Stefan Mavrodiev
d682cff440
sunxi: Add A20-SOM204-EVB-eMMC board
|
7 лет назад | |
|---|---|---|
| .. | ||
| MAINTAINERS | 7 лет назад | |
| Makefile | 7 лет назад | |
| README.nand | 8 лет назад | |
| README.sunxi64 | 7 лет назад | |
| ahci.c | 7 лет назад | |
| board.c | 7 лет назад | |
| dram_sun4i_auto.c | 9 лет назад | |
| dram_sun5i_auto.c | 9 лет назад | |
| dram_timings_sun4i.h | 10 лет назад | |
| gmac.c | 7 лет назад | |
| mksunxi_fit_atf.sh | 7 лет назад | |
README.nand
Allwinner NAND flashing
=======================
A lot of Allwinner devices, especially the older ones (pre-H3 era),
comes with a NAND. NANDs storages are a pretty weak choice when it
comes to the reliability, and it comes with a number of flaws like
read and write disturbs, data retention issues, bloks becoming
unusable, etc.
In order to mitigate that, various strategies have been found to be
able to recover from those issues like ECC, hardware randomization,
and of course, redundancy for the critical parts.
This is obviously something that we will take into account when
creating our images. However, the BROM will use a quite weird pattern
when accessing the NAND, and will access only at most 4kB per page,
which means that we also have to split that binary accross several
pages.
In order to accomodate that, we create a tool that will generate an
SPL image that is ready to be programmed directly embedding the ECCs,
randomized, and with the necessary bits needed to reduce the number of
bitflips. The U-Boot build system, when configured for the NAND will
also generate the image sunxi-spl-with-ecc.bin that will have been
generated by that tool.
In order to flash your U-Boot image onto a board, assuming that the
board is in FEL mode, you'll need the sunxi-tools that you can find at
this repository: https://github.com/linux-sunxi/sunxi-tools
Then, you'll need to first load an SPL to initialise the RAM:
sunxi-fel spl spl/sunxi-spl.bin
Load the binaries we'll flash into RAM:
sunxi-fel write 0x4a000000 u-boot-dtb.bin
sunxi-fel write 0x43000000 spl/sunxi-spl-with-ecc.bin
And execute U-Boot
sunxi-fel exe 0x4a000000
On your board, you'll now have all the needed binaries into RAM, so
you only need to erase the NAND...
nand erase.chip
Then write the SPL and its backup:
nand write.raw.noverify 0x43000000 0 40
nand write.raw.noverify 0x43000000 0x400000 40
And finally write the U-Boot binary:
nand write 0x4a000000 0x800000 0xc0000
You can now reboot and enjoy your NAND.
=======================
A lot of Allwinner devices, especially the older ones (pre-H3 era),
comes with a NAND. NANDs storages are a pretty weak choice when it
comes to the reliability, and it comes with a number of flaws like
read and write disturbs, data retention issues, bloks becoming
unusable, etc.
In order to mitigate that, various strategies have been found to be
able to recover from those issues like ECC, hardware randomization,
and of course, redundancy for the critical parts.
This is obviously something that we will take into account when
creating our images. However, the BROM will use a quite weird pattern
when accessing the NAND, and will access only at most 4kB per page,
which means that we also have to split that binary accross several
pages.
In order to accomodate that, we create a tool that will generate an
SPL image that is ready to be programmed directly embedding the ECCs,
randomized, and with the necessary bits needed to reduce the number of
bitflips. The U-Boot build system, when configured for the NAND will
also generate the image sunxi-spl-with-ecc.bin that will have been
generated by that tool.
In order to flash your U-Boot image onto a board, assuming that the
board is in FEL mode, you'll need the sunxi-tools that you can find at
this repository: https://github.com/linux-sunxi/sunxi-tools
Then, you'll need to first load an SPL to initialise the RAM:
sunxi-fel spl spl/sunxi-spl.bin
Load the binaries we'll flash into RAM:
sunxi-fel write 0x4a000000 u-boot-dtb.bin
sunxi-fel write 0x43000000 spl/sunxi-spl-with-ecc.bin
And execute U-Boot
sunxi-fel exe 0x4a000000
On your board, you'll now have all the needed binaries into RAM, so
you only need to erase the NAND...
nand erase.chip
Then write the SPL and its backup:
nand write.raw.noverify 0x43000000 0 40
nand write.raw.noverify 0x43000000 0x400000 40
And finally write the U-Boot binary:
nand write 0x4a000000 0x800000 0xc0000
You can now reboot and enjoy your NAND.