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use crate::module::{
AnyfuncIndex, Initializer, MemoryInitialization, MemoryInitializer, MemoryPlan, Module,
ModuleType, TableInitializer, TablePlan,
};
use crate::{
DataIndex, DefinedFuncIndex, ElemIndex, EntityIndex, EntityType, FuncIndex, Global,
GlobalIndex, GlobalInit, MemoryIndex, ModuleTypesBuilder, PrimaryMap, SignatureIndex,
TableIndex, TableInitialization, Tunables, TypeIndex, WasmError, WasmFuncType, WasmResult,
};
use cranelift_entity::packed_option::ReservedValue;
use std::borrow::Cow;
use std::collections::HashMap;
use std::convert::{TryFrom, TryInto};
use std::path::PathBuf;
use std::sync::Arc;
use wasmparser::{
types::Types, CustomSectionReader, DataKind, ElementItems, ElementKind, Encoding, ExternalKind,
FuncToValidate, FunctionBody, NameSectionReader, Naming, Operator, Parser, Payload, Type,
TypeRef, Validator, ValidatorResources,
};
/// Object containing the standalone environment information.
pub struct ModuleEnvironment<'a, 'data> {
/// The current module being translated
result: ModuleTranslation<'data>,
/// Intern'd types for this entire translation, shared by all modules.
types: &'a mut ModuleTypesBuilder,
// Various bits and pieces of configuration
validator: &'a mut Validator,
tunables: &'a Tunables,
}
/// The result of translating via `ModuleEnvironment`. Function bodies are not
/// yet translated, and data initializers have not yet been copied out of the
/// original buffer.
#[derive(Default)]
pub struct ModuleTranslation<'data> {
/// Module information.
pub module: Module,
/// The input wasm binary.
///
/// This can be useful, for example, when modules are parsed from a
/// component and the embedder wants access to the raw wasm modules
/// themselves.
pub wasm: &'data [u8],
/// References to the function bodies.
pub function_body_inputs: PrimaryMap<DefinedFuncIndex, FunctionBodyData<'data>>,
/// A list of type signatures which are considered exported from this
/// module, or those that can possibly be called. This list is sorted, and
/// trampolines for each of these signatures are required.
pub exported_signatures: Vec<SignatureIndex>,
/// DWARF debug information, if enabled, parsed from the module.
pub debuginfo: DebugInfoData<'data>,
/// Set if debuginfo was found but it was not parsed due to `Tunables`
/// configuration.
pub has_unparsed_debuginfo: bool,
/// List of data segments found in this module which should be concatenated
/// together for the final compiled artifact.
///
/// These data segments, when concatenated, are indexed by the
/// `MemoryInitializer` type.
pub data: Vec<Cow<'data, [u8]>>,
/// The desired alignment of `data` in the final data section of the object
/// file that we'll emit.
///
/// Note that this is 1 by default but `MemoryInitialization::Static` might
/// switch this to a higher alignment to facilitate mmap-ing data from
/// an object file into a linear memory.
pub data_align: Option<u64>,
/// Total size of all data pushed onto `data` so far.
total_data: u32,
/// List of passive element segments found in this module which will get
/// concatenated for the final artifact.
pub passive_data: Vec<&'data [u8]>,
/// Total size of all passive data pushed into `passive_data` so far.
total_passive_data: u32,
/// When we're parsing the code section this will be incremented so we know
/// which function is currently being defined.
code_index: u32,
/// The type information of the current module made available at the end of the
/// validation process.
types: Option<Types>,
}
impl<'data> ModuleTranslation<'data> {
/// Returns a reference to the type information of the current module.
pub fn get_types(&self) -> &Types {
self.types
.as_ref()
.expect("module type information to be available")
}
}
/// Contains function data: byte code and its offset in the module.
pub struct FunctionBodyData<'a> {
/// The body of the function, containing code and locals.
pub body: FunctionBody<'a>,
/// Validator for the function body
pub validator: FuncToValidate<ValidatorResources>,
}
#[derive(Debug, Default)]
#[allow(missing_docs)]
pub struct DebugInfoData<'a> {
pub dwarf: Dwarf<'a>,
pub name_section: NameSection<'a>,
pub wasm_file: WasmFileInfo,
debug_loc: gimli::DebugLoc<Reader<'a>>,
debug_loclists: gimli::DebugLocLists<Reader<'a>>,
pub debug_ranges: gimli::DebugRanges<Reader<'a>>,
pub debug_rnglists: gimli::DebugRngLists<Reader<'a>>,
}
#[allow(missing_docs)]
pub type Dwarf<'input> = gimli::Dwarf<Reader<'input>>;
type Reader<'input> = gimli::EndianSlice<'input, gimli::LittleEndian>;
#[derive(Debug, Default)]
#[allow(missing_docs)]
pub struct NameSection<'a> {
pub module_name: Option<&'a str>,
pub func_names: HashMap<FuncIndex, &'a str>,
pub locals_names: HashMap<FuncIndex, HashMap<u32, &'a str>>,
}
#[derive(Debug, Default)]
#[allow(missing_docs)]
pub struct WasmFileInfo {
pub path: Option<PathBuf>,
pub code_section_offset: u64,
pub imported_func_count: u32,
pub funcs: Vec<FunctionMetadata>,
}
#[derive(Debug)]
#[allow(missing_docs)]
pub struct FunctionMetadata {
pub params: Box<[wasmparser::ValType]>,
pub locals: Box<[(u32, wasmparser::ValType)]>,
}
impl<'a, 'data> ModuleEnvironment<'a, 'data> {
/// Allocates the environment data structures.
pub fn new(
tunables: &'a Tunables,
validator: &'a mut Validator,
types: &'a mut ModuleTypesBuilder,
) -> Self {
Self {
result: ModuleTranslation::default(),
types,
tunables,
validator,
}
}
/// Translate a wasm module using this environment.
///
/// This function will translate the `data` provided with `parser`,
/// validating everything along the way with this environment's validator.
///
/// The result of translation, [`ModuleTranslation`], contains everything
/// necessary to compile functions afterwards as well as learn type
/// information about the module at runtime.
pub fn translate(
mut self,
parser: Parser,
data: &'data [u8],
) -> WasmResult<ModuleTranslation<'data>> {
self.result.wasm = data;
for payload in parser.parse_all(data) {
self.translate_payload(payload?)?;
}
Ok(self.result)
}
fn translate_payload(&mut self, payload: Payload<'data>) -> WasmResult<()> {
match payload {
Payload::Version {
num,
encoding,
range,
} => {
self.validator.version(num, encoding, &range)?;
match encoding {
Encoding::Module => {}
Encoding::Component => {
return Err(WasmError::Unsupported(format!("component model")));
}
}
}
Payload::End(offset) => {
self.result.types = Some(self.validator.end(offset)?);
// With the `escaped_funcs` set of functions finished
// we can calculate the set of signatures that are exported as
// the set of exported functions' signatures.
self.result.exported_signatures = self
.result
.module
.functions
.iter()
.filter_map(|(_, func)| {
if func.is_escaping() {
Some(func.signature)
} else {
None
}
})
.collect();
self.result.exported_signatures.sort_unstable();
self.result.exported_signatures.dedup();
}
Payload::TypeSection(types) => {
self.validator.type_section(&types)?;
let num = usize::try_from(types.count()).unwrap();
self.result.module.types.reserve(num);
self.types.reserve_wasm_signatures(num);
for ty in types {
match ty? {
Type::Func(wasm_func_ty) => {
self.declare_type_func(wasm_func_ty.try_into()?)?;
}
}
}
}
Payload::ImportSection(imports) => {
self.validator.import_section(&imports)?;
let cnt = usize::try_from(imports.count()).unwrap();
self.result.module.initializers.reserve(cnt);
for entry in imports {
let import = entry?;
let ty = match import.ty {
TypeRef::Func(index) => {
let index = TypeIndex::from_u32(index);
let sig_index = self.result.module.types[index].unwrap_function();
self.result.module.num_imported_funcs += 1;
self.result.debuginfo.wasm_file.imported_func_count += 1;
EntityType::Function(sig_index)
}
TypeRef::Memory(ty) => {
self.result.module.num_imported_memories += 1;
EntityType::Memory(ty.into())
}
TypeRef::Global(ty) => {
self.result.module.num_imported_globals += 1;
EntityType::Global(Global::new(ty, GlobalInit::Import)?)
}
TypeRef::Table(ty) => {
self.result.module.num_imported_tables += 1;
EntityType::Table(ty.try_into()?)
}
// doesn't get past validation
TypeRef::Tag(_) => unreachable!(),
};
self.declare_import(import.module, import.name, ty);
}
}
Payload::FunctionSection(functions) => {
self.validator.function_section(&functions)?;
let cnt = usize::try_from(functions.count()).unwrap();
self.result.module.functions.reserve_exact(cnt);
for entry in functions {
let sigindex = entry?;
let ty = TypeIndex::from_u32(sigindex);
let sig_index = self.result.module.types[ty].unwrap_function();
self.result.module.push_function(sig_index);
}
}
Payload::TableSection(tables) => {
self.validator.table_section(&tables)?;
let cnt = usize::try_from(tables.count()).unwrap();
self.result.module.table_plans.reserve_exact(cnt);
for entry in tables {
let table = entry?.try_into()?;
let plan = TablePlan::for_table(table, &self.tunables);
self.result.module.table_plans.push(plan);
}
}
Payload::MemorySection(memories) => {
self.validator.memory_section(&memories)?;
let cnt = usize::try_from(memories.count()).unwrap();
self.result.module.memory_plans.reserve_exact(cnt);
for entry in memories {
let memory = entry?;
let plan = MemoryPlan::for_memory(memory.into(), &self.tunables);
self.result.module.memory_plans.push(plan);
}
}
Payload::TagSection(tags) => {
self.validator.tag_section(&tags)?;
// This feature isn't enabled at this time, so we should
// never get here.
unreachable!();
}
Payload::GlobalSection(globals) => {
self.validator.global_section(&globals)?;
let cnt = usize::try_from(globals.count()).unwrap();
self.result.module.globals.reserve_exact(cnt);
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(u128::from_le_bytes(*value.bytes()))
}
Operator::RefNull { ty: _ } => GlobalInit::RefNullConst,
Operator::RefFunc { function_index } => {
let index = FuncIndex::from_u32(function_index);
self.flag_func_escaped(index);
GlobalInit::RefFunc(index)
}
Operator::GlobalGet { global_index } => {
GlobalInit::GetGlobal(GlobalIndex::from_u32(global_index))
}
s => {
return Err(WasmError::Unsupported(format!(
"unsupported init expr in global section: {:?}",
s
)));
}
};
let ty = Global::new(ty, initializer)?;
self.result.module.globals.push(ty);
}
}
Payload::ExportSection(exports) => {
self.validator.export_section(&exports)?;
let cnt = usize::try_from(exports.count()).unwrap();
self.result.module.exports.reserve(cnt);
for entry in exports {
let wasmparser::Export { name, kind, index } = entry?;
let entity = match kind {
ExternalKind::Func => {
let index = FuncIndex::from_u32(index);
self.flag_func_escaped(index);
EntityIndex::Function(index)
}
ExternalKind::Table => EntityIndex::Table(TableIndex::from_u32(index)),
ExternalKind::Memory => EntityIndex::Memory(MemoryIndex::from_u32(index)),
ExternalKind::Global => EntityIndex::Global(GlobalIndex::from_u32(index)),
// this never gets past validation
ExternalKind::Tag => unreachable!(),
};
self.result
.module
.exports
.insert(String::from(name), entity);
}
}
Payload::StartSection { func, range } => {
self.validator.start_section(func, &range)?;
let func_index = FuncIndex::from_u32(func);
self.flag_func_escaped(func_index);
debug_assert!(self.result.module.start_func.is_none());
self.result.module.start_func = Some(func_index);
}
Payload::ElementSection(elements) => {
self.validator.element_section(&elements)?;
for (index, entry) in elements.into_iter().enumerate() {
let wasmparser::Element {
kind,
items,
ty: _,
range: _,
} = entry?;
// Build up a list of `FuncIndex` corresponding to all the
// entries listed in this segment. Note that it's not
// possible to create anything other than a `ref.null
// extern` for externref segments, so those just get
// translated to the reserved value of `FuncIndex`.
let mut elements = Vec::new();
match items {
ElementItems::Functions(funcs) => {
elements.reserve(usize::try_from(funcs.count()).unwrap());
for func in funcs {
let func = FuncIndex::from_u32(func?);
self.flag_func_escaped(func);
elements.push(func);
}
}
ElementItems::Expressions(funcs) => {
elements.reserve(usize::try_from(funcs.count()).unwrap());
for func in funcs {
let func = match func?.get_binary_reader().read_operator()? {
Operator::RefNull { .. } => FuncIndex::reserved_value(),
Operator::RefFunc { function_index } => {
let func = FuncIndex::from_u32(function_index);
self.flag_func_escaped(func);
func
}
s => {
return Err(WasmError::Unsupported(format!(
"unsupported init expr in element section: {:?}",
s
)));
}
};
elements.push(func);
}
}
}
match kind {
ElementKind::Active {
table_index,
offset_expr,
} => {
let table_index = TableIndex::from_u32(table_index);
let mut offset_expr_reader = offset_expr.get_binary_reader();
let (base, offset) = match offset_expr_reader.read_operator()? {
Operator::I32Const { value } => (None, value as u32),
Operator::GlobalGet { global_index } => {
(Some(GlobalIndex::from_u32(global_index)), 0)
}
ref s => {
return Err(WasmError::Unsupported(format!(
"unsupported init expr in element section: {:?}",
s
)));
}
};
let table_segments = match &mut self.result.module.table_initialization
{
TableInitialization::Segments { segments } => segments,
TableInitialization::FuncTable { .. } => unreachable!(),
};
table_segments.push(TableInitializer {
table_index,
base,
offset,
elements: elements.into(),
});
}
ElementKind::Passive => {
let elem_index = ElemIndex::from_u32(index as u32);
let index = self.result.module.passive_elements.len();
self.result.module.passive_elements.push(elements.into());
self.result
.module
.passive_elements_map
.insert(elem_index, index);
}
ElementKind::Declared => {}
}
}
}
Payload::CodeSectionStart { count, range, .. } => {
self.validator.code_section_start(count, &range)?;
let cnt = usize::try_from(count).unwrap();
self.result.function_body_inputs.reserve_exact(cnt);
self.result.debuginfo.wasm_file.code_section_offset = range.start as u64;
}
Payload::CodeSectionEntry(mut body) => {
let validator = self.validator.code_section_entry(&body)?;
let func_index =
self.result.code_index + self.result.module.num_imported_funcs as u32;
let func_index = FuncIndex::from_u32(func_index);
if self.tunables.generate_native_debuginfo {
let sig_index = self.result.module.functions[func_index].signature;
let sig = &self.types[sig_index];
let mut locals = Vec::new();
for pair in body.get_locals_reader()? {
locals.push(pair?);
}
self.result
.debuginfo
.wasm_file
.funcs
.push(FunctionMetadata {
locals: locals.into_boxed_slice(),
params: sig.params().iter().cloned().map(|i| i.into()).collect(),
});
}
body.allow_memarg64(self.validator.features().memory64);
self.result
.function_body_inputs
.push(FunctionBodyData { validator, body });
self.result.code_index += 1;
}
Payload::DataSection(data) => {
self.validator.data_section(&data)?;
let initializers = match &mut self.result.module.memory_initialization {
MemoryInitialization::Segmented(i) => i,
_ => unreachable!(),
};
let cnt = usize::try_from(data.count()).unwrap();
initializers.reserve_exact(cnt);
self.result.data.reserve_exact(cnt);
for (index, entry) in data.into_iter().enumerate() {
let wasmparser::Data {
kind,
data,
range: _,
} = entry?;
let mk_range = |total: &mut u32| -> Result<_, WasmError> {
let range = u32::try_from(data.len())
.ok()
.and_then(|size| {
let start = *total;
let end = start.checked_add(size)?;
Some(start..end)
})
.ok_or_else(|| {
WasmError::Unsupported(format!(
"more than 4 gigabytes of data in wasm module",
))
})?;
*total += range.end - range.start;
Ok(range)
};
match kind {
DataKind::Active {
memory_index,
offset_expr,
} => {
let range = mk_range(&mut self.result.total_data)?;
let memory_index = MemoryIndex::from_u32(memory_index);
let mut offset_expr_reader = offset_expr.get_binary_reader();
let (base, offset) = match offset_expr_reader.read_operator()? {
Operator::I32Const { value } => (None, value as u64),
Operator::I64Const { value } => (None, value as u64),
Operator::GlobalGet { global_index } => {
(Some(GlobalIndex::from_u32(global_index)), 0)
}
s => {
return Err(WasmError::Unsupported(format!(
"unsupported init expr in data section: {:?}",
s
)));
}
};
initializers.push(MemoryInitializer {
memory_index,
base,
offset,
data: range,
});
self.result.data.push(data.into());
}
DataKind::Passive => {
let data_index = DataIndex::from_u32(index as u32);
let range = mk_range(&mut self.result.total_passive_data)?;
self.result.passive_data.push(data);
self.result
.module
.passive_data_map
.insert(data_index, range);
}
}
}
}
Payload::DataCountSection { count, range } => {
self.validator.data_count_section(count, &range)?;
// Note: the count passed in here is the *total* segment count
// There is no way to reserve for just the passive segments as
// they are discovered when iterating the data section entries
// Given that the total segment count might be much larger than
// the passive count, do not reserve anything here.
}
Payload::CustomSection(s) if s.name() == "name" => {
let result = self.name_section(NameSectionReader::new(s.data(), s.data_offset()));
if let Err(e) = result {
log::warn!("failed to parse name section {:?}", e);
}
}
Payload::CustomSection(s)
if s.name() == "webidl-bindings" || s.name() == "wasm-interface-types" =>
{
return Err(WasmError::Unsupported(
"\
Support for interface types has temporarily been removed from `wasmtime`.
For more information about this temporary change you can read on the issue online:
https://github.com/bytecodealliance/wasmtime/issues/1271
and for re-adding support for interface types you can see this issue:
https://github.com/bytecodealliance/wasmtime/issues/677
"
.to_string(),
))
}
Payload::CustomSection(s) => {
self.register_dwarf_section(&s);
}
// It's expected that validation will probably reject other
// payloads such as `UnknownSection` or those related to the
// component model. If, however, something gets past validation then
// that's a bug in Wasmtime as we forgot to implement something.
other => {
self.validator.payload(&other)?;
panic!("unimplemented section in wasm file {:?}", other);
}
}
Ok(())
}
fn register_dwarf_section(&mut self, section: &CustomSectionReader<'data>) {
let name = section.name();
if !name.starts_with(".debug_") {
return;
}
if !self.tunables.generate_native_debuginfo && !self.tunables.parse_wasm_debuginfo {
self.result.has_unparsed_debuginfo = true;
return;
}
let info = &mut self.result.debuginfo;
let dwarf = &mut info.dwarf;
let endian = gimli::LittleEndian;
let data = section.data();
let slice = gimli::EndianSlice::new(data, endian);
match name {
// `gimli::Dwarf` fields.
".debug_abbrev" => dwarf.debug_abbrev = gimli::DebugAbbrev::new(data, endian),
".debug_addr" => dwarf.debug_addr = gimli::DebugAddr::from(slice),
".debug_info" => dwarf.debug_info = gimli::DebugInfo::new(data, endian),
".debug_line" => dwarf.debug_line = gimli::DebugLine::new(data, endian),
".debug_line_str" => dwarf.debug_line_str = gimli::DebugLineStr::from(slice),
".debug_str" => dwarf.debug_str = gimli::DebugStr::new(data, endian),
".debug_str_offsets" => dwarf.debug_str_offsets = gimli::DebugStrOffsets::from(slice),
".debug_str_sup" => {
let mut dwarf_sup: Dwarf<'data> = Default::default();
dwarf_sup.debug_str = gimli::DebugStr::from(slice);
dwarf.sup = Some(Arc::new(dwarf_sup));
}
".debug_types" => dwarf.debug_types = gimli::DebugTypes::from(slice),
// Additional fields.
".debug_loc" => info.debug_loc = gimli::DebugLoc::from(slice),
".debug_loclists" => info.debug_loclists = gimli::DebugLocLists::from(slice),
".debug_ranges" => info.debug_ranges = gimli::DebugRanges::new(data, endian),
".debug_rnglists" => info.debug_rnglists = gimli::DebugRngLists::new(data, endian),
// We don't use these at the moment.
".debug_aranges" | ".debug_pubnames" | ".debug_pubtypes" => return,
other => {
log::warn!("unknown debug section `{}`", other);
return;
}
}
dwarf.ranges = gimli::RangeLists::new(info.debug_ranges, info.debug_rnglists);
dwarf.locations = gimli::LocationLists::new(info.debug_loc, info.debug_loclists);
}
/// Declares a new import with the `module` and `field` names, importing the
/// `ty` specified.
///
/// Note that this method is somewhat tricky due to the implementation of
/// the module linking proposal. In the module linking proposal two-level
/// imports are recast as single-level imports of instances. That recasting
/// happens here by recording an import of an instance for the first time
/// we see a two-level import.
///
/// When the module linking proposal is disabled, however, disregard this
/// logic and instead work directly with two-level imports since no
/// instances are defined.
fn declare_import(&mut self, module: &'data str, field: &'data str, ty: EntityType) {
let index = self.push_type(ty);
self.result.module.initializers.push(Initializer::Import {
name: module.to_owned(),
field: field.to_owned(),
index,
});
}
fn push_type(&mut self, ty: EntityType) -> EntityIndex {
match ty {
EntityType::Function(ty) => EntityIndex::Function(self.result.module.push_function(ty)),
EntityType::Table(ty) => {
let plan = TablePlan::for_table(ty, &self.tunables);
EntityIndex::Table(self.result.module.table_plans.push(plan))
}
EntityType::Memory(ty) => {
let plan = MemoryPlan::for_memory(ty, &self.tunables);
EntityIndex::Memory(self.result.module.memory_plans.push(plan))
}
EntityType::Global(ty) => EntityIndex::Global(self.result.module.globals.push(ty)),
EntityType::Tag(_) => unimplemented!(),
}
}
fn flag_func_escaped(&mut self, func: FuncIndex) {
let ty = &mut self.result.module.functions[func];
// If this was already assigned an anyfunc index no need to re-assign it.
if ty.is_escaping() {
return;
}
let index = self.result.module.num_escaped_funcs as u32;
ty.anyfunc = AnyfuncIndex::from_u32(index);
self.result.module.num_escaped_funcs += 1;
}
fn declare_type_func(&mut self, wasm: WasmFuncType) -> WasmResult<()> {
let sig_index = self.types.wasm_func_type(wasm);
self.result
.module
.types
.push(ModuleType::Function(sig_index));
Ok(())
}
/// Parses the Name section of the wasm module.
fn name_section(&mut self, names: NameSectionReader<'data>) -> WasmResult<()> {
for subsection in names {
match subsection? {
wasmparser::Name::Function(names) => {
for name in names {
let Naming { index, name } = name?;
// Skip this naming if it's naming a function that
// doesn't actually exist.
if (index as usize) >= self.result.module.functions.len() {
continue;
}
// Store the name unconditionally, regardless of
// whether we're parsing debuginfo, since function
// names are almost always present in the
// final compilation artifact.
let index = FuncIndex::from_u32(index);
self.result
.debuginfo
.name_section
.func_names
.insert(index, name);
}
}
wasmparser::Name::Module { name, .. } => {
self.result.module.name = Some(name.to_string());
if self.tunables.generate_native_debuginfo {
self.result.debuginfo.name_section.module_name = Some(name);
}
}
wasmparser::Name::Local(reader) => {
if !self.tunables.generate_native_debuginfo {
continue;
}
for f in reader {
let f = f?;
// Skip this naming if it's naming a function that
// doesn't actually exist.
if (f.index as usize) >= self.result.module.functions.len() {
continue;
}
for name in f.names {
let Naming { index, name } = name?;
self.result
.debuginfo
.name_section
.locals_names
.entry(FuncIndex::from_u32(f.index))
.or_insert(HashMap::new())
.insert(index, name);
}
}
}
wasmparser::Name::Label(_)
| wasmparser::Name::Type(_)
| wasmparser::Name::Table(_)
| wasmparser::Name::Global(_)
| wasmparser::Name::Memory(_)
| wasmparser::Name::Element(_)
| wasmparser::Name::Data(_)
| wasmparser::Name::Unknown { .. } => {}
}
}
Ok(())
}
}