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Ada RISC-V Examples for Renode

This repository contains a set of minimal examples that run an Ada, cross compiled for the RISC-V, on an emulated core using Renode.

How to Get Started

The examples can be compiled and run in a Docker container. First, let's set that up:

  1. Start by downloading Docker Desktop.
  2. Next, clone this repository:
$ git clone https://github.com/dinkelk/ada_riscv_renode.git 
  1. Start the container and log in:
$ cd ada_riscv_renode/docker
$ ./create_container.sh
$ ./login_container.sh

You should now be logged into a shell within the container. This repository is shared with the container at ~/ada_riscv_renode.

Compiling the Examples

To compile all the example programs, run the following from within the container:

$ cd ~/ada_riscv_renode
$ alr -n build

This will build all the examples in their respective source directories, ie. src/<example_name>/bin/<example_program>.

Running the Examples

After you have compiled the examples, you can run them on Renode using the instructions below.

Running Blinky

From within the container, invoke renode:

$ cd ~/ada_riscv_renode/src/blinky
$ renode vexriscv.resc
17:39:02.4980 [WARNING] Couldn't start UI - falling back to console mode
17:39:02.9129 [INFO] Loaded monitor commands from: /opt/renode/scripts/monitor.py
Renode, version 1.14.0.29506 (81da46c1-202308081623)
(monitor) i $CWD/vexriscv.resc
17:39:03.1309 [INFO] Including script: /home/user/ada_riscv_renode/src/vexriscv.resc
17:39:03.1433 [INFO] System bus created.
17:39:03.7678 [INFO] sysbus: Loading segment of 1515 bytes length at 0x10000.
17:39:03.7813 [INFO] sysbus: Loading segment of 33 bytes length at 0x115EC.
17:39:03.7965 [INFO] cpu: Setting PC value to 0x1013C.
17:39:03.8216 [INFO] vexriscv-machine: GDB server with all CPUs started on port :3333
Starting emulation...
17:39:03.8305 [INFO] vexriscv-machine: Machine started.
17:39:03.8835 [NOISY] gpio_out.led0: LED state changed to True
(vexriscv-machine) 17:39:04.3264 [NOISY] gpio_out.led0: LED state changed to False
17:39:04.7051 [NOISY] gpio_out.led0: LED state changed to True
17:39:05.0953 [NOISY] gpio_out.led0: LED state changed to False

You will see the LED state changing back and forth by the Ada program.

Running UART

From within the container, invoke renode:

$ cd ~/ada_riscv_renode/src/uart
$ renode vexriscv.resc
22:30:18.6848 [WARNING] Couldn't start UI - falling back to console mode
22:30:19.1693 [INFO] Loaded monitor commands from: /opt/renode/scripts/monitor.py
Renode, version 1.14.0.29506 (81da46c1-202308081623)
(monitor) i $CWD/vexriscv.resc
22:30:19.4028 [INFO] Including script: /home/user/ada_riscv_renode/src/uart/vexriscv.resc
22:30:19.4171 [INFO] System bus created.
22:30:20.4249 [INFO] sysbus: Loading segment of 572 bytes length at 0x10000.
22:30:20.4368 [INFO] sysbus: Loading segment of 2 bytes length at 0x1123C.
22:30:20.4541 [INFO] cpu: Setting PC value to 0x10140.
22:30:20.4841 [INFO] vexriscv-machine: GDB server with all CPUs started on port :3335
Starting emulation...
22:30:20.5935 [INFO] vexriscv-machine: Machine started.

This example connects the RISC-V's UART to a socket in the docker container. To talk to the RISC-V via this socket, log into the container with a separate shell and run:

$ cd ~/ada_riscv_renode/src/uart
$ ./uart_connect.sh
Hello, World!
Hello, World!

Anything you type (followed by ENTER) is sent over a socket to the RISC-V's UART. The Ada program then repeats back what it receives over the RISC-V UART to the docker container's socket, which appears as an echo in the terminal.