lix/tests/unit/libstore/derivation.cc
John Ericson 91b6833686 Move tests to separate directories, and document
Today, with the tests inside a `tests` intermingled with the
corresponding library's source code, we have a few problems:

- We have to be careful that wildcards don't end up with tests being
  built as part of Nix proper, or test headers being installed as part
  of Nix proper.

- Tests in libraries but not executables is not right:

  - It means each executable runs the previous unit tests again, because
    it needs the libraries.

  - It doesn't work right on Windows, which doesn't want you to load a
    DLL just for the side global variable . It could be made to work
    with the dlopen equivalent, but that's gross!

This reorg solves these problems.

There is a remaining problem which is that sibbling headers (like
`hash.hh` the test header vs `hash.hh` the main `libnixutil` header) end
up shadowing each other. This PR doesn't solve that. That is left as
future work for a future PR.

Co-authored-by: Valentin Gagarin <valentin.gagarin@tweag.io>
2023-12-01 10:48:58 -05:00

299 lines
11 KiB
C++

#include <nlohmann/json.hpp>
#include <gtest/gtest.h>
#include "experimental-features.hh"
#include "derivations.hh"
#include "tests/libstore.hh"
#include "tests/characterization.hh"
namespace nix {
using nlohmann::json;
class DerivationTest : public CharacterizationTest, public LibStoreTest
{
Path unitTestData = getUnitTestData() + "/derivation";
public:
Path goldenMaster(std::string_view testStem) const override {
return unitTestData + "/" + testStem;
}
/**
* We set these in tests rather than the regular globals so we don't have
* to worry about race conditions if the tests run concurrently.
*/
ExperimentalFeatureSettings mockXpSettings;
};
class CaDerivationTest : public DerivationTest
{
void SetUp() override
{
mockXpSettings.set("experimental-features", "ca-derivations");
}
};
class DynDerivationTest : public DerivationTest
{
void SetUp() override
{
mockXpSettings.set("experimental-features", "dynamic-derivations ca-derivations");
}
};
class ImpureDerivationTest : public DerivationTest
{
void SetUp() override
{
mockXpSettings.set("experimental-features", "impure-derivations");
}
};
TEST_F(DerivationTest, BadATerm_version) {
ASSERT_THROW(
parseDerivation(
*store,
readFile(goldenMaster("bad-version.drv")),
"whatever",
mockXpSettings),
FormatError);
}
TEST_F(DynDerivationTest, BadATerm_oldVersionDynDeps) {
ASSERT_THROW(
parseDerivation(
*store,
readFile(goldenMaster("bad-old-version-dyn-deps.drv")),
"dyn-dep-derivation",
mockXpSettings),
FormatError);
}
#define TEST_JSON(FIXTURE, NAME, VAL, DRV_NAME, OUTPUT_NAME) \
TEST_F(FIXTURE, DerivationOutput_ ## NAME ## _from_json) { \
readTest("output-" #NAME ".json", [&](const auto & encoded_) { \
auto encoded = json::parse(encoded_); \
DerivationOutput got = DerivationOutput::fromJSON( \
*store, \
DRV_NAME, \
OUTPUT_NAME, \
encoded, \
mockXpSettings); \
DerivationOutput expected { VAL }; \
ASSERT_EQ(got, expected); \
}); \
} \
\
TEST_F(FIXTURE, DerivationOutput_ ## NAME ## _to_json) { \
writeTest("output-" #NAME ".json", [&]() -> json { \
return DerivationOutput { (VAL) }.toJSON( \
*store, \
(DRV_NAME), \
(OUTPUT_NAME)); \
}, [](const auto & file) { \
return json::parse(readFile(file)); \
}, [](const auto & file, const auto & got) { \
return writeFile(file, got.dump(2) + "\n"); \
}); \
}
TEST_JSON(DerivationTest, inputAddressed,
(DerivationOutput::InputAddressed {
.path = store->parseStorePath("/nix/store/c015dhfh5l0lp6wxyvdn7bmwhbbr6hr9-drv-name-output-name"),
}),
"drv-name", "output-name")
TEST_JSON(DerivationTest, caFixedFlat,
(DerivationOutput::CAFixed {
.ca = {
.method = FileIngestionMethod::Flat,
.hash = Hash::parseAnyPrefixed("sha256-iUUXyRY8iW7DGirb0zwGgf1fRbLA7wimTJKgP7l/OQ8="),
},
}),
"drv-name", "output-name")
TEST_JSON(DerivationTest, caFixedNAR,
(DerivationOutput::CAFixed {
.ca = {
.method = FileIngestionMethod::Recursive,
.hash = Hash::parseAnyPrefixed("sha256-iUUXyRY8iW7DGirb0zwGgf1fRbLA7wimTJKgP7l/OQ8="),
},
}),
"drv-name", "output-name")
TEST_JSON(DynDerivationTest, caFixedText,
(DerivationOutput::CAFixed {
.ca = {
.hash = Hash::parseAnyPrefixed("sha256-iUUXyRY8iW7DGirb0zwGgf1fRbLA7wimTJKgP7l/OQ8="),
},
}),
"drv-name", "output-name")
TEST_JSON(CaDerivationTest, caFloating,
(DerivationOutput::CAFloating {
.method = FileIngestionMethod::Recursive,
.hashType = htSHA256,
}),
"drv-name", "output-name")
TEST_JSON(DerivationTest, deferred,
DerivationOutput::Deferred { },
"drv-name", "output-name")
TEST_JSON(ImpureDerivationTest, impure,
(DerivationOutput::Impure {
.method = FileIngestionMethod::Recursive,
.hashType = htSHA256,
}),
"drv-name", "output-name")
#undef TEST_JSON
#define TEST_JSON(FIXTURE, NAME, VAL) \
TEST_F(FIXTURE, Derivation_ ## NAME ## _from_json) { \
readTest(#NAME ".json", [&](const auto & encoded_) { \
auto encoded = json::parse(encoded_); \
Derivation expected { VAL }; \
Derivation got = Derivation::fromJSON( \
*store, \
encoded, \
mockXpSettings); \
ASSERT_EQ(got, expected); \
}); \
} \
\
TEST_F(FIXTURE, Derivation_ ## NAME ## _to_json) { \
writeTest(#NAME ".json", [&]() -> json { \
return Derivation { VAL }.toJSON(*store); \
}, [](const auto & file) { \
return json::parse(readFile(file)); \
}, [](const auto & file, const auto & got) { \
return writeFile(file, got.dump(2) + "\n"); \
}); \
}
#define TEST_ATERM(FIXTURE, NAME, VAL, DRV_NAME) \
TEST_F(FIXTURE, Derivation_ ## NAME ## _from_aterm) { \
readTest(#NAME ".drv", [&](auto encoded) { \
Derivation expected { VAL }; \
auto got = parseDerivation( \
*store, \
std::move(encoded), \
DRV_NAME, \
mockXpSettings); \
ASSERT_EQ(got.toJSON(*store), expected.toJSON(*store)) ; \
ASSERT_EQ(got, expected); \
}); \
} \
\
TEST_F(FIXTURE, Derivation_ ## NAME ## _to_aterm) { \
writeTest(#NAME ".drv", [&]() -> std::string { \
return (VAL).unparse(*store, false); \
}); \
}
Derivation makeSimpleDrv(const Store & store) {
Derivation drv;
drv.name = "simple-derivation";
drv.inputSrcs = {
store.parseStorePath("/nix/store/c015dhfh5l0lp6wxyvdn7bmwhbbr6hr9-dep1"),
};
drv.inputDrvs = {
.map = {
{
store.parseStorePath("/nix/store/c015dhfh5l0lp6wxyvdn7bmwhbbr6hr9-dep2.drv"),
{
.value = {
"cat",
"dog",
},
},
},
},
};
drv.platform = "wasm-sel4";
drv.builder = "foo";
drv.args = {
"bar",
"baz",
};
drv.env = {
{
"BIG_BAD",
"WOLF",
},
};
return drv;
}
TEST_JSON(DerivationTest, simple, makeSimpleDrv(*store))
TEST_ATERM(DerivationTest, simple,
makeSimpleDrv(*store),
"simple-derivation")
Derivation makeDynDepDerivation(const Store & store) {
Derivation drv;
drv.name = "dyn-dep-derivation";
drv.inputSrcs = {
store.parseStorePath("/nix/store/c015dhfh5l0lp6wxyvdn7bmwhbbr6hr9-dep1"),
};
drv.inputDrvs = {
.map = {
{
store.parseStorePath("/nix/store/c015dhfh5l0lp6wxyvdn7bmwhbbr6hr9-dep2.drv"),
DerivedPathMap<StringSet>::ChildNode {
.value = {
"cat",
"dog",
},
.childMap = {
{
"cat",
DerivedPathMap<StringSet>::ChildNode {
.value = {
"kitten",
},
},
},
{
"goose",
DerivedPathMap<StringSet>::ChildNode {
.value = {
"gosling",
},
},
},
},
},
},
},
};
drv.platform = "wasm-sel4";
drv.builder = "foo";
drv.args = {
"bar",
"baz",
};
drv.env = {
{
"BIG_BAD",
"WOLF",
},
};
return drv;
}
TEST_JSON(DynDerivationTest, dynDerivationDeps, makeDynDepDerivation(*store))
TEST_ATERM(DynDerivationTest, dynDerivationDeps,
makeDynDepDerivation(*store),
"dyn-dep-derivation")
#undef TEST_JSON
#undef TEST_ATERM
}