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Merge branch 'master' into debug-exploratory-PR

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Ben Burdette 2022-05-09 09:30:44 -06:00 committed by GitHub
parent fc66f48812 3ec979fa90
commit 7cd7c7c91a
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GPG key ID: 4AEE18F83AFDEB23
18 changed files with 1387 additions and 67 deletions
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1
.gitignore vendored
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@ -35,6 +35,7 @@ perl/Makefile.config
/src/libexpr/parser-tab.hh
/src/libexpr/parser-tab.output
/src/libexpr/nix.tbl
/src/libexpr/tests/libexpr-tests
# /src/libstore/
*.gen.*

1
Makefile
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@ -8,6 +8,7 @@ makefiles = \
src/libfetchers/local.mk \
src/libmain/local.mk \
src/libexpr/local.mk \
src/libexpr/tests/local.mk \
src/libcmd/local.mk \
src/nix/local.mk \
src/resolve-system-dependencies/local.mk \

4
src/libcmd/markdown.cc
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@ -9,10 +9,12 @@ namespace nix {
std::string renderMarkdownToTerminal(std::string_view markdown)
{
int windowWidth = getWindowSize().second;
struct lowdown_opts opts {
.type = LOWDOWN_TERM,
.maxdepth = 20,
.cols = std::max(getWindowSize().second, (unsigned short) 80),
.cols = (size_t) std::max(windowWidth - 5, 60),
.hmargin = 0,
.vmargin = 0,
.feat = LOWDOWN_COMMONMARK | LOWDOWN_FENCED | LOWDOWN_DEFLIST | LOWDOWN_TABLES,

12
src/libexpr/eval.cc
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@ -147,7 +147,10 @@ void Value::print(const SymbolTable & symbols, std::ostream & str,
else {
str << "[ ";
for (auto v2 : listItems()) {
v2->print(symbols, str, seen);
if (v2)
v2->print(symbols, str, seen);
else
str << "(nullptr)";
str << " ";
}
str << "]";
@ -184,6 +187,11 @@ void Value::print(const SymbolTable & symbols, std::ostream & str, bool showRepe
print(symbols, str, showRepeated ? nullptr : &seen);
}
// Pretty print types for assertion errors
std::ostream & operator << (std::ostream & os, const ValueType t) {
os << showType(t);
return os;
}
std::string printValue(const EvalState & state, const Value & v)
{
@ -1855,7 +1863,7 @@ void EvalState::autoCallFunction(Bindings & args, Value & fun, Value & res)
Nix attempted to evaluate a function as a top level expression; in
this case it must have its arguments supplied either by default
values, or passed explicitly with '--arg' or '--argstr'. See
https://nixos.org/manual/nix/stable/#ss-functions.)", symbols[i.name],
https://nixos.org/manual/nix/stable/expressions/language-constructs.html#functions.)", symbols[i.name],
*fun.lambda.env, *fun.lambda.fun);
}
}

1
src/libexpr/eval.hh
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@ -63,6 +63,7 @@ typedef std::map<Path, StorePath> SrcToStore;
std::ostream & printValue(const EvalState & state, std::ostream & str, const Value & v);
std::string printValue(const EvalState & state, const Value & v);
std::ostream & operator << (std::ostream & os, const ValueType t);
typedef std::pair<std::string, std::string> SearchPathElem;

2
src/libexpr/primops.cc
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@ -3823,7 +3823,7 @@ static RegisterPrimOp primop_split({
Evaluates to `[ "" [ "a" null ] "b" [ null "c" ] "" ]`.
```nix
builtins.split "([[:upper:]]+)" " FOO "
builtins.split "([[:upper:]]+)" " FOO "
```
Evaluates to `[ " " [ "FOO" ] " " ]`.

68
src/libexpr/tests/json.cc Normal file
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@ -0,0 +1,68 @@
#include "libexprtests.hh"
#include "value-to-json.hh"
namespace nix {
// Testing the conversion to JSON
class JSONValueTest : public LibExprTest {
protected:
std::string getJSONValue(Value& value) {
std::stringstream ss;
PathSet ps;
printValueAsJSON(state, true, value, noPos, ss, ps);
return ss.str();
}
};
TEST_F(JSONValueTest, null) {
Value v;
v.mkNull();
ASSERT_EQ(getJSONValue(v), "null");
}
TEST_F(JSONValueTest, BoolFalse) {
Value v;
v.mkBool(false);
ASSERT_EQ(getJSONValue(v),"false");
}
TEST_F(JSONValueTest, BoolTrue) {
Value v;
v.mkBool(true);
ASSERT_EQ(getJSONValue(v), "true");
}
TEST_F(JSONValueTest, IntPositive) {
Value v;
v.mkInt(100);
ASSERT_EQ(getJSONValue(v), "100");
}
TEST_F(JSONValueTest, IntNegative) {
Value v;
v.mkInt(-100);
ASSERT_EQ(getJSONValue(v), "-100");
}
TEST_F(JSONValueTest, String) {
Value v;
v.mkString("test");
ASSERT_EQ(getJSONValue(v), "\"test\"");
}
TEST_F(JSONValueTest, StringQuotes) {
Value v;
v.mkString("test\"");
ASSERT_EQ(getJSONValue(v), "\"test\\\"\"");
}
// The dummy store doesn't support writing files. Fails with this exception message:
// C++ exception with description "error: operation 'addToStoreFromDump' is
// not supported by store 'dummy'" thrown in the test body.
TEST_F(JSONValueTest, DISABLED_Path) {
Value v;
v.mkPath("test");
ASSERT_EQ(getJSONValue(v), "\"/nix/store/g1w7hy3qg1w7hy3qg1w7hy3qg1w7hy3q-x\"");
}
} /* namespace nix */

136
src/libexpr/tests/libexprtests.hh Normal file
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@ -0,0 +1,136 @@
#include <gtest/gtest.h>
#include <gmock/gmock.h>
#include "value.hh"
#include "nixexpr.hh"
#include "eval.hh"
#include "eval-inline.hh"
#include "store-api.hh"
namespace nix {
class LibExprTest : public ::testing::Test {
public:
static void SetUpTestSuite() {
initGC();
}
protected:
LibExprTest()
: store(openStore("dummy://"))
, state({}, store)
{
}
Value eval(std::string input, bool forceValue = true) {
Value v;
Expr * e = state.parseExprFromString(input, "");
assert(e);
state.eval(e, v);
if (forceValue)
state.forceValue(v, noPos);
return v;
}
Symbol createSymbol(const char * value) {
return state.symbols.create(value);
}
ref<Store> store;
EvalState state;
};
MATCHER(IsListType, "") {
return arg != nList;
}
MATCHER(IsList, "") {
return arg.type() == nList;
}
MATCHER(IsString, "") {
return arg.type() == nString;
}
MATCHER(IsNull, "") {
return arg.type() == nNull;
}
MATCHER(IsThunk, "") {
return arg.type() == nThunk;
}
MATCHER(IsAttrs, "") {
return arg.type() == nAttrs;
}
MATCHER_P(IsStringEq, s, fmt("The string is equal to \"%1%\"", s)) {
if (arg.type() != nString) {
return false;
}
return std::string_view(arg.string.s) == s;
}
MATCHER_P(IsIntEq, v, fmt("The string is equal to \"%1%\"", v)) {
if (arg.type() != nInt) {
return false;
}
return arg.integer == v;
}
MATCHER_P(IsFloatEq, v, fmt("The float is equal to \"%1%\"", v)) {
if (arg.type() != nFloat) {
return false;
}
return arg.fpoint == v;
}
MATCHER(IsTrue, "") {
if (arg.type() != nBool) {
return false;
}
return arg.boolean == true;
}
MATCHER(IsFalse, "") {
if (arg.type() != nBool) {
return false;
}
return arg.boolean == false;
}
MATCHER_P(IsPathEq, p, fmt("Is a path equal to \"%1%\"", p)) {
if (arg.type() != nPath) {
*result_listener << "Expected a path got " << arg.type();
return false;
} else if (std::string_view(arg.string.s) != p) {
*result_listener << "Expected a path that equals \"" << p << "\" but got: " << arg.string.s;
return false;
}
return true;
}
MATCHER_P(IsListOfSize, n, fmt("Is a list of size [%1%]", n)) {
if (arg.type() != nList) {
*result_listener << "Expected list got " << arg.type();
return false;
} else if (arg.listSize() != (size_t)n) {
*result_listener << "Expected as list of size " << n << " got " << arg.listSize();
return false;
}
return true;
}
MATCHER_P(IsAttrsOfSize, n, fmt("Is a set of size [%1%]", n)) {
if (arg.type() != nAttrs) {
*result_listener << "Expexted set got " << arg.type();
return false;
} else if (arg.attrs->size() != (size_t)n) {
*result_listener << "Expected a set with " << n << " attributes but got " << arg.attrs->size();
return false;
}
return true;
}
} /* namespace nix */

15
src/libexpr/tests/local.mk Normal file
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@ -0,0 +1,15 @@
check: libexpr-tests_RUN
programs += libexpr-tests
libexpr-tests_DIR := $(d)
libexpr-tests_INSTALL_DIR :=
libexpr-tests_SOURCES := $(wildcard $(d)/*.cc)
libexpr-tests_CXXFLAGS += -I src/libexpr -I src/libutil -I src/libstore -I src/libexpr/tests
libexpr-tests_LIBS = libexpr libutil libstore
libexpr-tests_LDFLAGS := $(GTEST_LIBS) -lgmock

839
src/libexpr/tests/primops.cc Normal file
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@ -0,0 +1,839 @@
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "libexprtests.hh"
namespace nix {
class CaptureLogger : public Logger
{
std::ostringstream oss;
public:
CaptureLogger() {}
std::string get() const {
return oss.str();
}
void log(Verbosity lvl, const FormatOrString & fs) override {
oss << fs.s << std::endl;
}
void logEI(const ErrorInfo & ei) override {
showErrorInfo(oss, ei, loggerSettings.showTrace.get());
}
};
class CaptureLogging {
Logger * oldLogger;
std::unique_ptr<CaptureLogger> tempLogger;
public:
CaptureLogging() : tempLogger(std::make_unique<CaptureLogger>()) {
oldLogger = logger;
logger = tempLogger.get();
}
~CaptureLogging() {
logger = oldLogger;
}
std::string get() const {
return tempLogger->get();
}
};
// Testing eval of PrimOp's
class PrimOpTest : public LibExprTest {};
TEST_F(PrimOpTest, throw) {
ASSERT_THROW(eval("throw \"foo\""), ThrownError);
}
TEST_F(PrimOpTest, abort) {
ASSERT_THROW(eval("abort \"abort\""), Abort);
}
TEST_F(PrimOpTest, ceil) {
auto v = eval("builtins.ceil 1.9");
ASSERT_THAT(v, IsIntEq(2));
}
TEST_F(PrimOpTest, floor) {
auto v = eval("builtins.floor 1.9");
ASSERT_THAT(v, IsIntEq(1));
}
TEST_F(PrimOpTest, tryEvalFailure) {
auto v = eval("builtins.tryEval (throw \"\")");
ASSERT_THAT(v, IsAttrsOfSize(2));
auto s = createSymbol("success");
auto p = v.attrs->get(s);
ASSERT_NE(p, nullptr);
ASSERT_THAT(*p->value, IsFalse());
}
TEST_F(PrimOpTest, tryEvalSuccess) {
auto v = eval("builtins.tryEval 123");
ASSERT_THAT(v, IsAttrs());
auto s = createSymbol("success");
auto p = v.attrs->get(s);
ASSERT_NE(p, nullptr);
ASSERT_THAT(*p->value, IsTrue());
s = createSymbol("value");
p = v.attrs->get(s);
ASSERT_NE(p, nullptr);
ASSERT_THAT(*p->value, IsIntEq(123));
}
TEST_F(PrimOpTest, getEnv) {
setenv("_NIX_UNIT_TEST_ENV_VALUE", "test value", 1);
auto v = eval("builtins.getEnv \"_NIX_UNIT_TEST_ENV_VALUE\"");
ASSERT_THAT(v, IsStringEq("test value"));
}
TEST_F(PrimOpTest, seq) {
ASSERT_THROW(eval("let x = throw \"test\"; in builtins.seq x { }"), ThrownError);
}
TEST_F(PrimOpTest, seqNotDeep) {
auto v = eval("let x = { z = throw \"test\"; }; in builtins.seq x { }");
ASSERT_THAT(v, IsAttrs());
}
TEST_F(PrimOpTest, deepSeq) {
ASSERT_THROW(eval("let x = { z = throw \"test\"; }; in builtins.deepSeq x { }"), ThrownError);
}
TEST_F(PrimOpTest, trace) {
CaptureLogging l;
auto v = eval("builtins.trace \"test string 123\" 123");
ASSERT_THAT(v, IsIntEq(123));
auto text = l.get();
ASSERT_NE(text.find("test string 123"), std::string::npos);
}
TEST_F(PrimOpTest, placeholder) {
auto v = eval("builtins.placeholder \"out\"");
ASSERT_THAT(v, IsStringEq("/1rz4g4znpzjwh1xymhjpm42vipw92pr73vdgl6xs1hycac8kf2n9"));
}
TEST_F(PrimOpTest, baseNameOf) {
auto v = eval("builtins.baseNameOf /some/path");
ASSERT_THAT(v, IsStringEq("path"));
}
TEST_F(PrimOpTest, dirOf) {
auto v = eval("builtins.dirOf /some/path");
ASSERT_THAT(v, IsPathEq("/some"));
}
TEST_F(PrimOpTest, attrValues) {
auto v = eval("builtins.attrValues { x = \"foo\"; a = 1; }");
ASSERT_THAT(v, IsListOfSize(2));
ASSERT_THAT(*v.listElems()[0], IsIntEq(1));
ASSERT_THAT(*v.listElems()[1], IsStringEq("foo"));
}
TEST_F(PrimOpTest, getAttr) {
auto v = eval("builtins.getAttr \"x\" { x = \"foo\"; }");
ASSERT_THAT(v, IsStringEq("foo"));
}
TEST_F(PrimOpTest, getAttrNotFound) {
// FIXME: TypeError is really bad here, also the error wording is worse
// than on Nix <=2.3
ASSERT_THROW(eval("builtins.getAttr \"y\" { }"), TypeError);
}
TEST_F(PrimOpTest, unsafeGetAttrPos) {
// The `y` attribute is at position
const char* expr = "builtins.unsafeGetAttrPos \"y\" { y = \"x\"; }";
auto v = eval(expr);
ASSERT_THAT(v, IsAttrsOfSize(3));
auto file = v.attrs->find(createSymbol("file"));
ASSERT_NE(file, nullptr);
// FIXME: The file when running these tests is the input string?!?
ASSERT_THAT(*file->value, IsStringEq(expr));
auto line = v.attrs->find(createSymbol("line"));
ASSERT_NE(line, nullptr);
ASSERT_THAT(*line->value, IsIntEq(1));
auto column = v.attrs->find(createSymbol("column"));
ASSERT_NE(column, nullptr);
ASSERT_THAT(*column->value, IsIntEq(33));
}
TEST_F(PrimOpTest, hasAttr) {
auto v = eval("builtins.hasAttr \"x\" { x = 1; }");
ASSERT_THAT(v, IsTrue());
}
TEST_F(PrimOpTest, hasAttrNotFound) {
auto v = eval("builtins.hasAttr \"x\" { }");
ASSERT_THAT(v, IsFalse());
}
TEST_F(PrimOpTest, isAttrs) {
auto v = eval("builtins.isAttrs {}");
ASSERT_THAT(v, IsTrue());
}
TEST_F(PrimOpTest, isAttrsFalse) {
auto v = eval("builtins.isAttrs null");
ASSERT_THAT(v, IsFalse());
}
TEST_F(PrimOpTest, removeAttrs) {
auto v = eval("builtins.removeAttrs { x = 1; } [\"x\"]");
ASSERT_THAT(v, IsAttrsOfSize(0));
}
TEST_F(PrimOpTest, removeAttrsRetains) {
auto v = eval("builtins.removeAttrs { x = 1; y = 2; } [\"x\"]");
ASSERT_THAT(v, IsAttrsOfSize(1));
ASSERT_NE(v.attrs->find(createSymbol("y")), nullptr);
}
TEST_F(PrimOpTest, listToAttrsEmptyList) {
auto v = eval("builtins.listToAttrs []");
ASSERT_THAT(v, IsAttrsOfSize(0));
ASSERT_EQ(v.type(), nAttrs);
ASSERT_EQ(v.attrs->size(), 0);
}
TEST_F(PrimOpTest, listToAttrsNotFieldName) {
ASSERT_THROW(eval("builtins.listToAttrs [{}]"), Error);
}
TEST_F(PrimOpTest, listToAttrs) {
auto v = eval("builtins.listToAttrs [ { name = \"key\"; value = 123; } ]");
ASSERT_THAT(v, IsAttrsOfSize(1));
auto key = v.attrs->find(createSymbol("key"));
ASSERT_NE(key, nullptr);
ASSERT_THAT(*key->value, IsIntEq(123));
}
TEST_F(PrimOpTest, intersectAttrs) {
auto v = eval("builtins.intersectAttrs { a = 1; b = 2; } { b = 3; c = 4; }");
ASSERT_THAT(v, IsAttrsOfSize(1));
auto b = v.attrs->find(createSymbol("b"));
ASSERT_NE(b, nullptr);
ASSERT_THAT(*b->value, IsIntEq(3));
}
TEST_F(PrimOpTest, catAttrs) {
auto v = eval("builtins.catAttrs \"a\" [{a = 1;} {b = 0;} {a = 2;}]");
ASSERT_THAT(v, IsListOfSize(2));
ASSERT_THAT(*v.listElems()[0], IsIntEq(1));
ASSERT_THAT(*v.listElems()[1], IsIntEq(2));
}
TEST_F(PrimOpTest, functionArgs) {
auto v = eval("builtins.functionArgs ({ x, y ? 123}: 1)");
ASSERT_THAT(v, IsAttrsOfSize(2));
auto x = v.attrs->find(createSymbol("x"));
ASSERT_NE(x, nullptr);
ASSERT_THAT(*x->value, IsFalse());
auto y = v.attrs->find(createSymbol("y"));
ASSERT_NE(y, nullptr);
ASSERT_THAT(*y->value, IsTrue());
}
TEST_F(PrimOpTest, mapAttrs) {
auto v = eval("builtins.mapAttrs (name: value: value * 10) { a = 1; b = 2; }");
ASSERT_THAT(v, IsAttrsOfSize(2));
auto a = v.attrs->find(createSymbol("a"));
ASSERT_NE(a, nullptr);
ASSERT_THAT(*a->value, IsThunk());
state.forceValue(*a->value, noPos);
ASSERT_THAT(*a->value, IsIntEq(10));
auto b = v.attrs->find(createSymbol("b"));
ASSERT_NE(b, nullptr);
ASSERT_THAT(*b->value, IsThunk());
state.forceValue(*b->value, noPos);
ASSERT_THAT(*b->value, IsIntEq(20));
}
TEST_F(PrimOpTest, isList) {
auto v = eval("builtins.isList []");
ASSERT_THAT(v, IsTrue());
}
TEST_F(PrimOpTest, isListFalse) {
auto v = eval("builtins.isList null");
ASSERT_THAT(v, IsFalse());
}
TEST_F(PrimOpTest, elemtAt) {
auto v = eval("builtins.elemAt [0 1 2 3] 3");
ASSERT_THAT(v, IsIntEq(3));
}
TEST_F(PrimOpTest, elemtAtOutOfBounds) {
ASSERT_THROW(eval("builtins.elemAt [0 1 2 3] 5"), Error);
}
TEST_F(PrimOpTest, head) {
auto v = eval("builtins.head [ 3 2 1 0 ]");
ASSERT_THAT(v, IsIntEq(3));
}
TEST_F(PrimOpTest, headEmpty) {
ASSERT_THROW(eval("builtins.head [ ]"), Error);
}
TEST_F(PrimOpTest, headWrongType) {
ASSERT_THROW(eval("builtins.head { }"), Error);
}
TEST_F(PrimOpTest, tail) {
auto v = eval("builtins.tail [ 3 2 1 0 ]");
ASSERT_THAT(v, IsListOfSize(3));
for (const auto [n, elem] : enumerate(v.listItems()))
ASSERT_THAT(*elem, IsIntEq(2 - static_cast<int>(n)));
}
TEST_F(PrimOpTest, tailEmpty) {
ASSERT_THROW(eval("builtins.tail []"), Error);
}
TEST_F(PrimOpTest, map) {
auto v = eval("map (x: \"foo\" + x) [ \"bar\" \"bla\" \"abc\" ]");
ASSERT_THAT(v, IsListOfSize(3));
auto elem = v.listElems()[0];
ASSERT_THAT(*elem, IsThunk());
state.forceValue(*elem, noPos);
ASSERT_THAT(*elem, IsStringEq("foobar"));
elem = v.listElems()[1];
ASSERT_THAT(*elem, IsThunk());
state.forceValue(*elem, noPos);
ASSERT_THAT(*elem, IsStringEq("foobla"));
elem = v.listElems()[2];
ASSERT_THAT(*elem, IsThunk());
state.forceValue(*elem, noPos);
ASSERT_THAT(*elem, IsStringEq("fooabc"));
}
TEST_F(PrimOpTest, filter) {
auto v = eval("builtins.filter (x: x == 2) [ 3 2 3 2 3 2 ]");
ASSERT_THAT(v, IsListOfSize(3));
for (const auto elem : v.listItems())
ASSERT_THAT(*elem, IsIntEq(2));
}
TEST_F(PrimOpTest, elemTrue) {
auto v = eval("builtins.elem 3 [ 1 2 3 4 5 ]");
ASSERT_THAT(v, IsTrue());
}
TEST_F(PrimOpTest, elemFalse) {
auto v = eval("builtins.elem 6 [ 1 2 3 4 5 ]");
ASSERT_THAT(v, IsFalse());
}
TEST_F(PrimOpTest, concatLists) {
auto v = eval("builtins.concatLists [[1 2] [3 4]]");
ASSERT_THAT(v, IsListOfSize(4));
for (const auto [i, elem] : enumerate(v.listItems()))
ASSERT_THAT(*elem, IsIntEq(static_cast<int>(i)+1));
}
TEST_F(PrimOpTest, length) {
auto v = eval("builtins.length [ 1 2 3 ]");
ASSERT_THAT(v, IsIntEq(3));
}
TEST_F(PrimOpTest, foldStrict) {
auto v = eval("builtins.foldl' (a: b: a + b) 0 [1 2 3]");
ASSERT_THAT(v, IsIntEq(6));
}
TEST_F(PrimOpTest, anyTrue) {
auto v = eval("builtins.any (x: x == 2) [ 1 2 3 ]");
ASSERT_THAT(v, IsTrue());
}
TEST_F(PrimOpTest, anyFalse) {
auto v = eval("builtins.any (x: x == 5) [ 1 2 3 ]");
ASSERT_THAT(v, IsFalse());
}
TEST_F(PrimOpTest, allTrue) {
auto v = eval("builtins.all (x: x > 0) [ 1 2 3 ]");
ASSERT_THAT(v, IsTrue());
}
TEST_F(PrimOpTest, allFalse) {
auto v = eval("builtins.all (x: x <= 0) [ 1 2 3 ]");
ASSERT_THAT(v, IsFalse());
}
TEST_F(PrimOpTest, genList) {
auto v = eval("builtins.genList (x: x + 1) 3");
ASSERT_EQ(v.type(), nList);
ASSERT_EQ(v.listSize(), 3);
for (const auto [i, elem] : enumerate(v.listItems())) {
ASSERT_THAT(*elem, IsThunk());
state.forceValue(*elem, noPos);
ASSERT_THAT(*elem, IsIntEq(static_cast<int>(i)+1));
}
}
TEST_F(PrimOpTest, sortLessThan) {
auto v = eval("builtins.sort builtins.lessThan [ 483 249 526 147 42 77 ]");
ASSERT_EQ(v.type(), nList);
ASSERT_EQ(v.listSize(), 6);
const std::vector<int> numbers = { 42, 77, 147, 249, 483, 526 };
for (const auto [n, elem] : enumerate(v.listItems()))
ASSERT_THAT(*elem, IsIntEq(numbers[n]));
}
TEST_F(PrimOpTest, partition) {
auto v = eval("builtins.partition (x: x > 10) [1 23 9 3 42]");
ASSERT_THAT(v, IsAttrsOfSize(2));
auto right = v.attrs->get(createSymbol("right"));
ASSERT_NE(right, nullptr);
ASSERT_THAT(*right->value, IsListOfSize(2));
ASSERT_THAT(*right->value->listElems()[0], IsIntEq(23));
ASSERT_THAT(*right->value->listElems()[1], IsIntEq(42));
auto wrong = v.attrs->get(createSymbol("wrong"));
ASSERT_NE(wrong, nullptr);
ASSERT_EQ(wrong->value->type(), nList);
ASSERT_EQ(wrong->value->listSize(), 3);
ASSERT_THAT(*wrong->value, IsListOfSize(3));
ASSERT_THAT(*wrong->value->listElems()[0], IsIntEq(1));
ASSERT_THAT(*wrong->value->listElems()[1], IsIntEq(9));
ASSERT_THAT(*wrong->value->listElems()[2], IsIntEq(3));
}
TEST_F(PrimOpTest, concatMap) {
auto v = eval("builtins.concatMap (x: x ++ [0]) [ [1 2] [3 4] ]");
ASSERT_EQ(v.type(), nList);
ASSERT_EQ(v.listSize(), 6);
const std::vector<int> numbers = { 1, 2, 0, 3, 4, 0 };
for (const auto [n, elem] : enumerate(v.listItems()))
ASSERT_THAT(*elem, IsIntEq(numbers[n]));
}
TEST_F(PrimOpTest, addInt) {
auto v = eval("builtins.add 3 5");
ASSERT_THAT(v, IsIntEq(8));
}
TEST_F(PrimOpTest, addFloat) {
auto v = eval("builtins.add 3.0 5.0");
ASSERT_THAT(v, IsFloatEq(8.0));
}
TEST_F(PrimOpTest, addFloatToInt) {
auto v = eval("builtins.add 3.0 5");
ASSERT_THAT(v, IsFloatEq(8.0));
v = eval("builtins.add 3 5.0");
ASSERT_THAT(v, IsFloatEq(8.0));
}
TEST_F(PrimOpTest, subInt) {
auto v = eval("builtins.sub 5 2");
ASSERT_THAT(v, IsIntEq(3));
}
TEST_F(PrimOpTest, subFloat) {
auto v = eval("builtins.sub 5.0 2.0");
ASSERT_THAT(v, IsFloatEq(3.0));
}
TEST_F(PrimOpTest, subFloatFromInt) {
auto v = eval("builtins.sub 5.0 2");
ASSERT_THAT(v, IsFloatEq(3.0));
v = eval("builtins.sub 4 2.0");
ASSERT_THAT(v, IsFloatEq(2.0));
}
TEST_F(PrimOpTest, mulInt) {
auto v = eval("builtins.mul 3 5");
ASSERT_THAT(v, IsIntEq(15));
}
TEST_F(PrimOpTest, mulFloat) {
auto v = eval("builtins.mul 3.0 5.0");
ASSERT_THAT(v, IsFloatEq(15.0));
}
TEST_F(PrimOpTest, mulFloatMixed) {
auto v = eval("builtins.mul 3 5.0");
ASSERT_THAT(v, IsFloatEq(15.0));
v = eval("builtins.mul 2.0 5");
ASSERT_THAT(v, IsFloatEq(10.0));
}
TEST_F(PrimOpTest, divInt) {
auto v = eval("builtins.div 5 (-1)");
ASSERT_THAT(v, IsIntEq(-5));
}
TEST_F(PrimOpTest, divIntZero) {
ASSERT_THROW(eval("builtins.div 5 0"), EvalError);
}
TEST_F(PrimOpTest, divFloat) {
auto v = eval("builtins.div 5.0 (-1)");
ASSERT_THAT(v, IsFloatEq(-5.0));
}
TEST_F(PrimOpTest, divFloatZero) {
ASSERT_THROW(eval("builtins.div 5.0 0.0"), EvalError);
}
TEST_F(PrimOpTest, bitOr) {
auto v = eval("builtins.bitOr 1 2");
ASSERT_THAT(v, IsIntEq(3));
}
TEST_F(PrimOpTest, bitXor) {
auto v = eval("builtins.bitXor 3 2");
ASSERT_THAT(v, IsIntEq(1));
}
TEST_F(PrimOpTest, lessThanFalse) {
auto v = eval("builtins.lessThan 3 1");
ASSERT_THAT(v, IsFalse());
}
TEST_F(PrimOpTest, lessThanTrue) {
auto v = eval("builtins.lessThan 1 3");
ASSERT_THAT(v, IsTrue());
}
TEST_F(PrimOpTest, toStringAttrsThrows) {
ASSERT_THROW(eval("builtins.toString {}"), EvalError);
}
TEST_F(PrimOpTest, toStringLambdaThrows) {
ASSERT_THROW(eval("builtins.toString (x: x)"), EvalError);
}
class ToStringPrimOpTest :
public PrimOpTest,
public testing::WithParamInterface<std::tuple<std::string, std::string_view>>
{};
TEST_P(ToStringPrimOpTest, toString) {
const auto [input, output] = GetParam();
auto v = eval(input);
ASSERT_THAT(v, IsStringEq(output));
}
#define CASE(input, output) (std::make_tuple(std::string_view("builtins.toString " #input), std::string_view(output)))
INSTANTIATE_TEST_SUITE_P(
toString,
ToStringPrimOpTest,
testing::Values(
CASE("foo", "foo"),
CASE(1, "1"),
CASE([1 2 3], "1 2 3"),
CASE(.123, "0.123000"),
CASE(true, "1"),
CASE(false, ""),
CASE(null, ""),
CASE({ v = "bar"; __toString = self: self.v; }, "bar"),
CASE({ v = "bar"; __toString = self: self.v; outPath = "foo"; }, "bar"),
CASE({ outPath = "foo"; }, "foo"),
CASE(./test, "/test")
)
);
#undef CASE
TEST_F(PrimOpTest, substring){
auto v = eval("builtins.substring 0 3 \"nixos\"");
ASSERT_THAT(v, IsStringEq("nix"));
}
TEST_F(PrimOpTest, substringSmallerString){
auto v = eval("builtins.substring 0 3 \"n\"");
ASSERT_THAT(v, IsStringEq("n"));
}
TEST_F(PrimOpTest, substringEmptyString){
auto v = eval("builtins.substring 1 3 \"\"");
ASSERT_THAT(v, IsStringEq(""));
}
TEST_F(PrimOpTest, stringLength) {
auto v = eval("builtins.stringLength \"123\"");
ASSERT_THAT(v, IsIntEq(3));
}
TEST_F(PrimOpTest, hashStringMd5) {
auto v = eval("builtins.hashString \"md5\" \"asdf\"");
ASSERT_THAT(v, IsStringEq("912ec803b2ce49e4a541068d495ab570"));
}
TEST_F(PrimOpTest, hashStringSha1) {
auto v = eval("builtins.hashString \"sha1\" \"asdf\"");
ASSERT_THAT(v, IsStringEq("3da541559918a808c2402bba5012f6c60b27661c"));
}
TEST_F(PrimOpTest, hashStringSha256) {
auto v = eval("builtins.hashString \"sha256\" \"asdf\"");
ASSERT_THAT(v, IsStringEq("f0e4c2f76c58916ec258f246851bea091d14d4247a2fc3e18694461b1816e13b"));
}
TEST_F(PrimOpTest, hashStringSha512) {
auto v = eval("builtins.hashString \"sha512\" \"asdf\"");
ASSERT_THAT(v, IsStringEq("401b09eab3c013d4ca54922bb802bec8fd5318192b0a75f201d8b3727429080fb337591abd3e44453b954555b7a0812e1081c39b740293f765eae731f5a65ed1"));
}
TEST_F(PrimOpTest, hashStringInvalidHashType) {
ASSERT_THROW(eval("builtins.hashString \"foobar\" \"asdf\""), Error);
}
TEST_F(PrimOpTest, nixPath) {
auto v = eval("builtins.nixPath");
ASSERT_EQ(v.type(), nList);
// We can't test much more as currently the EvalSettings are a global
// that we can't easily swap / replace
}
TEST_F(PrimOpTest, langVersion) {
auto v = eval("builtins.langVersion");
ASSERT_EQ(v.type(), nInt);
}
TEST_F(PrimOpTest, storeDir) {
auto v = eval("builtins.storeDir");
ASSERT_THAT(v, IsStringEq("/nix/store"));
}
TEST_F(PrimOpTest, nixVersion) {
auto v = eval("builtins.nixVersion");
ASSERT_THAT(v, IsStringEq(nixVersion));
}
TEST_F(PrimOpTest, currentSystem) {
auto v = eval("builtins.currentSystem");
ASSERT_THAT(v, IsStringEq(settings.thisSystem.get()));
}
TEST_F(PrimOpTest, derivation) {
auto v = eval("derivation");
ASSERT_EQ(v.type(), nFunction);
ASSERT_TRUE(v.isLambda());
ASSERT_NE(v.lambda.fun, nullptr);
ASSERT_TRUE(v.lambda.fun->hasFormals());
}
TEST_F(PrimOpTest, currentTime) {
auto v = eval("builtins.currentTime");
ASSERT_EQ(v.type(), nInt);
ASSERT_TRUE(v.integer > 0);
}
TEST_F(PrimOpTest, splitVersion) {
auto v = eval("builtins.splitVersion \"1.2.3git\"");
ASSERT_THAT(v, IsListOfSize(4));
const std::vector<std::string_view> strings = { "1", "2", "3", "git" };
for (const auto [n, p] : enumerate(v.listItems()))
ASSERT_THAT(*p, IsStringEq(strings[n]));
}
class CompareVersionsPrimOpTest :
public PrimOpTest,
public testing::WithParamInterface<std::tuple<std::string, const int>>
{};
TEST_P(CompareVersionsPrimOpTest, compareVersions) {
auto [expression, expectation] = GetParam();
auto v = eval(expression);
ASSERT_THAT(v, IsIntEq(expectation));
}
#define CASE(a, b, expected) (std::make_tuple("builtins.compareVersions \"" #a "\" \"" #b "\"", expected))
INSTANTIATE_TEST_SUITE_P(
compareVersions,
CompareVersionsPrimOpTest,
testing::Values(
// The first two are weird cases. Intuition tells they should
// be the same but they aren't.
CASE(1.0, 1.0.0, -1),
CASE(1.0.0, 1.0, 1),
// the following are from the nix-env manual:
CASE(1.0, 2.3, -1),
CASE(2.1, 2.3, -1),
CASE(2.3, 2.3, 0),
CASE(2.5, 2.3, 1),
CASE(3.1, 2.3, 1),
CASE(2.3.1, 2.3, 1),
CASE(2.3.1, 2.3a, 1),
CASE(2.3pre1, 2.3, -1),
CASE(2.3pre3, 2.3pre12, -1),
CASE(2.3a, 2.3c, -1),
CASE(2.3pre1, 2.3c, -1),
CASE(2.3pre1, 2.3q, -1)
)
);
#undef CASE
class ParseDrvNamePrimOpTest :
public PrimOpTest,
public testing::WithParamInterface<std::tuple<std::string, std::string_view, std::string_view>>
{};
TEST_P(ParseDrvNamePrimOpTest, parseDrvName) {
auto [input, expectedName, expectedVersion] = GetParam();
const auto expr = fmt("builtins.parseDrvName \"%1%\"", input);
auto v = eval(expr);
ASSERT_THAT(v, IsAttrsOfSize(2));
auto name = v.attrs->find(createSymbol("name"));
ASSERT_TRUE(name);
ASSERT_THAT(*name->value, IsStringEq(expectedName));
auto version = v.attrs->find(createSymbol("version"));
ASSERT_TRUE(version);
ASSERT_THAT(*version->value, IsStringEq(expectedVersion));
}
INSTANTIATE_TEST_SUITE_P(
parseDrvName,
ParseDrvNamePrimOpTest,
testing::Values(
std::make_tuple("nix-0.12pre12876", "nix", "0.12pre12876"),
std::make_tuple("a-b-c-1234pre5+git", "a-b-c", "1234pre5+git")
)
);
TEST_F(PrimOpTest, replaceStrings) {
// FIXME: add a test that verifies the string context is as expected
auto v = eval("builtins.replaceStrings [\"oo\" \"a\"] [\"a\" \"i\"] \"foobar\"");
ASSERT_EQ(v.type(), nString);
ASSERT_EQ(v.string.s, std::string_view("fabir"));
}
TEST_F(PrimOpTest, concatStringsSep) {
// FIXME: add a test that verifies the string context is as expected
auto v = eval("builtins.concatStringsSep \"%\" [\"foo\" \"bar\" \"baz\"]");
ASSERT_EQ(v.type(), nString);
ASSERT_EQ(std::string_view(v.string.s), "foo%bar%baz");
}
TEST_F(PrimOpTest, split1) {
// v = [ "" [ "a" ] "c" ]
auto v = eval("builtins.split \"(a)b\" \"abc\"");
ASSERT_THAT(v, IsListOfSize(3));
ASSERT_THAT(*v.listElems()[0], IsStringEq(""));
ASSERT_THAT(*v.listElems()[1], IsListOfSize(1));
ASSERT_THAT(*v.listElems()[1]->listElems()[0], IsStringEq("a"));
ASSERT_THAT(*v.listElems()[2], IsStringEq("c"));
}
TEST_F(PrimOpTest, split2) {
// v is expected to be a list [ "" [ "a" ] "b" [ "c"] "" ]
auto v = eval("builtins.split \"([ac])\" \"abc\"");
ASSERT_THAT(v, IsListOfSize(5));
ASSERT_THAT(*v.listElems()[0], IsStringEq(""));
ASSERT_THAT(*v.listElems()[1], IsListOfSize(1));
ASSERT_THAT(*v.listElems()[1]->listElems()[0], IsStringEq("a"));
ASSERT_THAT(*v.listElems()[2], IsStringEq("b"));
ASSERT_THAT(*v.listElems()[3], IsListOfSize(1));
ASSERT_THAT(*v.listElems()[3]->listElems()[0], IsStringEq("c"));
ASSERT_THAT(*v.listElems()[4], IsStringEq(""));
}
TEST_F(PrimOpTest, split3) {
auto v = eval("builtins.split \"(a)|(c)\" \"abc\"");
ASSERT_THAT(v, IsListOfSize(5));
// First list element
ASSERT_THAT(*v.listElems()[0], IsStringEq(""));
// 2nd list element is a list [ "" null ]
ASSERT_THAT(*v.listElems()[1], IsListOfSize(2));
ASSERT_THAT(*v.listElems()[1]->listElems()[0], IsStringEq("a"));
ASSERT_THAT(*v.listElems()[1]->listElems()[1], IsNull());
// 3rd element
ASSERT_THAT(*v.listElems()[2], IsStringEq("b"));
// 4th element is a list: [ null "c" ]
ASSERT_THAT(*v.listElems()[3], IsListOfSize(2));
ASSERT_THAT(*v.listElems()[3]->listElems()[0], IsNull());
ASSERT_THAT(*v.listElems()[3]->listElems()[1], IsStringEq("c"));
// 5th element is the empty string
ASSERT_THAT(*v.listElems()[4], IsStringEq(""));
}
TEST_F(PrimOpTest, split4) {
auto v = eval("builtins.split \"([[:upper:]]+)\" \" FOO \"");
ASSERT_THAT(v, IsListOfSize(3));
auto first = v.listElems()[0];
auto second = v.listElems()[1];
auto third = v.listElems()[2];
ASSERT_THAT(*first, IsStringEq(" "));
ASSERT_THAT(*second, IsListOfSize(1));
ASSERT_THAT(*second->listElems()[0], IsStringEq("FOO"));
ASSERT_THAT(*third, IsStringEq(" "));
}
TEST_F(PrimOpTest, match1) {
auto v = eval("builtins.match \"ab\" \"abc\"");
ASSERT_THAT(v, IsNull());
}
TEST_F(PrimOpTest, match2) {
auto v = eval("builtins.match \"abc\" \"abc\"");
ASSERT_THAT(v, IsListOfSize(0));
}
TEST_F(PrimOpTest, match3) {
auto v = eval("builtins.match \"a(b)(c)\" \"abc\"");
ASSERT_THAT(v, IsListOfSize(2));
ASSERT_THAT(*v.listElems()[0], IsStringEq("b"));
ASSERT_THAT(*v.listElems()[1], IsStringEq("c"));
}
TEST_F(PrimOpTest, match4) {
auto v = eval("builtins.match \"[[:space:]]+([[:upper:]]+)[[:space:]]+\" \" FOO \"");
ASSERT_THAT(v, IsListOfSize(1));
ASSERT_THAT(*v.listElems()[0], IsStringEq("FOO"));
}
TEST_F(PrimOpTest, attrNames) {
auto v = eval("builtins.attrNames { x = 1; y = 2; z = 3; a = 2; }");
ASSERT_THAT(v, IsListOfSize(4));
// ensure that the list is sorted
const std::vector<std::string_view> expected { "a", "x", "y", "z" };
for (const auto [n, elem] : enumerate(v.listItems()))
ASSERT_THAT(*elem, IsStringEq(expected[n]));
}
} /* namespace nix */

196
src/libexpr/tests/trivial.cc Normal file
View file

@ -0,0 +1,196 @@
#include "libexprtests.hh"
namespace nix {
// Testing of trivial expressions
class TrivialExpressionTest : public LibExprTest {};
TEST_F(TrivialExpressionTest, true) {
auto v = eval("true");
ASSERT_THAT(v, IsTrue());
}
TEST_F(TrivialExpressionTest, false) {
auto v = eval("false");
ASSERT_THAT(v, IsFalse());
}
TEST_F(TrivialExpressionTest, null) {
auto v = eval("null");
ASSERT_THAT(v, IsNull());
}
TEST_F(TrivialExpressionTest, 1) {
auto v = eval("1");
ASSERT_THAT(v, IsIntEq(1));
}
TEST_F(TrivialExpressionTest, 1plus1) {
auto v = eval("1+1");
ASSERT_THAT(v, IsIntEq(2));
}
TEST_F(TrivialExpressionTest, minus1) {
auto v = eval("-1");
ASSERT_THAT(v, IsIntEq(-1));
}
TEST_F(TrivialExpressionTest, 1minus1) {
auto v = eval("1-1");
ASSERT_THAT(v, IsIntEq(0));
}
TEST_F(TrivialExpressionTest, lambdaAdd) {
auto v = eval("let add = a: b: a + b; in add 1 2");
ASSERT_THAT(v, IsIntEq(3));
}
TEST_F(TrivialExpressionTest, list) {
auto v = eval("[]");
ASSERT_THAT(v, IsListOfSize(0));
}
TEST_F(TrivialExpressionTest, attrs) {
auto v = eval("{}");
ASSERT_THAT(v, IsAttrsOfSize(0));
}
TEST_F(TrivialExpressionTest, float) {
auto v = eval("1.234");
ASSERT_THAT(v, IsFloatEq(1.234));
}
TEST_F(TrivialExpressionTest, updateAttrs) {
auto v = eval("{ a = 1; } // { b = 2; a = 3; }");
ASSERT_THAT(v, IsAttrsOfSize(2));
auto a = v.attrs->find(createSymbol("a"));
ASSERT_NE(a, nullptr);
ASSERT_THAT(*a->value, IsIntEq(3));
auto b = v.attrs->find(createSymbol("b"));
ASSERT_NE(b, nullptr);
ASSERT_THAT(*b->value, IsIntEq(2));
}
TEST_F(TrivialExpressionTest, hasAttrOpFalse) {
auto v = eval("{} ? a");
ASSERT_THAT(v, IsFalse());
}
TEST_F(TrivialExpressionTest, hasAttrOpTrue) {
auto v = eval("{ a = 123; } ? a");
ASSERT_THAT(v, IsTrue());
}
TEST_F(TrivialExpressionTest, withFound) {
auto v = eval("with { a = 23; }; a");
ASSERT_THAT(v, IsIntEq(23));
}
TEST_F(TrivialExpressionTest, withNotFound) {
ASSERT_THROW(eval("with {}; a"), Error);
}
TEST_F(TrivialExpressionTest, withOverride) {
auto v = eval("with { a = 23; }; with { a = 42; }; a");
ASSERT_THAT(v, IsIntEq(42));
}
TEST_F(TrivialExpressionTest, letOverWith) {
auto v = eval("let a = 23; in with { a = 1; }; a");
ASSERT_THAT(v, IsIntEq(23));
}
TEST_F(TrivialExpressionTest, multipleLet) {
auto v = eval("let a = 23; in let a = 42; in a");
ASSERT_THAT(v, IsIntEq(42));
}
TEST_F(TrivialExpressionTest, defaultFunctionArgs) {
auto v = eval("({ a ? 123 }: a) {}");
ASSERT_THAT(v, IsIntEq(123));
}
TEST_F(TrivialExpressionTest, defaultFunctionArgsOverride) {
auto v = eval("({ a ? 123 }: a) { a = 5; }");
ASSERT_THAT(v, IsIntEq(5));
}
TEST_F(TrivialExpressionTest, defaultFunctionArgsCaptureBack) {
auto v = eval("({ a ? 123 }@args: args) {}");
ASSERT_THAT(v, IsAttrsOfSize(0));
}
TEST_F(TrivialExpressionTest, defaultFunctionArgsCaptureFront) {
auto v = eval("(args@{ a ? 123 }: args) {}");
ASSERT_THAT(v, IsAttrsOfSize(0));
}
TEST_F(TrivialExpressionTest, assertThrows) {
ASSERT_THROW(eval("let x = arg: assert arg == 1; 123; in x 2"), Error);
}
TEST_F(TrivialExpressionTest, assertPassed) {
auto v = eval("let x = arg: assert arg == 1; 123; in x 1");
ASSERT_THAT(v, IsIntEq(123));
}
class AttrSetMergeTrvialExpressionTest :
public TrivialExpressionTest,
public testing::WithParamInterface<const char*>
{};
TEST_P(AttrSetMergeTrvialExpressionTest, attrsetMergeLazy) {
// Usually Nix rejects duplicate keys in an attrset but it does allow
// so if it is an attribute set that contains disjoint sets of keys.
// The below is equivalent to `{a.b = 1; a.c = 2; }`.
// The attribute set `a` will be a Thunk at first as the attribuets
// have to be merged (or otherwise computed) and that is done in a lazy
// manner.
auto expr = GetParam();
auto v = eval(expr);
ASSERT_THAT(v, IsAttrsOfSize(1));
auto a = v.attrs->find(createSymbol("a"));
ASSERT_NE(a, nullptr);
ASSERT_THAT(*a->value, IsThunk());
state.forceValue(*a->value, noPos);
ASSERT_THAT(*a->value, IsAttrsOfSize(2));
auto b = a->value->attrs->find(createSymbol("b"));
ASSERT_NE(b, nullptr);
ASSERT_THAT(*b->value, IsIntEq(1));
auto c = a->value->attrs->find(createSymbol("c"));
ASSERT_NE(c, nullptr);
ASSERT_THAT(*c->value, IsIntEq(2));
}
INSTANTIATE_TEST_SUITE_P(
attrsetMergeLazy,
AttrSetMergeTrvialExpressionTest,
testing::Values(
"{ a.b = 1; a.c = 2; }",
"{ a = { b = 1; }; a = { c = 2; }; }"
)
);
TEST_F(TrivialExpressionTest, functor) {
auto v = eval("{ __functor = self: arg: self.v + arg; v = 10; } 5");
ASSERT_THAT(v, IsIntEq(15));
}
TEST_F(TrivialExpressionTest, bindOr) {
auto v = eval("{ or = 1; }");
ASSERT_THAT(v, IsAttrsOfSize(1));
auto b = v.attrs->find(createSymbol("or"));
ASSERT_NE(b, nullptr);
ASSERT_THAT(*b->value, IsIntEq(1));
}
TEST_F(TrivialExpressionTest, orCantBeUsed) {
ASSERT_THROW(eval("let or = 1; in or"), Error);
}
} /* namespace nix */

27
src/libfetchers/git-utils.cc
View file

@ -1,27 +0,0 @@
#include "git-utils.hh"
#include <regex>
std::optional<std::string> parseListReferenceHeadRef(std::string_view line)
{
const static std::regex head_ref_regex("^ref: ([^\\s]+)\\t+HEAD$");
std::match_results<std::string_view::const_iterator> match;
if (std::regex_match(line.cbegin(), line.cend(), match, head_ref_regex)) {
return match[1];
} else {
return std::nullopt;
}
}
std::optional<std::string> parseListReferenceForRev(std::string_view rev, std::string_view line)
{
const static std::regex rev_regex("^([^\\t]+)\\t+(.*)$");
std::match_results<std::string_view::const_iterator> match;
if (!std::regex_match(line.cbegin(), line.cend(), match, rev_regex)) {
return std::nullopt;
}
if (rev != match[2].str()) {
return std::nullopt;
}
return match[1];
}

23
src/libfetchers/git-utils.hh
View file

@ -1,23 +0,0 @@
#pragma once
#include <string>
#include <string_view>
#include <optional>
// Parses the HEAD ref as reported by `git ls-remote --symref`
//
// Returns the head branch name as reported by `git ls-remote --symref`, e.g., if
// ls-remote returns the output below, "main" is returned based on the ref line.
//
// ref: refs/heads/main HEAD
//
// If the repository is in 'detached head' state (HEAD is pointing to a rev
// instead of a branch), parseListReferenceForRev("HEAD") may be used instead.
std::optional<std::string> parseListReferenceHeadRef(std::string_view line);
// Parses a reference line from `git ls-remote --symref`, e.g.,
// parseListReferenceForRev("refs/heads/master", line) will return 6926...
// given the line below.
//
// 6926beab444c33fb57b21819b6642d032016bb1e refs/heads/master
std::optional<std::string> parseListReferenceForRev(std::string_view rev, std::string_view line);

19
src/libfetchers/git.cc
View file

@ -6,7 +6,7 @@
#include "url-parts.hh"
#include "pathlocks.hh"
#include "util.hh"
#include "git-utils.hh"
#include "git.hh"
#include "fetch-settings.hh"
@ -72,13 +72,16 @@ std::optional<std::string> readHead(const Path & path)
std::string_view line = output;
line = line.substr(0, line.find("\n"));
if (const auto ref = parseListReferenceHeadRef(line); ref) {
debug("resolved HEAD ref '%s' for repo '%s'", *ref, path);
return *ref;
}
if (const auto rev = parseListReferenceForRev("HEAD", line); rev) {
debug("resolved HEAD rev '%s' for repo '%s'", *rev, path);
return *rev;
if (const auto parseResult = git::parseLsRemoteLine(line)) {
switch (parseResult->kind) {
case git::LsRemoteRefLine::Kind::Symbolic:
debug("resolved HEAD ref '%s' for repo '%s'", parseResult->target, path);
break;
case git::LsRemoteRefLine::Kind::Object:
debug("resolved HEAD rev '%s' for repo '%s'", parseResult->target, path);
break;
}
return parseResult->target;
}
return std::nullopt;
}

12
src/libfetchers/github.cc
View file

@ -4,7 +4,7 @@
#include "store-api.hh"
#include "types.hh"
#include "url-parts.hh"
#include "git-utils.hh"
#include "git.hh"
#include "fetchers.hh"
#include "fetch-settings.hh"
@ -383,11 +383,11 @@ struct SourceHutInputScheme : GitArchiveInputScheme
std::string line;
getline(is, line);
auto r = parseListReferenceHeadRef(line);
if (!r) {
auto remoteLine = git::parseLsRemoteLine(line);
if (!remoteLine) {
throw BadURL("in '%d', couldn't resolve HEAD ref '%d'", input.to_string(), ref);
}
ref_uri = *r;
ref_uri = remoteLine->target;
} else {
ref_uri = fmt("refs/(heads|tags)/%s", ref);
}
@ -399,7 +399,9 @@ struct SourceHutInputScheme : GitArchiveInputScheme
std::string line;
std::optional<std::string> id;
while(!id && getline(is, line)) {
id = parseListReferenceForRev(ref_uri, line);
auto parsedLine = git::parseLsRemoteLine(line);
if (parsedLine && parsedLine->reference == ref_uri)
id = parsedLine->target;
}
if(!id)

25
src/libutil/git.cc Normal file
View file

@ -0,0 +1,25 @@
#include "git.hh"
#include <regex>
namespace nix {
namespace git {
std::optional<LsRemoteRefLine> parseLsRemoteLine(std::string_view line)
{
const static std::regex line_regex("^(ref: *)?([^\\s]+)(?:\\t+(.*))?$");
std::match_results<std::string_view::const_iterator> match;
if (!std::regex_match(line.cbegin(), line.cend(), match, line_regex))
return std::nullopt;
return LsRemoteRefLine {
.kind = match[1].length() == 0
? LsRemoteRefLine::Kind::Object
: LsRemoteRefLine::Kind::Symbolic,
.target = match[2],
.reference = match[3].length() == 0 ? std::nullopt : std::optional<std::string>{ match[3] }
};
}
}
}

40
src/libutil/git.hh Normal file
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@ -0,0 +1,40 @@
#pragma once
#include <string>
#include <string_view>
#include <optional>
namespace nix {
namespace git {
// A line from the output of `git ls-remote --symref`.
//
// These can be of two kinds:
//
// - Symbolic references of the form
//
// ref: {target} {reference}
//
// where {target} is itself a reference and {reference} is optional
//
// - Object references of the form
//
// {target} {reference}
//
// where {target} is a commit id and {reference} is mandatory
struct LsRemoteRefLine {
enum struct Kind {
Symbolic,
Object
};
Kind kind;
std::string target;
std::optional<std::string> reference;
};
std::optional<LsRemoteRefLine> parseLsRemoteLine(std::string_view line);
}
}

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src/libutil/tests/git.cc Normal file
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#include "git.hh"
#include <gtest/gtest.h>
namespace nix {
TEST(GitLsRemote, parseSymrefLineWithReference) {
auto line = "ref: refs/head/main HEAD";
auto res = git::parseLsRemoteLine(line);
ASSERT_TRUE(res.has_value());
ASSERT_EQ(res->kind, git::LsRemoteRefLine::Kind::Symbolic);
ASSERT_EQ(res->target, "refs/head/main");
ASSERT_EQ(res->reference, "HEAD");
}
TEST(GitLsRemote, parseSymrefLineWithNoReference) {
auto line = "ref: refs/head/main";
auto res = git::parseLsRemoteLine(line);
ASSERT_TRUE(res.has_value());
ASSERT_EQ(res->kind, git::LsRemoteRefLine::Kind::Symbolic);
ASSERT_EQ(res->target, "refs/head/main");
ASSERT_EQ(res->reference, std::nullopt);
}
TEST(GitLsRemote, parseObjectRefLine) {
auto line = "abc123 refs/head/main";
auto res = git::parseLsRemoteLine(line);
ASSERT_TRUE(res.has_value());
ASSERT_EQ(res->kind, git::LsRemoteRefLine::Kind::Object);
ASSERT_EQ(res->target, "abc123");
ASSERT_EQ(res->reference, "refs/head/main");
}
}