ethers-rs/ethers-contract/ethers-contract-derive/src/abigen.rs

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//! Implementation of procedural macro for generating type-safe bindings to an
//! ethereum smart contract.
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use crate::spanned::{ParseInner, Spanned};
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use ethers_contract_abigen::Builder;
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use ethers_core::abi::{Function, FunctionExt, Param};
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use proc_macro2::{Span, TokenStream as TokenStream2};
use quote::{quote, ToTokens as _};
use std::collections::HashSet;
use std::error::Error;
use syn::ext::IdentExt;
use syn::parse::{Error as ParseError, Parse, ParseStream, Result as ParseResult};
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use syn::{braced, parenthesized, Ident, LitStr, Path, Token, Visibility};
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pub(crate) fn expand(args: ContractArgs) -> Result<TokenStream2, Box<dyn Error>> {
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Ok(args.into_builder()?.generate()?.into_tokens())
}
/// Contract procedural macro arguments.
#[cfg_attr(test, derive(Debug, Eq, PartialEq))]
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pub(crate) struct ContractArgs {
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visibility: Option<String>,
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name: String,
path: String,
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parameters: Vec<Parameter>,
}
impl ContractArgs {
fn into_builder(self) -> Result<Builder, Box<dyn Error>> {
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let mut builder =
Builder::from_str(&self.name, &self.path).visibility_modifier(self.visibility);
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for parameter in self.parameters.into_iter() {
builder = match parameter {
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Parameter::Mod(name) => builder.contract_mod_override(Some(name)),
Parameter::Crate(name) => builder.runtime_crate_name(name),
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Parameter::Methods(methods) => methods.into_iter().fold(builder, |builder, m| {
builder.add_method_alias(m.signature, m.alias)
}),
Parameter::EventDerives(derives) => derives
.into_iter()
.fold(builder, |builder, derive| builder.add_event_derive(derive)),
};
}
Ok(builder)
}
}
impl ParseInner for ContractArgs {
fn spanned_parse(input: ParseStream) -> ParseResult<(Span, Self)> {
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// read the visibility parameter
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let visibility = match input.parse::<Visibility>()? {
Visibility::Inherited => None,
token => Some(quote!(#token).to_string()),
};
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// read the contract name
let name = input.parse::<Ident>()?.to_string();
// skip the comma
input.parse::<Token![,]>()?;
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// TODO(nlordell): Due to limitation with the proc-macro Span API, we
// can't currently get a path the the file where we were called from;
// therefore, the path will always be rooted on the cargo manifest
// directory. Eventually we can use the `Span::source_file` API to
// have a better experience.
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let (span, path) = {
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let literal = input.parse::<LitStr>()?;
(literal.span(), literal.value())
};
if !input.is_empty() {
input.parse::<Token![,]>()?;
}
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let parameters = input
.parse_terminated::<_, Token![,]>(Parameter::parse)?
.into_iter()
.collect();
Ok((
span,
ContractArgs {
visibility,
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name,
path,
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parameters,
},
))
}
}
/// A single procedural macro parameter.
#[cfg_attr(test, derive(Debug, Eq, PartialEq))]
enum Parameter {
Mod(String),
Crate(String),
Methods(Vec<Method>),
EventDerives(Vec<String>),
}
impl Parse for Parameter {
fn parse(input: ParseStream) -> ParseResult<Self> {
let name = input.call(Ident::parse_any)?;
let param = match name.to_string().as_str() {
"crate" => {
input.parse::<Token![=]>()?;
let name = input.call(Ident::parse_any)?.to_string();
Parameter::Crate(name)
}
"mod" => {
input.parse::<Token![=]>()?;
let name = input.parse::<Ident>()?.to_string();
Parameter::Mod(name)
}
"methods" => {
let content;
braced!(content in input);
let methods = {
let parsed =
content.parse_terminated::<_, Token![;]>(Spanned::<Method>::parse)?;
let mut methods = Vec::with_capacity(parsed.len());
let mut signatures = HashSet::new();
let mut aliases = HashSet::new();
for method in parsed {
if !signatures.insert(method.signature.clone()) {
return Err(ParseError::new(
method.span(),
"duplicate method signature in `ethcontract::contract!` macro invocation",
));
}
if !aliases.insert(method.alias.clone()) {
return Err(ParseError::new(
method.span(),
"duplicate method alias in `ethcontract::contract!` macro invocation",
));
}
methods.push(method.into_inner())
}
methods
};
Parameter::Methods(methods)
}
"event_derives" => {
let content;
parenthesized!(content in input);
let derives = content
.parse_terminated::<_, Token![,]>(Path::parse)?
.into_iter()
.map(|path| path.to_token_stream().to_string())
.collect();
Parameter::EventDerives(derives)
}
_ => {
return Err(ParseError::new(
name.span(),
format!("unexpected named parameter `{}`", name),
))
}
};
Ok(param)
}
}
/// An explicitely named contract method.
#[cfg_attr(test, derive(Debug, Eq, PartialEq))]
struct Method {
signature: String,
alias: String,
}
impl Parse for Method {
fn parse(input: ParseStream) -> ParseResult<Self> {
let function = {
let name = input.parse::<Ident>()?.to_string();
let content;
parenthesized!(content in input);
let inputs = content
.parse_terminated::<_, Token![,]>(Ident::parse)?
.iter()
.map(|ident| {
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let kind = serde_json::from_value(serde_json::json!(&ident.to_string()))
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.map_err(|err| ParseError::new(ident.span(), err))?;
Ok(Param {
name: "".into(),
kind,
})
})
.collect::<ParseResult<Vec<_>>>()?;
Function {
name,
inputs,
// NOTE: The output types and const-ness of the function do not
// affect its signature.
outputs: vec![],
constant: false,
}
};
let signature = function.abi_signature();
input.parse::<Token![as]>()?;
let alias = {
let ident = input.parse::<Ident>()?;
ident.to_string()
};
Ok(Method { signature, alias })
}
}
#[cfg(test)]
mod tests {
use super::*;
macro_rules! contract_args_result {
($($arg:tt)*) => {{
use syn::parse::Parser;
<Spanned<ContractArgs> as Parse>::parse
.parse2(quote::quote! { $($arg)* })
}};
}
// macro_rules! contract_args {
// ($($arg:tt)*) => {
// contract_args_result!($($arg)*)
// .expect("failed to parse contract args")
// .into_inner()
// };
// }
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macro_rules! contract_args_err {
($($arg:tt)*) => {
contract_args_result!($($arg)*)
.expect_err("expected parse contract args to error")
};
}
#[allow(unused)]
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fn method(signature: &str, alias: &str) -> Method {
Method {
signature: signature.into(),
alias: alias.into(),
}
}
// #[test]
// fn parse_contract_args() {
// let args = contract_args!("path/to/artifact.json");
// assert_eq!(args.artifact_path, "path/to/artifact.json");
// }
// #[test]
// fn crate_parameter_accepts_keywords() {
// let args = contract_args!("artifact.json", crate = crate);
// assert_eq!(args.parameters, &[Parameter::Crate("crate".into())]);
// }
// TODO: Re-enable these tests once we figure out which syntax we prefer for the macro
// #[test]
// fn parse_contract_args_with_defaults() {
// let args = contract_args!("artifact.json");
// assert_eq!(
// args,
// ContractArgs {
// visibility: None,
// parameters: vec![],
// },
// );
// }
// #[test]
// fn parse_contract_args_with_parameters() {
// let args = contract_args!(
// pub(crate) "artifact.json",
// crate = foobar,
// mod = contract,
// contract = Contract,
// methods {
// myMethod(uint256, bool) as my_renamed_method;
// myOtherMethod() as my_other_renamed_method;
// },
// event_derives (Asdf, a::B, a::b::c::D)
// );
// assert_eq!(
// args,
// ContractArgs {
// visibility: Some(quote!(pub(crate)).to_string()),
// parameters: vec![
// Parameter::Crate("foobar".into()),
// Parameter::Mod("contract".into()),
// // Parameter::Contract("Contract".into()),
// Parameter::Methods(vec![
// method("myMethod(uint256,bool)", "my_renamed_method"),
// method("myOtherMethod()", "my_other_renamed_method"),
// ]),
// Parameter::EventDerives(vec![
// "Asdf".into(),
// "a :: B".into(),
// "a :: b :: c :: D".into()
// ])
// ],
// },
// );
// }
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#[test]
fn duplicate_method_rename_error() {
contract_args_err!(
"artifact.json",
methods {
myMethod(uint256) as my_method_1;
myMethod(uint256) as my_method_2;
}
);
contract_args_err!(
"artifact.json",
methods {
myMethod1(uint256) as my_method;
myMethod2(uint256) as my_method;
}
);
}
#[test]
fn method_invalid_method_parameter_type() {
contract_args_err!(
"artifact.json",
methods {
myMethod(invalid) as my_method;
}
);
}
}