refactor(nix-compat/derivation): use ATerm for output_paths test

Due to the lack of a ATerm parser, we were previously loading the JSON
fixtures to construct our Derivation structs to run the output path
calculations with.

However, as we now have a ATerm parser, we can load the ATerm
representation directly.
This also means we can test the output path calculation for non-UTF8
Derivations.

Change-Id: I0e53f41a23566b5ad5f0fed12724e02a10b02707
Reviewed-on: https://cl.tvl.fyi/c/depot/+/9731
Autosubmit: flokli <flokli@flokli.de>
Tested-by: BuildkiteCI
Reviewed-by: Connor Brewster <cbrewster@hey.com>
This commit is contained in:
Florian Klink 2023-07-31 16:00:34 +02:00 committed by flokli
parent 8934b34489
commit 398cf8e7ce

View file

@ -196,6 +196,9 @@ fn derivation_or_fod_hash(drv_path: &str, expected_nix_hash_string: &str) {
assert_eq!(expected_nix_hash_string, actual.to_nix_hash_string()); assert_eq!(expected_nix_hash_string, actual.to_nix_hash_string());
} }
/// This reads a Derivation (in A-Term), trims out all fields containing
/// calculated output paths, then triggers the output path calculation and
/// compares the struct to match what was originally read in.
#[test_case("bar","0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv"; "fixed_sha256")] #[test_case("bar","0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv"; "fixed_sha256")]
#[test_case("foo", "4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv"; "simple-sha256")] #[test_case("foo", "4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv"; "simple-sha256")]
#[test_case("bar", "ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv"; "fixed-sha1")] #[test_case("bar", "ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv"; "fixed-sha1")]
@ -203,12 +206,17 @@ fn derivation_or_fod_hash(drv_path: &str, expected_nix_hash_string: &str) {
#[test_case("has-multi-out", "h32dahq0bx5rp1krcdx3a53asj21jvhk-has-multi-out.drv"; "multiple-outputs")] #[test_case("has-multi-out", "h32dahq0bx5rp1krcdx3a53asj21jvhk-has-multi-out.drv"; "multiple-outputs")]
#[test_case("structured-attrs", "9lj1lkjm2ag622mh4h9rpy6j607an8g2-structured-attrs.drv"; "structured-attrs")] #[test_case("structured-attrs", "9lj1lkjm2ag622mh4h9rpy6j607an8g2-structured-attrs.drv"; "structured-attrs")]
#[test_case("unicode", "52a9id8hx688hvlnz4d1n25ml1jdykz0-unicode.drv"; "unicode")] #[test_case("unicode", "52a9id8hx688hvlnz4d1n25ml1jdykz0-unicode.drv"; "unicode")]
#[test_case("cp1252", "m1vfixn8iprlf0v9abmlrz7mjw1xj8kp-cp1252.drv"; "cp1252")]
#[test_case("latin1", "x6p0hg79i3wg0kkv7699935f7rrj9jf3-latin1.drv"; "latin1")]
fn output_paths(name: &str, drv_path: &str) { fn output_paths(name: &str, drv_path: &str) {
// read in the fixture // read in the derivation
let json_bytes = read_file(&format!("{}/ok/{}.json", RESOURCES_PATHS, drv_path)); let expected_derivation = Derivation::from_aterm_bytes(
let expected_derivation: Derivation = read_file(&format!("{}/ok/{}", RESOURCES_PATHS, drv_path)).as_ref(),
serde_json::from_slice(&json_bytes).expect("must deserialize"); )
.expect("must succeed");
// create a version with trimmed output paths, simulating we constructed
// the struct.
let mut derivation = derivation_with_trimmed_output_paths(&expected_derivation); let mut derivation = derivation_with_trimmed_output_paths(&expected_derivation);
// calculate the derivation_or_fod_hash of derivation // calculate the derivation_or_fod_hash of derivation