extern crate wasmer_runtime; extern crate wasmer_runtime_core; use libc::{c_char, c_int, int32_t, int64_t, uint32_t, uint8_t}; use std::cell::RefCell; use std::collections::HashMap; use std::error::Error; use std::ffi::CStr; use std::ffi::CString; use std::fmt; use std::slice; use std::str; use std::sync::Arc; use std::{ffi::c_void, mem, ptr}; use wasmer_runtime::{Ctx, Global, ImportObject, Instance, Memory, Table, Value}; use wasmer_runtime_core::export::{Context, Export, FuncPointer}; use wasmer_runtime_core::import::{LikeNamespace, Namespace}; use wasmer_runtime_core::types::{ ElementType, FuncSig, GlobalDescriptor, MemoryDescriptor, TableDescriptor, Type, }; use wasmer_runtime_core::units::{Bytes, Pages}; #[allow(non_camel_case_types)] pub struct wasmer_import_object_t(); #[allow(non_camel_case_types)] pub struct wasmer_instance_t(); #[allow(non_camel_case_types)] pub struct wasmer_instance_context_t(); #[allow(non_camel_case_types)] #[no_mangle] #[repr(C)] pub enum wasmer_result_t { WASMER_OK = 1, WASMER_ERROR = 2, } #[repr(u32)] #[derive(Clone)] pub enum wasmer_value_tag { WASM_I32, WASM_I64, WASM_F32, WASM_F64, } #[repr(C)] #[derive(Clone, Copy)] pub union wasmer_value { I32: int32_t, I64: int64_t, F32: f32, F64: f64, } #[repr(C)] #[derive(Clone)] pub struct wasmer_value_t { tag: wasmer_value_tag, value: wasmer_value, } #[repr(C)] #[derive(Clone)] pub struct wasmer_global_descriptor_t { mutable: bool, kind: wasmer_value_tag, } #[repr(C)] #[derive(Clone)] pub struct wasmer_memory_t(); #[repr(C)] #[derive(Clone)] pub struct wasmer_table_t(); #[repr(C)] #[derive(Clone)] pub struct wasmer_func_t(); #[repr(C)] #[derive(Clone)] pub struct wasmer_global_t(); #[repr(C)] pub struct wasmer_limits_t { pub min: uint32_t, pub max: uint32_t, } #[repr(C)] pub struct wasmer_func_signature { pub params: *const wasmer_value_tag, pub params_len: c_int, pub returns: *const wasmer_value_tag, pub returns_len: c_int, } #[repr(C)] pub struct wasmer_import_t { module_name: wasmer_byte_array, import_name: wasmer_byte_array, tag: wasmer_import_export_kind, value: wasmer_import_export_value, } #[repr(C)] #[derive(Clone)] pub struct wasmer_export_t; #[repr(C)] #[derive(Clone)] pub struct wasmer_exports_t; #[repr(u32)] #[derive(Clone)] pub enum wasmer_import_export_kind { WASM_FUNCTION, WASM_GLOBAL, WASM_MEMORY, WASM_TABLE, } #[repr(C)] #[derive(Clone, Copy)] pub union wasmer_import_export_value { func: *const wasmer_func_t, table: *const wasmer_table_t, memory: *const wasmer_memory_t, global: *const wasmer_global_t, } #[repr(C)] pub struct wasmer_byte_array { bytes: *const uint8_t, bytes_len: uint32_t, } /// Returns true for valid wasm bytes and false for invalid bytes #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_validate( wasm_bytes: *mut uint8_t, wasm_bytes_len: uint32_t, ) -> bool { if wasm_bytes.is_null() { return false; } let bytes: &[u8] = unsafe { ::std::slice::from_raw_parts_mut(wasm_bytes, wasm_bytes_len as usize) }; wasmer_runtime_core::validate(bytes) } /// Creates a new ImportObject and returns a pointer to it. /// The caller owns the object and should call `wasmer_import_object_destroy` to free it. #[no_mangle] pub extern "C" fn wasmer_import_object_new() -> *mut wasmer_import_object_t { Box::into_raw(Box::new(ImportObject::new())) as *mut wasmer_import_object_t } /// Creates a new Memory for the given descriptor and initializes the given /// pointer to pointer to a pointer to the new memory. /// /// The caller owns the object and should call `wasmer_memory_destroy` to free it. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[no_mangle] pub unsafe extern "C" fn wasmer_memory_new( mut memory: *mut *mut wasmer_memory_t, limits: wasmer_limits_t, ) -> wasmer_result_t { let desc = MemoryDescriptor { minimum: Pages(limits.min), maximum: Some(Pages(limits.max)), shared: false, }; let result = Memory::new(desc); let new_memory = match result { Ok(memory) => memory, Err(error) => { update_last_error(error); return wasmer_result_t::WASMER_ERROR; } }; unsafe { *memory = Box::into_raw(Box::new(new_memory)) as *mut wasmer_memory_t }; wasmer_result_t::WASMER_OK } /// Grows a Memory by the given number of pages. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_memory_grow( memory: *mut wasmer_memory_t, delta: uint32_t, ) -> wasmer_result_t { let memory = unsafe { Box::from_raw(memory as *mut Memory) }; let maybe_delta = memory.grow(Pages(delta)); Box::into_raw(memory); if let Some(_delta) = maybe_delta { wasmer_result_t::WASMER_OK } else { update_last_error(CApiError { msg: "unable to grow memory".to_string(), }); wasmer_result_t::WASMER_ERROR } } /// Returns the current length in pages of the given memory #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_memory_length(memory: *mut wasmer_memory_t) -> uint32_t { let memory = unsafe { Box::from_raw(memory as *mut Memory) }; let Pages(len) = memory.size(); Box::into_raw(memory); len } /// Creates a new Table for the given descriptor and initializes the given /// pointer to pointer to a pointer to the new Table. /// /// The caller owns the object and should call `wasmer_table_destroy` to free it. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[no_mangle] pub unsafe extern "C" fn wasmer_table_new( mut table: *mut *mut wasmer_table_t, limits: wasmer_limits_t, ) -> wasmer_result_t { let desc = TableDescriptor { element: ElementType::Anyfunc, minimum: limits.min, maximum: Some(limits.max), }; let result = Table::new(desc); let new_table = match result { Ok(table) => table, Err(error) => { update_last_error(error); return wasmer_result_t::WASMER_ERROR; } }; unsafe { *table = Box::into_raw(Box::new(new_table)) as *mut wasmer_table_t }; wasmer_result_t::WASMER_OK } /// Grows a Table by the given number of elements. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_table_grow( table: *mut wasmer_table_t, delta: uint32_t, ) -> wasmer_result_t { let table = unsafe { Box::from_raw(table as *mut Table) }; let maybe_delta = table.grow(delta); Box::into_raw(table); if let Some(_delta) = maybe_delta { wasmer_result_t::WASMER_OK } else { update_last_error(CApiError { msg: "unable to grow table".to_string(), }); wasmer_result_t::WASMER_ERROR } } /// Returns the current length of the given Table #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_table_length(table: *mut wasmer_table_t) -> uint32_t { let table = unsafe { Box::from_raw(table as *mut Table) }; let len = table.size(); Box::into_raw(table); len } /// Frees memory for the given Table #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_table_destroy(table: *mut wasmer_table_t) { if !table.is_null() { drop(unsafe { Box::from_raw(table as *mut Table) }); } } /// Creates a new Global and returns a pointer to it. /// The caller owns the object and should call `wasmer_global_destroy` to free it. #[no_mangle] pub unsafe extern "C" fn wasmer_global_new( value: wasmer_value_t, mutable: bool, ) -> *mut wasmer_global_t { let global = if mutable { Global::new_mutable(value.into()) } else { Global::new(value.into()) }; unsafe { Box::into_raw(Box::new(global)) as *mut wasmer_global_t } } /// Gets the value stored by the given Global #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_global_get(global: *mut wasmer_global_t) -> wasmer_value_t { let global = unsafe { Box::from_raw(global as *mut Global) }; let value: wasmer_value_t = global.get().into(); Box::into_raw(global); value } /// Sets the value stored by the given Global #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_global_set(global: *mut wasmer_global_t, value: wasmer_value_t) { let global = unsafe { Box::from_raw(global as *mut Global) }; global.set(value.into()); Box::into_raw(global); } /// Returns a descriptor (type, mutability) of the given Global #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_global_get_descriptor( global: *mut wasmer_global_t, ) -> wasmer_global_descriptor_t { let global = unsafe { Box::from_raw(global as *mut Global) }; let descriptor = global.descriptor(); let desc = wasmer_global_descriptor_t { mutable: descriptor.mutable, kind: descriptor.ty.into(), }; Box::into_raw(global); desc } /// Frees memory for the given Global #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_global_destroy(global: *mut wasmer_global_t) { if !global.is_null() { drop(unsafe { Box::from_raw(global as *mut Global) }); } } /// Frees memory for the given ImportObject #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_import_object_destroy(import_object: *mut wasmer_import_object_t) { if !import_object.is_null() { drop(unsafe { Box::from_raw(import_object as *mut ImportObject) }); } } /// Frees memory for the given Memory #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_memory_destroy(memory: *mut wasmer_memory_t) { if !memory.is_null() { drop(unsafe { Box::from_raw(memory as *mut Memory) }); } } /// Creates a new Instance from the given wasm bytes and imports. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_instantiate( mut instance: *mut *mut wasmer_instance_t, wasm_bytes: *mut uint8_t, wasm_bytes_len: uint32_t, imports: *mut wasmer_import_t, imports_len: c_int, ) -> wasmer_result_t { if wasm_bytes.is_null() { update_last_error(CApiError { msg: "wasm bytes ptr is null".to_string(), }); return wasmer_result_t::WASMER_ERROR; } let imports: &[wasmer_import_t] = slice::from_raw_parts(imports, imports_len as usize); let mut import_object = ImportObject::new(); let mut namespaces = HashMap::new(); for import in imports { let module_name = slice::from_raw_parts( import.module_name.bytes, import.module_name.bytes_len as usize, ); let module_name = if let Ok(s) = std::str::from_utf8(module_name) { s } else { update_last_error(CApiError { msg: "error converting module name to string".to_string(), }); return wasmer_result_t::WASMER_ERROR; }; let import_name = slice::from_raw_parts( import.import_name.bytes, import.import_name.bytes_len as usize, ); let import_name = if let Ok(s) = std::str::from_utf8(import_name) { s } else { update_last_error(CApiError { msg: "error converting import_name to string".to_string(), }); return wasmer_result_t::WASMER_ERROR; }; let namespace = namespaces .entry(module_name) .or_insert_with(|| Namespace::new()); let export = match import.tag { wasmer_import_export_kind::WASM_MEMORY => import.value.memory as *mut Export, wasmer_import_export_kind::WASM_FUNCTION => import.value.func as *mut Export, wasmer_import_export_kind::WASM_GLOBAL => import.value.global as *mut Export, wasmer_import_export_kind::WASM_TABLE => import.value.table as *mut Export, }; namespace.insert(import_name, unsafe { *Box::from_raw(export) }); } for (module_name, namespace) in namespaces.into_iter() { import_object.register(module_name, namespace); } let bytes: &[u8] = unsafe { ::std::slice::from_raw_parts_mut(wasm_bytes, wasm_bytes_len as usize) }; let result = wasmer_runtime::instantiate(bytes, &import_object); let new_instance = match result { Ok(instance) => instance, Err(error) => { // TODO the trait bound `wasmer_runtime::error::Error: std::error::Error` is not satisfied //update_last_error(error); update_last_error(CApiError { msg: "error instantiating".to_string(), }); return wasmer_result_t::WASMER_ERROR; } }; unsafe { *instance = Box::into_raw(Box::new(new_instance)) as *mut wasmer_instance_t }; Box::into_raw(Box::new(import_object)); wasmer_result_t::WASMER_OK } /// Calls an instances exported function by `name` with the provided parameters. /// Results are set using the provided `results` pointer. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_instance_call( instance: *mut wasmer_instance_t, name: *const c_char, params: *const wasmer_value_t, params_len: c_int, results: *mut wasmer_value_t, results_len: c_int, ) -> wasmer_result_t { if instance.is_null() { update_last_error(CApiError { msg: "instance ptr is null".to_string(), }); return wasmer_result_t::WASMER_ERROR; } if name.is_null() { update_last_error(CApiError { msg: "name ptr is null".to_string(), }); return wasmer_result_t::WASMER_ERROR; } if params.is_null() { update_last_error(CApiError { msg: "params ptr is null".to_string(), }); return wasmer_result_t::WASMER_ERROR; } let params: &[wasmer_value_t] = slice::from_raw_parts(params, params_len as usize); let params: Vec = params.iter().cloned().map(|x| x.into()).collect(); let func_name_c = unsafe { CStr::from_ptr(name) }; let func_name_r = func_name_c.to_str().unwrap(); let instance = unsafe { Box::from_raw(instance as *mut Instance) }; let results: &mut [wasmer_value_t] = slice::from_raw_parts_mut(results, results_len as usize); let result = instance.call(func_name_r, ¶ms[..]); Box::into_raw(instance); match result { Ok(results_vec) => { if results_vec.len() > 0 { let ret = match results_vec[0] { Value::I32(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_I32, value: wasmer_value { I32: x }, }, Value::I64(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_I64, value: wasmer_value { I64: x }, }, Value::F32(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_F32, value: wasmer_value { F32: x }, }, Value::F64(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_F64, value: wasmer_value { F64: x }, }, }; results[0] = ret; } wasmer_result_t::WASMER_OK } Err(err) => { update_last_error(err); wasmer_result_t::WASMER_ERROR } } } /// Gets Exports for the given instance /// /// The caller owns the object and should call `wasmer_exports_destroy` to free it. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_instance_exports( instance: *mut wasmer_instance_t, exports: *mut *mut wasmer_exports_t, ) { let mut instance = unsafe { Box::from_raw(instance as *mut Instance) }; let named_exports: Box = Box::new(NamedExports(instance.exports().map(|e| e.into()).collect())); unsafe { *exports = Box::into_raw(named_exports) as *mut wasmer_exports_t }; Box::into_raw(instance); } pub struct NamedExports(Vec); /// Frees the memory for the given exports #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_exports_destroy(exports: *mut wasmer_exports_t) { if !exports.is_null() { drop(unsafe { Box::from_raw(exports as *mut NamedExports) }); } } /// Gets the length of the exports #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_exports_len(exports: *mut wasmer_exports_t) -> c_int { if exports.is_null() { return 0; } (*(exports as *mut NamedExports)).0.len() as c_int } /// Gets wasmer_export by index #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_exports_get( exports: *mut wasmer_exports_t, idx: c_int, ) -> *mut wasmer_export_t { if exports.is_null() { return ptr::null_mut(); } let mut named_exports = unsafe { Box::from_raw(exports as *mut NamedExports) }; let ptr = &mut (*named_exports).0[idx as usize] as *mut NamedExport as *mut wasmer_export_t; Box::into_raw(named_exports); ptr } /// Gets wasmer_export kind #[no_mangle] #[allow(clippy::cast_ptr_alignment)] pub unsafe extern "C" fn wasmer_export_kind( export: *mut wasmer_export_t, ) -> wasmer_import_export_kind { let named_export = &*(export as *mut NamedExport); match named_export.export { Export::Table(_) => wasmer_import_export_kind::WASM_TABLE, Export::Function { .. } => wasmer_import_export_kind::WASM_FUNCTION, Export::Global(_) => wasmer_import_export_kind::WASM_GLOBAL, Export::Memory(_) => wasmer_import_export_kind::WASM_MEMORY, } } /// Creates new func /// /// The caller owns the object and should call `wasmer_func_destroy` to free it. #[no_mangle] #[allow(clippy::cast_ptr_alignment)] pub unsafe extern "C" fn wasmer_func_new( func: extern "C" fn(data: *mut c_void), params: *const wasmer_value_tag, params_len: c_int, returns: *const wasmer_value_tag, returns_len: c_int, ) -> *const wasmer_func_t { let params: &[wasmer_value_tag] = slice::from_raw_parts(params, params_len as usize); let params: Vec = params.iter().cloned().map(|x| x.into()).collect(); let returns: &[wasmer_value_tag] = slice::from_raw_parts(returns, returns_len as usize); let returns: Vec = returns.iter().cloned().map(|x| x.into()).collect(); let export = Box::new(Export::Function { func: unsafe { FuncPointer::new(func as _) }, ctx: Context::Internal, signature: Arc::new(FuncSig::new(params, returns)), }); Box::into_raw(export) as *mut wasmer_func_t } /// Frees memory for the given Func #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_func_destroy(func: *mut wasmer_func_t) { if !func.is_null() { drop(unsafe { Box::from_raw(func as *mut Export) }); } } /// Gets func from wasm_export #[no_mangle] #[allow(clippy::cast_ptr_alignment)] pub unsafe extern "C" fn wasmer_export_to_func( export: *mut wasmer_export_t, ) -> *const wasmer_func_t { let named_export = &*(export as *mut NamedExport); &named_export.export as *const Export as *const wasmer_func_t } /// Gets name from wasmer_export #[no_mangle] #[allow(clippy::cast_ptr_alignment)] pub unsafe extern "C" fn wasmer_export_name(export: *mut wasmer_export_t) -> wasmer_byte_array { let named_export = &*(export as *mut NamedExport); wasmer_byte_array { bytes: named_export.name.as_ptr(), bytes_len: named_export.name.len() as u32, } } /// Calls a `func` with the provided parameters. /// Results are set using the provided `results` pointer. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_func_call( func: *mut wasmer_func_t, params: *const wasmer_value_t, params_len: c_int, results: *mut wasmer_value_t, results_len: c_int, ) -> wasmer_result_t { if func.is_null() { update_last_error(CApiError { msg: "func ptr is null".to_string(), }); return wasmer_result_t::WASMER_ERROR; } if params.is_null() { update_last_error(CApiError { msg: "params ptr is null".to_string(), }); return wasmer_result_t::WASMER_ERROR; } let params: &[wasmer_value_t] = slice::from_raw_parts(params, params_len as usize); let params: Vec = params.iter().cloned().map(|x| x.into()).collect(); let export_func = unsafe { Box::from_raw(func as *mut Export) }; let results: &mut [wasmer_value_t] = slice::from_raw_parts_mut(results, results_len as usize); // TODO implement func.call update_last_error(CApiError { msg: "wasmer_func_call not yet implemented".to_string(), }); return wasmer_result_t::WASMER_ERROR; // let result = instance.call(func_name_r, ¶ms[..]); // Box::into_raw(export_func); // match result { // Ok(results_vec) => { // if results_vec.len() > 0 { // let ret = match results_vec[0] { // Value::I32(x) => wasmer_value_t { // tag: wasmer_value_tag::WASM_I32, // value: wasmer_value { I32: x }, // }, // Value::I64(x) => wasmer_value_t { // tag: wasmer_value_tag::WASM_I64, // value: wasmer_value { I64: x }, // }, // Value::F32(x) => wasmer_value_t { // tag: wasmer_value_tag::WASM_F32, // value: wasmer_value { F32: x }, // }, // Value::F64(x) => wasmer_value_t { // tag: wasmer_value_tag::WASM_F64, // value: wasmer_value { F64: x }, // }, // }; // results[0] = ret; // } // wasmer_result_t::WASMER_OK // } // Err(err) => { // update_last_error(err); // wasmer_result_t::WASMER_ERROR // } // } } ///// Gets wasmer_export func //#[no_mangle] //pub unsafe extern "C" fn wasmer_export_name(export: *mut wasmer_export_t) { // if exports.is_null() { // return ptr::null_mut(); // } // let named_export = &*(export as *mut NamedExport); //} /// Registers a `func` with provided `name` and `namespace` into the ImportObject. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub unsafe extern "C" fn wasmer_imports_set_import_func( import_object: *mut wasmer_import_object_t, namespace: *const c_char, name: *const c_char, func: extern "C" fn(data: *mut c_void), params: *const wasmer_value_tag, params_len: c_int, returns: *const wasmer_value_tag, returns_len: c_int, ) { let mut import_object = unsafe { Box::from_raw(import_object as *mut ImportObject) }; let namespace_c = unsafe { CStr::from_ptr(namespace) }; let namespace_r = namespace_c.to_str().unwrap(); let name_c = unsafe { CStr::from_ptr(name) }; let name_r = name_c.to_str().unwrap(); let params: &[wasmer_value_tag] = slice::from_raw_parts(params, params_len as usize); let params: Vec = params.iter().cloned().map(|x| x.into()).collect(); let returns: &[wasmer_value_tag] = slice::from_raw_parts(returns, returns_len as usize); let returns: Vec = returns.iter().cloned().map(|x| x.into()).collect(); let export = Export::Function { func: unsafe { FuncPointer::new(func as _) }, ctx: Context::Internal, signature: Arc::new(FuncSig::new(params, returns)), }; // TODO handle existing namespace // let maybe_namespace = import_object.get_namespace(namespace_r); // if let Some(n) = maybe_namespace { // n.insert(name_r, export); // } else { let mut namespace = Namespace::new(); namespace.insert(name_r, export); import_object.register(namespace_r, namespace); Box::into_raw(import_object); // }; } /// Gets the memory within the context at the index `memory_idx`. /// The index is always 0 until multiple memories are supported. #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_instance_context_memory( ctx: *mut wasmer_instance_context_t, memory_idx: uint32_t, ) -> *const wasmer_memory_t { let mut ctx = unsafe { Box::from_raw(ctx as *mut Ctx) }; let memory = ctx.memory(0); memory as *const Memory as *const wasmer_memory_t } /// Gets the start pointer to the bytes within a Memory #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_memory_data(mem: *mut wasmer_memory_t) -> *mut uint8_t { let memory = mem as *mut Memory; use std::cell::Cell; unsafe { ((*memory).view::()[..]).as_ptr() as *mut Cell as *mut u8 } } /// Gets the size in bytes of a Memory #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_memory_data_length(mem: *mut wasmer_memory_t) -> uint32_t { let memory = mem as *mut Memory; let Bytes(len) = unsafe { (*memory).size().bytes() }; len as uint32_t } /// Frees memory for the given Instance #[allow(clippy::cast_ptr_alignment)] #[no_mangle] pub extern "C" fn wasmer_instance_destroy(instance: *mut wasmer_instance_t) { if !instance.is_null() { drop(unsafe { Box::from_raw(instance as *mut Instance) }); } } impl From for Value { fn from(v: wasmer_value_t) -> Self { unsafe { match v { wasmer_value_t { tag: WASM_I32, value: wasmer_value { I32 }, } => Value::I32(I32), wasmer_value_t { tag: WASM_I64, value: wasmer_value { I64 }, } => Value::I64(I64), wasmer_value_t { tag: WASM_F32, value: wasmer_value { F32 }, } => Value::F32(F32), wasmer_value_t { tag: WASM_F64, value: wasmer_value { F64 }, } => Value::F64(F64), _ => panic!("not implemented"), } } } } impl From for wasmer_value_t { fn from(val: Value) -> Self { match val { Value::I32(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_I32, value: wasmer_value { I32: x }, }, Value::I64(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_I64, value: wasmer_value { I64: x }, }, Value::F32(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_F32, value: wasmer_value { F32: x }, }, Value::F64(x) => wasmer_value_t { tag: wasmer_value_tag::WASM_F64, value: wasmer_value { F64: x }, }, } } } impl From for wasmer_value_tag { fn from(ty: Type) -> Self { match ty { Type::I32 => wasmer_value_tag::WASM_I32, Type::I64 => wasmer_value_tag::WASM_I64, Type::F32 => wasmer_value_tag::WASM_F32, Type::F64 => wasmer_value_tag::WASM_F64, _ => panic!("not implemented"), } } } impl From for Type { fn from(v: wasmer_value_tag) -> Self { unsafe { match v { wasmer_value_tag::WASM_I32 => Type::I32, wasmer_value_tag::WASM_I64 => Type::I64, wasmer_value_tag::WASM_F32 => Type::F32, wasmer_value_tag::WASM_F64 => Type::F64, _ => panic!("not implemented"), } } } } impl From<(std::string::String, wasmer_runtime_core::export::Export)> for NamedExport { fn from((name, export): (String, Export)) -> Self { NamedExport { name, export } } } // Error reporting thread_local! { static LAST_ERROR: RefCell>> = RefCell::new(None); } fn update_last_error(err: E) { LAST_ERROR.with(|prev| { *prev.borrow_mut() = Some(Box::new(err)); }); } /// Retrieve the most recent error, clearing it in the process. fn take_last_error() -> Option> { LAST_ERROR.with(|prev| prev.borrow_mut().take()) } /// Gets the length in bytes of the last error. /// This can be used to dynamically allocate a buffer with the correct number of /// bytes needed to store a message. /// /// # Example /// ``` /// int error_len = wasmer_last_error_length(); /// char *error_str = malloc(error_len); /// ``` #[no_mangle] pub extern "C" fn wasmer_last_error_length() -> c_int { LAST_ERROR.with(|prev| match *prev.borrow() { Some(ref err) => err.to_string().len() as c_int + 1, None => 0, }) } /// Stores the last error message into the provided buffer up to the given `length`. /// The `length` parameter must be large enough to store the last error message. /// /// Returns the length of the string in bytes. /// Returns `-1` if an error occurs. /// /// # Example /// ``` /// int error_len = wasmer_last_error_length(); /// char *error_str = malloc(error_len); /// wasmer_last_error_message(error_str, error_len); /// printf("Error str: `%s`\n", error_str); /// ``` #[no_mangle] pub unsafe extern "C" fn wasmer_last_error_message(buffer: *mut c_char, length: c_int) -> c_int { if buffer.is_null() { // buffer pointer is null return -1; } let last_error = match take_last_error() { Some(err) => err, None => return 0, }; let error_message = last_error.to_string(); let buffer = slice::from_raw_parts_mut(buffer as *mut u8, length as usize); if error_message.len() >= buffer.len() { // buffer to small for err message return -1; } ptr::copy_nonoverlapping( error_message.as_ptr(), buffer.as_mut_ptr(), error_message.len(), ); // Add a trailing null so people using the string as a `char *` don't // accidentally read into garbage. buffer[error_message.len()] = 0; error_message.len() as c_int } #[derive(Debug)] struct CApiError { msg: String, } impl fmt::Display for CApiError { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{}", &self.msg) } } impl Error for CApiError {} struct NamedExport { name: String, export: Export, }