.. _quickstart: Quick Startup ============= .. _quickstart_using_nside: Use Nuclei N100 SDK in Nuclei Studio ------------------------------------ You can download **Nuclei Studio IDE >= 2024.06** from |nuclei_download_center|, and follow `Nuclei_Studio_User_Guide.pdf`_ to learn how to use it. But if you want to use latest source code of Nuclei N100 SDK, please follow the rest part of this guide to build and run using Nuclei N100 SDK Build System in Makefile. .. _quickstart_setup_tools_env: Setup Tools and Environment --------------------------- To start to use Nuclei N100 SDK, you need to install the following tools: .. _quickstart_setup_tools_env_nside: Use Prebuilt Tools in Nuclei Studio ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Since **2020.10** release version of Nuclei Studio, you just need to download the **Nuclei Studio IDE** from |nuclei_download_center| for your development OS, and no need to do the following steps below, the prebuilt tools are already included. For example: * In Windows, if you have extracted the Nuclei Studio IDE to ``D:\Software\NucleiStudio_IDE_202406``, then you can find the prebuilt tools in ``D:\Software\NucleiStudio_IDE_202406\NucleiStudio\toolchain``. * In Linux, if you have extracted the Nuclei Studio IDE to ``/home/labdev/NucleiStudio_IDE_202406``, then you can find the prebuilt tools in ``/home/labdev/NucleiStudio_IDE_202406/NucleiStudio/toolchain``. You can also update tools located in the Nuclei Studio prebuilt tools ``toolchain`` by downloading newer version from `Nuclei Tools`_ and replace it. If you have downloaded and extracted the Nuclei Studio, then you can jump to :ref:`quickstart_get_set_nuclei_sdk` and ignore below steps. .. _quickstart_get_set_nuclei_sdk: Get and Setup Nuclei N100 SDK ----------------------------- The source code of Nuclei N100 SDK is maintained in |github| and |gitee|. * We mainly maintained github version, and gitee version is mirrored, just for fast access in China. * Check source code in |github_nuclei_sdk| or |gitee_nuclei_sdk| according to your network status. * Stable version of Nuclei N100 SDK is maintained in **master** version, if you want release version of **Nuclei N100 SDK**, please check in |github_nuclei_sdk_release|. **Here are the steps to clone the latest source code from Github:** * Make sure you have installed Git tool, see https://git-scm.com/download/ * Then open your terminal, and make sure git command can be accessed * Run ``git clone -b master_n100 https://github.com/Nuclei-Software/nuclei-sdk nuclei-n100-sdk`` to clone source code into ``nuclei-n100-sdk`` folder .. note:: - **develop_n100** branch is develop branch for Nuclei 100 series RISC-V CPU support. - **master_n100** branch is stable branch for Nuclei 100 series RISC-V CPU support. - If you have no access to github.com, you can also use command ``git clone -b master_n100 https://gitee.com/Nuclei-Software/nuclei-sdk nuclei-n100-sdk`` to clone from gitee. - If you have no internet access, you can also use pre-downloaded ``nuclei-n100-sdk`` code, and use it. - If the backup repo is not up to date, you can import github repo in gitee by yourself, see https://gitee.com/projects/import/url * Create tool environment config file for Nuclei N100 SDK .. note:: If you want to use **Terapines ZCC** toolchain, you can download it from https://www.terapines.com/, or use **Nuclei Studio >= 2024.06**, a **Terapines ZCC Lite** version is integrated in **/toolchain/zcc** folder, and you also need to add extra **PATH** into your environment, like this: - **Windows**: execute ``set PATH=\path\to\zcc\bin;%PATH%`` in windows cmd terminal before run Nuclei SDK - **Linux**: execute ``set PATH=/path/to/zcc/bin:$PATH`` in linux shell terminal before build Nuclei SDK - **Windows** If you want to use Nuclei N100 SDK in **Windows Command Prompt** terminal, you need to create ``setup_config.bat`` in ``nuclei-n100-sdk`` folder, and open this file your editor, and paste the following content, assuming you followed :ref:`quickstart_setup_tools_env`, and prebuilt tools located in ``D:\Software\NucleiStudio_IDE_202406\NucleiStudio\toolchain``, otherwise please use your correct tool root path. .. code-block:: bat set NUCLEI_TOOL_ROOT=D:\Software\NucleiStudio_IDE_202406\NucleiStudio\toolchain If you want to use Nuclei N100 SDK in **Windows PowerShell** terminal, you need to create a ``setup_config.ps1`` in ``nuclei-n100-sdk`` folder, and edit this file with content below if your prebuilt tools are located in ``D:\Software\NucleiStudio_IDE_202406\NucleiStudio\toolchain``: .. code-block:: ps1 $NUCLEI_TOOL_ROOT="D:\Software\NucleiStudio_IDE_202406\NucleiStudio\toolchain" - **Linux** Create ``setup_config.sh`` in ``nuclei-n100-sdk`` folder, and open this file your editor, and paste the following content, assuming you followed :ref:`quickstart_setup_tools_env` and prebuilt tools located in ``/home/labdev/NucleiStudio_IDE_202406/NucleiStudio/toolchain``, otherwise please use your correct tool root path. .. code-block:: shell NUCLEI_TOOL_ROOT=/home/labdev/NucleiStudio_IDE_202406/NucleiStudio/toolchain .. _quickstart_buildrundebug_app: Build, Run and Debug Sample Application --------------------------------------- Assume you have followed steps in :ref:`quickstart_get_set_nuclei_sdk` to clone source code and create files below: * ``setup_config.bat`` for run in **Windows Command Prompt** terminal * ``setup_config.ps1`` for run in **Windows PowerShell** terminal * ``setup_config.sh`` for run in **Linux Bash** terminal To build, run and debug application, you need to open command terminal in ``nuclei-n100-sdk`` folder. * For **Windows** users, you can open **Windows Command Prompt** terminal and cd to ``nuclei-n100-sdk`` folder, then run the following commands to setup build environment for Nuclei N100 SDK, the output will be similar as this screenshot :ref:`figure_quickstart_6`: .. code-block:: bat :linenos: setup.bat echo %PATH% where riscv64-unknown-elf-gcc openocd make rm make help .. _figure_quickstart_6: .. figure:: /asserts/images/nuclei_sdk_open_cmd.png :width: 80 % :align: center :alt: Setup Build Environment for Nuclei N100 SDK in Windows Command Prompt Setup Build Environment for Nuclei N100 SDK in Windows Command Prompt * For **Linux** users, you can open **Linux Bash** terminal and cd to ``nuclei-n100-sdk`` folder, then run the following commands to setup build environment for Nuclei N100 SDK, the output will be similar as this screenshot :ref:`figure_quickstart_7`: .. code-block:: shell :linenos: source setup.sh echo $PATH which riscv64-unknown-elf-gcc openocd make rm make help .. _figure_quickstart_7: .. figure:: /asserts/images/nuclei_sdk_open_shell.png :width: 80 % :align: center :alt: Setup Build Environment for Nuclei N100 SDK in Linux Bash Setup Build Environment for Nuclei N100 SDK in Linux Bash .. note:: * Only first line ``setup.bat`` or ``source setup.sh`` are required before build, run or debug application. The ``setup.bat`` and ``setup.sh`` are just used to append Nuclei RISC-V GCC Toolchain, OpenOCD and Build-Tools binary paths into environment variable **PATH** * line 2-4 are just used to check whether build environment is setup correctly, especially the **PATH** of Nuclei Tools are setup correctly, so we can use the ``riscv64-unknown-elf-xxx``, ``openocd``, ``make`` and ``rm`` tools * If you know how to append Nuclei RISC-V GCC Toolchain, OpenOCD and Build-Tools binary paths to **PATH** variable in your OS environment, you can also put the downloaded Nuclei Tools as you like, and no need to run ``setup.bat`` or ``source setup.sh`` * If you want to run in **Windows PowerShell**, please run ``. .\setup.ps1`` instead of ``setup.bat``, and ``setup_config.ps1`` must be created as described in :ref:`quickstart_get_set_nuclei_sdk`. Here for a quick startup, this guide will take board :ref:`design_board_nuclei_fpga_eval` for example to demostrate how to setup hardware, build run and debug application in Windows. The demo application, we will take ``application/baremetal/helloworld`` for example. First of all, please reuse previously build environment command terminal. Run ``cd application/baremetal/helloworld`` to cd the ``helloworld`` example folder. Hardware Preparation ~~~~~~~~~~~~~~~~~~~~ Please check :ref:`design_board` and find your board's page, and follow **Setup** section to setup your hardware, mainly **JTAG debugger driver setup and on-board connection setup**. * Power on the :ref:`design_board_nuclei_fpga_eval` board, and use USB Type-C data cable to connect the board and your PC, make sure you have setup the JTAG driver correctly, and you can see JTAG port and serial port. * Open a UART terminal tool such as |teraterm| or |minicom|, and minitor the serial port of the Board, the UART baudrate is *115200 bps* * If you are building example for your own SoC and Board, please pass correct :ref:`develop_buildsystem_var_soc` and :ref:`develop_buildsystem_var_board` make variable. eg. If you SoC is ``evalsoc`` and Board is ``nuclei_fpga_eval``, just pass ``SOC=evalsoc BOARD=nuclei_fpga_eval`` to make instead of the one mentioned below. If your default board for this ``evalsoc`` is ``nuclei_fpga_eval``, then you don't need to pass ``BOARD=nuclei_fpga_eval``. * If you don't pass any SOC or BOARD via make, ``evalsoc`` and ``nuclei_fpga_eval`` are default SoC and Board. Build Application ~~~~~~~~~~~~~~~~~ We need to build application for this board :ref:`design_board_nuclei_fpga_eval` using this command line: .. note:: * Since below steps are taking evalsoc SoC based board nuclei_fpga_eval to do demostration, and when you pass ``SOC=evalsoc``, the default BOARD will be ``nuclei_fpga_eval``, so do you don't need to pass ``BOARD=nuclei_fpga_eval`` * You can check default SOC/BOARD/CORE information passed by using make target ``info``, eg. ``make SOC=evalsoc info``, for more information, please check :ref:`develop_buildsystem_make_targets`. .. code-block:: shell # clean application if build in other application before or build for other board make SOC=evalsoc clean # first build choice: using full command line make SOC=evalsoc all # second build choice: using simple command line, since when SOC=evalsoc, default BOARD is nuclei_fpga_eval make SOC=evalsoc all Here is the sample output of this command: .. code-block:: # NOTICE: You can check this configuration whether it matched your desired configuration Current Configuration: TOOLCHAIN=nuclei_gnu RISCV_ARCH=rv32ic RISCV_ABI=ilp32 RISCV_TUNE=nuclei-100-series RISCV_CMODEL=medlow SOC=evalsoc BOARD=nuclei_fpga_eval CORE=n100 ARCH_EXT= DOWNLOAD=ilm STDCLIB=newlib_nano SMP= BOOT_HARTID= "Assembling : " ../../../SoC/evalsoc/Common/Source/GCC/intexc_evalsoc.S "Assembling : " ../../../SoC/evalsoc/Common/Source/GCC/startup_evalsoc.S ... ... "Compiling : " ../../../SoC/evalsoc/Common/Source/Stubs/write.c "Compiling : " ../../../SoC/evalsoc/Common/Source/evalsoc_soc.c "Compiling : " ../../../SoC/evalsoc/Common/Source/system_evalsoc.c "Compiling : " main.c "Linking : " helloworld.elf text data bss dec hex filename 13022 112 2290 15424 3c40 helloworld.elf As you can see, that when the application is built successfully, the elf will be generated and will also print the size information of the ``helloworld.elf``. .. note:: * In order to make sure that there is no application build before, you can run ``make SOC=evalsoc clean`` to clean previously built objects and build dependency files. * About the make variable or option(**SOC**, **BOARD**) passed to make command, please refer to :ref:`develop_buildsystem`. Run Application ~~~~~~~~~~~~~~~ If the application is built successfully for this board :ref:`design_board_nuclei_fpga_eval`, then you can run it using this command line: .. code-block:: shell make SOC=evalsoc upload Here is the sample output of this command: .. code-block:: "Download and run helloworld.elf" riscv64-unknown-elf-gdb helloworld.elf -ex "set remotetimeout 240" \ -ex "target remote | openocd -c \"gdb_port pipe; log_output openocd.log\" -f ../../../SoC/evalsoc/Board/nuclei_fpga_eval/openocd_evalsoc.cfg" \ --batch -ex "monitor halt" -ex "monitor halt" -ex "monitor flash protect 0 0 last off" -ex "load" -ex "monitor resume" -ex "monitor shutdown" -ex "quit" D:\Software\Nuclei\gcc\bin\riscv64-unknown-elf-gdb.exe: warning: Couldn't determine a path for the index cache directory. Nuclei OpenOCD, 64-bit Open On-Chip Debugger 0.10.0+dev-00014-g0eae03214 (2019-12-12-07:43) Licensed under GNU GPL v2 For bug reports, read http://openocd.org/doc/doxygen/bugs.html _start0800 () at ../../../SoC/evalsoc/Common/Source/GCC/startup_evalsoc.S:359 359 j 1b cleared protection for sectors 0 through 127 on flash bank 0 Loading section .init, size 0x266 lma 0x8000000 Loading section .text, size 0x2e9c lma 0x8000280 Loading section .rodata, size 0x1f0 lma 0x8003120 Loading section .data, size 0x70 lma 0x8003310 Start address 0x800015c, load size 13154 Transfer rate: 7 KB/sec, 3288 bytes/write. shutdown command invoked A debugging session is active. Inferior 1 [Remote target] will be detached. Quit anyway? (y or n) [answered Y; input not from terminal] [Inferior 1 (Remote target) detached] As you can see the application is uploaded successfully using ``openocd`` and ``gdb``, then you can check the output in your UART terminal, see :ref:`figure_quickstart_8`. .. _figure_quickstart_8: .. figure:: /asserts/images/nuclei_app_helloworld_uart.png :width: 80 % :align: center :alt: Nuclei N100 SDK Hello World Application UART Output Nuclei N100 SDK Hello World Application UART Output Debug Application ~~~~~~~~~~~~~~~~~ If the application is built successfully for this board :ref:`design_board_nuclei_fpga_eval`, then you can debug it using this command line: .. code-block:: shell make SOC=evalsoc debug 1. The program is not loaded automatically when you enter to debug state, just in case you want to debug the program running on the board. .. code-block:: "Download and debug helloworld.elf" riscv64-unknown-elf-gdb helloworld.elf -ex "set remotetimeout 240" \ -ex "target remote | openocd -c \"gdb_port pipe; log_output openocd.log\" -f ../../../SoC/evalsoc/Board/nuclei_fpga_eval/openocd_evalsoc.cfg" D:\Software\Nuclei\gcc\bin\riscv64-unknown-elf-gdb.exe: warning: Couldn't determine a path for the index cache directory. GNU gdb (GDB) 8.3.0.20190516-git Copyright (C) 2019 Free Software Foundation, Inc. License GPLv3+: GNU GPL version 3 or later This is free software: you are free to change and redistribute it. There is NO WARRANTY, to the extent permitted by law. Type "show copying" and "show warranty" for details. This GDB was configured as "--host=i686-w64-mingw32 --target=riscv64-unknown-elf". Type "show configuration" for configuration details. For bug reporting instructions, please see: . Find the GDB manual and other documentation resources online at: . --Type for more, q to quit, c to continue without paging-- For help, type "help". Type "apropos word" to search for commands related to "word"... Reading symbols from helloworld.elf... Remote debugging using | openocd -c \"gdb_port pipe; log_output openocd.log\" -f ../../../SoC/evalsoc/Board/nuclei_fpga_eval/openocd_evalsoc.cfg Nuclei OpenOCD, 64-bit Open On-Chip Debugger 0.10.0+dev-00014-g0eae03214 (2019-12-12-07:43) Licensed under GNU GPL v2 For bug reports, read http://openocd.org/doc/doxygen/bugs.html _start0800 () at ../../../SoC/evalsoc/Common/Source/GCC/startup_evalsoc.S:359 359 j 1b 2. If you want to load the built application, you can type ``load`` to load the application. .. code-block:: (gdb) load Loading section .init, size 0x266 lma 0x8000000 Loading section .text, size 0x2e9c lma 0x8000280 Loading section .rodata, size 0x1f0 lma 0x8003120 Loading section .data, size 0x70 lma 0x8003310 Start address 0x800015c, load size 13154 Transfer rate: 7 KB/sec, 3288 bytes/write. 3. If you want to set a breakpoint at *main*, then you can type ``b main`` to set a breakpoint. .. code-block:: (gdb) b main Breakpoint 1 at 0x8001b04: file helloworld.c, line 85. 4. If you want to set more breakpoints, you can do as you like. 5. Then you can type ``c``, then the program will stop at **main** .. code-block:: (gdb) c Continuing. Note: automatically using hardware breakpoints for read-only addresses. Breakpoint 1, main () at helloworld.c:85 85 srand(__get_rv_cycle() | __get_rv_instret() | __RV_CSR_READ(CSR_MCYCLE)); 6. Then you can step it using ``n`` (short of next) or ``s`` (short of step) .. code-block:: (gdb) n 86 uint32_t rval = rand(); (gdb) n 87 rv_csr_t misa = __RV_CSR_READ(CSR_MISA); (gdb) s 89 printf("MISA: 0x%lx\r\n", misa); (gdb) n 90 print_misa(); (gdb) n 92 printf("Hello World!\r\n"); (gdb) n 93 printf("Hello World!\r\n"); 7. If you want to quit debugging, then you can press ``CTRL - c``, and type ``q`` to quit debugging. .. code-block:: (gdb) Quit (gdb) q A debugging session is active. Inferior 1 [Remote target] will be detached. Quit anyway? (y or n) y Detaching from program: D:\workspace\Sourcecode\nuclei-n100-sdk\application\baremetal\helloworld\helloworld.elf, Remote target Ending remote debugging. [Inferior 1 (Remote target) detached] .. note:: * More about how to debug using gdb, you can refer to the `GDB User Manual`_. * If you want to debug using Nuclei Studio, you can open Nuclei Studio, and create a debug configuration, and choose the application elf, and download and debug in IDE. Create helloworld Application ----------------------------- If you want to create your own ``helloworld`` application, it is also very easy. There are several ways to achieve it, see as below: * **Method 1:** You can find a most similar sample application folder and copy it, such as ``application/baremetal/helloworld``, you can copy and rename it as ``application/baremetal/hello`` - Open the ``Makefile`` in ``application/baremetal/hello`` 1. Change ``TARGET = helloworld`` to ``TARGET = hello`` - Open the ``helloworld.c`` in ``application/baremetal/hello``, and replace the content using code below: .. code-block:: c :linenos: // See LICENSE for license details. #include #include #include #include "nuclei_sdk_soc.h" int main(void) { printf("Hello World from Nuclei RISC-V Processor!\r\n"); return 0; } - Save all the changes, and then you can follow the steps described in :ref:`quickstart_buildrundebug_app` to run or debug this new application. * **Method 2:** You can also do it from scratch, with just create simple ``Makefile`` and ``main.c`` - Create new folder named ``hello`` in ``application/baremetal`` - Create two files named ``Makefile`` and ``main.c`` - Open ``Makefile`` and edit the content as below: .. code-block:: makefile :linenos: TARGET = hello NUCLEI_SDK_ROOT = ../../.. SRCDIRS = . INCDIRS = . include $(NUCLEI_SDK_ROOT)/Build/Makefile.base - Open ``main.c`` and edit the content as below: .. code-block:: c :linenos: // See LICENSE for license details. #include #include #include #include "nuclei_sdk_soc.h" int main(void) { printf("Hello World from Nuclei RISC-V Processor!\r\n"); return 0; } - Save all the changes, and then you can follow the steps described in :ref:`quickstart_buildrundebug_app` to run or debug this new application. .. note:: * If your are looking for how to run for other boards, please ref to :ref:`design_board`. * Please refer to :ref:`develop_appdev` and :ref:`develop_buildsystem` for more information. * If you want to access SoC related APIs, please use ``nuclei_sdk_soc.h`` header file. * If you want to access SoC and board related APIs, please use ``nuclei_sdk_hal.h`` header file. * For simplified application development, you can use ``nuclei_sdk_hal.h`` directly. .. _quickstart_advanced_usage: Advanced Usage -------------- For more advanced usage, please follow the items as below: * Click :ref:`design` to learn about Nuclei N100 SDK Design and Architecture, Board and SoC support documentation. * Click :ref:`develop` to learn about Nuclei N100 SDK Build System and Application Development. * Click :ref:`design_app` to learn about each application usage and expected output. .. note:: * If you met some issues in using this guide, please check :ref:`faq`, if still not solved, please :ref:`contribute_submit_issue`. * If you are trying to **develop Nuclei N100 SDK application in IDE**, now you have three choices: 1. **Recommended**: Since Nuclei Studio 2024.06, Nuclei N100 SDK will be deeply integrated with Nuclei Studio IDE, you can easily create a Nuclei N100 SDK Project in Nuclei Studio through IDE Project Wizard, and easily configure selected Nuclei N100 SDK project using SDK Configuration Tool, for more details, please click `Nuclei Tools`_ to download Nuclei Studio IDE, and refer to the `Nuclei_Studio_User_Guide.pdf`_ for how to use it. 2. You can take a try using IAR workbench, we provided prebuilt projects directly in Nuclei N100 SDK, just check the ``ideprojects/iar`` folder to learn about it. .. _GDB User Manual: https://www.gnu.org/software/gdb/documentation/ .. _Nuclei Tools: https://nucleisys.com/download.php .. _Nuclei_Studio_User_Guide.pdf: https://www.nucleisys.com/upload/files/doc/nucleistudio/Nuclei_Studio_User_Guide.pdf