| Nios II is a 32-bit embedded-processor architecture designed |
| specifically for the Altera family of FPGAs. |
| |
| Please refer to the link for more information on Nios II, |
| https://www.altera.com/products/processors/overview.html |
| |
| Please refer to the link for Linux port and toolchains, |
| http://rocketboards.org/foswiki/view/Documentation/NiosIILinuxUserManual |
| |
| The Nios II port of u-boot is controlled by device tree. Please check |
| out doc/README.fdt-control. |
| |
| To add a new board/configuration (eg, mysystem) to u-boot, you will need |
| three files. |
| |
| 1. The device tree source which describes the hardware, dts file. |
| arch/nios2/dts/mysystem.dts |
| |
| 2. Default configuration of Kconfig, defconfig file. |
| configs/mysystem_defconfig |
| |
| 3. The legacy board header file. |
| include/configs/mysystem.h |
| |
| The device tree source must be generated from your qsys/sopc design |
| using the sopc2dts tool. Then modified to fit your configuration. Please |
| find the sopc2dts download and usage at the wiki, |
| http://www.alterawiki.com/wiki/Sopc2dts |
| |
| $ java -jar sopc2dts.jar --force-altr -i mysystem.sopcinfo -o mysystem.dts |
| |
| You will need to add additional properties to the dts. Please find an |
| example at, arch/nios2/dts/3c120_devboard.dts. |
| |
| 1. Add "stdout-path=..." property with your serial path to the chosen |
| node, like this, |
| chosen { |
| stdout-path = &jtag_uart; |
| }; |
| |
| 2. If you use SPI/EPCS or I2C, you will need to add aliases to number |
| the sequence of these devices, like this, |
| aliases { |
| spi0 = &epcs_controller; |
| }; |
| |
| Next, you will need a default config file. You may start with |
| nios2-generic_defconfig, modify the options and save it. |
| |
| $ make nios2-generic_defconfig |
| $ make menuconfig |
| $ make savedefconfig |
| $ cp defconfig configs/mysystem_defconfig |
| |
| You will need to change the names of board header file and device tree, |
| and select the drivers with menuconfig. |
| |
| Nios II architecture ---> |
| (mysystem) Board header file |
| Device Tree Control ---> |
| (mysystem) Default Device Tree for DT control |
| |
| There is a selection of "Provider of DTB for DT control" in the Device |
| Tree Control menu. |
| |
| ( ) Separate DTB for DT control, will cat the dtb to end of u-boot |
| binary, output u-boot-dtb.bin. This should be used for production. |
| If you use boot copier, like EPCS boot copier, make sure the copier |
| copies all the u-boot-dtb.bin, not just u-boot.bin. |
| |
| ( ) Embedded DTB for DT control, will include the dtb inside the u-boot |
| binary. This is handy for development, eg, using gdb or nios2-download. |
| |
| The last thing, legacy board header file describes those config options |
| not covered in Kconfig yet. You may copy it from nios2-generic.h. |
| |
| $ cp include/configs/nios2-generic.h include/configs/mysystem.h |
| |
| Please change the SDRAM base and size to match your board. The base |
| should be cached virtual address, for Nios II with MMU it is 0xCxxx_xxxx |
| to 0xDxxx_xxxx. |
| |
| #define CONFIG_SYS_SDRAM_BASE 0xD0000000 |
| #define CONFIG_SYS_SDRAM_SIZE 0x08000000 |
| |
| You will need to change the environment variables location and setting, |
| too. You may change other configs to fit your board. |
| |
| After all these changes, you may build and test. |
| |
| $ export CROSS_COMPILE=nios2-elf- (or nios2-linux-gnu-) |
| $ make mysystem_defconfig |
| $ make |
| |
| Enjoy! |