use crate::derivation::output::Output;
use crate::derivation::Derivation;
use crate::nixhash::NixHash;
use crate::store_path::StorePath;
use bstr::{BStr, BString};
use std::collections::{BTreeMap, BTreeSet};
use std::fs::File;
use std::io::Read;
use std::path::Path;
use std::str::FromStr;
use test_case::test_case;
use test_generator::test_resources;
const RESOURCES_PATHS: &str = "src/derivation/tests/derivation_tests";
fn read_file(path: &str) -> BString {
let path = Path::new(path);
let mut file = File::open(path).unwrap();
let mut file_contents = Vec::new();
file.read_to_end(&mut file_contents).unwrap();
file_contents.into()
}
#[test_resources("src/derivation/tests/derivation_tests/*.drv")]
fn check_serialization(path_to_drv_file: &str) {
// skip JSON files known to fail parsing
if path_to_drv_file.ends_with("cp1252.drv") || path_to_drv_file.ends_with("latin1.drv") {
return;
}
let json_bytes = read_file(&format!("{}.json", path_to_drv_file));
let derivation: Derivation =
serde_json::from_slice(&json_bytes).expect("JSON was not well-formatted");
let mut serialized_derivation = Vec::new();
derivation.serialize(&mut serialized_derivation).unwrap();
let expected = read_file(path_to_drv_file);
assert_eq!(expected, BStr::new(&serialized_derivation));
}
#[test_resources("src/derivation/tests/derivation_tests/*.drv")]
fn validate(path_to_drv_file: &str) {
// skip JSON files known to fail parsing
if path_to_drv_file.ends_with("cp1252.drv") || path_to_drv_file.ends_with("latin1.drv") {
return;
}
let json_bytes = read_file(&format!("{}.json", path_to_drv_file));
let derivation: Derivation =
serde_json::from_slice(&json_bytes).expect("JSON was not well-formatted");
derivation
.validate(true)
.expect("derivation failed to validate")
}
#[test_resources("src/derivation/tests/derivation_tests/*.drv")]
fn check_to_aterm_bytes(path_to_drv_file: &str) {
// skip JSON files known to fail parsing
if path_to_drv_file.ends_with("cp1252.drv") || path_to_drv_file.ends_with("latin1.drv") {
return;
}
let json_bytes = read_file(&format!("{}.json", path_to_drv_file));
let derivation: Derivation =
serde_json::from_slice(&json_bytes).expect("JSON was not well-formatted");
let expected = read_file(path_to_drv_file);
assert_eq!(expected, BStr::new(&derivation.to_aterm_bytes()));
}
#[test_case("bar","0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv"; "fixed_sha256")]
#[test_case("foo", "4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv"; "simple-sha256")]
#[test_case("bar", "ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv"; "fixed-sha1")]
#[test_case("foo", "ch49594n9avinrf8ip0aslidkc4lxkqv-foo.drv"; "simple-sha1")]
#[test_case("has-multi-out", "h32dahq0bx5rp1krcdx3a53asj21jvhk-has-multi-out.drv"; "multiple-outputs")]
#[test_case("structured-attrs", "9lj1lkjm2ag622mh4h9rpy6j607an8g2-structured-attrs.drv"; "structured-attrs")]
#[test_case("unicode", "52a9id8hx688hvlnz4d1n25ml1jdykz0-unicode.drv"; "unicode")]
fn derivation_path(name: &str, expected_path: &str) {
let json_bytes = read_file(&format!("{}/{}.json", RESOURCES_PATHS, expected_path));
let derivation: Derivation =
serde_json::from_slice(&json_bytes).expect("JSON was not well-formatted");
assert_eq!(
derivation.calculate_derivation_path(name).unwrap(),
StorePath::from_str(expected_path).unwrap()
);
}
/// This trims all output paths from a Derivation struct,
/// by setting outputs[$outputName].path and environment[$outputName] to the empty string.
fn derivation_with_trimmed_output_paths(derivation: &Derivation) -> Derivation {
let mut trimmed_env = derivation.environment.clone();
let mut trimmed_outputs = derivation.outputs.clone();
for (output_name, output) in &derivation.outputs {
trimmed_env.insert(output_name.clone(), "".into());
assert!(trimmed_outputs.contains_key(output_name));
trimmed_outputs.insert(
output_name.to_string(),
Output {
path: "".to_string(),
..output.clone()
},
);
}
// replace environment and outputs with the trimmed variants
Derivation {
environment: trimmed_env,
outputs: trimmed_outputs,
..derivation.clone()
}
}
#[test_case("0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv", "sha256:724f3e3634fce4cbbbd3483287b8798588e80280660b9a63fd13a1bc90485b33"; "fixed_sha256")]
#[test_case("ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv", "sha256:c79aebd0ce3269393d4a1fde2cbd1d975d879b40f0bf40a48f550edc107fd5df";"fixed-sha1")]
fn derivation_or_fod_hash(drv_path: &str, expected_nix_hash_string: &str) {
// read in the fixture
let json_bytes = read_file(&format!("{}/{}.json", RESOURCES_PATHS, drv_path));
let drv: Derivation = serde_json::from_slice(&json_bytes).expect("must deserialize");
let actual = drv.derivation_or_fod_hash(|_| panic!("must not be called"));
assert_eq!(expected_nix_hash_string, actual.to_nix_hash_string());
}
#[test_case("bar","0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv"; "fixed_sha256")]
#[test_case("foo", "4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv"; "simple-sha256")]
#[test_case("bar", "ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv"; "fixed-sha1")]
#[test_case("foo", "ch49594n9avinrf8ip0aslidkc4lxkqv-foo.drv"; "simple-sha1")]
#[test_case("has-multi-out", "h32dahq0bx5rp1krcdx3a53asj21jvhk-has-multi-out.drv"; "multiple-outputs")]
#[test_case("structured-attrs", "9lj1lkjm2ag622mh4h9rpy6j607an8g2-structured-attrs.drv"; "structured-attrs")]
#[test_case("unicode", "52a9id8hx688hvlnz4d1n25ml1jdykz0-unicode.drv"; "unicode")]
fn output_paths(name: &str, drv_path: &str) {
// read in the fixture
let json_bytes = read_file(&format!("{}/{}.json", RESOURCES_PATHS, drv_path));
let expected_derivation: Derivation =
serde_json::from_slice(&json_bytes).expect("must deserialize");
let mut derivation = derivation_with_trimmed_output_paths(&expected_derivation);
// calculate the derivation_or_fod_hash of derivation
// We don't expect the lookup function to be called for most derivations.
let calculated_derivation_or_fod_hash = derivation.derivation_or_fod_hash(|parent_drv_path| {
// 4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv may lookup /nix/store/0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv
// ch49594n9avinrf8ip0aslidkc4lxkqv-foo.drv may lookup /nix/store/ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv
if name == "foo"
&& ((drv_path == "4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv"
&& parent_drv_path == "/nix/store/0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv")
|| (drv_path == "ch49594n9avinrf8ip0aslidkc4lxkqv-foo.drv"
&& parent_drv_path == "/nix/store/ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv"))
{
// do the lookup, by reading in the fixture of the requested
// drv_name, and calculating its drv replacement (on the non-stripped version)
// In a real-world scenario you would have already done this during construction.
let json_bytes = read_file(&format!(
"{}/{}.json",
RESOURCES_PATHS,
Path::new(parent_drv_path)
.file_name()
.unwrap()
.to_string_lossy()
));
let drv: Derivation = serde_json::from_slice(&json_bytes).expect("must deserialize");
// calculate derivation_or_fod_hash for each parent.
// This may not trigger subsequent requests, as both parents are FOD.
drv.derivation_or_fod_hash(|_| panic!("must not lookup"))
} else {
// we only expect this to be called in the "foo" testcase, for the "bar derivations"
panic!("may only be called for foo testcase on bar derivations");
}
});
derivation
.calculate_output_paths(name, &calculated_derivation_or_fod_hash)
.unwrap();
// The derivation should now look like it was before
assert_eq!(expected_derivation, derivation);
}
/// Exercises the output path calculation functions like a constructing client
/// (an implementation of builtins.derivation) would do:
///
/// ```nix
/// rec {
/// bar = builtins.derivation {
/// name = "bar";
/// builder = ":";
/// system = ":";
/// outputHash = "08813cbee9903c62be4c5027726a418a300da4500b2d369d3af9286f4815ceba";
/// outputHashAlgo = "sha256";
/// outputHashMode = "recursive";
/// };
///
/// foo = builtins.derivation {
/// name = "foo";
/// builder = ":";
/// system = ":";
/// inherit bar;
/// };
/// }
/// ```
/// It first assembles the bar derivation, does the output path calculation on
/// it, then continues with the foo derivation.
///
/// The code ensures the resulting Derivations match our fixtures.
#[test]
fn output_path_construction() {
// create the bar derivation
let mut bar_drv = Derivation {
builder: ":".to_string(),
system: ":".to_string(),
..Default::default()
};
// assemble bar env
let bar_env = &mut bar_drv.environment;
bar_env.insert("builder".to_string(), ":".into());
bar_env.insert("name".to_string(), "bar".into());
bar_env.insert("out".to_string(), "".into()); // will be calculated
bar_env.insert(
"outputHash".to_string(),
"08813cbee9903c62be4c5027726a418a300da4500b2d369d3af9286f4815ceba".into(),
);
bar_env.insert("outputHashAlgo".to_string(), "sha256".into());
bar_env.insert("outputHashMode".to_string(), "recursive".into());
bar_env.insert("system".to_string(), ":".into());
// assemble bar outputs
bar_drv.outputs.insert(
"out".to_string(),
Output {
path: "".to_string(), // will be calculated
hash_with_mode: Some(crate::nixhash::NixHashWithMode::Recursive(NixHash {
digest: data_encoding::HEXLOWER
.decode(
"08813cbee9903c62be4c5027726a418a300da4500b2d369d3af9286f4815ceba"
.as_bytes(),
)
.unwrap(),
algo: crate::nixhash::HashAlgo::Sha256,
})),
},
);
// calculate bar output paths
let bar_calc_result = bar_drv.calculate_output_paths(
"bar",
&bar_drv.derivation_or_fod_hash(|_| panic!("is FOD, should not lookup")),
);
assert!(bar_calc_result.is_ok());
// ensure it matches our bar fixture
let bar_json_bytes = read_file(&format!(
"{}/{}.json",
RESOURCES_PATHS, "0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv"
));
let bar_drv_expected: Derivation =
serde_json::from_slice(&bar_json_bytes).expect("must deserialize");
assert_eq!(bar_drv_expected, bar_drv);
// now construct foo, which requires bar_drv
// Note how we refer to the output path, drv name and replacement_str (with calculated output paths) of bar.
let bar_output_path = &bar_drv.outputs.get("out").expect("must exist").path;
let bar_drv_derivation_or_fod_hash =
bar_drv.derivation_or_fod_hash(|_| panic!("is FOD, should not lookup"));
let bar_drv_path = bar_drv
.calculate_derivation_path("bar")
.expect("must succeed");
// create foo derivation
let mut foo_drv = Derivation {
builder: ":".to_string(),
system: ":".to_string(),
..Default::default()
};
// assemble foo env
let foo_env = &mut foo_drv.environment;
foo_env.insert("bar".to_string(), bar_output_path.to_owned().into());
foo_env.insert("builder".to_string(), ":".into());
foo_env.insert("name".to_string(), "foo".into());
foo_env.insert("out".to_string(), "".into()); // will be calculated
foo_env.insert("system".to_string(), ":".into());
// asssemble foo outputs
foo_drv.outputs.insert(
"out".to_string(),
Output {
path: "".to_string(), // will be calculated
hash_with_mode: None,
},
);
// assemble foo input_derivations
foo_drv.input_derivations.insert(
bar_drv_path.to_absolute_path(),
BTreeSet::from(["out".to_string()]),
);
// calculate foo output paths
let foo_calc_result = foo_drv.calculate_output_paths(
"foo",
&foo_drv.derivation_or_fod_hash(|drv_path| {
if drv_path != "/nix/store/0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv" {
panic!("lookup called with unexpected drv_path: {}", drv_path);
}
bar_drv_derivation_or_fod_hash.clone()
}),
);
assert!(foo_calc_result.is_ok());
// ensure it matches our foo fixture
let foo_json_bytes = read_file(&format!(
"{}/{}.json",
RESOURCES_PATHS, "4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv",
));
let foo_drv_expected: Derivation =
serde_json::from_slice(&foo_json_bytes).expect("must deserialize");
assert_eq!(foo_drv_expected, foo_drv);
assert_eq!(
StorePath::from_str("4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv").expect("must succeed"),
foo_drv
.calculate_derivation_path("foo")
.expect("must succeed")
);
}
/// This constructs a Derivation using cp1252 encoding and ensures the
/// calculated derivation path matches the one Nix does calculate, as
/// well as the ATerm serialization.
/// We can't add this as a test_case to `output_paths`, as the JSON parser
/// refuses to parse our JSONs.
/// It looks like more recent versions of Nix also seem to not produce these
/// JSON files anymore, however, it still happily produces the .drv files in
/// the store.
#[test_case(
"cp1252",
vec![0xc5, 0xc4, 0xd6],
"/nix/store/drr2mjp9fp9vvzsf5f9p0a80j33dxy7m-cp1252",
"m1vfixn8iprlf0v9abmlrz7mjw1xj8kp-cp1252.drv";
"cp1252"
)]
#[test_case(
"latin1",
vec![0xc5, 0xc4, 0xd6],
"/nix/store/x1f6jfq9qgb6i8jrmpifkn9c64fg4hcm-latin1",
"x6p0hg79i3wg0kkv7699935f7rrj9jf3-latin1.drv";
"latin1"
)]
fn non_unicode(name: &str, chars: Vec<u8>, exp_output_path: &str, exp_derivation_path: &str) {
// construct the Derivation
let mut outputs: BTreeMap<String, Output> = BTreeMap::new();
outputs.insert(
"out".to_string(),
Output {
path: exp_output_path.to_string(),
..Default::default()
},
);
let mut environment: BTreeMap<String, BString> = BTreeMap::new();
environment.insert("builder".to_string(), ":".into());
environment.insert("chars".to_string(), chars.into());
environment.insert("name".to_string(), name.into());
environment.insert("out".to_string(), exp_output_path.into());
environment.insert("system".to_string(), ":".into());
let derivation: Derivation = Derivation {
builder: ":".to_string(),
environment,
outputs,
system: ":".to_string(),
..Default::default()
};
// check the derivation_path matches what Nix calculated.
let actual_drv_path = derivation.calculate_derivation_path(name).unwrap();
assert_eq!(exp_derivation_path.to_string(), actual_drv_path.to_string());
// Now wipe the output path info, and ensure we calculate the same output
// path.
{
let mut derivation = derivation_with_trimmed_output_paths(&derivation);
let calculated_derivation_or_fod_hash = derivation.derivation_or_fod_hash(|_| {
panic!("No parents expected");
});
derivation
.calculate_output_paths(name, &calculated_derivation_or_fod_hash)
.unwrap();
assert_eq!(
exp_output_path.to_string(),
derivation.outputs.get("out").unwrap().path,
"expected calculated output path to match"
);
}
// Construct the ATerm representation and compare with our fixture.
{
let aterm_bytes = read_file(&format!("{}/{}", RESOURCES_PATHS, exp_derivation_path));
assert_eq!(
aterm_bytes,
BStr::new(&derivation.to_aterm_bytes()),
"expected ATerm serialization to match",
);
}
}