//! Simple scanner for non-overlapping, known references of Nix store paths in a
//! given string.
//!
//! This is used for determining build references (see
//! //tvix/eval/docs/build-references.md for more details).
//!
//! The scanner itself is an Aho-Corasick automaton, using the `aho-corasick`
//! crate.
use aho_corasick::AhoCorasick;
use std::collections::BTreeSet;
use std::io;
/// Represents a "primed" reference scanner with an automaton that knows the set
/// of store paths to scan for.
pub struct ReferenceScanner {
candidates: Vec<String>,
searcher: AhoCorasick,
matches: Vec<usize>,
}
impl ReferenceScanner {
/// Construct a new `ReferenceScanner` that knows how to scan for the given
/// candidate store paths.
pub fn new(candidates: Vec<String>) -> Self {
let searcher = AhoCorasick::new_auto_configured(&candidates);
ReferenceScanner {
searcher,
candidates,
matches: Default::default(),
}
}
/// Scan the given string for all non-overlapping matches and collect them
/// in the scanner.
pub fn scan_str<H: AsRef<[u8]>>(&mut self, haystack: H) {
for m in self.searcher.find_iter(&haystack) {
self.matches.push(m.pattern());
}
}
/// Scan the given reader for all non-overlapping matches, and collect them
/// in the scanner. On read failures, this method aborts and returns an
/// error to the caller.
///
/// Please note that the internal machinery has its own buffering mechanism,
/// and where possible the given reader should be unbuffered. See
/// [`AhoCorasick::stream_find_iter`] for details on this.
pub fn scan_stream<R: io::Read>(&mut self, stream: R) -> io::Result<()> {
for m in self.searcher.stream_find_iter(stream) {
self.matches.push(m?.pattern());
}
Ok(())
}
/// Finalise the reference scanner and return the resulting matches.
pub fn finalise(self) -> BTreeSet<String> {
self.matches
.into_iter()
.map(|idx| self.candidates[idx].clone())
.collect()
}
}
#[cfg(test)]
mod tests {
use super::*;
// The actual derivation of `nixpkgs.hello`.
const HELLO_DRV: &'static str = r#"Derive([("out","/nix/store/33l4p0pn0mybmqzaxfkpppyh7vx1c74p-hello-2.12.1","","")],[("/nix/store/6z1jfnqqgyqr221zgbpm30v91yfj3r45-bash-5.1-p16.drv",["out"]),("/nix/store/ap9g09fxbicj836zm88d56dn3ff4clxl-stdenv-linux.drv",["out"]),("/nix/store/pf80kikyxr63wrw56k00i1kw6ba76qik-hello-2.12.1.tar.gz.drv",["out"])],["/nix/store/9krlzvny65gdc8s7kpb6lkx8cd02c25b-default-builder.sh"],"x86_64-linux","/nix/store/4xw8n979xpivdc46a9ndcvyhwgif00hz-bash-5.1-p16/bin/bash",["-e","/nix/store/9krlzvny65gdc8s7kpb6lkx8cd02c25b-default-builder.sh"],[("buildInputs",""),("builder","/nix/store/4xw8n979xpivdc46a9ndcvyhwgif00hz-bash-5.1-p16/bin/bash"),("cmakeFlags",""),("configureFlags",""),("depsBuildBuild",""),("depsBuildBuildPropagated",""),("depsBuildTarget",""),("depsBuildTargetPropagated",""),("depsHostHost",""),("depsHostHostPropagated",""),("depsTargetTarget",""),("depsTargetTargetPropagated",""),("doCheck","1"),("doInstallCheck",""),("mesonFlags",""),("name","hello-2.12.1"),("nativeBuildInputs",""),("out","/nix/store/33l4p0pn0mybmqzaxfkpppyh7vx1c74p-hello-2.12.1"),("outputs","out"),("patches",""),("pname","hello"),("propagatedBuildInputs",""),("propagatedNativeBuildInputs",""),("src","/nix/store/pa10z4ngm0g83kx9mssrqzz30s84vq7k-hello-2.12.1.tar.gz"),("stdenv","/nix/store/cp65c8nk29qq5cl1wyy5qyw103cwmax7-stdenv-linux"),("strictDeps",""),("system","x86_64-linux"),("version","2.12.1")])"#;
#[test]
fn test_empty() {
let mut scanner = ReferenceScanner::new(vec![]);
scanner.scan_str("hello world");
assert!(scanner.finalise().is_empty());
}
#[test]
fn test_single_match() {
let mut scanner = ReferenceScanner::new(vec![
"/nix/store/4xw8n979xpivdc46a9ndcvyhwgif00hz-bash-5.1-p16".into(),
]);
scanner.scan_str(HELLO_DRV);
let result = scanner.finalise();
assert_eq!(result.len(), 1);
assert!(result.contains("/nix/store/4xw8n979xpivdc46a9ndcvyhwgif00hz-bash-5.1-p16"));
}
#[test]
fn test_multiple_matches() {
let candidates = vec![
// these exist in the drv:
"/nix/store/33l4p0pn0mybmqzaxfkpppyh7vx1c74p-hello-2.12.1".into(),
"/nix/store/pf80kikyxr63wrw56k00i1kw6ba76qik-hello-2.12.1.tar.gz.drv".into(),
"/nix/store/cp65c8nk29qq5cl1wyy5qyw103cwmax7-stdenv-linux".into(),
// this doesn't:
"/nix/store/fn7zvafq26f0c8b17brs7s95s10ibfzs-emacs-28.2.drv".into(),
];
let mut scanner = ReferenceScanner::new(candidates.clone());
scanner.scan_str(HELLO_DRV);
let result = scanner.finalise();
assert_eq!(result.len(), 3);
for c in candidates[..3].iter() {
assert!(result.contains(c));
}
}
#[test]
fn test_multiple_stream() {
let candidates = vec![
// these exist in the drv:
"/nix/store/33l4p0pn0mybmqzaxfkpppyh7vx1c74p-hello-2.12.1".into(),
"/nix/store/pf80kikyxr63wrw56k00i1kw6ba76qik-hello-2.12.1.tar.gz.drv".into(),
"/nix/store/cp65c8nk29qq5cl1wyy5qyw103cwmax7-stdenv-linux".into(),
// this doesn't:
"/nix/store/fn7zvafq26f0c8b17brs7s95s10ibfzs-emacs-28.2.drv".into(),
];
let mut scanner = ReferenceScanner::new(candidates.clone());
scanner
.scan_stream(HELLO_DRV.as_bytes())
.expect("scanning should succeed");
let result = scanner.finalise();
assert_eq!(result.len(), 3);
for c in candidates[..3].iter() {
assert!(result.contains(c));
}
}
}