wasmer/lib/dynasm-backend/src/parse.rs

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use crate::codegen::{CodegenError, FunctionCodeGenerator, ModuleCodeGenerator};
use std::sync::Arc;
use wasmer_runtime_core::{
backend::Backend,
module::{
DataInitializer, ExportIndex, ImportName, ModuleInfo, StringTable, StringTableBuilder,
TableInitializer,
},
structures::{Map, TypedIndex},
types::{
ElementType, FuncIndex, FuncSig, GlobalDescriptor, GlobalIndex, GlobalInit,
ImportedGlobalIndex, Initializer, MemoryDescriptor, MemoryIndex, SigIndex, TableDescriptor,
TableIndex, Type, Value,
},
units::Pages,
};
use wasmparser::{
BinaryReaderError, CodeSectionReader, Data, DataKind, Element, ElementKind, Export,
ExternalKind, FuncType, Import, ImportSectionEntryType, InitExpr, ModuleReader, Operator,
SectionCode, Type as WpType,
};
#[derive(Debug)]
pub enum LoadError {
Parse(BinaryReaderError),
Codegen(CodegenError),
}
impl From<BinaryReaderError> for LoadError {
fn from(other: BinaryReaderError) -> LoadError {
LoadError::Parse(other)
}
}
impl From<CodegenError> for LoadError {
fn from(other: CodegenError) -> LoadError {
LoadError::Codegen(other)
}
}
pub fn read_module<MCG: ModuleCodeGenerator<FCG>, FCG: FunctionCodeGenerator>(
wasm: &[u8],
backend: Backend,
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mcg: &mut MCG,
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) -> Result<ModuleInfo, LoadError> {
let mut info = ModuleInfo {
memories: Map::new(),
globals: Map::new(),
tables: Map::new(),
imported_functions: Map::new(),
imported_memories: Map::new(),
imported_tables: Map::new(),
imported_globals: Map::new(),
exports: Default::default(),
data_initializers: Vec::new(),
elem_initializers: Vec::new(),
start_func: None,
func_assoc: Map::new(),
signatures: Map::new(),
backend: backend,
namespace_table: StringTable::new(),
name_table: StringTable::new(),
};
let mut reader = ModuleReader::new(wasm)?;
loop {
if reader.eof() {
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mcg.finalize()?;
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return Ok(info);
}
let section = reader.read()?;
match section.code {
SectionCode::Type => {
let type_reader = section.get_type_section_reader()?;
for ty in type_reader {
let ty = ty?;
info.signatures.push(Arc::new(func_type_to_func_sig(ty)?));
}
}
SectionCode::Import => {
let import_reader = section.get_import_section_reader()?;
let mut namespace_builder = StringTableBuilder::new();
let mut name_builder = StringTableBuilder::new();
for import in import_reader {
let Import { module, field, ty } = import?;
let namespace_index = namespace_builder.register(module);
let name_index = name_builder.register(field);
let import_name = ImportName {
namespace_index,
name_index,
};
match ty {
ImportSectionEntryType::Function(sigindex) => {
let sigindex = SigIndex::new(sigindex as usize);
info.imported_functions.push(import_name);
info.func_assoc.push(sigindex);
}
ImportSectionEntryType::Table(table_ty) => {
assert_eq!(table_ty.element_type, WpType::AnyFunc);
let table_desc = TableDescriptor {
element: ElementType::Anyfunc,
minimum: table_ty.limits.initial,
maximum: table_ty.limits.maximum,
};
info.imported_tables.push((import_name, table_desc));
}
ImportSectionEntryType::Memory(memory_ty) => {
let mem_desc = MemoryDescriptor {
minimum: Pages(memory_ty.limits.initial),
maximum: memory_ty.limits.maximum.map(|max| Pages(max)),
shared: memory_ty.shared,
};
info.imported_memories.push((import_name, mem_desc));
}
ImportSectionEntryType::Global(global_ty) => {
let global_desc = GlobalDescriptor {
mutable: global_ty.mutable,
ty: wp_type_to_type(global_ty.content_type)?,
};
info.imported_globals.push((import_name, global_desc));
}
}
}
}
SectionCode::Function => {
let func_decl_reader = section.get_function_section_reader()?;
for sigindex in func_decl_reader {
let sigindex = sigindex?;
let sigindex = SigIndex::new(sigindex as usize);
info.func_assoc.push(sigindex);
}
}
SectionCode::Table => {
let table_decl_reader = section.get_table_section_reader()?;
for table_ty in table_decl_reader {
let table_ty = table_ty?;
let table_desc = TableDescriptor {
element: ElementType::Anyfunc,
minimum: table_ty.limits.initial,
maximum: table_ty.limits.maximum,
};
info.tables.push(table_desc);
}
}
SectionCode::Memory => {
let mem_decl_reader = section.get_memory_section_reader()?;
for memory_ty in mem_decl_reader {
let memory_ty = memory_ty?;
let mem_desc = MemoryDescriptor {
minimum: Pages(memory_ty.limits.initial),
maximum: memory_ty.limits.maximum.map(|max| Pages(max)),
shared: memory_ty.shared,
};
info.memories.push(mem_desc);
}
}
SectionCode::Global => {
let global_decl_reader = section.get_global_section_reader()?;
for global in global_decl_reader {
let global = global?;
let desc = GlobalDescriptor {
mutable: global.ty.mutable,
ty: wp_type_to_type(global.ty.content_type)?,
};
let global_init = GlobalInit {
desc,
init: eval_init_expr(&global.init_expr)?,
};
info.globals.push(global_init);
}
}
SectionCode::Export => {
let export_reader = section.get_export_section_reader()?;
for export in export_reader {
let Export { field, kind, index } = export?;
let export_index = match kind {
ExternalKind::Function => ExportIndex::Func(FuncIndex::new(index as usize)),
ExternalKind::Table => ExportIndex::Table(TableIndex::new(index as usize)),
ExternalKind::Memory => {
ExportIndex::Memory(MemoryIndex::new(index as usize))
}
ExternalKind::Global => {
ExportIndex::Global(GlobalIndex::new(index as usize))
}
};
info.exports.insert(field.to_string(), export_index);
}
}
SectionCode::Start => {
let start_index = section.get_start_section_content()?;
info.start_func = Some(FuncIndex::new(start_index as usize));
}
SectionCode::Element => {
let element_reader = section.get_element_section_reader()?;
for element in element_reader {
let Element { kind, items } = element?;
match kind {
ElementKind::Active {
table_index,
init_expr,
} => {
let table_index = TableIndex::new(table_index as usize);
let base = eval_init_expr(&init_expr)?;
let items_reader = items.get_items_reader()?;
let elements: Vec<_> = items_reader
.into_iter()
.map(|res| res.map(|index| FuncIndex::new(index as usize)))
.collect::<Result<_, _>>()?;
let table_init = TableInitializer {
table_index,
base,
elements,
};
info.elem_initializers.push(table_init);
}
ElementKind::Passive(_ty) => {
return Err(BinaryReaderError {
message: "passive tables are not yet supported",
offset: -1isize as usize,
}
.into());
}
}
}
}
SectionCode::Code => {
let mut code_reader = section.get_code_section_reader()?;
if code_reader.get_count() as usize != info.func_assoc.len() {
return Err(BinaryReaderError {
message: "code_reader.get_count() != info.func_assoc.len()",
offset: ::std::usize::MAX,
}
.into());
}
for i in 0..code_reader.get_count() {
let item = code_reader.read()?;
let mut fcg = mcg.next_function()?;
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let sig = info
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.signatures
.get(*info.func_assoc.get(FuncIndex::new(i as usize)).unwrap())
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.unwrap();
for ret in sig.returns() {
fcg.feed_return(type_to_wp_type(*ret))?;
}
for param in sig.params() {
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fcg.feed_param(type_to_wp_type(*param))?;
}
for local in item.get_locals_reader()? {
let (count, ty) = local?;
fcg.feed_local(ty, count as usize)?;
}
fcg.begin_body()?;
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for op in item.get_operators_reader()? {
let op = op?;
fcg.feed_opcode(op)?;
}
fcg.finalize()?;
}
}
SectionCode::Data => {
let data_reader = section.get_data_section_reader()?;
for data in data_reader {
let Data { kind, data } = data?;
match kind {
DataKind::Active {
memory_index,
init_expr,
} => {
let memory_index = MemoryIndex::new(memory_index as usize);
let base = eval_init_expr(&init_expr)?;
let data_init = DataInitializer {
memory_index,
base,
data: data.to_vec(),
};
info.data_initializers.push(data_init);
}
DataKind::Passive => {
return Err(BinaryReaderError {
message: "passive memories are not yet supported",
offset: -1isize as usize,
}
.into());
}
}
}
}
SectionCode::DataCount => {}
SectionCode::Custom { .. } => {}
}
}
}
pub fn wp_type_to_type(ty: WpType) -> Result<Type, BinaryReaderError> {
Ok(match ty {
WpType::I32 => Type::I32,
WpType::I64 => Type::I64,
WpType::F32 => Type::F32,
WpType::F64 => Type::F64,
WpType::V128 => {
return Err(BinaryReaderError {
message: "the wasmer llvm backend does not yet support the simd extension",
offset: -1isize as usize,
});
}
_ => panic!("broken invariant, invalid type"),
})
}
pub fn type_to_wp_type(ty: Type) -> WpType {
match ty {
Type::I32 => WpType::I32,
Type::I64 => WpType::I64,
Type::F32 => WpType::F32,
Type::F64 => WpType::F64,
}
}
fn func_type_to_func_sig(func_ty: FuncType) -> Result<FuncSig, BinaryReaderError> {
assert_eq!(func_ty.form, WpType::Func);
Ok(FuncSig::new(
func_ty
.params
.iter()
.cloned()
.map(wp_type_to_type)
.collect::<Result<Vec<_>, _>>()?,
func_ty
.returns
.iter()
.cloned()
.map(wp_type_to_type)
.collect::<Result<Vec<_>, _>>()?,
))
}
fn eval_init_expr(expr: &InitExpr) -> Result<Initializer, BinaryReaderError> {
let mut reader = expr.get_operators_reader();
let (op, offset) = reader.read_with_offset()?;
Ok(match op {
Operator::GetGlobal { global_index } => {
Initializer::GetGlobal(ImportedGlobalIndex::new(global_index as usize))
}
Operator::I32Const { value } => Initializer::Const(Value::I32(value)),
Operator::I64Const { value } => Initializer::Const(Value::I64(value)),
Operator::F32Const { value } => {
Initializer::Const(Value::F32(f32::from_bits(value.bits())))
}
Operator::F64Const { value } => {
Initializer::Const(Value::F64(f64::from_bits(value.bits())))
}
_ => {
return Err(BinaryReaderError {
message: "init expr evaluation failed: unsupported opcode",
offset,
});
}
})
}