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wasmtime/docs/embed-rust.md
Josh Triplett 204b4d376a embed-rust: Find exported function by name rather than assuming index 0 
While the wasm file has only one export, our introduction should set a
good example for how to find functions even for wasm files that have
multiple exports. Find the answer function by name rather than assuming
index 0.

Minor variable name change to avoid having to wrap the line.
2019-11-20 09:49:34 +01:00

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Embedding Wasmtime in Rust

This document shows how to embed Wasmtime using the Rust API, and run a simple wasm program.

Create some wasm

Let's create a simple WebAssembly file with a single exported function that returns an integer:

(;; wat2wasm hello.wat -o $WASM_FILES/hello.wasm ;;)
(module
  (func (export "answer") (result i32)
     i32.const 42
  )
)

Create rust project

$ cargo new --bin wasmtime_hello
$ cd wasmtime_hello
$ cp $WASM_FILES/hello.wasm .

We will be using the wasmtime engine/API to run the wasm file, so we will add the dependency to Cargo.toml:

[dependencies]
wasmtime = "<current version>"

where "" is the current version number of the wasmtime crate.

It is time to add code to the src/main.rs. First, the engine and storage need to be activated:

use wasmtime::*;

let engine = HostRef::new(Engine::default());
let store = HostRef::new(Store::new(&engine));

The HostRef will be used a lot -- it is a "convenience" object to store and refer an object between the host and the embedded environments.

The hello.wasm can be read from the file system and provided to the Module object constructor as &[u8]:

use std::fs::read;

let hello_wasm = read("hello.wasm").expect("wasm file");

let module = HostRef::new(Module::new(&store, &hello_wasm).expect("wasm module"));

The module instance can now be created. Normally, you would provide exports, but in this case, there are none required:

let instance = Instance::new(&store, &module, &[]).expect("wasm instance");

Everything is set. If a WebAssembly module has a start function -- it was run. The instance's exports can be used at this point. wasmtime provides functions to look up an export by name, and ensure that it's a function:

let answer = instance.find_export_by_name("answer").expect("answer").func().expect("function");

The exported function can be called using the call method. Remember that in most of the cases, a HostRef<_> object will be returned, so borrow() or borrow_mut() method has to be used to refer the specific object. The exported "answer" function accepts no parameters and returns a single i32 value.

let result = answer.borrow().call(&[]).expect("success");
println!("Answer: {}", result[0].i32());

The names of the WebAssembly module's imports and exports can be discovered by means of module's corresponding methods.

src/main.rs

use std::fs::read;
use wasmtime::*;

fn main() {
    let engine = HostRef::new(Engine::default());
    let store = HostRef::new(Store::new(&engine));

    let wasm = read("hello.wasm").expect("wasm file");

    let module = HostRef::new(Module::new(&store, &wasm).expect("wasm module"));
    let instance = Instance::new(&store, &module, &[]).expect("wasm instance");

    let answer = instance.find_export_by_name("answer").expect("answer").func().expect("function");
    let result = answer.borrow().call(&[]).expect("success");
    println!("Answer: {}", result[0].i32());
}