use wasmer_runtime_core::{ compile_with, error::RuntimeError, imports, memory::Memory, typed_func::Func, types::MemoryDescriptor, units::Pages, vm, }; use wasmer_runtime_core_tests::{get_compiler, wat2wasm}; #[test] fn imported_functions_forms() { const MODULE: &str = r#" (module (type $type (func (param i32) (result i32))) (import "env" "memory" (memory 1 1)) (import "env" "callback_fn" (func $callback_fn (type $type))) (import "env" "callback_fn_with_vmctx" (func $callback_fn_with_vmctx (type $type))) (import "env" "callback_fn_trap" (func $callback_fn_trap (type $type))) (import "env" "callback_fn_trap_with_vmctx" (func $callback_fn_trap_with_vmctx (type $type))) (func (export "function_fn") (type $type) get_local 0 call $callback_fn) (func (export "function_fn_with_vmctx") (type $type) get_local 0 call $callback_fn_with_vmctx) (func (export "function_fn_trap") (type $type) get_local 0 call $callback_fn_trap) (func (export "function_fn_trap_with_vmctx") (type $type) get_local 0 call $callback_fn_trap_with_vmctx)) "#; let wasm_binary = wat2wasm(MODULE.as_bytes()).expect("WAST not valid or malformed"); let module = compile_with(&wasm_binary, &get_compiler()).unwrap(); let memory_descriptor = MemoryDescriptor::new(Pages(1), Some(Pages(1)), false).unwrap(); let memory = Memory::new(memory_descriptor).unwrap(); const SHIFT: i32 = 10; memory.view()[0].set(SHIFT); let import_object = imports! { "env" => { "memory" => memory.clone(), "callback_fn" => Func::new(callback_fn), "callback_fn_with_vmctx" => Func::new(callback_fn_with_vmctx), "callback_fn_trap" => Func::new(callback_fn_trap), "callback_fn_trap_with_vmctx" => Func::new(callback_fn_trap_with_vmctx), }, }; let instance = module.instantiate(&import_object).unwrap(); macro_rules! call_and_assert { ($function:ident, $expected_value:expr) => { let $function: Func = instance.func(stringify!($function)).unwrap(); let result = $function.call(1); match (result, $expected_value) { (Ok(value), expected_value) => assert_eq!( Ok(value), expected_value, concat!("Expected right when calling `", stringify!($function), "`.") ), ( Err(RuntimeError::Error { data }), Err(RuntimeError::Error { data: expected_data, }), ) => { if let (Some(data), Some(expected_data)) = ( data.downcast_ref::<&str>(), expected_data.downcast_ref::<&str>(), ) { assert_eq!( data, expected_data, concat!("Expected right when calling `", stringify!($function), "`.") ) } else if let (Some(data), Some(expected_data)) = ( data.downcast_ref::(), expected_data.downcast_ref::(), ) { assert_eq!( data, expected_data, concat!("Expected right when calling `", stringify!($function), "`.") ) } else { assert!(false, "Unexpected error, cannot compare it.") } } (result, expected_value) => assert!( false, format!( "Unexpected assertion for `{}`: left = `{:?}`, right = `{:?}`.", stringify!($function), result, expected_value ) ), } }; } call_and_assert!(function_fn, Ok(2)); call_and_assert!(function_fn_with_vmctx, Ok(2 + SHIFT)); call_and_assert!( function_fn_trap, Err(RuntimeError::Error { data: Box::new(format!("foo {}", 1)) }) ); call_and_assert!( function_fn_trap_with_vmctx, Err(RuntimeError::Error { data: Box::new(format!("baz {}", 2 + SHIFT)) }) ); } fn callback_fn(n: i32) -> Result { Ok(n + 1) } fn callback_fn_with_vmctx(vmctx: &mut vm::Ctx, n: i32) -> Result { let memory = vmctx.memory(0); let shift: i32 = memory.view()[0].get(); Ok(shift + n + 1) } fn callback_fn_trap(n: i32) -> Result { Err(format!("foo {}", n)) } fn callback_fn_trap_with_vmctx(vmctx: &mut vm::Ctx, n: i32) -> Result { let memory = vmctx.memory(0); let shift: i32 = memory.view()[0].get(); Err(format!("baz {}", shift + n + 1)) }