//! Helper functions for deriving `EthCall` use proc_macro2::{Span, TokenStream}; use quote::quote; use syn::{parse::Error, spanned::Spanned as _, AttrStyle, DeriveInput, Lit, Meta, NestedMeta}; use ethers_core::{ abi::{param_type::Reader, AbiParser, Function, FunctionExt, Param, ParamType}, macros::{ethers_contract_crate, ethers_core_crate}, }; use crate::{abi_ty, utils}; /// Generates the `ethcall` trait support pub(crate) fn derive_eth_call_impl(input: DeriveInput) -> TokenStream { let attributes = match parse_call_attributes(&input) { Ok(attributes) => attributes, Err(errors) => return errors, }; let function_call_name = attributes.name.map(|(s, _)| s).unwrap_or_else(|| input.ident.to_string()); let mut function = if let Some((src, span)) = attributes.abi { // try to parse as solidity function if let Ok(fun) = parse_function(&src) { fun } else { // try as tuple if let Some(inputs) = Reader::read( src.trim_start_matches("function ") .trim_start() .trim_start_matches(&function_call_name), ) .ok() .and_then(|param| match param { ParamType::Tuple(params) => Some( params .into_iter() .map(|kind| Param { name: "".to_string(), kind, internal_type: None }) .collect(), ), _ => None, }) { #[allow(deprecated)] Function { name: function_call_name.clone(), inputs, outputs: vec![], constant: false, state_mutability: Default::default(), } } else { // try to determine the abi by using its fields at runtime return match derive_trait_impls_with_abi_type(&input, &function_call_name) { Ok(derived) => derived, Err(err) => { Error::new(span, format!("Unable to determine ABI for `{}` : {}", src, err)) .to_compile_error() } } } } } else { // try to determine the abi by using its fields at runtime return match derive_trait_impls_with_abi_type(&input, &function_call_name) { Ok(derived) => derived, Err(err) => err.to_compile_error(), } }; function.name = function_call_name.clone(); let abi = function.abi_signature(); let selector = utils::selector(function.selector()); let decode_impl = derive_decode_impl_from_function(&function); derive_trait_impls( &input, &function_call_name, quote! {#abi.into()}, Some(selector), decode_impl, ) } /// Generates the EthCall implementation pub fn derive_trait_impls( input: &DeriveInput, function_call_name: &str, abi_signature: TokenStream, selector: Option, decode_impl: TokenStream, ) -> TokenStream { // the ethers crates to use let core_crate = ethers_core_crate(); let contract_crate = ethers_contract_crate(); let struct_name = &input.ident; let selector = selector.unwrap_or_else(|| { quote! { #core_crate::utils::id(Self::abi_signature()) } }); let ethcall_impl = quote! { impl #contract_crate::EthCall for #struct_name { fn function_name() -> ::std::borrow::Cow<'static, str> { #function_call_name.into() } fn selector() -> #core_crate::types::Selector { #selector } fn abi_signature() -> ::std::borrow::Cow<'static, str> { #abi_signature } } impl #core_crate::abi::AbiDecode for #struct_name { fn decode(bytes: impl AsRef<[u8]>) -> Result { #decode_impl } } impl #core_crate::abi::AbiEncode for #struct_name { fn encode(self) -> ::std::vec::Vec { let tokens = #core_crate::abi::Tokenize::into_tokens(self); let selector = ::selector(); let encoded = #core_crate::abi::encode(&tokens); selector .iter() .copied() .chain(encoded.into_iter()) .collect() } } }; let tokenize_impl = abi_ty::derive_tokenizeable_impl(input); quote! { #tokenize_impl #ethcall_impl } } /// Generates the decode implementation based on the function's input types fn derive_decode_impl_from_function(function: &Function) -> TokenStream { let datatypes = function.inputs.iter().map(|input| utils::param_type_quote(&input.kind)); let datatypes_array = quote! {[#( #datatypes ),*]}; derive_decode_impl(datatypes_array) } /// Generates the decode implementation based on the function's runtime `AbiType` impl fn derive_decode_impl_with_abi_type(input: &DeriveInput) -> Result { let datatypes_array = utils::derive_abi_parameters_array(input, "EthCall")?; Ok(derive_decode_impl(datatypes_array)) } fn derive_decode_impl(datatypes_array: TokenStream) -> TokenStream { let core_crate = ethers_core_crate(); let contract_crate = ethers_contract_crate(); let data_types_init = quote! {let data_types = #datatypes_array;}; quote! { let bytes = bytes.as_ref(); if bytes.len() < 4 || bytes[..4] != ::selector() { return Err(#contract_crate::AbiError::WrongSelector); } #data_types_init let data_tokens = #core_crate::abi::decode(&data_types, &bytes[4..])?; Ok(::from_token( #core_crate::abi::Token::Tuple(data_tokens))?) } } /// Use the `AbiType` trait to determine the correct `ParamType` and signature at runtime fn derive_trait_impls_with_abi_type( input: &DeriveInput, function_call_name: &str, ) -> Result { let abi_signature = utils::derive_abi_signature_with_abi_type(input, function_call_name, "EthCall")?; let abi_signature = quote! { ::std::borrow::Cow::Owned(#abi_signature) }; let decode_impl = derive_decode_impl_with_abi_type(input)?; Ok(derive_trait_impls(input, function_call_name, abi_signature, None, decode_impl)) } /// All the attributes the `EthCall` macro supports #[derive(Default)] struct EthCallAttributes { name: Option<(String, Span)>, abi: Option<(String, Span)>, } /// extracts the attributes from the struct annotated with `EthCall` fn parse_call_attributes(input: &DeriveInput) -> Result { let mut result = EthCallAttributes::default(); for a in input.attrs.iter() { if let AttrStyle::Outer = a.style { if let Ok(Meta::List(meta)) = a.parse_meta() { if meta.path.is_ident("ethcall") { for n in meta.nested.iter() { if let NestedMeta::Meta(meta) = n { match meta { Meta::Path(path) => { return Err(Error::new( path.span(), "unrecognized ethcall parameter", ) .to_compile_error()) } Meta::List(meta) => { return Err(Error::new( meta.path.span(), "unrecognized ethcall parameter", ) .to_compile_error()) } Meta::NameValue(meta) => { if meta.path.is_ident("name") { if let Lit::Str(ref lit_str) = meta.lit { if result.name.is_none() { result.name = Some((lit_str.value(), lit_str.span())); } else { return Err(Error::new( meta.span(), "name already specified", ) .to_compile_error()) } } else { return Err(Error::new( meta.span(), "name must be a string", ) .to_compile_error()) } } else if meta.path.is_ident("abi") { if let Lit::Str(ref lit_str) = meta.lit { if result.abi.is_none() { result.abi = Some((lit_str.value(), lit_str.span())); } else { return Err(Error::new( meta.span(), "abi already specified", ) .to_compile_error()) } } else { return Err(Error::new( meta.span(), "abi must be a string", ) .to_compile_error()) } } else { return Err(Error::new( meta.span(), "unrecognized ethcall parameter", ) .to_compile_error()) } } } } } } } } } Ok(result) } fn parse_function(abi: &str) -> Result { let abi = if !abi.trim_start().starts_with("function ") { format!("function {}", abi) } else { abi.to_string() }; AbiParser::default() .parse_function(&abi) .map_err(|err| format!("Failed to parse the function ABI: {:?}", err)) }