X-Git-Url: https://git.kernelconcepts.de/?p=karo-tx-uboot.git;a=blobdiff_plain;f=doc%2FREADME.mxs;h=ed2e5688562ac1af55a7c6213f5f3eb825e055b8;hp=5d9e72f958d5ca8c7848d04f5c55e1f2b1f0feac;hb=467b02380ad434ba5fd6a5eb03323b24f5d195c5;hpb=c3e0afca4837e688d8e3dca273a9e0ded3599a63 diff --git a/doc/README.mxs b/doc/README.mxs index 5d9e72f958..ed2e568856 100644 --- a/doc/README.mxs +++ b/doc/README.mxs @@ -23,13 +23,30 @@ Contents 2) Compiling U-Boot for a MXS based board 3) Installation of U-Boot for a MXS based board to SD card 4) Installation of U-Boot into NAND flash on a MX28 based board +5) Installation of U-boot into SPI NOR flash on a MX28 based board 1) Prerequisites ---------------- -To make a MXS based board bootable, some tools are necessary. The first one is -the "elftosb" tool distributed by Freescale Semiconductor. The other one is the -"mxsboot" tool found in U-Boot source tree. +To make a MXS based board bootable, some tools are necessary. The only +mandatory tool is the "mxsboot" tool found in U-Boot source tree. The +tool is built automatically when compiling U-Boot for i.MX23 or i.MX28. + +The production of BootStream image is handled via "mkimage", which is +also part of the U-Boot source tree. The "mkimage" requires OpenSSL +development libraries to be installed. In case of Debian and derivates, +this is installed by running: + + $ sudo apt-get install libssl-dev + +NOTE: The "elftosb" tool distributed by Freescale Semiconductor is no + longer necessary for general use of U-Boot on i.MX23 and i.MX28. + The mkimage supports generation of BootStream images encrypted + with a zero key, which is the vast majority of use-cases. In + case you do need to produce image encrypted with non-zero key + or other special features, please use the "elftosb" tool, + otherwise continue to section 2). The installation procedure of + the "elftosb" is outlined below: Firstly, obtain the elftosb archive from the following location: @@ -107,6 +124,18 @@ The code produces "u-boot.sb" file. This file needs to be augmented with a proper header to allow successful boot from SD or NAND. Adding the header is discussed in the following chapters. +NOTE: The process that produces u-boot.sb uses the mkimage to generate the + BootStream. The BootStream is encrypted with zero key. In case you need + some special features of the BootStream and plan on using the "elftosb" + tool instead, the invocation to produce a compatible BootStream with the + one produced by mkimage is outlined below. For further details, refer to + the documentation bundled with the "elftosb" package. + + $ elftosb -zf imx23 -c arch/arm/cpu/arm926ejs/mxs/u-boot-imx23.bd \ + -o u-boot.sb + $ elftosb -zf imx28 -c arch/arm/cpu/arm926ejs/mxs/u-boot-imx28.bd \ + -o u-boot.sb + 3) Installation of U-Boot for a MXS based board to SD card ---------------------------------------------------------- @@ -234,3 +263,28 @@ There are two possibilities when preparing an image writable to NAND flash. In case the user needs to boot a firmware image bigger than 1Mb, the user has to adjust the "update_nand_firmware_maxsz" variable for the update scripts to work properly. + +5) Installation of U-Boot into SPI NOR flash on a MX28 based board +------------------------------------------------------------------ + +The u-boot.sb file can be directly written to SPI NOR from U-boot prompt. + +Load u-boot.sb into RAM, this can be done in several ways and one way is to use +tftp: + => tftp u-boot.sb 0x42000000 + +Probe the SPI NOR flash: + => sf probe + +(SPI NOR should be succesfully detected in this step) + +Erase the blocks where U-boot binary will be written to: + => sf erase 0x0 0x80000 + +Write u-boot.sb to SPI NOR: + => sf write 0x42000000 0 0x80000 + +Power off the board and set the boot mode DIP switches to boot from the SPI NOR +according to MX28 manual section 12.2.1 (Table 12-2) + +Last step is to power up the board and U-boot should start from SPI NOR.