vx.xx.bin rkdeveloptool wl 0x40 idbloader.img rkdeveloptool wl 0x8000 boot.img rkdeveloptool wl 0x40000 rootfs.img rkdeveloptool rd
- For armv7 with SPL with SPL_BACK_TO_BROM option disabled(rk3288):
rkdeveloptool db rkxx_loader_vx.xx.bin rkdeveloptool wl 0x40 idbspl.img rkdeveloptool wl 0x4000 u-boot.bin rkdeveloptool wl 0x8000 boot.img rkdeveloptool wl 0x40000 rootfs.img rkdeveloptool rd
- For armv7 with miniloader(rk3036, rk3188, rk3288)
rkdeveloptool db rkxx_loader_vx.xx.bin rkdeveloptool ul rkxx_loader_vx.xx.bin rkdeveloptool wl 0x4000 uboot.img rkdeveloptool wl 0x8000 boot.img rkdeveloptool wl 0x40000 rootfs.img rkdeveloptool rd
- For armv8 with SPL(rk3399):
rkdeveloptool db rkxx_loader_vx.xx.bin rkdeveloptool wl 0x40 idbspl.img rkdeveloptool wl 0x4000 bl3.itb rkdeveloptool wl 0x8000 boot.img rkdeveloptool wl 0x40000 rootfs.img rkdeveloptool rd
- For armv8 with miniloader(rk3399, rk3328)
rkdeveloptool db rkxx_loader_vx.xx.bin rkdeveloptool ul rkxx_loader_vx.xx.bin rkdeveloptool wl 0x4000 uboot.img rkdeveloptool wl 0x6000 trust.img rkdeveloptool wl 0x8000 boot.img rkdeveloptool wl 0x40000 rootfs.img rkdeveloptool rd
Boot from SD/TF Card
We can write SD/TF card with Linux PC dd command very easily.
Insert SD card to PC and we assume the /dev/sdb is the SD card device.
- For armv7 with SPL with SPL_BACK_TO_BROM option enabled(rk3036, rk3188, rk3288):
dd if=idbloader.img of=sdb seek=64 dd if=boot.img of=sdb seek=32768 dd if=rootfs.img of=sdb seek=262144
- For armv7 with SPL with SPL_BACK_TO_BROM option disabled(rk3288):
dd if=idbspl.img of=sdb seek=64 dd if=u-boot.bin of=sdb seek=16384 dd if=boot.img of=sdb seek=32768 dd if=rootfs.img of=sdb seek=262144
- For armv7 with miniloader(rk3036, rk3188, rk3288)
dd if=idbloader.img of=sdb seek=64 dd if=uboot.img of=sdb seek=16384 dd if=boot.img of=sdb seek=32768 dd if=rootfs.img of=sdb seek=262144
- For armv8 with SPL(rk3399):
dd if=idbspl.img of=sdb seek=64 dd if=bl3.itb of=sdb seek=16384 dd if=boot.img of=sdb seek=32768 dd if=rootfs.img of=sdb seek=262144
- For armv8 with miniloader(rk3399, rk3328)
dd if=idbloader.img of=sdb seek=64 dd if=uboot.img of=sdb seek=16384 dd if=trust.img of=sdb seek=24576 dd if=boot.img of=sdb seek=32768 dd if=rootfs.img of=sdb seek=262144
In order to make sure everything has write to SD card before unpluged, recommand to run below command:
sync
Note, when using boot from SD card, need to update the kernel cmdline(which is in extlinux.conf) for the correct root value.
append earlyprintk console=ttyS2,115200n8 rw root=/dev/mmcblk1p7 rootwait rootfstype=ext4 init=/sbin/init
Write GPT partition table to SD card in U-Boot, and then U-Boot can find the boot partition and run into kernel.
gpt write mmc 0 $partitions
Boot from U-Disk
Same as boot-from-sdcard, but please note that U-Disk only support stage 4 and 5, see Boot Stage for detail.
If U-Disk used for stage 4 and 5, format the U-Disk in gpt format and at least 2 partitions, write boot.img and rootfs.img in those partitions;
if U-Dist is only used for stage 5, we can dd the rootfs.img to U-Disk device directly.
Note, need to update the kernel cmdline(which is in extlinux.conf) for the correct root value.
append earlyprintk console=ttyS2,115200n8 rw root=/dev/sda1 rootwait rootfstype=ext4 init=/sbin/init
Boot from Network
To be continued.