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author | Poonam Aggrwal <poonam.aggrwal@freescale.com> | 2013-03-25 07:30:06 +0000 |
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committer | Andy Fleming <afleming@freescale.com> | 2013-05-02 16:56:45 -0500 |
commit | 56376c42882896419f4231879fd19b0e307a3207 (patch) | |
tree | d700e0d9e9e8e92d6d6ecc8ded54670cb6af36b0 | |
parent | f153b682b3ea4f160106329cd5ecbaa1d82afd7b (diff) | |
download | u-boot-imx-56376c42882896419f4231879fd19b0e307a3207.zip u-boot-imx-56376c42882896419f4231879fd19b0e307a3207.tar.gz u-boot-imx-56376c42882896419f4231879fd19b0e307a3207.tar.bz2 |
doc/ramboot.mpc85xx: Documented the RAMBOOT for MPC85xx
There could be scenarios where the user would like to manually(via JTAG)
configure the DDR/L2SRAM and load the bootloader binary onto DDR/L2SRAM.
This document explains thse usecases and the detailed explanation of what needs
to be done to use it.
Most of the code from CONFIG_SYS_RAMBOOT will be used except for small changes
of CCSRBAR etc.
The changes are not very large, but it is good to document them so that user
can get it working at once.
Signed-off-by: Poonam Aggrwal <poonam.aggrwal@freescale.com>
Signed-off-by: Andy Fleming <afleming@freescale.com>
-rw-r--r-- | doc/README.ramboot-ppc85xx | 102 |
1 files changed, 102 insertions, 0 deletions
diff --git a/doc/README.ramboot-ppc85xx b/doc/README.ramboot-ppc85xx new file mode 100644 index 0000000..8ed45fb --- /dev/null +++ b/doc/README.ramboot-ppc85xx @@ -0,0 +1,102 @@ + RAMBOOT for MPC85xx Platforms + ============================== + +RAMBOOT literally means boot from DDR. But since DDR is volatile memory some +pre-mechanism is required to load the DDR with the bootloader binary. +- In case of SD and SPI boot this is done by BootROM code inside the chip + itself. +- In case of NAND boot FCM supports loading initial 4K code from NAND flash + which can initialize the DDR and get the complete bootloader copied to DDR. + +In addition to the above there could be some more methods to initialize the DDR +and load it manually. +Two of them are described below.There is also an explanation as to where these +methods could be handy. +1. Load the RAM based bootloader onto DDR via JTAG/BDI interface. And then + execute the bootloader from DDR. + This may be handy in the following cases: + - In very early stage of platform bringup where other boot options are not + functional because of various reasons. + - In case the support to program the flashes on the board is not available. + +2. Load the RAM based bootloader onto DDR using already existing bootloader on + the board.And then execute the bootloader from DDR. + Some usecases where this may be used: + - While developing some new feature of u-boot, for example USB driver or + SPI driver. + Suppose the board already has a working bootloader on it. And you would + prefer to keep it intact, at the same time want to test your bootloader. + In this case you can get your test bootloader binary into DDR via tftp + for example. Then execute the test bootloader. + - Suppose a platform already has a propreitery bootloader which does not + support for example AMP boot. In this case also RAM boot loader can be + utilized. + + So basically when the original bootloader is required to be kept intact + RAM based bootloader can offer an updated bootloader on the system. + +Both the above Bootloaders are slight variants of SDcard or SPI Flash +bootloader or for that matter even NAND bootloader. +All of them define CONFIG_SYS_RAMBOOT. +The main difference among all of them is the way the pre-environment is getting +configured and who is doing that. +- In case of SD card and SPI flash bootloader this is done by On Chip BootROM inside the Si itself. +- In case of NAND boot SPL/TPL code does it with some support from Si itself. +- In case of the pure RAM based bootloaders we have to do it by JTAG manually or already existing bootloader. + +How to use them: +1. Using JTAG + Boot up in core hold off mode or stop the core after reset using JTAG + interface. + Preconfigure DDR/L2SRAM through JTAG interface. + - setup DDR controller registers. + - setup DDR LAWs + - setup DDR TLB + Load the RAM based boot loader to the proper location in DDR/L2SRAM. + set up IAR (Instruction counter properly) + Enable the core to execute. + +2. Using already existing bootloader. + get the rambased boot loader binary into DDR/L2SRAM via tftp. + execute the RAM based bootloader. + => tftp 11000000 u-boot-ram.bin + => go 1107f000 + +Please note that L2SRAM can also be used instead of DDR if the SOC has +sufficient size of L2SRAM. + +Necessary Code changes Required: +===================================== +Please note that below mentioned changes are for 85xx platforms. +They have been tested on P1020/P2020/P1010 RDB. + +The main difference between the above two methods from technical perspective is +that in 1st case SOC is just out of reset so it is in default configuration. +(CCSRBAR is at 0xff700000). +In the 2nd case bootloader has already re-located CCSRBAR to 0xffe00000 + +1. File name-> boards.cfg + There can be added specific Make options for RAMBoot. We can keep different + options for the two cases mentioned above. + for example + P1020RDB_JTAG_RAMBOOT and P1020RDB_GO_RAMBOOT. + +2. platform config file + for example include/configs/P1_P2_RDB.h + + #ifdef CONFIG_RAMBOOT + #define CONFIG_SDCARD + #endif + + This will finally use the CONFIG_SYS_RAMBOOT. + +3. File name-> arch/powerpc/include/asm/config_mpc85xx.h + In the section of the particular SOC, for example P1020, + + #if defined(CONFIG_GO) + #define CONFIG_SYS_CCSRBAR_DEFAULT 0xffe00000 + #else + #define CONFIG_SYS_CCSRBAR_DEFAULT 0xff700000 + #endif + +For JTAG RAMBOOT this is not required because CCSRBAR is at ff700000. |