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use crate::{
encode_section, ComponentExportKind, ComponentSection, ComponentSectionId, ComponentValType,
Encode,
};
/// Represents the possible type bounds for type references.
#[derive(Clone, Copy, Debug, Eq, PartialEq, Hash)]
pub enum TypeBounds {
/// The type is bounded by equality to the type index specified.
Eq(u32),
/// This type is a fresh resource type,
SubResource,
}
impl Encode for TypeBounds {
fn encode(&self, sink: &mut Vec<u8>) {
match self {
Self::Eq(i) => {
sink.push(0x00);
i.encode(sink);
}
Self::SubResource => sink.push(0x01),
}
}
}
/// Represents a reference to a type.
#[derive(Clone, Copy, Debug, Eq, PartialEq, Hash)]
pub enum ComponentTypeRef {
/// The reference is to a core module type.
///
/// The index is expected to be core type index to a core module type.
Module(u32),
/// The reference is to a function type.
///
/// The index is expected to be a type index to a function type.
Func(u32),
/// The reference is to a value type.
Value(ComponentValType),
/// The reference is to a bounded type.
Type(TypeBounds),
/// The reference is to an instance type.
///
/// The index is expected to be a type index to an instance type.
Instance(u32),
/// The reference is to a component type.
///
/// The index is expected to be a type index to a component type.
Component(u32),
}
impl ComponentTypeRef {
/// Gets the export kind of the reference.
pub fn kind(&self) -> ComponentExportKind {
match self {
Self::Module(_) => ComponentExportKind::Module,
Self::Func(_) => ComponentExportKind::Func,
Self::Value(_) => ComponentExportKind::Value,
Self::Type(..) => ComponentExportKind::Type,
Self::Instance(_) => ComponentExportKind::Instance,
Self::Component(_) => ComponentExportKind::Component,
}
}
}
impl Encode for ComponentTypeRef {
fn encode(&self, sink: &mut Vec<u8>) {
self.kind().encode(sink);
match self {
Self::Module(idx) | Self::Func(idx) | Self::Instance(idx) | Self::Component(idx) => {
idx.encode(sink);
}
Self::Value(ty) => ty.encode(sink),
Self::Type(bounds) => bounds.encode(sink),
}
}
}
/// An encoder for the import section of WebAssembly components.
///
/// # Example
///
/// ```rust
/// use wasm_encoder::{Component, ComponentTypeSection, PrimitiveValType, ComponentImportSection, ComponentTypeRef};
///
/// let mut types = ComponentTypeSection::new();
///
/// // Define a function type of `[string, string] -> string`.
/// types
/// .function()
/// .params(
/// [
/// ("a", PrimitiveValType::String),
/// ("b", PrimitiveValType::String)
/// ]
/// )
/// .result(PrimitiveValType::String);
///
/// // This imports a function named `f` with the type defined above
/// let mut imports = ComponentImportSection::new();
/// imports.import("f", ComponentTypeRef::Func(0));
///
/// let mut component = Component::new();
/// component.section(&types);
/// component.section(&imports);
///
/// let bytes = component.finish();
/// ```
#[derive(Clone, Debug, Default)]
pub struct ComponentImportSection {
bytes: Vec<u8>,
num_added: u32,
}
impl ComponentImportSection {
/// Create a new component import section encoder.
pub fn new() -> Self {
Self::default()
}
/// The number of imports in the section.
pub fn len(&self) -> u32 {
self.num_added
}
/// Determines if the section is empty.
pub fn is_empty(&self) -> bool {
self.num_added == 0
}
/// Define an import in the component import section.
pub fn import(&mut self, name: &str, ty: ComponentTypeRef) -> &mut Self {
push_extern_name_byte(&mut self.bytes, name);
name.encode(&mut self.bytes);
ty.encode(&mut self.bytes);
self.num_added += 1;
self
}
}
impl Encode for ComponentImportSection {
fn encode(&self, sink: &mut Vec<u8>) {
encode_section(sink, self.num_added, &self.bytes);
}
}
impl ComponentSection for ComponentImportSection {
fn id(&self) -> u8 {
ComponentSectionId::Import.into()
}
}
/// Prior to WebAssembly/component-model#263 import and export names were
/// discriminated with a leading byte indicating what kind of import they are.
/// After that PR though names are always prefixed with a 0x00 byte.
///
/// This function is a compatibility shim for the time being while this change
/// is being rolled out. That PR is technically a spec-breaking change relative
/// to prior but we want old tooling to continue to work with new modules. To
/// handle that names that look like IDs, `a:b/c`, get an 0x01 prefix instead of
/// the spec-defined 0x00 prefix. That makes components produced by current
/// versions of this crate compatible with older parsers.
///
/// Note that wasmparser has a similar case where it parses either 0x01 or 0x00.
/// That means that the selection of a byte here doesn't actually matter for
/// wasmparser's own validation. Eventually this will go away and an 0x00 byte
/// will always be emitted to align with the spec.
pub(crate) fn push_extern_name_byte(bytes: &mut Vec<u8>, name: &str) {
if name.contains(':') {
bytes.push(0x01);
} else {
bytes.push(0x00);
}
}