extern crate susywasm; extern crate susywasmi; use std::env::args; use susywasm::elements::{External, FunctionType, Internal, Type, ValueType}; use susywasmi::{ImportsBuilder, ModuleInstance, NopExternals, RuntimeValue}; fn main() { let args: Vec<_> = args().collect(); if args.len() < 3 { println!("Usage: {} [...]", args[0]); return; } let func_name = &args[2]; let (_, program_args) = args.split_at(3); let module = susywasm::deserialize_file(&args[1]).expect("File to be deserialized"); // Extracts call arguments from command-line arguments let args = { // Export section has an entry with a func_name with an index inside a module let export_section = module.export_section().expect("No export section found"); // It's a section with function declarations (which are references to the type section entries) let function_section = module .function_section() .expect("No function section found"); // Type section stores function types which are referenced by function_section entries let type_section = module.type_section().expect("No type section found"); // Given function name used to find export section entry which contains // an `internal` field which points to the index in the function index space let found_entry = export_section .entries() .iter() .find(|entry| func_name == entry.field()) .expect(&format!("No export with name {} found", func_name)); // Function index in the function index space (internally-defined + imported) let function_index: usize = match found_entry.internal() { &Internal::Function(index) => index as usize, _ => panic!("Founded export is not a function"), }; // We need to count import section entries (functions only!) to subtract it from function_index // and obtain the index within the function section let import_section_len: usize = match module.import_section() { Some(import) => import .entries() .iter() .filter(|entry| match entry.external() { &External::Function(_) => true, _ => false, }) .count(), None => 0, }; // Calculates a function index within module's function section let function_index_in_section = function_index - import_section_len; // Getting a type reference from a function section entry let func_type_ref: usize = function_section.entries()[function_index_in_section].type_ref() as usize; // Use the reference to get an actual function type let function_type: &FunctionType = match &type_section.types()[func_type_ref] { &Type::Function(ref func_type) => func_type, }; // Parses arguments and constructs runtime values in correspondence of their types function_type .params() .iter() .enumerate() .map(|(i, value)| match value { &ValueType::I32 => RuntimeValue::I32( program_args[i] .parse::() .expect(&format!("Can't parse arg #{} as i32", program_args[i])), ), &ValueType::I64 => RuntimeValue::I64( program_args[i] .parse::() .expect(&format!("Can't parse arg #{} as i64", program_args[i])), ), &ValueType::F32 => RuntimeValue::F32( program_args[i] .parse::() .expect(&format!("Can't parse arg #{} as f32", program_args[i])) .into(), ), &ValueType::F64 => RuntimeValue::F64( program_args[i] .parse::() .expect(&format!("Can't parse arg #{} as f64", program_args[i])) .into(), ), }) .collect::>() }; let loaded_module = susywasmi::Module::from_susywasm_module(module).expect("Module to be valid"); // Intialize deserialized module. It adds module into It expects 3 parameters: // - a name for the module // - a module declaration // - "main" module doesn't import native module(s) this is why we don't need to provide external native modules here // This test shows how to implement native module https://github.com/NikVolf/susywasm/blob/master/src/interpreter/tests/basics.rs#L197 let main = ModuleInstance::new(&loaded_module, &ImportsBuilder::default()) .expect("Failed to instantiate module") .run_start(&mut NopExternals) .expect("Failed to run start function in module"); println!( "Result: {:?}", main.invoke_export(func_name, &args, &mut NopExternals) .expect("") ); }