//! Helper functions to gather information for each of the non-function sections of a //! WebAssembly module. //! //! The code of these helper functions is straightforward since they only read metadata //! about linear memories, tables, globals, etc. and store them for later use. //! //! The special case of the initialize expressions for table elements offsets or global variables //! is handled, according to the semantics of WebAssembly, to only specific expressions that are //! interpreted on the fly. use crate::environ::{ModuleEnvironment, WasmError, WasmResult}; use crate::state::ModuleTranslationState; use crate::translation_utils::{ tabletype_to_type, type_to_type, DataIndex, ElemIndex, EntityType, FuncIndex, Global, GlobalIndex, GlobalInit, Memory, MemoryIndex, Table, TableElementType, TableIndex, TypeIndex, }; use crate::wasm_unsupported; use core::convert::TryFrom; use core::convert::TryInto; use cranelift_codegen::ir::immediates::V128Imm; use cranelift_codegen::ir::{self, AbiParam, Signature}; use cranelift_entity::packed_option::ReservedValue; use cranelift_entity::EntityRef; use std::boxed::Box; use std::vec::Vec; use wasmparser::{ self, Data, DataKind, DataSectionReader, Element, ElementItem, ElementItems, ElementKind, ElementSectionReader, Export, ExportSectionReader, ExternalKind, FunctionSectionReader, GlobalSectionReader, GlobalType, ImportSectionEntryType, ImportSectionReader, MemorySectionReader, MemoryType, NameSectionReader, Naming, Operator, TableSectionReader, TableType, TypeDef, TypeSectionReader, }; fn entity_type( ty: ImportSectionEntryType, environ: &mut dyn ModuleEnvironment<'_>, ) -> WasmResult { Ok(match ty { ImportSectionEntryType::Function(sig) => EntityType::Function(TypeIndex::from_u32(sig)), ImportSectionEntryType::Module(sig) => EntityType::Module(TypeIndex::from_u32(sig)), ImportSectionEntryType::Instance(sig) => EntityType::Instance(TypeIndex::from_u32(sig)), ImportSectionEntryType::Memory(ty) => EntityType::Memory(memory(ty)), ImportSectionEntryType::Global(ty) => { EntityType::Global(global(ty, environ, GlobalInit::Import)?) } ImportSectionEntryType::Table(ty) => EntityType::Table(table(ty, environ)?), }) } fn memory(ty: MemoryType) -> Memory { match ty { MemoryType::M32 { limits, shared } => Memory { minimum: limits.initial, maximum: limits.maximum, shared: shared, }, // FIXME(#2361) MemoryType::M64 { .. } => unimplemented!(), } } fn table(ty: TableType, environ: &mut dyn ModuleEnvironment<'_>) -> WasmResult { Ok(Table { wasm_ty: ty.element_type.try_into()?, ty: match tabletype_to_type(ty.element_type, environ)? { Some(t) => TableElementType::Val(t), None => TableElementType::Func, }, minimum: ty.limits.initial, maximum: ty.limits.maximum, }) } fn global( ty: GlobalType, environ: &mut dyn ModuleEnvironment<'_>, initializer: GlobalInit, ) -> WasmResult { Ok(Global { wasm_ty: ty.content_type.try_into()?, ty: type_to_type(ty.content_type, environ).unwrap(), mutability: ty.mutable, initializer, }) } /// Parses the Type section of the wasm module. pub fn parse_type_section<'a>( types: TypeSectionReader<'a>, module_translation_state: &mut ModuleTranslationState, environ: &mut dyn ModuleEnvironment<'a>, ) -> WasmResult<()> { let count = types.get_count(); module_translation_state.wasm_types.reserve(count as usize); environ.reserve_types(count)?; for entry in types { match entry? { TypeDef::Func(wasm_func_ty) => { let mut sig = Signature::new(ModuleEnvironment::target_config(environ).default_call_conv); sig.params.extend(wasm_func_ty.params.iter().map(|ty| { let cret_arg: ir::Type = type_to_type(*ty, environ) .expect("only numeric types are supported in function signatures"); AbiParam::new(cret_arg) })); sig.returns.extend(wasm_func_ty.returns.iter().map(|ty| { let cret_arg: ir::Type = type_to_type(*ty, environ) .expect("only numeric types are supported in function signatures"); AbiParam::new(cret_arg) })); environ.declare_type_func(wasm_func_ty.clone().try_into()?, sig)?; module_translation_state .wasm_types .push((wasm_func_ty.params, wasm_func_ty.returns)); } TypeDef::Module(t) => { let imports = t .imports .iter() .map(|i| Ok((i.module, i.field, entity_type(i.ty, environ)?))) .collect::>>()?; let exports = t .exports .iter() .map(|e| Ok((e.name, entity_type(e.ty, environ)?))) .collect::>>()?; environ.declare_type_module(&imports, &exports)?; } TypeDef::Instance(t) => { let exports = t .exports .iter() .map(|e| Ok((e.name, entity_type(e.ty, environ)?))) .collect::>>()?; environ.declare_type_instance(&exports)?; } } } Ok(()) } /// Parses the Import section of the wasm module. pub fn parse_import_section<'data>( imports: ImportSectionReader<'data>, environ: &mut dyn ModuleEnvironment<'data>, ) -> WasmResult<()> { environ.reserve_imports(imports.get_count())?; for entry in imports { let import = entry?; let module_name = import.module; let field_name = import.field.unwrap(); // TODO Handle error when module linking is implemented. match entity_type(import.ty, environ)? { EntityType::Function(idx) => { environ.declare_func_import(idx, module_name, field_name)?; } EntityType::Module(idx) => { environ.declare_module_import(idx, module_name, field_name)?; } EntityType::Instance(idx) => { environ.declare_instance_import(idx, module_name, field_name)?; } EntityType::Memory(ty) => { environ.declare_memory_import(ty, module_name, field_name)?; } EntityType::Global(ty) => { environ.declare_global_import(ty, module_name, field_name)?; } EntityType::Table(ty) => { environ.declare_table_import(ty, module_name, field_name)?; } } } environ.finish_imports()?; Ok(()) } /// Parses the Function section of the wasm module. pub fn parse_function_section( functions: FunctionSectionReader, environ: &mut dyn ModuleEnvironment, ) -> WasmResult<()> { let num_functions = functions.get_count(); if num_functions == std::u32::MAX { // We reserve `u32::MAX` for our own use in cranelift-entity. return Err(WasmError::ImplLimitExceeded); } environ.reserve_func_types(num_functions)?; for entry in functions { let sigindex = entry?; environ.declare_func_type(TypeIndex::from_u32(sigindex))?; } Ok(()) } /// Parses the Table section of the wasm module. pub fn parse_table_section( tables: TableSectionReader, environ: &mut dyn ModuleEnvironment, ) -> WasmResult<()> { environ.reserve_tables(tables.get_count())?; for entry in tables { let ty = table(entry?, environ)?; environ.declare_table(ty)?; } Ok(()) } /// Parses the Memory section of the wasm module. pub fn parse_memory_section( memories: MemorySectionReader, environ: &mut dyn ModuleEnvironment, ) -> WasmResult<()> { environ.reserve_memories(memories.get_count())?; for entry in memories { let memory = memory(entry?); environ.declare_memory(memory)?; } Ok(()) } /// Parses the Global section of the wasm module. pub fn parse_global_section( globals: GlobalSectionReader, environ: &mut dyn ModuleEnvironment, ) -> WasmResult<()> { environ.reserve_globals(globals.get_count())?; for entry in globals { let wasmparser::Global { ty, init_expr } = entry?; let mut init_expr_reader = init_expr.get_binary_reader(); let initializer = match init_expr_reader.read_operator()? { Operator::I32Const { value } => GlobalInit::I32Const(value), Operator::I64Const { value } => GlobalInit::I64Const(value), Operator::F32Const { value } => GlobalInit::F32Const(value.bits()), Operator::F64Const { value } => GlobalInit::F64Const(value.bits()), Operator::V128Const { value } => { GlobalInit::V128Const(V128Imm::from(value.bytes().to_vec().as_slice())) } Operator::RefNull { ty: _ } => GlobalInit::RefNullConst, Operator::RefFunc { function_index } => { GlobalInit::RefFunc(FuncIndex::from_u32(function_index)) } Operator::GlobalGet { global_index } => { GlobalInit::GetGlobal(GlobalIndex::from_u32(global_index)) } ref s => { return Err(wasm_unsupported!( "unsupported init expr in global section: {:?}", s )); } }; let ty = global(ty, environ, initializer)?; environ.declare_global(ty)?; } Ok(()) } /// Parses the Export section of the wasm module. pub fn parse_export_section<'data>( exports: ExportSectionReader<'data>, environ: &mut dyn ModuleEnvironment<'data>, ) -> WasmResult<()> { environ.reserve_exports(exports.get_count())?; for entry in exports { let Export { field, ref kind, index, } = entry?; // The input has already been validated, so we should be able to // assume valid UTF-8 and use `from_utf8_unchecked` if performance // becomes a concern here. let index = index as usize; match *kind { ExternalKind::Function => environ.declare_func_export(FuncIndex::new(index), field)?, ExternalKind::Table => environ.declare_table_export(TableIndex::new(index), field)?, ExternalKind::Memory => { environ.declare_memory_export(MemoryIndex::new(index), field)? } ExternalKind::Global => { environ.declare_global_export(GlobalIndex::new(index), field)? } ExternalKind::Type | ExternalKind::Module | ExternalKind::Instance => { unimplemented!("module linking not implemented yet") } } } environ.finish_exports()?; Ok(()) } /// Parses the Start section of the wasm module. pub fn parse_start_section(index: u32, environ: &mut dyn ModuleEnvironment) -> WasmResult<()> { environ.declare_start_func(FuncIndex::from_u32(index))?; Ok(()) } fn read_elems(items: &ElementItems) -> WasmResult> { let items_reader = items.get_items_reader()?; let mut elems = Vec::with_capacity(usize::try_from(items_reader.get_count()).unwrap()); for item in items_reader { let elem = match item? { ElementItem::Null(_ty) => FuncIndex::reserved_value(), ElementItem::Func(index) => FuncIndex::from_u32(index), }; elems.push(elem); } Ok(elems.into_boxed_slice()) } /// Parses the Element section of the wasm module. pub fn parse_element_section<'data>( elements: ElementSectionReader<'data>, environ: &mut dyn ModuleEnvironment, ) -> WasmResult<()> { environ.reserve_table_elements(elements.get_count())?; for (index, entry) in elements.into_iter().enumerate() { let Element { kind, items, ty: _ } = entry?; let segments = read_elems(&items)?; match kind { ElementKind::Active { table_index, init_expr, } => { let mut init_expr_reader = init_expr.get_binary_reader(); let (base, offset) = match init_expr_reader.read_operator()? { Operator::I32Const { value } => (None, value as u32 as usize), Operator::GlobalGet { global_index } => { (Some(GlobalIndex::from_u32(global_index)), 0) } ref s => { return Err(wasm_unsupported!( "unsupported init expr in element section: {:?}", s )); } }; environ.declare_table_elements( TableIndex::from_u32(table_index), base, offset, segments, )? } ElementKind::Passive => { let index = ElemIndex::from_u32(index as u32); environ.declare_passive_element(index, segments)?; } ElementKind::Declared => { // Nothing to do here. } } } Ok(()) } /// Parses the Data section of the wasm module. pub fn parse_data_section<'data>( data: DataSectionReader<'data>, environ: &mut dyn ModuleEnvironment<'data>, ) -> WasmResult<()> { environ.reserve_data_initializers(data.get_count())?; for (index, entry) in data.into_iter().enumerate() { let Data { kind, data } = entry?; match kind { DataKind::Active { memory_index, init_expr, } => { let mut init_expr_reader = init_expr.get_binary_reader(); let (base, offset) = match init_expr_reader.read_operator()? { Operator::I32Const { value } => (None, value as u32 as usize), Operator::GlobalGet { global_index } => { (Some(GlobalIndex::from_u32(global_index)), 0) } ref s => { return Err(wasm_unsupported!( "unsupported init expr in data section: {:?}", s )) } }; environ.declare_data_initialization( MemoryIndex::from_u32(memory_index), base, offset, data, )?; } DataKind::Passive => { let index = DataIndex::from_u32(index as u32); environ.declare_passive_data(index, data)?; } } } Ok(()) } /// Parses the Name section of the wasm module. pub fn parse_name_section<'data>( names: NameSectionReader<'data>, environ: &mut dyn ModuleEnvironment<'data>, ) -> WasmResult<()> { for subsection in names { match subsection? { wasmparser::Name::Function(f) => { let mut names = f.get_map()?; for _ in 0..names.get_count() { let Naming { index, name } = names.read()?; // We reserve `u32::MAX` for our own use in cranelift-entity. if index != u32::max_value() { environ.declare_func_name(FuncIndex::from_u32(index), name); } } } wasmparser::Name::Module(module) => { let name = module.get_name()?; environ.declare_module_name(name); } wasmparser::Name::Local(l) => { let mut reader = l.get_function_local_reader()?; for _ in 0..reader.get_count() { let f = reader.read()?; if f.func_index == u32::max_value() { continue; } let mut map = f.get_map()?; for _ in 0..map.get_count() { let Naming { index, name } = map.read()?; environ.declare_local_name(FuncIndex::from_u32(f.func_index), index, name) } } } } } Ok(()) }