c77bbc2215
It's a very rare if at all existing occasion when ARC CPU template is used as is w/o any changes - in the end it's a beauty and competitive advantage of ARC cores to be tailored for a particular use-case - and so it doesn't make a lot of sense to offer template-based "-mcpu" selection. Given for each and every platform we end-up adding quite a few more flags it's logical to move "-mcpu" selection to platform's definition as well which we exactly do here. Signed-off-by: Eugeniy Paltsev <Eugeniy.Paltsev@synopsys.com> Signed-off-by: Alexey Brodkin <abrodkin@synopsys.com> |
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config.mk | ||
emsdp.c | ||
Kconfig | ||
MAINTAINERS | ||
Makefile | ||
README |
================================================================================ Useful notes on bulding and using of U-Boot on ARC EM Software Development Platform (AKA EMSDP) ================================================================================ BOARD OVERVIEW The DesignWare ARC EM Software Development Platform is FPGA-bases platform for rapid software development on the ARC EM family of processors. Since this board is based on FPGA it's possible to load and use different versions of ARC EM CPUs. U-Boot is built to be run on the simplest possible configuration which means the same one binary will work on more advanced configurations as well. The board has the following features useful for U-Boot: * On-board 2-channel FTDI TTL-to-USB converter - The first channel is used for serial debug port (which makes it possible to use a serial connection on pretty much any host machine be it Windows, Linux or Mac). On Linux machine typucally FTDI serial port would be /dev/ttyUSB0. There's no HW flow-control and baud-rate is 115200. - The second channel is used for built-in Digilent USB JTAG probe. That means no extra hardware is required to access ARC core from a debugger on development host. Both proprietary MetaWare debugger and open source OpenOCD + GDB client are supported. - Also with help of this FTDI chip it is possible to reset entire board with help of a special `rff-ftdi-reset` utility, see: https://github.com/foss-for-synopsys-dwc-arc-processors/rff-ftdi-reset * Micro SD-card slot - U-Boot expects to see the very first partition on the card formatted as FAT file-system and uses it for keeping its environment in `uboot.env` file. Note uboot.env is not just a text file but it is auto-generated file created by U-Boot on invocation of `saveenv` command. It contains a checksum which makes this saved environment invalid in case of maual modification. - There might be more useful files on that first FAT partition like user applications, data files etc. * 256 KiB of "ROM" - This so-called "ROM" is a part of FPGA image and even though it might be unlocked for writes its initial content will be restored on the next power-on. BUILDING U-BOOT 1. Configure U-Boot: ------------------------->8---------------------- make emsdp_defconfig ------------------------->8---------------------- 2. To build Elf file (for example to be used with host debugger via JTAG connection to the target board): ------------------------->8---------------------- make mdbtrick ------------------------->8---------------------- This will produce `u-boot` Elf file. 3. To build binary image to be put in "ROM": ------------------------->8---------------------- make u-boot.bin ------------------------->8---------------------- EXECUTING U-BOOT 1. The EMSDP board is supposed to auto-start U-Boot image stored in ROM on power-on. For that make sure VCCIO DIP-switches are all in "off" state. 2. Though it is possible to load U-Boot as a simple Elf file via JTAG right in "ROM" and start it from the debugger. One important note here we first need to enable writes into "ROM" by writing 1 to 0xf0001000. 2.1. In case of proprietary MetaWare debugger run: ------------------------->8---------------------- mdb -digilent -OK -preloadexec="eval *(int*)0xf0001000=0" u-boot ------------------------->8----------------------