Nuclei System Technology made a riscv debugger called dlink based on rv-link, it provided more features than rv-link. For details, please check DLink Documentation.
Documentation below is not suitable for dlink project, please follow above documentation.
A JTAG emulator/debugger for RISC-V micro-controllers that runs on a RISC-V development board (Sipeed Longan Nano for example).
JTAG emulators are the "umbilical cord" between PC software tools and MCU/DSP boards during development. Typically connecting to the host PC via parallel port or USB port, the JTAG emulator provides a standard, simple way to give the development tool software a direct connection to one or more MCU/DSP devices on the target board.
Like Blackmagic, but designed for RISC-V.
This project is based on the work of Zoomdy's RV-LINK project and is originally forked from the repository at https://gitee.com/zoomdy/RV-LINK.
The goal of the RV-Link project is to provide the firmware needed to turn a RISC-V development board into a RISC-V emulator, but the RV-Link project does not include any hardware. Currently the RV-Link firmware runs on the boards listed below. The firmware can be loaded into the board using the dfu or serial uploading feature of its boot-loader, or if available, a JTAG emulator (which in turn could be a RV-Link ;-) ).
Different from other emulators: the RV-Link directly interacts with GDB through the USB serial port, and does not require an intermediary such as OpenOCD.
The development boards that can be used as emulators are:
- Longan Nano, available on Taobao;
- GD32VF103C-START, Taobao.
RISC-V MCU that RV-Link can debug:
- GD32VF103 series.
- Clone Nuclei SDK source code
export NUCLEI_SDK_ROOT=/path/to/nuclei-sdk
- Build just like a nuclei sdk application
This application can run on rv-star, but not functional, please check!!!
The RV-Link firmware provides the following features when connected to a RISC-V target:
-
a JTAG interface with gbd-server as USB device e.g. on a Linux host connect to a target board with the following commands:
$ riscv32-unknown-gdb <your-application-firmware.elf> (gdb) target remote /dev/ttyACM0 (gbd) load (gdb) continue
-
a USB-to-serial adapter
$ pio device monitor -p /dev/ttyACM1 -b 115200
Before the USB-to-serial adapter feature can used, it must be activated with the GDB command
mon rvl vcom on
and subsequently the RV-Link must be power cycled to take effect. Note, this setting is persistent across power cycles, as it is stored in the build-in Flash memory of the RV-Link.
- Turn the Longan Nano development board into a RISC-V emulator
- Turn the GD32VF103C-START development board into a RISCV-V emulator
- GDB uses the RV-LINK simulator to debug RISC-V programs
- Eclipse uses RV-LINK to debug RISC-V programs
- NucleiStudio uses RV-LINK to debug RISC-V programs
- Disguise RV-LINK as OpenOCD and enable Peripherals view
- Use Longan Nano as an emulator to debug the Longan Nano development board
- PlatformIO Unified Debugger » RV-LINK
- RV-LINK wikis
- Using JTAG on the GD32VF103 using RV-Link
This project currently only supports the PlatformIO build system, so you will need to install PlatformIO.
Run the following commands to build all firmware variants and upload the RV-Link firmware to e.g. the Sipeed Longan Nano RISC-V development board:
$ pio run
$ pio run -e sipeed-longan-nano -t upload
The pins that are used for the JTAG/TAP hardware interface are configured during the build (determined by platformio.ini and link-config.h) and are as following:
- gd32vf103c-start
TMS = PB12/NSS1, TCK = PB13/SCK1, TDO = PB14/MISO1, TDI = PB15/MOSI1, SRST = PB0/GPIO
VCOM = PA9/UART0_TX, PA10/UART0_RX
- sipeed-longan-nano
TMS = PA13/GPIO, TCK = PA14/GPIO, TDO = PB3/GPIO, TDI = PB15/GPIO, SRST = N/A
VCOM = PA9/UART0_TX, PA10/UART0_RX
- sipeed-longan-nano-alt
TMS = PB12/NSS1, TCK = PB13/SCK1, TDO = PB14/MISO1, TDI=PB15/MOSI1, SRST = PA8/GPIO
VCOM = PA9/UART0_TX, PA10/UART0_RX
- rvl-probe
TMS = PA4/NSS0, TCK = PA5/SCK0, TDO = PA6/MISO0, TDI = PA7MOSI0, SRST = N/A
VCOM = PB10/UART2_TX, PB11/UART2_RX
CAN = B12/CAN1_RX, PB13/CAN1_TX
Optionally, the serial interface of the RV-Link can be cross-connected to an UART of the target board.
Note
When the JTAG pins are not properly connected, it is very likely that you will see the following output:
(gdb) target remote /dev/ttyACM0 Remote debugging using /dev/ttyACM0 Remote replied unexpectedly to 'vMustReplyEmpty': RV-LINK ERROR: the target is not connected! RV-LINK v0.2: Longan Nano, configed for GD32VF103 family.
If so, check your wiring, optionally add series resistors (of e.g. 100Ohm) in each JTAG signal wire at the RV-Link.
Here is an example of a Sipeed Longan Nano running the RV-Link firmware (env:sipeed-longan-nano) that is debugging a Sipeed Longan Nano running the RV-Link firmware (env:rvl-probe) that is debugging a third Sipeed Longan Nano running a blink application...
This project aims to improve the original RV-LINK firmware with the following features:
- Support for a newly designed hardware board with specific features, called RVL-Probe
- Support for JTAG over SPI + DMA;
- Additional diagnostics of the JTAG interface;
- Support for a second USB to serial adapter;
- A CAN bus logger;
- Easy updating of the RV-Link firmware;
- Support of running RV-Link on other host platforms (e.g. Linux PC+FT323 / Raspberry Pi);
- Additional
mon
commands; - Additional NVM configurable items.
This repository originally based on the RV-LINK project of Zoomdy and was forked from the repository at https://gitee.com/zoomdy/RV-LINK at the v0.2.1 tag. It is mirrored to GitHub and Gitee.