lighthouse/eth2/utils/ssz_derive/src/lib.rs
2019-05-06 19:50:05 +10:00

229 lines
6.7 KiB
Rust

#![recursion_limit = "128"]
extern crate proc_macro;
use proc_macro::TokenStream;
use quote::quote;
use syn::{parse_macro_input, DeriveInput};
/// Returns a Vec of `syn::Ident` for each named field in the struct, whilst filtering out fields
/// that should not be serialized.
///
/// # Panics
/// Any unnamed struct field (like in a tuple struct) will raise a panic at compile time.
fn get_serializable_named_field_idents<'a>(
struct_data: &'a syn::DataStruct,
) -> Vec<&'a syn::Ident> {
struct_data
.fields
.iter()
.filter_map(|f| {
if should_skip_serializing(&f) {
None
} else {
Some(match &f.ident {
Some(ref ident) => ident,
_ => panic!("ssz_derive only supports named struct fields."),
})
}
})
.collect()
}
/// Returns a Vec of `syn::Type` for each named field in the struct, whilst filtering out fields
/// that should not be serialized.
fn get_serializable_field_types<'a>(struct_data: &'a syn::DataStruct) -> Vec<&'a syn::Type> {
struct_data
.fields
.iter()
.filter_map(|f| {
if should_skip_serializing(&f) {
None
} else {
Some(&f.ty)
/*
Some(match &f.ident {
Some(ref ident) => ident,
_ => panic!("ssz_derive only supports named struct fields."),
})
*/
}
})
.collect()
}
/// Returns true if some field has an attribute declaring it should not be serialized.
///
/// The field attribute is: `#[ssz(skip_serializing)]`
fn should_skip_serializing(field: &syn::Field) -> bool {
for attr in &field.attrs {
if attr.tts.to_string() == "( skip_serializing )" {
return true;
}
}
false
}
/// Implements `ssz::Encodable` for some `struct`.
///
/// Fields are encoded in the order they are defined.
#[proc_macro_derive(Encode, attributes(ssz))]
pub fn ssz_encode_derive(input: TokenStream) -> TokenStream {
let item = parse_macro_input!(input as DeriveInput);
let name = &item.ident;
let struct_data = match &item.data {
syn::Data::Struct(s) => s,
_ => panic!("ssz_derive only supports structs."),
};
let field_idents = get_serializable_named_field_idents(&struct_data);
let field_types_a = get_serializable_field_types(&struct_data);
let field_types_b = field_types_a.clone();
let field_types_c = field_types_a.clone();
let output = quote! {
impl ssz::Encodable for #name {
fn is_ssz_fixed_len() -> bool {
#(
<#field_types_a as ssz::Encodable>::is_ssz_fixed_len() &&
)*
true
}
fn ssz_fixed_len() -> usize {
if <Self as ssz::Encodable>::is_ssz_fixed_len() {
#(
<#field_types_b as ssz::Encodable>::ssz_fixed_len() +
)*
0
} else {
ssz::BYTES_PER_LENGTH_OFFSET
}
}
fn ssz_append(&self, buf: &mut Vec<u8>) {
let offset = #(
<#field_types_c as ssz::Encodable>::ssz_fixed_len() +
)*
0;
let mut encoder = ssz::SszEncoder::container(buf, offset);
#(
encoder.append(&self.#field_idents);
)*
encoder.finalize();
}
}
};
output.into()
}
/// Returns true if some field has an attribute declaring it should not be deserialized.
///
/// The field attribute is: `#[ssz(skip_deserializing)]`
fn should_skip_deserializing(field: &syn::Field) -> bool {
for attr in &field.attrs {
if attr.tts.to_string() == "( skip_deserializing )" {
return true;
}
}
false
}
/// Implements `ssz::Decodable` for some `struct`.
///
/// Fields are decoded in the order they are defined.
#[proc_macro_derive(Decode)]
pub fn ssz_decode_derive(input: TokenStream) -> TokenStream {
let item = parse_macro_input!(input as DeriveInput);
let name = &item.ident;
let struct_data = match &item.data {
syn::Data::Struct(s) => s,
_ => panic!("ssz_derive only supports structs."),
};
let mut register_types = vec![];
let mut decodes = vec![];
let mut is_fixed_lens = vec![];
let mut fixed_lens = vec![];
// Build quotes for fields that should be deserialized and those that should be built from
// `Default`.
for field in &struct_data.fields {
match &field.ident {
Some(ref ident) => {
if should_skip_deserializing(field) {
// Field should not be deserialized; use a `Default` impl to instantiate.
decodes.push(quote! {
#ident: <_>::default()
});
} else {
let ty = &field.ty;
register_types.push(quote! {
builder.register_type::<#ty>()?;
});
decodes.push(quote! {
#ident: decoder.decode_next()?
});
is_fixed_lens.push(quote! {
<#ty as ssz::Decodable>::is_ssz_fixed_len()
});
fixed_lens.push(quote! {
<#ty as ssz::Decodable>::ssz_fixed_len()
});
}
}
_ => panic!("ssz_derive only supports named struct fields."),
};
}
let output = quote! {
impl ssz::Decodable for #name {
fn is_ssz_fixed_len() -> bool {
#(
#is_fixed_lens &&
)*
true
}
fn ssz_fixed_len() -> usize {
if <Self as ssz::Decodable>::is_ssz_fixed_len() {
#(
#fixed_lens +
)*
0
} else {
ssz::BYTES_PER_LENGTH_OFFSET
}
}
fn from_ssz_bytes(bytes: &[u8]) -> Result<Self, ssz::DecodeError> {
let mut builder = ssz::SszDecoderBuilder::new(bytes);
#(
#register_types
)*
let mut decoder = builder.build()?;
Ok(Self {
#(
#decodes,
)*
})
}
}
};
output.into()
}