This is a wrapper around the CosmWasm VM. It allows you to compile, initialize and execute CosmWasm smart contracts from Go applications, in particular from x/wasm.
This repo contains both Rust and Go code. The Rust code is compiled into a
library (shared .dll
/.dylib
/.so
or static .a
) to be linked via cgo and
wrapped with a pleasant Go API. The full build step involves compiling Rust -> C
library, and linking that library to the Go code. For ergonomics of the user, we
will include pre-compiled libraries to easily link with, and Go developers
should just be able to import this directly.
The Rust code lives in a sub-folder ./libwasmvm
. This folder compiles to a
library that can be used via FFI. It is compiled like this:
# Run unit tests
(cd libwasmvm && cargo test)
# Create release build for your current system. Uses whatever default Rust
# version you have installed.
make build-rust
# Create reproducible release builds for other systems (slow, don't use for development)
make release-build-alpine
make release-build-linux
make release-build-macos
make release-build-windows
The Go code consistes of three packages:
- The types (the
github.com/CosmWasm/wasmvm/types
import), usingpackage types
- The internal package
internal/api
, usingpackage api
- This repo (the
github.com/CosmWasm/wasmvm
import), usingpackage cosmwasm
The dependencies between them are as follows:
graph TD;
api-->types;
cosmwasm-->types;
cosmwasm-->api;
The Go code is built like this:
make build-go
make test
This packages contains types used by the two other packages. It can be compiled without cgo.
# Build
go build ./types
# Build without CGO
CGO_ENABLED=0 go build ./types
This package contains the code binding the libwasmvm build to the Go code. All
low level FFI handling code belongs there. This package can only be built using
cgo. Uing the internal/
convention makes this package fully private.
This is the package users import. It can be compiled without cgo, but when you do so, a lot of functionality is removed.
# Build
go build .
# Build without CGO
CGO_ENABLED=0 go build .
See COMPILER_VERSIONS.md for information on Go and Rust compiler support.
The Rust implementation of the VM is compiled to a library called libwasmvm. This is then linked to the Go code when the final binary is built. For that reason not all systems supported by Go are supported by this project.
Linux (tested on Ubuntu, Debian, and CentOS7, Alpine) and macOS is supported. We are working on Windows (#288).
Our system currently supports the following builds. In general we can only support targets that are supported by Wasmer's singlepass backend, which for example excludes all 32 bit systems.
OS family | Arch | Linking | Supported | Note |
---|---|---|---|---|
Linux (glibc) | x86_64 | shared | ✅libwasmvm.x86_64.so | |
Linux (glibc) | x86_64 | static | 🚫 | Would link libwasmvm statically but glibc dynamically as static glibc linking is not recommended. Potentially interesting for Osmosis. |
Linux (glibc) | aarch64 | shared | ✅libwasmvm.aarch64.so | |
Linux (glibc) | aarch64 | static | 🚫 | |
Linux (musl) | x86_64 | shared | 🚫 | Possible but not needed |
Linux (musl) | x86_64 | static | ✅libwasmvm_muslc.x86_64.a | |
Linux (musl) | aarch64 | shared | 🚫 | Possible but not needed |
Linux (musl) | aarch64 | static | ✅libwasmvm_muslc.aarch64.a | |
macOS | x86_64 | shared | ✅libwasmvm.dylib | Fat/universal library with multiple archs (#294) |
macOS | x86_64 | static | 🚫 | |
macOS | aarch64 | shared | ✅libwasmvm.dylib | Fat/universal library with multiple archs (#294) |
macOS | aarch64 | static | 🚫 | |
Windows (mingw) | x86_64 | shared | 🏗wasmvm.dll | Shared library linking not working on Windows (#389) |
Windows (mingw) | x86_64 | static | 🚫 | Unclear if this can work using a cross compiler; needs research on .lib (MSVC toolchain) vs. .a (GNU toolchain). (#389) |
Windows (mingw) | aarch64 | shared | 🚫 | Shared library linking not working on Windows (#389) |
Windows (mingw) | aarch64 | static | 🚫 | Unclear if this can work using a cross compiler; needs research on .lib (MSVC toolchain) vs. .a (GNU toolchain). (#389) |
Run (cd libwasmvm && cargo doc --no-deps --open)
.
Please read the Documentation to understand both the general Architecture, as well as the more detailed Specification of the parameters and entry points.
There are two halfs to this code - go and rust. The first step is to ensure that
there is a proper dll built for your platform. This should be api/libwasmvm.X
,
where X is:
so
for Linux systemsdylib
for MacOSdll
for Windows - Not currently supported due to upstream dependency
If this is present, then make test
will run the Go test suite and you can
import this code freely. If it is not present you will have to build it for your
system, and ideally add it to this repo with a PR (on your fork). We will set up
a proper CI system for building these binaries, but we are not there yet.
To build the rust side, try make build-rust
and wait for it to compile. This
depends on cargo
being installed with rustc
version 1.47+. Generally, you
can just use rustup
to install all this with no problems.