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wasmi
is an efficient WebAssembly interpreter with low-overhead and support
for embedded environment such as WebAssembly itself.
At Parity we are using wasmi
in Substrate
as the execution engine for our WebAssembly based smart contracts.
Furthermore we run wasmi
within the Substrate runtime which is a WebAssembly
environment itself and driven via Wasmtime at the time of this writing.
As such wasmi
's implementation requires a high degree of correctness and
Wasm specification conformance.
Since wasmi
is relatively lightweight compared to other Wasm virtual machines
such as Wasmtime it is also a decent option for initial prototyping.
The following list states some of the distinct features of wasmi
.
- Focus on simple, correct and deterministic WebAssembly execution.
- Can itself run inside of WebAssembly.
- Low-overhead and cross-platform WebAssembly runtime.
- Loosely mirrors the Wasmtime API.
- Resumable function calls.
- Built-in support for fuel metering.
- 100% official WebAssembly spec testsuite compliance.
The new wasmi
engine supports a variety of WebAssembly proposals and will support even more of them in the future.
WebAssembly Proposal | Status | Comment |
---|---|---|
mutable-global |
✅ | Since version 0.14.0 . |
saturating-float-to-int |
✅ | Since version 0.14.0 . |
sign-extension |
✅ | Since version 0.14.0 . |
multi-value |
✅ | Since version 0.14.0 . |
bulk-memory |
✅ | Since version 0.24.0 . (#628) |
reference-types |
✅ | Since version 0.24.0 . (#635) |
simd |
❌ | Unlikely to be supported. |
tail-calls |
✅ | Since version 0.28.0 . (#683) |
extended-const |
✅ | Since version 0.29.0 . (#707) |
function-references |
📅 | Planned but not yet implemented. (#774) |
gc |
📅 | Planned but not yet implemented. (#775) |
multi-memory |
📅 | Planned but not yet implemented. (#776) |
threads |
📅 | Planned but not yet implemented. (#777) |
relaxed-simd |
❌ | Unlikely to be supported since simd is unlikely to be supported. |
WASI | 👨🔬 | Experimental support via the wasmi_wasi crate or the wasmi CLI application. |
Install the newest wasmi
CLI version via:
cargo install wasmi_cli
Then run arbitrary wasm32-unknown-unknown
Wasm blobs via:
wasmi_cli <WASM_FILE> <FUNC_NAME> [<FUNC_ARGS>]*
Any Rust crate can depend on the wasmi
crate
in order to integrate a WebAssembly intepreter into their stack.
Refer to the wasmi
crate docs to learn how to use the wasmi
crate as library.
Clone wasmi
from our official repository and then build using the standard cargo
procedure:
git clone https://github.com/paritytech/wasmi.git
cd wasmi
cargo build
In order to test wasmi
you need to initialize and update the Git submodules using:
git submodule update --init --recursive
Alternatively you can provide --recursive
flag to git clone
command while cloning the repository:
git clone https://github.com/paritytech/wasmi.git --recursive
After Git submodules have been initialized and updated you can test using:
cargo test --workspace
In order to benchmark wasmi
use the following command:
cargo bench
You can filter which set of benchmarks to run:
-
cargo bench translate
- Only runs benchmarks concerned with WebAssembly module translation.
-
cargo bench instantiate
- Only runs benchmarks concerned with WebAssembly module instantiation.
-
cargo bench execute
- Only runs benchmarks concerned with executing WebAssembly functions.
We maintain a timeline for benchmarks of every commit to master
that can be viewed here.
Supported platforms are primarily Linux, MacOS, Windows and WebAssembly.
Other platforms might be working but are not guaranteed to be so by the wasmi
maintainers.
Use the following command in order to produce a WebAssembly build:
cargo build --no-default-features --target wasm32-unknown-unknown
In order to reap the most performance out of wasmi
we highly recommended
to compile the wasmi
crate using the following Cargo profile
:
[profile.release]
lto = "fat"
codegen-units = 1
When compiling for the WebAssembly target we highly recommend to post-optimize
wasmi
using Binaryen's wasm-opt
tool since our experiments displayed a
80-100% performance improvements when executed under Wasmtime and also
slightly smaller Wasm binaries.
wasmi
is primarily distributed under the terms of both the MIT
license and the APACHE license (Version 2.0), at your choice.
See LICENSE-APACHE
and LICENSE-MIT
for details.
Unless you explicitly state otherwise, any contribution intentionally submitted
for inclusion in wasmi
by you, as defined in the APACHE 2.0 license, shall be
dual licensed as above, without any additional terms or conditions.