use crate::{ artifacts::{CompactContract, CompactContractRef, Contract, Settings}, cache::SOLIDITY_FILES_CACHE_FILENAME, error::{Result, SolcError}, hh::HardhatArtifact, remappings::Remapping, CompilerOutput, }; use ethers_core::{abi::Abi, types::Bytes}; use serde::{de::DeserializeOwned, Deserialize, Serialize}; use std::{ collections::BTreeMap, convert::TryFrom, fmt, fs, io, path::{Path, PathBuf}, }; /// Where to find all files or where to write them #[derive(Debug, Clone)] pub struct ProjectPathsConfig { /// Project root pub root: PathBuf, /// Path to the cache, if any pub cache: PathBuf, /// Where to store build artifacts pub artifacts: PathBuf, /// Where to find sources pub sources: PathBuf, /// Where to find tests pub tests: PathBuf, /// Where to look for libraries pub libraries: Vec, /// The compiler remappings pub remappings: Vec, } impl ProjectPathsConfig { pub fn builder() -> ProjectPathsConfigBuilder { ProjectPathsConfigBuilder::default() } /// Creates a new hardhat style config instance which points to the canonicalized root path pub fn hardhat(root: impl AsRef) -> Result { PathStyle::HardHat.paths(root) } /// Creates a new dapptools style config instance which points to the canonicalized root path pub fn dapptools(root: impl AsRef) -> Result { PathStyle::Dapptools.paths(root) } /// Creates a new config with the current directory as the root pub fn current_hardhat() -> Result { Self::hardhat(std::env::current_dir()?) } /// Creates a new config with the current directory as the root pub fn current_dapptools() -> Result { Self::dapptools(std::env::current_dir()?) } } #[derive(Debug, Clone, Eq, PartialEq)] pub enum PathStyle { HardHat, Dapptools, } impl PathStyle { pub fn paths(&self, root: impl AsRef) -> Result { let root = std::fs::canonicalize(root)?; Ok(match self { PathStyle::Dapptools => ProjectPathsConfig::builder() .sources(root.join("src")) .artifacts(root.join("out")) .lib(root.join("lib")) .remappings(Remapping::find_many(&root.join("lib"))?) .root(root) .build()?, PathStyle::HardHat => ProjectPathsConfig::builder() .sources(root.join("contracts")) .artifacts(root.join("artifacts")) .lib(root.join("node_modules")) .root(root) .build()?, }) } } #[derive(Debug, Clone, Default)] pub struct ProjectPathsConfigBuilder { root: Option, cache: Option, artifacts: Option, sources: Option, tests: Option, libraries: Option>, remappings: Option>, } impl ProjectPathsConfigBuilder { pub fn root(mut self, root: impl Into) -> Self { self.root = Some(root.into()); self } pub fn cache(mut self, cache: impl Into) -> Self { self.cache = Some(cache.into()); self } pub fn artifacts(mut self, artifacts: impl Into) -> Self { self.artifacts = Some(artifacts.into()); self } pub fn sources(mut self, sources: impl Into) -> Self { self.sources = Some(sources.into()); self } pub fn tests(mut self, tests: impl Into) -> Self { self.tests = Some(tests.into()); self } /// Specifically disallow additional libraries pub fn no_libs(mut self) -> Self { self.libraries = Some(Vec::new()); self } pub fn lib(mut self, lib: impl Into) -> Self { self.libraries.get_or_insert_with(Vec::new).push(lib.into()); self } pub fn libs(mut self, libs: impl IntoIterator>) -> Self { let libraries = self.libraries.get_or_insert_with(Vec::new); for lib in libs.into_iter() { libraries.push(lib.into()); } self } pub fn remapping(mut self, remapping: Remapping) -> Self { self.remappings.get_or_insert_with(Vec::new).push(remapping); self } pub fn remappings(mut self, remappings: impl IntoIterator) -> Self { let our_remappings = self.remappings.get_or_insert_with(Vec::new); for remapping in remappings.into_iter() { our_remappings.push(remapping); } self } pub fn build(self) -> io::Result { let root = self.root.map(Ok).unwrap_or_else(std::env::current_dir)?; let root = std::fs::canonicalize(root)?; Ok(ProjectPathsConfig { cache: self .cache .unwrap_or_else(|| root.join("cache").join(SOLIDITY_FILES_CACHE_FILENAME)), artifacts: self.artifacts.unwrap_or_else(|| root.join("artifacts")), sources: self.sources.unwrap_or_else(|| root.join("contracts")), tests: self.tests.unwrap_or_else(|| root.join("tests")), libraries: self.libraries.unwrap_or_default(), remappings: self.remappings.unwrap_or_default(), root, }) } } /// The config to use when compiling the contracts #[derive(Clone, Debug, Eq, PartialEq, Serialize, Deserialize)] pub struct SolcConfig { /// How the file was compiled pub settings: Settings, } impl SolcConfig { /// # Example /// /// Autodetect solc version and default settings /// /// ```rust /// use ethers_solc::SolcConfig; /// let config = SolcConfig::builder().build().unwrap(); /// ``` pub fn builder() -> SolcConfigBuilder { SolcConfigBuilder::default() } } #[derive(Default)] pub struct SolcConfigBuilder { settings: Option, } impl SolcConfigBuilder { pub fn settings(mut self, settings: Settings) -> Self { self.settings = Some(settings); self } /// Creates the solc config /// /// If no solc version is configured then it will be determined by calling `solc --version`. pub fn build(self) -> Result { let Self { settings } = self; Ok(SolcConfig { settings: settings.unwrap_or_default() }) } } pub type Artifacts = BTreeMap>; pub trait Artifact { /// Returns the artifact's `Abi` and bytecode fn into_inner(self) -> (Option, Option); /// Turns the artifact into a container type for abi, bytecode and deployed bytecode fn into_compact_contract(self) -> CompactContract; /// Returns the contents of this type as a single tuple of abi, bytecode and deployed bytecode fn into_parts(self) -> (Option, Option, Option); } impl> Artifact for T { fn into_inner(self) -> (Option, Option) { let artifact = self.into_compact_contract(); (artifact.abi, artifact.bin.and_then(|bin| bin.into_bytes())) } fn into_compact_contract(self) -> CompactContract { self.into() } fn into_parts(self) -> (Option, Option, Option) { self.into_compact_contract().into_parts() } } pub trait ArtifactOutput { /// How Artifacts are stored type Artifact: Artifact + DeserializeOwned; /// Handle the compiler output. fn on_output(output: &CompilerOutput, layout: &ProjectPathsConfig) -> Result<()>; /// Returns the file name for the contract's artifact fn output_file_name(name: impl AsRef) -> PathBuf { format!("{}.json", name.as_ref()).into() } /// Returns the path to the contract's artifact location based on the contract's file and name /// /// This returns `contract.sol/contract.json` by default fn output_file(contract_file: impl AsRef, name: impl AsRef) -> PathBuf { let name = name.as_ref(); contract_file .as_ref() .file_name() .map(Path::new) .map(|p| p.join(Self::output_file_name(name))) .unwrap_or_else(|| Self::output_file_name(name)) } /// The inverse of `contract_file_name` /// /// Expected to return the solidity contract's name derived from the file path /// `sources/Greeter.sol` -> `Greeter` fn contract_name(file: impl AsRef) -> Option { file.as_ref().file_stem().and_then(|s| s.to_str().map(|s| s.to_string())) } /// Whether the corresponding artifact of the given contract file and name exists fn output_exists( contract_file: impl AsRef, name: impl AsRef, root: impl AsRef, ) -> bool { root.as_ref().join(Self::output_file(contract_file, name)).exists() } fn read_cached_artifact(path: impl AsRef) -> Result { let file = fs::File::open(path.as_ref())?; let file = io::BufReader::new(file); Ok(serde_json::from_reader(file)?) } /// Read the cached artifacts from disk fn read_cached_artifacts(files: I) -> Result> where I: IntoIterator, T: Into, { let mut artifacts = BTreeMap::default(); for path in files.into_iter() { let path = path.into(); let artifact = Self::read_cached_artifact(&path)?; artifacts.insert(path, artifact); } Ok(artifacts) } /// Convert a contract to the artifact type fn contract_to_artifact(file: &str, name: &str, contract: Contract) -> Self::Artifact; /// Convert the compiler output into a set of artifacts fn output_to_artifacts(output: CompilerOutput) -> Artifacts { output .contracts .into_iter() .map(|(file, contracts)| { let contracts = contracts .into_iter() .map(|(name, c)| { let contract = Self::contract_to_artifact(&file, &name, c); (name, contract) }) .collect(); (file, contracts) }) .collect() } } /// An Artifacts implementation that uses a compact representation /// /// Creates a single json artifact with /// ```json /// { /// "abi": [], /// "bin": "...", /// "runtime-bin": "..." /// } /// ``` #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub struct MinimalCombinedArtifacts; impl ArtifactOutput for MinimalCombinedArtifacts { type Artifact = CompactContract; fn on_output(output: &CompilerOutput, layout: &ProjectPathsConfig) -> Result<()> { fs::create_dir_all(&layout.artifacts) .map_err(|err| SolcError::msg(format!("Failed to create artifacts dir: {}", err)))?; for (file, contracts) in output.contracts.iter() { for (name, contract) in contracts { let artifact = Self::output_file(file, name); let file = layout.artifacts.join(artifact); if let Some(parent) = file.parent() { fs::create_dir_all(parent).map_err(|err| { SolcError::msg(format!( "Failed to create artifact parent folder \"{}\": {}", parent.display(), err )) })?; } let min = CompactContractRef::from(contract); fs::write(&file, serde_json::to_vec_pretty(&min)?)? } } Ok(()) } fn contract_to_artifact(_file: &str, _name: &str, contract: Contract) -> Self::Artifact { Self::Artifact::from(contract) } } /// An Artifacts handler implementation that works the same as `MinimalCombinedArtifacts` but also /// supports reading hardhat artifacts if an initial attempt to deserialize an artifact failed #[derive(Debug, Copy, Clone, Eq, PartialEq)] pub struct MinimalCombinedArtifactsHardhatFallback; impl ArtifactOutput for MinimalCombinedArtifactsHardhatFallback { type Artifact = CompactContract; fn on_output(output: &CompilerOutput, layout: &ProjectPathsConfig) -> Result<()> { MinimalCombinedArtifacts::on_output(output, layout) } fn read_cached_artifact(path: impl AsRef) -> Result { let content = fs::read_to_string(path)?; if let Ok(a) = serde_json::from_str(&content) { Ok(a) } else { tracing::error!("Failed to deserialize compact artifact"); tracing::trace!("Fallback to hardhat artifact deserialization"); let artifact = serde_json::from_str::(&content)?; tracing::trace!("successfully deserialized hardhat artifact"); Ok(artifact.into_compact_contract()) } } fn contract_to_artifact(file: &str, name: &str, contract: Contract) -> Self::Artifact { MinimalCombinedArtifacts::contract_to_artifact(file, name, contract) } } /// Helper struct for serializing `--allow-paths` arguments to Solc /// /// From the [Solc docs](https://docs.soliditylang.org/en/v0.8.9/using-the-compiler.html#base-path-and-import-remapping): /// For security reasons the compiler has restrictions on what directories it can access. /// Directories of source files specified on the command line and target paths of /// remappings are automatically allowed to be accessed by the file reader, /// but everything else is rejected by default. Additional paths (and their subdirectories) /// can be allowed via the --allow-paths /sample/path,/another/sample/path switch. /// Everything inside the path specified via --base-path is always allowed. #[derive(Clone, Debug, Default)] pub struct AllowedLibPaths(pub(crate) Vec); impl fmt::Display for AllowedLibPaths { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { let lib_paths = self .0 .iter() .filter(|path| path.exists()) .map(|path| format!("{}", path.display())) .collect::>() .join(","); write!(f, "{}", lib_paths) } } impl> TryFrom> for AllowedLibPaths { type Error = std::io::Error; fn try_from(libs: Vec) -> std::result::Result { let libs = libs .into_iter() .map(|lib| { let path: PathBuf = lib.into(); let lib = std::fs::canonicalize(path)?; Ok(lib) }) .collect::, std::io::Error>>()?; Ok(AllowedLibPaths(libs)) } }