use crate::derivation::Derivation; use crate::output::{Hash, Output}; use std::collections::BTreeMap; use std::fs::File; use std::io::Read; use std::path::Path; use test_case::test_case; use test_generator::test_resources; use tvix_store::store_path::StorePath; const RESOURCES_PATHS: &str = "src/tests/derivation_tests"; fn read_file(path: &str) -> String { let path = Path::new(path); let mut file = File::open(path).unwrap(); let mut data = String::new(); file.read_to_string(&mut data).unwrap(); return data; } #[test_resources("src/tests/derivation_tests/*.drv")] fn check_serizaliation(path_to_drv_file: &str) { let data = read_file(&format!("{}.json", path_to_drv_file)); let derivation: Derivation = serde_json::from_str(&data).expect("JSON was not well-formatted"); let mut serialized_derivation = String::new(); derivation.serialize(&mut serialized_derivation).unwrap(); let expected = read_file(path_to_drv_file); assert_eq!(expected, serialized_derivation); } #[test_resources("src/tests/derivation_tests/*.drv")] fn validate(path_to_drv_file: &str) { let data = read_file(&format!("{}.json", path_to_drv_file)); let derivation: Derivation = serde_json::from_str(&data).expect("JSON was not well-formatted"); derivation .validate() .expect("derivation failed to validate") } #[test_resources("src/tests/derivation_tests/*.drv")] fn check_to_string(path_to_drv_file: &str) { let data = read_file(&format!("{}.json", path_to_drv_file)); let derivation: Derivation = serde_json::from_str(&data).expect("JSON was not well-formatted"); let expected = read_file(path_to_drv_file); assert_eq!(expected, derivation.to_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 derivation_path(name: &str, expected_path: &str) { let data = read_file(&format!("{}/{}.json", RESOURCES_PATHS, expected_path)); let derivation: Derivation = serde_json::from_str(&data).expect("JSON was not well-formatted"); assert_eq!( derivation.calculate_derivation_path(name).unwrap(), StorePath::from_string(expected_path).unwrap() ); } /// This trims all outputs from a Derivation struct, /// by setting outputs[$outputName].path and environment[$outputName] to the empty string. fn derivation_with_trimmed_outputs(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(), "".to_string()); 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", "724f3e3634fce4cbbbd3483287b8798588e80280660b9a63fd13a1bc90485b33"; "fixed_sha256")] #[test_case("ss2p4wmxijn652haqyd7dckxwl4c7hxx-bar.drv", "c79aebd0ce3269393d4a1fde2cbd1d975d879b40f0bf40a48f550edc107fd5df";"fixed-sha1")] fn replacement_drv_path(drv_path: &str, expected_replacement_str: &str) { // read in the fixture let data = read_file(&format!("{}/{}.json", RESOURCES_PATHS, drv_path)); let drv: Derivation = serde_json::from_str(&data).expect("must deserialize"); let drv_replacement_str = drv.calculate_drv_replacement_str(|_| panic!("must not be called")); assert_eq!(expected_replacement_str, drv_replacement_str); } #[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 data = read_file(&format!("{}/{}.json", RESOURCES_PATHS, drv_path)); let expected_derivation: Derivation = serde_json::from_str(&data).expect("must deserialize"); let mut derivation = derivation_with_trimmed_outputs(&expected_derivation); // calculate the drv replacement string. // We don't expect the lookup function to be called for most derivations. let replacement_str = derivation.calculate_drv_replacement_str(|drv_name| { // 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" && drv_name == "/nix/store/0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv") || (drv_path == "ch49594n9avinrf8ip0aslidkc4lxkqv-foo.drv" && drv_name == "/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 data = read_file(&format!( "{}/{}.json", RESOURCES_PATHS, Path::new(drv_name).file_name().unwrap().to_string_lossy() )); let drv: Derivation = serde_json::from_str(&data).expect("must deserialize"); // calculate replacement string. These don't trigger any subsequent requests, as they're both FOD. drv.calculate_drv_replacement_str(|_| 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"); } }); // We need to calculate the replacement_str, as fixed-sha1 does use it. derivation .calculate_output_paths(&name, &replacement_str) .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 // assemble bar env let mut bar_env: BTreeMap<String, String> = BTreeMap::new(); bar_env.insert("builder".to_string(), ":".to_string()); bar_env.insert("name".to_string(), "bar".to_string()); bar_env.insert("out".to_string(), "".to_string()); // will be calculated bar_env.insert( "outputHash".to_string(), "08813cbee9903c62be4c5027726a418a300da4500b2d369d3af9286f4815ceba".to_string(), ); bar_env.insert("outputHashAlgo".to_string(), "sha256".to_string()); bar_env.insert("outputHashMode".to_string(), "recursive".to_string()); bar_env.insert("system".to_string(), ":".to_string()); // assemble bar outputs let mut bar_outputs: BTreeMap<String, Output> = BTreeMap::new(); bar_outputs.insert( "out".to_string(), Output { path: "".to_string(), // will be calculated hash: Some(Hash { digest: "08813cbee9903c62be4c5027726a418a300da4500b2d369d3af9286f4815ceba" .to_string(), algo: "r:sha256".to_string(), }), }, ); // assemble bar itself let mut bar_drv = Derivation { arguments: vec![], builder: ":".to_string(), environment: bar_env, input_derivations: BTreeMap::new(), input_sources: vec![], outputs: bar_outputs, system: ":".to_string(), }; // calculate bar output paths let bar_calc_result = bar_drv.calculate_output_paths( "bar", &bar_drv.calculate_drv_replacement_str(|_| panic!("is FOD, should not lookup")), ); assert!(bar_calc_result.is_ok()); // ensure it matches our bar fixture let bar_data = read_file(&format!( "{}/{}.json", RESOURCES_PATHS, "0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv" )); let bar_drv_expected: Derivation = serde_json::from_str(&bar_data).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_replacement_str = &bar_drv.calculate_drv_replacement_str(|_| panic!("is FOD, should not lookup")); let bar_drv_path = bar_drv .calculate_derivation_path("bar") .expect("must succeed"); // assemble foo env let mut foo_env: BTreeMap<String, String> = BTreeMap::new(); foo_env.insert("bar".to_string(), bar_output_path.to_string()); foo_env.insert("builder".to_string(), ":".to_string()); foo_env.insert("name".to_string(), "foo".to_string()); foo_env.insert("out".to_string(), "".to_string()); // will be calculated foo_env.insert("system".to_string(), ":".to_string()); // asssemble foo outputs let mut foo_outputs: BTreeMap<String, Output> = BTreeMap::new(); foo_outputs.insert( "out".to_string(), Output { path: "".to_string(), // will be calculated hash: None, }, ); // assemble foo input_derivations let mut foo_input_derivations: BTreeMap<String, Vec<String>> = BTreeMap::new(); foo_input_derivations.insert(bar_drv_path.to_absolute_path(), vec!["out".to_string()]); // assemble foo itself let mut foo_drv = Derivation { arguments: vec![], builder: ":".to_string(), environment: foo_env, input_derivations: foo_input_derivations, input_sources: vec![], outputs: foo_outputs, system: ":".to_string(), }; // calculate foo output paths let foo_calc_result = foo_drv.calculate_output_paths( "foo", &foo_drv.calculate_drv_replacement_str(|drv_name| { if drv_name != "/nix/store/0hm2f1psjpcwg8fijsmr4wwxrx59s092-bar.drv" { panic!("lookup called with unexpected drv_name: {}", drv_name); } bar_drv_replacement_str.clone() }), ); assert!(foo_calc_result.is_ok()); // ensure it matches our foo fixture let foo_data = read_file(&format!( "{}/{}.json", RESOURCES_PATHS, "4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv", )); let foo_drv_expected: Derivation = serde_json::from_str(&foo_data).expect("must deserialize"); assert_eq!(foo_drv_expected, foo_drv); assert_eq!( StorePath::from_string("4wvvbi4jwn0prsdxb7vs673qa5h9gr7x-foo.drv").expect("must succeed"), foo_drv .calculate_derivation_path("foo") .expect("must succeed") ); }