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#3 in #ckb

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10,493 downloads per month
Used in 43 crates (9 directly)

MIT license

465KB
13K SLoC

Rust 9K SLoC // 0.1% comments GNU Style Assembly 4K SLoC // 0.0% comments

Nervos CKB VM

Build Status Build Status codecov


About CKB VM

CKB VM is a pure software implementation of the RISC-V instruction set used as scripting VM in CKB. Right now it implements full IMCB instructions for both 32-bit and 64-bit register size support. In the future we might also implement V extensions to enable better crypto implementations.

License

Nervos CKB is released under the terms of the MIT license. See COPYING for more information or see https://opensource.org/licenses/MIT.

Development Process

This is now deployed and used in production CKB mainnet.

The develop branch is regularly built and tested, but is not guaranteed to be completely stable. CKB will use released versions of CKB VM which are tested and more stable.

The contribution workflow is described in CONTRIBUTING.md, and security policy is described in SECURITY.md. To propose new protocol or standard for Nervos, see Nervos RFC.


How to build

CKB VM is currently tested mainly with stable Rust version on 64-bit Linux, macOS, and Windows.

# download CKB VM
$ git clone https://github.com/nervosnetwork/ckb-vm
$ cd ckb-vm
$ cargo build

You can also run the tests:

make test

CKB VM has already included RISC-V binaries used in tests, so you don't need a RISC-V compiler to build binaries. However if you do want to play with your own binaries, a RISC-V compiler might be needed. riscv-tools can be a good starting point here, or if you are an expert on GNU toolchain, you might also compile upstream GCC from source with RISC-V support, here is an example. CKB VM is using standard RISC-V instructions and ELF binary format, so theoretically any RISC-V compatible compilers are able to produce contracts used in CKB VM(tho bug reports are very welcome if you find breakage).

Notes on Different Modes

Right now CKB VM has 2 different modes:

  • Rust interpreter mode
  • Assembly based interpreter mode(ASM mode)

For consistent behavior, you should only use ASM mode. The Rust mode is developed more to assist development, and never used in production by us. In case of bugs, there might be inconsistent behaviors between Rust mode and ASM mode.

Dependencies

~2.7–4MB
~69K SLoC