# RiscEmu - RISC-V (userspace) emulator in python [![Documentation Status](https://readthedocs.org/projects/riscemu/badge/?version=latest)](https://riscemu.readthedocs.io/en/latest/?badge=latest) Implementing a basic RISC-V emulator, aimed at being easily extendable. Check out the docs at [readthedocs](https://riscemu.readthedocs.io/en/latest/index.html) or [riscemu.datenvorr.at](https://riscemu.datenvorr.at/index.html). This emulator contains: * RISC-V Assembly parser * RISC-V Assembly loader * Emulation for most parts of the basic RISC-V instruction set and the M and A extensions * Naive memory emulator * Basic implementation of some syscalls * A debugging environment ## Installation: ```bash $ pip install riscemu ``` ## Running simple Assembly: A couple of basic assembly programs are provided inside `examples/`, such as [`hello-world.asm`](examples/hello-world.asm). You can run it by typing `python -m riscemu examples/hello-world.asm`. It will produce output similar to: ``` [MMU] Successfully loaded: LoadedExecutable[examples/hello-world.asm](base=0x00000100, size=24bytes, sections=data text, run_ptr=0x00000110) [CPU] Started running from 0x00000110 (examples/hello-world.asm) Hello world Program exited with code 0 ``` If you want to run it from a python script, here is [an online demo](https://AntonLydike.github.io/riscemu/lab/index.html?path=PythonDemo.ipynb). The [`read` syscall](docs/syscalls.md) defaults to readline behaviour. Reading "true chunks" (ignoring newlines) is currently not supported. See the docs on [asembly](docs/assembly.md) for more detail on how to write assembly code for this emulator. See the [list of implemented syscalls](docs/syscalls.md) for more details on how to syscall. Currently, symbols (such as `main` or `loop`) are looked-up at runtime. This allows for better debugging, I believe. Basic IO should work, as open, read, write and close are supported for stdin/stdout/stderr and even aribtrary file paths (if enabled) When trying to run an assembly program, the emulator first tries to find a symbol named `_start`, then a symbol named `main`. if both symbols were not found in the file, it simply starts at the beginning of the `.text` segment. ## Using the CLI: *Current CLI is not final, options may change frequently until a stable version is reached* This is how the interface is used: ``` usage: riscemu [-h] [--options OPTIONS] [--syscall-opts SYSCALL_OPTS] [--instruction-sets INSTRUCTION_SETS] [--stack_size stack-size] file.asm [file.asm ...] OPTIONS and SYSCALL_OPTIONS is a list of comma-separated flags that will be enabled --options OPTIONS: (-o) disable_debug Disable the ebreak and sbreak instructions no_syscall_symbols Don't make syscall symbols globally available fail_on_ex Do not launch an interactive debugger when the CPU loop catches an exception add_accept_imm accept "add rd, rs, imm" instructions, even though they are not standard --syscall-opts SYSCALL_OPTS: (-so) Options to control syscall behaviour fs_access Allow access to the filesystem disable_io Disallow reading/writing from stdin/stdout/stderr --instruction-sets INSTRUCTION_SETS: (-is) A list of comma separated instruction sets you want to load: Currently implemented: RV32I, RV32M ``` If multiple files are specified, all are loaded into memeory, but only the last one is executed. This might be improved later, maybe the `_init` section of each binary is executed before the main loop starts? If `stack_size` is greater than zero, a stack is allocated and initialized, with the `sp` register pointing to the end of the stack. ## Debugging Debugging is done using the `ebreak` (formerly `sbreak`) instruction, which will launch a debugging session if encountered. See [docs/debugging.md](docs/debugging.md) for more info. ![debuggin the fibs program](docs/debug-session.png) ## The source code: Check out the [documentation](https://riscemu.readthedocs.io/en/latest/riscemu.html). ## Accessing local documentation: To generate your local documentation, first install everything in `sphinx-docs/requirements.txt`. Then run `./generate-docs.sh`, which will generate and make all doc files for you. Finally, you can open the docs locall by runnint `open sphinx-docs/build/html/index.html`. ## Resources: * RISC-V Programmers Handbook: https://github.com/riscv-non-isa/riscv-asm-manual/blob/master/riscv-asm.md * Pseudo ops: https://www.codetd.com/article/8981522 * detailed instruction definition: https://msyksphinz-self.github.io/riscv-isadoc/html/rvi.html#add * RISC-V reference card: https://www.cl.cam.ac.uk/teaching/1617/ECAD+Arch/files/docs/RISCVGreenCardv8-20151013.pdf ## TODO: * Correctly handle 12 and 20 bit immediate (currently not limited to bits at all) * Add a cycle limit to the options and CPU to catch infinite loops * Move away from `print` and use `logging.logger` instead * Writer proper tests