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use super::{
check_max, combine_type_sizes,
operators::OperatorValidator,
types::{EntityType, Type, TypeId, TypeList},
};
use crate::{
limits::*, BinaryReaderError, ConstExpr, Data, DataKind, Element, ElementItem, ElementKind,
ExternalKind, FuncType, Global, GlobalType, MemoryType, Operator, Result, TableType, TagType,
TypeRef, ValType, VisitOperator, WasmFeatures, WasmModuleResources,
};
use indexmap::IndexMap;
use std::{collections::HashSet, sync::Arc};
fn check_value_type(ty: ValType, features: &WasmFeatures, offset: usize) -> Result<()> {
match features.check_value_type(ty) {
Ok(()) => Ok(()),
Err(e) => Err(BinaryReaderError::new(e, offset)),
}
}
#[derive(Copy, Clone, PartialOrd, Ord, PartialEq, Eq, Debug)]
pub enum Order {
Initial,
Type,
Import,
Function,
Table,
Memory,
Tag,
Global,
Export,
Start,
Element,
DataCount,
Code,
Data,
}
impl Default for Order {
fn default() -> Order {
Order::Initial
}
}
#[derive(Default)]
pub(crate) struct ModuleState {
pub module: arc::MaybeOwned<Module>,
order: Order,
pub data_segment_count: u32,
pub expected_code_bodies: Option<u32>,
code_section_index: Option<usize>,
}
impl ModuleState {
pub fn update_order(&mut self, order: Order, offset: usize) -> Result<()> {
if self.order >= order {
return Err(BinaryReaderError::new("section out of order", offset));
}
self.order = order;
Ok(())
}
pub fn validate_end(&self, offset: usize) -> Result<()> {
if let Some(data_count) = self.module.data_count {
if data_count != self.data_segment_count {
return Err(BinaryReaderError::new(
"data count and data section have inconsistent lengths",
offset,
));
}
}
if let Some(n) = self.expected_code_bodies {
if n > 0 {
return Err(BinaryReaderError::new(
"function and code section have inconsistent lengths",
offset,
));
}
}
Ok(())
}
pub fn next_code_index_and_type(&mut self, offset: usize) -> Result<(u32, u32)> {
let index = self
.code_section_index
.get_or_insert(self.module.num_imported_functions as usize);
if *index >= self.module.functions.len() {
return Err(BinaryReaderError::new(
"code section entry exceeds number of functions",
offset,
));
}
let ty = self.module.functions[*index];
*index += 1;
Ok(((*index - 1) as u32, ty))
}
pub fn add_global(
&mut self,
global: Global,
features: &WasmFeatures,
types: &TypeList,
offset: usize,
) -> Result<()> {
self.module
.check_global_type(&global.ty, features, offset)?;
self.check_const_expr(&global.init_expr, global.ty.content_type, features, types)?;
self.module.assert_mut().globals.push(global.ty);
Ok(())
}
pub fn add_data_segment(
&mut self,
data: Data,
features: &WasmFeatures,
types: &TypeList,
offset: usize,
) -> Result<()> {
match data.kind {
DataKind::Passive => Ok(()),
DataKind::Active {
memory_index,
offset_expr,
} => {
let ty = self.module.memory_at(memory_index, offset)?.index_type();
self.check_const_expr(&offset_expr, ty, features, types)
}
}
}
pub fn add_element_segment(
&mut self,
e: Element,
features: &WasmFeatures,
types: &TypeList,
offset: usize,
) -> Result<()> {
if e.ty != ValType::FuncRef {
check_value_type(e.ty, features, offset)?;
}
if !e.ty.is_reference_type() {
return Err(BinaryReaderError::new("malformed reference type", offset));
}
match e.kind {
ElementKind::Active {
table_index,
offset_expr,
} => {
let table = self.module.table_at(table_index, offset)?;
if e.ty != table.element_type {
return Err(BinaryReaderError::new(
"invalid element type for table type",
offset,
));
}
self.check_const_expr(&offset_expr, ValType::I32, features, types)?;
}
ElementKind::Passive | ElementKind::Declared => {
if !features.bulk_memory {
return Err(BinaryReaderError::new(
"bulk memory must be enabled",
offset,
));
}
}
}
let mut items = e.items.get_items_reader()?;
if items.get_count() > MAX_WASM_TABLE_ENTRIES as u32 {
return Err(BinaryReaderError::new(
"number of elements is out of bounds",
offset,
));
}
for _ in 0..items.get_count() {
let offset = items.original_position();
match items.read()? {
ElementItem::Expr(expr) => {
self.check_const_expr(&expr, e.ty, features, types)?;
}
ElementItem::Func(f) => {
if e.ty != ValType::FuncRef {
return Err(BinaryReaderError::new(
"type mismatch: segment does not have funcref type",
offset,
));
}
self.module.get_func_type(f, types, offset)?;
self.module.assert_mut().function_references.insert(f);
}
}
}
self.module.assert_mut().element_types.push(e.ty);
Ok(())
}
fn check_const_expr(
&mut self,
expr: &ConstExpr<'_>,
expected_ty: ValType,
features: &WasmFeatures,
types: &TypeList,
) -> Result<()> {
let mut ops = expr.get_operators_reader();
let mut validator = OperatorValidator::new_const_expr(features, expected_ty);
let mut uninserted_funcref = false;
while !ops.eof() {
let offset = ops.original_position();
let op = ops.read()?;
match &op {
Operator::I32Const { .. }
| Operator::I64Const { .. }
| Operator::F32Const { .. }
| Operator::F64Const { .. }
| Operator::RefNull { .. }
| Operator::V128Const { .. }
| Operator::End => {}
Operator::I32Add
| Operator::I32Sub
| Operator::I32Mul
| Operator::I64Add
| Operator::I64Sub
| Operator::I64Mul
if features.extended_const => {}
Operator::GlobalGet { global_index } => {
let global = self.module.global_at(*global_index, offset)?;
if *global_index >= self.module.num_imported_globals {
return Err(BinaryReaderError::new(
"constant expression required: global.get of locally defined global",
offset,
));
}
if global.mutable {
return Err(BinaryReaderError::new(
"constant expression required: global.get of mutable global",
offset,
));
}
}
Operator::RefFunc { function_index } => {
if self.order == Order::Data {
uninserted_funcref = true;
} else {
self.module
.assert_mut()
.function_references
.insert(*function_index);
}
}
_ => {
return Err(BinaryReaderError::new(
"constant expression required: non-constant operator",
offset,
));
}
}
let resources = OperatorValidatorResources {
module: &self.module,
types,
};
validator
.with_resources(&resources)
.visit_operator(offset, &op)?;
}
validator.finish(ops.original_position())?;
assert!(!uninserted_funcref);
Ok(())
}
}
pub(crate) struct Module {
pub snapshot: Option<Arc<TypeList>>,
pub types: Vec<TypeId>,
pub tables: Vec<TableType>,
pub memories: Vec<MemoryType>,
pub globals: Vec<GlobalType>,
pub element_types: Vec<ValType>,
pub data_count: Option<u32>,
pub functions: Vec<u32>,
pub tags: Vec<TypeId>,
pub function_references: HashSet<u32>,
pub imports: IndexMap<(String, String), Vec<EntityType>>,
pub exports: IndexMap<String, EntityType>,
pub type_size: usize,
num_imported_globals: u32,
num_imported_functions: u32,
}
impl Module {
pub fn add_type(
&mut self,
ty: crate::Type,
features: &WasmFeatures,
types: &mut TypeList,
offset: usize,
check_limit: bool,
) -> Result<()> {
let ty = match ty {
crate::Type::Func(t) => {
for ty in t.params.iter().chain(t.returns.iter()) {
check_value_type(*ty, features, offset)?;
}
if t.returns.len() > 1 && !features.multi_value {
return Err(BinaryReaderError::new(
"func type returns multiple values but the multi-value feature is not enabled",
offset,
));
}
Type::Func(t)
}
};
if check_limit {
check_max(self.types.len(), 1, MAX_WASM_TYPES, "types", offset)?;
}
self.types.push(TypeId {
type_size: ty.type_size(),
index: types.len(),
});
types.push(ty);
Ok(())
}
pub fn add_import(
&mut self,
import: crate::Import,
features: &WasmFeatures,
types: &TypeList,
offset: usize,
) -> Result<()> {
let entity = self.check_type_ref(&import.ty, features, types, offset)?;
let (len, max, desc) = match import.ty {
TypeRef::Func(type_index) => {
self.functions.push(type_index);
self.num_imported_functions += 1;
(self.functions.len(), MAX_WASM_FUNCTIONS, "functions")
}
TypeRef::Table(ty) => {
self.tables.push(ty);
(self.tables.len(), self.max_tables(features), "tables")
}
TypeRef::Memory(ty) => {
self.memories.push(ty);
(self.memories.len(), self.max_memories(features), "memories")
}
TypeRef::Tag(ty) => {
self.tags.push(self.types[ty.func_type_idx as usize]);
(self.tags.len(), MAX_WASM_TAGS, "tags")
}
TypeRef::Global(ty) => {
if !features.mutable_global && ty.mutable {
return Err(BinaryReaderError::new(
"mutable global support is not enabled",
offset,
));
}
self.globals.push(ty);
self.num_imported_globals += 1;
(self.globals.len(), MAX_WASM_GLOBALS, "globals")
}
};
check_max(len, 0, max, desc, offset)?;
self.type_size = combine_type_sizes(self.type_size, entity.type_size(), offset)?;
self.imports
.entry((import.module.to_string(), import.name.to_string()))
.or_default()
.push(entity);
Ok(())
}
pub fn add_export(
&mut self,
name: &str,
ty: EntityType,
features: &WasmFeatures,
offset: usize,
check_limit: bool,
) -> Result<()> {
if !features.mutable_global {
if let EntityType::Global(global_type) = ty {
if global_type.mutable {
return Err(BinaryReaderError::new(
"mutable global support is not enabled",
offset,
));
}
}
}
if check_limit {
check_max(self.exports.len(), 1, MAX_WASM_EXPORTS, "exports", offset)?;
}
self.type_size = combine_type_sizes(self.type_size, ty.type_size(), offset)?;
match self.exports.insert(name.to_string(), ty) {
Some(_) => Err(BinaryReaderError::new(
format!("duplicate export name `{}` already defined", name),
offset,
)),
None => Ok(()),
}
}
pub fn add_function(&mut self, type_index: u32, types: &TypeList, offset: usize) -> Result<()> {
self.func_type_at(type_index, types, offset)?;
self.functions.push(type_index);
Ok(())
}
pub fn add_table(
&mut self,
ty: TableType,
features: &WasmFeatures,
offset: usize,
) -> Result<()> {
self.check_table_type(&ty, features, offset)?;
self.tables.push(ty);
Ok(())
}
pub fn add_memory(
&mut self,
ty: MemoryType,
features: &WasmFeatures,
offset: usize,
) -> Result<()> {
self.check_memory_type(&ty, features, offset)?;
self.memories.push(ty);
Ok(())
}
pub fn add_tag(
&mut self,
ty: TagType,
features: &WasmFeatures,
types: &TypeList,
offset: usize,
) -> Result<()> {
self.check_tag_type(&ty, features, types, offset)?;
self.tags.push(self.types[ty.func_type_idx as usize]);
Ok(())
}
pub fn type_at(&self, idx: u32, offset: usize) -> Result<TypeId> {
self.types.get(idx as usize).copied().ok_or_else(|| {
BinaryReaderError::new(
format!("unknown type {}: type index out of bounds", idx),
offset,
)
})
}
fn func_type_at<'a>(
&self,
type_index: u32,
types: &'a TypeList,
offset: usize,
) -> Result<&'a FuncType> {
types[self.type_at(type_index, offset)?]
.as_func_type()
.ok_or_else(|| {
BinaryReaderError::new(
format!("type index {} is not a function type", type_index),
offset,
)
})
}
pub fn check_type_ref(
&self,
type_ref: &TypeRef,
features: &WasmFeatures,
types: &TypeList,
offset: usize,
) -> Result<EntityType> {
Ok(match type_ref {
TypeRef::Func(type_index) => {
self.func_type_at(*type_index, types, offset)?;
EntityType::Func(self.types[*type_index as usize])
}
TypeRef::Table(t) => {
self.check_table_type(t, features, offset)?;
EntityType::Table(*t)
}
TypeRef::Memory(t) => {
self.check_memory_type(t, features, offset)?;
EntityType::Memory(*t)
}
TypeRef::Tag(t) => {
self.check_tag_type(t, features, types, offset)?;
EntityType::Tag(self.types[t.func_type_idx as usize])
}
TypeRef::Global(t) => {
self.check_global_type(t, features, offset)?;
EntityType::Global(*t)
}
})
}
fn check_table_type(
&self,
ty: &TableType,
features: &WasmFeatures,
offset: usize,
) -> Result<()> {
if ty.element_type != ValType::FuncRef {
check_value_type(ty.element_type, features, offset)?;
}
if !ty.element_type.is_reference_type() {
return Err(BinaryReaderError::new(
"element is not reference type",
offset,
));
}
self.check_limits(ty.initial, ty.maximum, offset)?;
if ty.initial > MAX_WASM_TABLE_ENTRIES as u32 {
return Err(BinaryReaderError::new(
"minimum table size is out of bounds",
offset,
));
}
Ok(())
}
fn check_memory_type(
&self,
ty: &MemoryType,
features: &WasmFeatures,
offset: usize,
) -> Result<()> {
self.check_limits(ty.initial, ty.maximum, offset)?;
let (true_maximum, err) = if ty.memory64 {
if !features.memory64 {
return Err(BinaryReaderError::new(
"memory64 must be enabled for 64-bit memories",
offset,
));
}
(
MAX_WASM_MEMORY64_PAGES,
"memory size must be at most 2**48 pages",
)
} else {
(
MAX_WASM_MEMORY32_PAGES,
"memory size must be at most 65536 pages (4GiB)",
)
};
if ty.initial > true_maximum {
return Err(BinaryReaderError::new(err, offset));
}
if let Some(maximum) = ty.maximum {
if maximum > true_maximum {
return Err(BinaryReaderError::new(err, offset));
}
}
if ty.shared {
if !features.threads {
return Err(BinaryReaderError::new(
"threads must be enabled for shared memories",
offset,
));
}
if ty.maximum.is_none() {
return Err(BinaryReaderError::new(
"shared memory must have maximum size",
offset,
));
}
}
Ok(())
}
pub(crate) fn imports_for_module_type(
&self,
offset: usize,
) -> Result<IndexMap<(String, String), EntityType>> {
self.imports.iter().map(|((module, name), types)| {
if types.len() != 1 {
return Err(BinaryReaderError::new(
format!(
"module has a duplicate import name `{}:{}` that is not allowed in components",
module, name
),
offset,
));
}
Ok(((module.clone(), name.clone()), types[0]))
}).collect::<Result<_>>()
}
fn check_tag_type(
&self,
ty: &TagType,
features: &WasmFeatures,
types: &TypeList,
offset: usize,
) -> Result<()> {
if !features.exceptions {
return Err(BinaryReaderError::new(
"exceptions proposal not enabled",
offset,
));
}
let ty = self.func_type_at(ty.func_type_idx, types, offset)?;
if ty.returns.len() > 0 {
return Err(BinaryReaderError::new(
"invalid exception type: non-empty tag result type",
offset,
));
}
Ok(())
}
fn check_global_type(
&self,
ty: &GlobalType,
features: &WasmFeatures,
offset: usize,
) -> Result<()> {
check_value_type(ty.content_type, features, offset)
}
fn check_limits<T>(&self, initial: T, maximum: Option<T>, offset: usize) -> Result<()>
where
T: Into<u64>,
{
if let Some(max) = maximum {
if initial.into() > max.into() {
return Err(BinaryReaderError::new(
"size minimum must not be greater than maximum",
offset,
));
}
}
Ok(())
}
pub fn max_tables(&self, features: &WasmFeatures) -> usize {
if features.reference_types {
MAX_WASM_TABLES
} else {
1
}
}
pub fn max_memories(&self, features: &WasmFeatures) -> usize {
if features.multi_memory {
MAX_WASM_MEMORIES
} else {
1
}
}
pub fn export_to_entity_type(
&mut self,
export: &crate::Export,
offset: usize,
) -> Result<EntityType> {
let check = |ty: &str, index: u32, total: usize| {
if index as usize >= total {
Err(BinaryReaderError::new(
format!(
"unknown {ty} {index}: exported {ty} index out of bounds",
index = index,
ty = ty,
),
offset,
))
} else {
Ok(())
}
};
Ok(match export.kind {
ExternalKind::Func => {
check("function", export.index, self.functions.len())?;
self.function_references.insert(export.index);
EntityType::Func(self.types[self.functions[export.index as usize] as usize])
}
ExternalKind::Table => {
check("table", export.index, self.tables.len())?;
EntityType::Table(self.tables[export.index as usize])
}
ExternalKind::Memory => {
check("memory", export.index, self.memories.len())?;
EntityType::Memory(self.memories[export.index as usize])
}
ExternalKind::Global => {
check("global", export.index, self.globals.len())?;
EntityType::Global(self.globals[export.index as usize])
}
ExternalKind::Tag => {
check("tag", export.index, self.tags.len())?;
EntityType::Tag(self.tags[export.index as usize])
}
})
}
pub fn get_func_type<'a>(
&self,
func_idx: u32,
types: &'a TypeList,
offset: usize,
) -> Result<&'a FuncType> {
match self.functions.get(func_idx as usize) {
Some(idx) => self.func_type_at(*idx, types, offset),
None => Err(BinaryReaderError::new(
format!("unknown function {}: func index out of bounds", func_idx),
offset,
)),
}
}
fn global_at(&self, idx: u32, offset: usize) -> Result<&GlobalType> {
match self.globals.get(idx as usize) {
Some(t) => Ok(t),
None => Err(BinaryReaderError::new(
format!("unknown global {}: global index out of bounds", idx,),
offset,
)),
}
}
fn table_at(&self, idx: u32, offset: usize) -> Result<&TableType> {
match self.tables.get(idx as usize) {
Some(t) => Ok(t),
None => Err(BinaryReaderError::new(
format!("unknown table {}: table index out of bounds", idx),
offset,
)),
}
}
fn memory_at(&self, idx: u32, offset: usize) -> Result<&MemoryType> {
match self.memories.get(idx as usize) {
Some(t) => Ok(t),
None => Err(BinaryReaderError::new(
format!("unknown memory {}: memory index out of bounds", idx,),
offset,
)),
}
}
}
impl Default for Module {
fn default() -> Self {
Self {
snapshot: Default::default(),
types: Default::default(),
tables: Default::default(),
memories: Default::default(),
globals: Default::default(),
element_types: Default::default(),
data_count: Default::default(),
functions: Default::default(),
tags: Default::default(),
function_references: Default::default(),
imports: Default::default(),
exports: Default::default(),
type_size: 1,
num_imported_globals: Default::default(),
num_imported_functions: Default::default(),
}
}
}
struct OperatorValidatorResources<'a> {
module: &'a Module,
types: &'a TypeList,
}
impl WasmModuleResources for OperatorValidatorResources<'_> {
type FuncType = crate::FuncType;
fn table_at(&self, at: u32) -> Option<TableType> {
self.module.tables.get(at as usize).cloned()
}
fn memory_at(&self, at: u32) -> Option<MemoryType> {
self.module.memories.get(at as usize).cloned()
}
fn tag_at(&self, at: u32) -> Option<&Self::FuncType> {
Some(
self.types[*self.module.tags.get(at as usize)?]
.as_func_type()
.unwrap(),
)
}
fn global_at(&self, at: u32) -> Option<GlobalType> {
self.module.globals.get(at as usize).cloned()
}
fn func_type_at(&self, at: u32) -> Option<&Self::FuncType> {
Some(
self.types[*self.module.types.get(at as usize)?]
.as_func_type()
.unwrap(),
)
}
fn type_of_function(&self, at: u32) -> Option<&Self::FuncType> {
self.func_type_at(*self.module.functions.get(at as usize)?)
}
fn element_type_at(&self, at: u32) -> Option<ValType> {
self.module.element_types.get(at as usize).cloned()
}
fn element_count(&self) -> u32 {
self.module.element_types.len() as u32
}
fn data_count(&self) -> Option<u32> {
self.module.data_count
}
fn is_function_referenced(&self, idx: u32) -> bool {
self.module.function_references.contains(&idx)
}
}
pub struct ValidatorResources(pub(crate) Arc<Module>);
impl WasmModuleResources for ValidatorResources {
type FuncType = crate::FuncType;
fn table_at(&self, at: u32) -> Option<TableType> {
self.0.tables.get(at as usize).cloned()
}
fn memory_at(&self, at: u32) -> Option<MemoryType> {
self.0.memories.get(at as usize).cloned()
}
fn tag_at(&self, at: u32) -> Option<&Self::FuncType> {
Some(
self.0.snapshot.as_ref().unwrap()[*self.0.tags.get(at as usize)?]
.as_func_type()
.unwrap(),
)
}
fn global_at(&self, at: u32) -> Option<GlobalType> {
self.0.globals.get(at as usize).cloned()
}
fn func_type_at(&self, at: u32) -> Option<&Self::FuncType> {
Some(
self.0.snapshot.as_ref().unwrap()[*self.0.types.get(at as usize)?]
.as_func_type()
.unwrap(),
)
}
fn type_of_function(&self, at: u32) -> Option<&Self::FuncType> {
self.func_type_at(*self.0.functions.get(at as usize)?)
}
fn element_type_at(&self, at: u32) -> Option<ValType> {
self.0.element_types.get(at as usize).cloned()
}
fn element_count(&self) -> u32 {
self.0.element_types.len() as u32
}
fn data_count(&self) -> Option<u32> {
self.0.data_count
}
fn is_function_referenced(&self, idx: u32) -> bool {
self.0.function_references.contains(&idx)
}
}
const _: () = {
fn assert_send<T: Send>() {}
fn assert() {
assert_send::<ValidatorResources>();
}
};
mod arc {
use std::ops::Deref;
use std::sync::Arc;
pub struct MaybeOwned<T> {
owned: bool,
arc: Arc<T>,
}
impl<T> MaybeOwned<T> {
#[allow(clippy::cast_ref_to_mut)]
fn as_mut(&mut self) -> Option<&mut T> {
if !self.owned {
return None;
}
debug_assert!(Arc::get_mut(&mut self.arc).is_some());
Some(unsafe { &mut *(Arc::as_ptr(&self.arc) as *mut T) })
}
pub fn assert_mut(&mut self) -> &mut T {
self.as_mut().unwrap()
}
pub fn arc(&mut self) -> &Arc<T> {
self.owned = false;
&self.arc
}
}
impl<T: Default> Default for MaybeOwned<T> {
fn default() -> MaybeOwned<T> {
MaybeOwned {
owned: true,
arc: Arc::default(),
}
}
}
impl<T> Deref for MaybeOwned<T> {
type Target = T;
fn deref(&self) -> &T {
&self.arc
}
}
}