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RISC-V RV32I[MACF] emulator

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     | |_) \ \ / /     | |   Emulator!   |     |
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     |___ /___ \       '======================='
       |_ \ __) |      //-'-'-'-'-'-'-'-'-'-'-\\
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rv32emu is an emulator for the 32 bit RISC-V processor model (RV32), faithfully implementing the RISC-V instruction set architecture (ISA). It serves as an exercise in modeling a modern RISC-based processor, demonstrating the device's operations without the complexities of a hardware implementation. The code is designed to be accessible and expandable, making it an ideal educational tool and starting point for customization. It is primarily written in C99, with a focus on efficiency and readability.

Features:

  • Fast interpreter for executing the RV32 ISA
  • Comprehensive support for RV32I and M, A, C extensions
  • Partial support for the F extension
  • Memory-efficient design
  • Built-in ELF loader
  • Implementation of commonly used newlib system calls
  • Experimental SDL-based display/event/audio system calls for running video games
  • Support for remote GDB debugging

Build and Verify

rv32emu relies on certain third-party packages for full functionality and access to all its features. To ensure proper operation, the target system should have the SDL2 library and SDL2_Mixer library installed.

  • macOS: brew install sdl2 sdl2_mixer
  • Ubuntu Linux / Debian: sudo apt install libsdl2-dev libsdl2-mixer-dev

Build the emulator.

$ make

Run sample RV32I[M] programs:

$ make check

Run Doom, the classical video game, via rv32emu:

$ make doom

The build script will then download data file for Doom automatically. When Doom is loaded and run, an SDL2-based window ought to appear.

If RV32F support is enabled (turned on by default), Quake demo program can be launched via:

$ make quake

The usage and limitations of Doom and Quake demo are listed in docs/demo.md.

Customization

rv32emu is configurable, and you can override the below variable(s) to fit your expectations:

  • ENABLE_EXT_M: Standard Extension for Integer Multiplication and Division
  • ENABLE_EXT_A: Standard Extension for Atomic Instructions
  • ENABLE_EXT_C: Standard Extension for Compressed Instructions (RV32C.F excluded)
  • ENABLE_EXT_F: Standard Extension for Single-Precision Floating Point Instructions
  • ENABLE_Zicsr: Control and Status Register (CSR)
  • ENABLE_Zifencei: Instruction-Fetch Fence
  • ENABLE_GDBSTUB : GDB remote debugging support
  • ENABLE_SDL : Experimental Display and Event System Calls

e.g., run make ENABLE_EXT_F=0 for the build without floating-point support.

Alternatively, configure the above items in advance by executing make config and specifying them in a configuration file. Subsequently, run make according to the provided configurations. For example, employ the following commands:

$ make config ENABLE_SDL=0
$ make

RISCOF

RISCOF (RISC-V Compatibility Framework) is a Python based framework that facilitates testing of a RISC-V target against a golden reference model.

The RISC-V Architectural Tests, also known as riscv-arch-test, provide a fundamental set of tests that can be used to verify that the behavior of the RISC-V model aligns with RISC-V standards while executing specific applications. These tests are not meant to replace thorough design verification.

Reference signatures are generated by the formal RISC-V model RISC-V SAIL in Executable and Linkable Format (ELF) files. ELF files contain multiple testing instructions, data, and signatures, such as cadd-01.elf. The specific data locations that the testing model (this emulator) must write to during the test are referred to as test signatures. These test signatures are written upon completion of the test and are then compared to the reference signature. Successful tests are indicated by matching signatures.

To install RISCOF:

$ python3 -m pip install git+https://github.com/riscv/riscof

RISC-V GNU Compiler Toolchain should be prepared in advance. You can obtain prebuilt GNU toolchain for riscv32-elf from the Automated Nightly Release. Then, run the following command:

$ make arch-test

For macOS users, installing sdiff might be required:

$ brew install diffutils

To run the tests for specific extension, set the environmental variable RISCV_DEVICE to one of I, M, C, Zifencei, privilege.

$ make arch-test RISCV_DEVICE=I

Current progress of this emulator in riscv-arch-test (RV32):

  • Passed Tests
    • I: Base Integer Instruction Set
    • M: Standard Extension for Integer Multiplication and Division
    • C: Standard Extension for Compressed Instruction
    • Zifencei: Instruction-Fetch Fence
    • privilege: RISCV Privileged Specification
  • Unsupported tests (runnable but incomplete)
    • F Standard Extension for Single-Precision Floating-Point

Detail in riscv-arch-test:

GDB Remote Debugging

rv32emu is permitted to operate as gdbstub in an experimental manner since it supports a limited number of GDB Remote Serial Protocol (GDBRSP). To enable this feature, you need to build the emulator and set ENABLE_GDBSTUB=1 when running the make command. After that, you might execute it using the command below.

$ build/rv32emu -g <binary>

The <binary> should be the ELF file in RISC-V 32 bit format. Additionally, it is advised that you compile programs with the -g option in order to produce debug information in your ELF files.

You can run riscv-gdb if the emulator starts up correctly without an error. It takes two GDB commands to connect to the emulator after giving GDB the supported architecture of the emulator and any debugging symbols it may have.

$ riscv32-unknown-elf-gdb
(gdb) file <binary>
(gdb) target remote :1234

Congratulate yourself if riscv-gdb does not produce an error message. Now that the GDB command line is available, you can communicate with rv32emu.

Dump registers as JSON

If the -d [filename] option is provided, the emulator will output registers in JSON format. This feature can be utilized for tests involving the emulator, such as compiler tests.

You can also combine this option with -q to directly use the output. For example, if you want to read the register x10 (a0), then run the following command:

$ build/rv32emu -d - -q out.elf | jq .x10

RISC-V Instructions/Registers Usage Statistics

This is a static analysis tool for assessing the usage of RV32 instructions/registers in a given target program. Build this tool by running the following command:

$ make tool

After building, you can launch the tool using the following command:

$ build/rv_histogram [-ar] [target_program_path]

The tool includes two optional options:

  • -a: output the analysis in ascending order(default is descending order)
  • -r: output usage of registers(default is usage of instructions)

Example Instructions Histogram Instructions Hisrogram Example

Example Registers Histogram Registers Hisrogram Example

Continuous Benchmarking

Continuous benchmarking is integrated into GitHub Actions, allowing the committer and reviewer to examine the comment on benchmark comparisons between the pull request commit(s) and the latest commit on the master branch within the conversation. This comment is generated by the benchmark CI and provides an opportunity for discussion before merging.

The results of the benchmark will be rendered on a GitHub page. Check benchmark-action/github-action-benchmark for the reference of benchmark CI workflow.

There are several files that have the potential to significantly impact the performance of rv32emu, including:

  • src/decode.c
  • src/rv32_template.c
  • src/emulate.c

As a result, any modifications made to these files will trigger the benchmark CI.

Contributing

See CONTRIBUTING.md for contribution guidelines.

External sources

In rv32emu repository, there are some prebuilt ELF files for testing purpose.

Reference

License

rv32emu is available under a permissive MIT-style license. Use of this source code is governed by a MIT license that can be found in the LICENSE file.