#[macro_use] extern crate error_chain; extern crate cranelift_codegen; extern crate cranelift_entity; extern crate cranelift_native; extern crate cranelift_wasm; extern crate libc; extern crate memmap; extern crate region; extern crate structopt; extern crate wabt; extern crate wasmparser; #[macro_use] extern crate target_lexicon; extern crate nix; extern crate rayon; use std::fs::File; use std::io; use std::io::Read; use std::path::PathBuf; use std::process::exit; use structopt::StructOpt; #[macro_use] mod macros; pub mod common; pub mod apis; pub mod sighandler; #[cfg(test)] mod spectests; pub mod webassembly; #[derive(Debug, StructOpt)] #[structopt(name = "wasmer", about = "WASM execution runtime.")] /// The options for the wasmer Command Line Interface enum CLIOptions { /// Run a WebAssembly file. Formats accepted: wasm, wast #[structopt(name = "run")] Run(Run), } #[derive(Debug, StructOpt)] struct Run { #[structopt(short = "d", long = "debug")] debug: bool, /// Input file #[structopt(parse(from_os_str))] path: PathBuf, } /// Read the contents of a file fn read_file_contents(path: &PathBuf) -> Result, io::Error> { let mut buffer: Vec = Vec::new(); let mut file = File::open(path)?; file.read_to_end(&mut buffer)?; Ok(buffer) } /// Execute a WASM/WAT file fn execute_wasm(wasm_path: PathBuf) -> Result<(), String> { let mut wasm_binary: Vec = read_file_contents(&wasm_path).map_err(|err| { format!( "Can't read the file {}: {}", wasm_path.as_os_str().to_string_lossy(), err ) })?; if !webassembly::utils::is_wasm_binary(&wasm_binary) { wasm_binary = wabt::wat2wasm(wasm_binary) .map_err(|err| format!("Can't convert from wast to wasm: {:?}", err))?; } // TODO: We should instantiate after compilation, so we provide the // emscripten environment conditionally based on the module let import_object = apis::generate_emscripten_env(); let webassembly::ResultObject { module, instance } = webassembly::instantiate(wasm_binary, import_object) .map_err(|err| format!("Can't instantiate the WebAssembly module: {}", err))?; if apis::is_emscripten_module(&module) { let func_index = match module.info.exports.get("main") { Some(&webassembly::Export::Function(index)) => index, _ => panic!("_main emscripten function not found"), }; let main: extern fn(u32, u32, &webassembly::Instance) = get_instance_function!(instance, func_index); main(0, 0, &instance); } else { let func_index = instance .start_func .unwrap_or_else(|| match module.info.exports.get("main") { Some(&webassembly::Export::Function(index)) => index, _ => panic!("Main function not found"), }); let main: extern fn(&webassembly::Instance) = get_instance_function!(instance, func_index); main(&instance); } Ok(()) } fn run(options: Run) { match execute_wasm(options.path.clone()) { Ok(()) => {} Err(message) => { // let name = options.path.as_os_str().to_string_lossy(); println!("{}", message); exit(1); } } } fn main() { let options = CLIOptions::from_args(); match options { CLIOptions::Run(options) => run(options), } }