use path_clean::PathClean; use std::convert::Infallible; use std::path::{Path, PathBuf}; use std::str::FromStr; use crate::errors::{CatchableErrorKind, ErrorKind}; use crate::EvalIO; #[derive(Debug, Clone, PartialEq, Eq)] enum NixSearchPathEntry { /// Resolve subdirectories of this path within `<...>` brackets. This /// corresponds to bare paths within the `NIX_PATH` environment variable /// /// For example, with `NixSearchPathEntry::Path("/example")` and the following /// directory structure: /// /// ```notrust /// example /// └── subdir /// └── grandchild /// ``` /// /// A Nix path literal `<subdir>` would resolve to `/example/subdir`, and a /// Nix path literal `<subdir/grandchild>` would resolve to /// `/example/subdir/grandchild` Path(PathBuf), /// Resolve paths starting with `prefix` as subdirectories of `path`. This /// corresponds to `prefix=path` within the `NIX_PATH` environment variable. /// /// For example, with `NixSearchPathEntry::Prefix { prefix: "prefix", path: /// "/example" }` and the following directory structure: /// /// ```notrust /// example /// └── subdir /// └── grandchild /// ``` /// /// A Nix path literal `<prefix/subdir>` would resolve to `/example/subdir`, /// and a Nix path literal `<prefix/subdir/grandchild>` would resolve to /// `/example/subdir/grandchild` Prefix { prefix: PathBuf, path: PathBuf }, } fn canonicalise(path: PathBuf) -> Result<PathBuf, ErrorKind> { let absolute = if path.is_absolute() { path } else { // TODO(tazjin): probably panics in wasm? std::env::current_dir() .map_err(|e| ErrorKind::IO { path: Some(path.clone()), error: e.into(), })? .join(path) } .clean(); Ok(absolute) } impl NixSearchPathEntry { /// Determine whether this path entry matches the given lookup path. /// /// For bare paths, an entry is considered to match if a matching /// file exists under it. /// /// For prefixed path, an entry matches if the prefix does. // TODO(tazjin): verify these rules in the C++ impl, seems fishy. fn resolve<IO>(&self, io: IO, lookup_path: &Path) -> Result<Option<PathBuf>, ErrorKind> where IO: AsRef<dyn EvalIO>, { let path = match self { NixSearchPathEntry::Path(parent) => canonicalise(parent.join(lookup_path))?, NixSearchPathEntry::Prefix { prefix, path } => { if let Ok(child_path) = lookup_path.strip_prefix(prefix) { canonicalise(path.join(child_path))? } else { return Ok(None); } } }; if io.as_ref().path_exists(&path).map_err(|e| ErrorKind::IO { path: Some(path.clone()), error: e.into(), })? { Ok(Some(path)) } else { Ok(None) } } } impl FromStr for NixSearchPathEntry { type Err = Infallible; fn from_str(s: &str) -> Result<Self, Self::Err> { match s.split_once('=') { Some((prefix, path)) => Ok(Self::Prefix { prefix: prefix.into(), path: path.into(), }), None => Ok(Self::Path(s.into())), } } } /// Struct implementing the format and path resolution rules of the `NIX_PATH` /// environment variable. /// /// This struct can be constructed by parsing a string using the [`FromStr`] /// impl, or via [`str::parse`]. Nix `<...>` paths can then be resolved using /// [`NixSearchPath::resolve`]. #[derive(Default, Debug, Clone, PartialEq, Eq)] pub struct NixSearchPath { entries: Vec<NixSearchPathEntry>, } impl NixSearchPath { /// Attempt to resolve the given `path` within this [`NixSearchPath`] using the /// path resolution rules for `<...>`-style paths pub fn resolve<P, IO>( &self, io: IO, path: P, ) -> Result<Result<PathBuf, CatchableErrorKind>, ErrorKind> where P: AsRef<Path>, IO: AsRef<dyn EvalIO>, { let path = path.as_ref(); for entry in &self.entries { if let Some(p) = entry.resolve(&io, path)? { return Ok(Ok(p)); } } Ok(Err(CatchableErrorKind::NixPathResolution( format!( "path '{}' was not found in the Nix search path", path.display() ) .into_boxed_str(), ))) } } impl FromStr for NixSearchPath { type Err = Infallible; fn from_str(s: &str) -> Result<Self, Self::Err> { let entries = s .split(':') .map(|s| s.parse()) .collect::<Result<Vec<_>, _>>()?; Ok(NixSearchPath { entries }) } } #[cfg(test)] mod tests { use super::*; mod parse { use super::*; #[test] fn bare_paths() { assert_eq!( NixSearchPath::from_str("/foo/bar:/baz").unwrap(), NixSearchPath { entries: vec![ NixSearchPathEntry::Path("/foo/bar".into()), NixSearchPathEntry::Path("/baz".into()) ], } ); } #[test] fn mixed_prefix_and_paths() { assert_eq!( NixSearchPath::from_str("nixpkgs=/my/nixpkgs:/etc/nixos").unwrap(), NixSearchPath { entries: vec![ NixSearchPathEntry::Prefix { prefix: "nixpkgs".into(), path: "/my/nixpkgs".into() }, NixSearchPathEntry::Path("/etc/nixos".into()) ], } ); } } mod resolve { use crate::StdIO; use path_clean::PathClean; use std::env::current_dir; use super::*; #[test] fn simple_dir() { let nix_search_path = NixSearchPath::from_str("./.").unwrap(); let io = Box::new(StdIO {}) as Box<dyn EvalIO>; let res = nix_search_path.resolve(&io, "src").unwrap(); assert_eq!( res.unwrap().to_path_buf(), current_dir().unwrap().join("src").clean() ); } #[test] fn failed_resolution() { let nix_search_path = NixSearchPath::from_str("./.").unwrap(); let io = Box::new(StdIO {}) as Box<dyn EvalIO>; let err = nix_search_path.resolve(&io, "nope").unwrap(); assert!( matches!(err, Err(CatchableErrorKind::NixPathResolution(..))), "err = {err:?}" ); } #[test] fn second_in_path() { let nix_search_path = NixSearchPath::from_str("./.:/").unwrap(); let io = Box::new(StdIO {}) as Box<dyn EvalIO>; let res = nix_search_path.resolve(&io, "etc").unwrap(); assert_eq!(res.unwrap().to_path_buf(), Path::new("/etc")); } #[test] fn prefix() { let nix_search_path = NixSearchPath::from_str("/:tvix=.").unwrap(); let io = Box::new(StdIO {}) as Box<dyn EvalIO>; let res = nix_search_path.resolve(&io, "tvix/src").unwrap(); assert_eq!( res.unwrap().to_path_buf(), current_dir().unwrap().join("src").clean() ); } #[test] fn matching_prefix() { let nix_search_path = NixSearchPath::from_str("/:tvix=.").unwrap(); let io = Box::new(StdIO {}) as Box<dyn EvalIO>; let res = nix_search_path.resolve(&io, "tvix").unwrap(); assert_eq!(res.unwrap().to_path_buf(), current_dir().unwrap().clean()); } } }