//===- unittests/Basic/VirtualFileSystem.cpp ---------------- VFS tests ---===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "clang/Basic/VirtualFileSystem.h"
#include "llvm/Support/Errc.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/SourceMgr.h"
#include "gtest/gtest.h"
#include <map>
using namespace clang;
using namespace llvm;
using llvm::sys::fs::UniqueID;
namespace {
class DummyFileSystem : public vfs::FileSystem {
int FSID; // used to produce UniqueIDs
int FileID; // used to produce UniqueIDs
std::map<std::string, vfs::Status> FilesAndDirs;
static int getNextFSID() {
static int Count = 0;
return Count++;
}
public:
DummyFileSystem() : FSID(getNextFSID()), FileID(0) {}
ErrorOr<vfs::Status> status(const Twine &Path) {
std::map<std::string, vfs::Status>::iterator I =
FilesAndDirs.find(Path.str());
if (I == FilesAndDirs.end())
return make_error_code(llvm::errc::no_such_file_or_directory);
return I->second;
}
std::error_code openFileForRead(const Twine &Path,
std::unique_ptr<vfs::File> &Result) {
llvm_unreachable("unimplemented");
}
std::error_code getBufferForFile(const Twine &Name,
std::unique_ptr<MemoryBuffer> &Result,
int64_t FileSize = -1,
bool RequiresNullTerminator = true) {
llvm_unreachable("unimplemented");
}
struct DirIterImpl : public clang::vfs::detail::DirIterImpl {
std::map<std::string, vfs::Status> &FilesAndDirs;
std::map<std::string, vfs::Status>::iterator I;
std::string Path;
bool isInPath(StringRef S) {
if (Path.size() < S.size() && S.find(Path) == 0) {
auto LastSep = S.find_last_of('/');
if (LastSep == Path.size() || LastSep == Path.size()-1)
return true;
}
return false;
}
DirIterImpl(std::map<std::string, vfs::Status> &FilesAndDirs,
const Twine &_Path)
: FilesAndDirs(FilesAndDirs), I(FilesAndDirs.begin()),
Path(_Path.str()) {
for ( ; I != FilesAndDirs.end(); ++I) {
if (isInPath(I->first)) {
CurrentEntry = I->second;
break;
}
}
}
std::error_code increment() override {
++I;
for ( ; I != FilesAndDirs.end(); ++I) {
if (isInPath(I->first)) {
CurrentEntry = I->second;
break;
}
}
if (I == FilesAndDirs.end())
CurrentEntry = vfs::Status();
return std::error_code();
}
};
vfs::directory_iterator dir_begin(const Twine &Dir,
std::error_code &EC) override {
return vfs::directory_iterator(
std::make_shared<DirIterImpl>(FilesAndDirs, Dir));
}
void addEntry(StringRef Path, const vfs::Status &Status) {
FilesAndDirs[Path] = Status;
}
void addRegularFile(StringRef Path, sys::fs::perms Perms = sys::fs::all_all) {
vfs::Status S(Path, Path, UniqueID(FSID, FileID++), sys::TimeValue::now(),
0, 0, 1024, sys::fs::file_type::regular_file, Perms);
addEntry(Path, S);
}
void addDirectory(StringRef Path, sys::fs::perms Perms = sys::fs::all_all) {
vfs::Status S(Path, Path, UniqueID(FSID, FileID++), sys::TimeValue::now(),
0, 0, 0, sys::fs::file_type::directory_file, Perms);
addEntry(Path, S);
}
void addSymlink(StringRef Path) {
vfs::Status S(Path, Path, UniqueID(FSID, FileID++), sys::TimeValue::now(),
0, 0, 0, sys::fs::file_type::symlink_file, sys::fs::all_all);
addEntry(Path, S);
}
};
} // end anonymous namespace
TEST(VirtualFileSystemTest, StatusQueries) {
IntrusiveRefCntPtr<DummyFileSystem> D(new DummyFileSystem());
ErrorOr<vfs::Status> Status((std::error_code()));
D->addRegularFile("/foo");
Status = D->status("/foo");
ASSERT_FALSE(Status.getError());
EXPECT_TRUE(Status->isStatusKnown());
EXPECT_FALSE(Status->isDirectory());
EXPECT_TRUE(Status->isRegularFile());
EXPECT_FALSE(Status->isSymlink());
EXPECT_FALSE(Status->isOther());
EXPECT_TRUE(Status->exists());
D->addDirectory("/bar");
Status = D->status("/bar");
ASSERT_FALSE(Status.getError());
EXPECT_TRUE(Status->isStatusKnown());
EXPECT_TRUE(Status->isDirectory());
EXPECT_FALSE(Status->isRegularFile());
EXPECT_FALSE(Status->isSymlink());
EXPECT_FALSE(Status->isOther());
EXPECT_TRUE(Status->exists());
D->addSymlink("/baz");
Status = D->status("/baz");
ASSERT_FALSE(Status.getError());
EXPECT_TRUE(Status->isStatusKnown());
EXPECT_FALSE(Status->isDirectory());
EXPECT_FALSE(Status->isRegularFile());
EXPECT_TRUE(Status->isSymlink());
EXPECT_FALSE(Status->isOther());
EXPECT_TRUE(Status->exists());
EXPECT_TRUE(Status->equivalent(*Status));
ErrorOr<vfs::Status> Status2 = D->status("/foo");
ASSERT_FALSE(Status2.getError());
EXPECT_FALSE(Status->equivalent(*Status2));
}
TEST(VirtualFileSystemTest, BaseOnlyOverlay) {
IntrusiveRefCntPtr<DummyFileSystem> D(new DummyFileSystem());
ErrorOr<vfs::Status> Status((std::error_code()));
EXPECT_FALSE(Status = D->status("/foo"));
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(new vfs::OverlayFileSystem(D));
EXPECT_FALSE(Status = O->status("/foo"));
D->addRegularFile("/foo");
Status = D->status("/foo");
EXPECT_FALSE(Status.getError());
ErrorOr<vfs::Status> Status2((std::error_code()));
Status2 = O->status("/foo");
EXPECT_FALSE(Status2.getError());
EXPECT_TRUE(Status->equivalent(*Status2));
}
TEST(VirtualFileSystemTest, OverlayFiles) {
IntrusiveRefCntPtr<DummyFileSystem> Base(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Middle(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Top(new DummyFileSystem());
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Base));
O->pushOverlay(Middle);
O->pushOverlay(Top);
ErrorOr<vfs::Status> Status1((std::error_code())),
Status2((std::error_code())), Status3((std::error_code())),
StatusB((std::error_code())), StatusM((std::error_code())),
StatusT((std::error_code()));
Base->addRegularFile("/foo");
StatusB = Base->status("/foo");
ASSERT_FALSE(StatusB.getError());
Status1 = O->status("/foo");
ASSERT_FALSE(Status1.getError());
Middle->addRegularFile("/foo");
StatusM = Middle->status("/foo");
ASSERT_FALSE(StatusM.getError());
Status2 = O->status("/foo");
ASSERT_FALSE(Status2.getError());
Top->addRegularFile("/foo");
StatusT = Top->status("/foo");
ASSERT_FALSE(StatusT.getError());
Status3 = O->status("/foo");
ASSERT_FALSE(Status3.getError());
EXPECT_TRUE(Status1->equivalent(*StatusB));
EXPECT_TRUE(Status2->equivalent(*StatusM));
EXPECT_TRUE(Status3->equivalent(*StatusT));
EXPECT_FALSE(Status1->equivalent(*Status2));
EXPECT_FALSE(Status2->equivalent(*Status3));
EXPECT_FALSE(Status1->equivalent(*Status3));
}
TEST(VirtualFileSystemTest, OverlayDirsNonMerged) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Upper(new DummyFileSystem());
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(Upper);
Lower->addDirectory("/lower-only");
Upper->addDirectory("/upper-only");
// non-merged paths should be the same
ErrorOr<vfs::Status> Status1 = Lower->status("/lower-only");
ASSERT_FALSE(Status1.getError());
ErrorOr<vfs::Status> Status2 = O->status("/lower-only");
ASSERT_FALSE(Status2.getError());
EXPECT_TRUE(Status1->equivalent(*Status2));
Status1 = Upper->status("/upper-only");
ASSERT_FALSE(Status1.getError());
Status2 = O->status("/upper-only");
ASSERT_FALSE(Status2.getError());
EXPECT_TRUE(Status1->equivalent(*Status2));
}
TEST(VirtualFileSystemTest, MergedDirPermissions) {
// merged directories get the permissions of the upper dir
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Upper(new DummyFileSystem());
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(Upper);
ErrorOr<vfs::Status> Status((std::error_code()));
Lower->addDirectory("/both", sys::fs::owner_read);
Upper->addDirectory("/both", sys::fs::owner_all | sys::fs::group_read);
Status = O->status("/both");
ASSERT_FALSE(Status.getError());
EXPECT_EQ(0740, Status->getPermissions());
// permissions (as usual) are not recursively applied
Lower->addRegularFile("/both/foo", sys::fs::owner_read);
Upper->addRegularFile("/both/bar", sys::fs::owner_write);
Status = O->status("/both/foo");
ASSERT_FALSE( Status.getError());
EXPECT_EQ(0400, Status->getPermissions());
Status = O->status("/both/bar");
ASSERT_FALSE(Status.getError());
EXPECT_EQ(0200, Status->getPermissions());
}
namespace {
struct ScopedDir {
SmallString<128> Path;
ScopedDir(const Twine &Name, bool Unique=false) {
std::error_code EC;
if (Unique) {
EC = llvm::sys::fs::createUniqueDirectory(Name, Path);
} else {
Path = Name.str();
EC = llvm::sys::fs::create_directory(Twine(Path));
}
if (EC)
Path = "";
EXPECT_FALSE(EC);
}
~ScopedDir() {
if (Path != "")
EXPECT_FALSE(llvm::sys::fs::remove(Path.str()));
}
operator StringRef() { return Path.str(); }
};
}
TEST(VirtualFileSystemTest, BasicRealFSIteration) {
ScopedDir TestDirectory("virtual-file-system-test", /*Unique*/true);
IntrusiveRefCntPtr<vfs::FileSystem> FS = vfs::getRealFileSystem();
std::error_code EC;
vfs::directory_iterator I = FS->dir_begin(Twine(TestDirectory), EC);
ASSERT_FALSE(EC);
EXPECT_EQ(vfs::directory_iterator(), I); // empty directory is empty
ScopedDir _a(TestDirectory+"/a");
ScopedDir _ab(TestDirectory+"/a/b");
ScopedDir _c(TestDirectory+"/c");
ScopedDir _cd(TestDirectory+"/c/d");
I = FS->dir_begin(Twine(TestDirectory), EC);
ASSERT_FALSE(EC);
ASSERT_NE(vfs::directory_iterator(), I);
// Check either a or c, since we can't rely on the iteration order.
EXPECT_TRUE(I->getName().endswith("a") || I->getName().endswith("c"));
I.increment(EC);
ASSERT_FALSE(EC);
ASSERT_NE(vfs::directory_iterator(), I);
EXPECT_TRUE(I->getName().endswith("a") || I->getName().endswith("c"));
I.increment(EC);
EXPECT_EQ(vfs::directory_iterator(), I);
}
TEST(VirtualFileSystemTest, BasicRealFSRecursiveIteration) {
ScopedDir TestDirectory("virtual-file-system-test", /*Unique*/true);
IntrusiveRefCntPtr<vfs::FileSystem> FS = vfs::getRealFileSystem();
std::error_code EC;
auto I = vfs::recursive_directory_iterator(*FS, Twine(TestDirectory), EC);
ASSERT_FALSE(EC);
EXPECT_EQ(vfs::recursive_directory_iterator(), I); // empty directory is empty
ScopedDir _a(TestDirectory+"/a");
ScopedDir _ab(TestDirectory+"/a/b");
ScopedDir _c(TestDirectory+"/c");
ScopedDir _cd(TestDirectory+"/c/d");
I = vfs::recursive_directory_iterator(*FS, Twine(TestDirectory), EC);
ASSERT_FALSE(EC);
ASSERT_NE(vfs::recursive_directory_iterator(), I);
std::vector<std::string> Contents;
for (auto E = vfs::recursive_directory_iterator(); !EC && I != E;
I.increment(EC)) {
Contents.push_back(I->getName());
}
// Check contents, which may be in any order
EXPECT_EQ(4U, Contents.size());
int Counts[4] = { 0, 0, 0, 0 };
for (const std::string &Name : Contents) {
ASSERT_FALSE(Name.empty());
int Index = Name[Name.size()-1] - 'a';
ASSERT_TRUE(Index >= 0 && Index < 4);
Counts[Index]++;
}
EXPECT_EQ(1, Counts[0]); // a
EXPECT_EQ(1, Counts[1]); // b
EXPECT_EQ(1, Counts[2]); // c
EXPECT_EQ(1, Counts[3]); // d
}
template <typename T, size_t N>
std::vector<StringRef> makeStringRefVector(const T (&Arr)[N]) {
std::vector<StringRef> Vec;
for (size_t i = 0; i != N; ++i)
Vec.push_back(Arr[i]);
return Vec;
}
template <typename DirIter>
static void checkContents(DirIter I, ArrayRef<StringRef> Expected) {
std::error_code EC;
auto ExpectedIter = Expected.begin(), ExpectedEnd = Expected.end();
for (DirIter E;
!EC && I != E && ExpectedIter != ExpectedEnd;
I.increment(EC), ++ExpectedIter)
EXPECT_EQ(*ExpectedIter, I->getName());
EXPECT_EQ(ExpectedEnd, ExpectedIter);
EXPECT_EQ(DirIter(), I);
}
TEST(VirtualFileSystemTest, OverlayIteration) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Upper(new DummyFileSystem());
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(Upper);
std::error_code EC;
checkContents(O->dir_begin("/", EC), ArrayRef<StringRef>());
Lower->addRegularFile("/file1");
checkContents(O->dir_begin("/", EC), ArrayRef<StringRef>("/file1"));
Upper->addRegularFile("/file2");
{
const char *Contents[] = {"/file2", "/file1"};
checkContents(O->dir_begin("/", EC), makeStringRefVector(Contents));
}
Lower->addDirectory("/dir1");
Lower->addRegularFile("/dir1/foo");
Upper->addDirectory("/dir2");
Upper->addRegularFile("/dir2/foo");
checkContents(O->dir_begin("/dir2", EC), ArrayRef<StringRef>("/dir2/foo"));
{
const char *Contents[] = {"/dir2", "/file2", "/dir1", "/file1"};
checkContents(O->dir_begin("/", EC), makeStringRefVector(Contents));
}
}
TEST(VirtualFileSystemTest, OverlayRecursiveIteration) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Middle(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Upper(new DummyFileSystem());
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(Middle);
O->pushOverlay(Upper);
std::error_code EC;
checkContents(vfs::recursive_directory_iterator(*O, "/", EC),
ArrayRef<StringRef>());
Lower->addRegularFile("/file1");
checkContents(vfs::recursive_directory_iterator(*O, "/", EC),
ArrayRef<StringRef>("/file1"));
Upper->addDirectory("/dir");
Upper->addRegularFile("/dir/file2");
{
const char *Contents[] = {"/dir", "/dir/file2", "/file1"};
checkContents(vfs::recursive_directory_iterator(*O, "/", EC),
makeStringRefVector(Contents));
}
Lower->addDirectory("/dir1");
Lower->addRegularFile("/dir1/foo");
Lower->addDirectory("/dir1/a");
Lower->addRegularFile("/dir1/a/b");
Middle->addDirectory("/a");
Middle->addDirectory("/a/b");
Middle->addDirectory("/a/b/c");
Middle->addRegularFile("/a/b/c/d");
Middle->addRegularFile("/hiddenByUp");
Upper->addDirectory("/dir2");
Upper->addRegularFile("/dir2/foo");
Upper->addRegularFile("/hiddenByUp");
checkContents(vfs::recursive_directory_iterator(*O, "/dir2", EC),
ArrayRef<StringRef>("/dir2/foo"));
{
const char *Contents[] = { "/dir", "/dir/file2", "/dir2", "/dir2/foo",
"/hiddenByUp", "/a", "/a/b", "/a/b/c", "/a/b/c/d", "/dir1", "/dir1/a",
"/dir1/a/b", "/dir1/foo", "/file1" };
checkContents(vfs::recursive_directory_iterator(*O, "/", EC),
makeStringRefVector(Contents));
}
}
TEST(VirtualFileSystemTest, ThreeLevelIteration) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Middle(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Upper(new DummyFileSystem());
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(Middle);
O->pushOverlay(Upper);
std::error_code EC;
checkContents(O->dir_begin("/", EC), ArrayRef<StringRef>());
Middle->addRegularFile("/file2");
checkContents(O->dir_begin("/", EC), ArrayRef<StringRef>("/file2"));
Lower->addRegularFile("/file1");
Upper->addRegularFile("/file3");
{
const char *Contents[] = {"/file3", "/file2", "/file1"};
checkContents(O->dir_begin("/", EC), makeStringRefVector(Contents));
}
}
TEST(VirtualFileSystemTest, HiddenInIteration) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Middle(new DummyFileSystem());
IntrusiveRefCntPtr<DummyFileSystem> Upper(new DummyFileSystem());
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(Middle);
O->pushOverlay(Upper);
std::error_code EC;
Lower->addRegularFile("/onlyInLow", sys::fs::owner_read);
Lower->addRegularFile("/hiddenByMid", sys::fs::owner_read);
Lower->addRegularFile("/hiddenByUp", sys::fs::owner_read);
Middle->addRegularFile("/onlyInMid", sys::fs::owner_write);
Middle->addRegularFile("/hiddenByMid", sys::fs::owner_write);
Middle->addRegularFile("/hiddenByUp", sys::fs::owner_write);
Upper->addRegularFile("/onlyInUp", sys::fs::owner_all);
Upper->addRegularFile("/hiddenByUp", sys::fs::owner_all);
{
const char *Contents[] = {"/hiddenByUp", "/onlyInUp", "/hiddenByMid",
"/onlyInMid", "/onlyInLow"};
checkContents(O->dir_begin("/", EC), makeStringRefVector(Contents));
}
// Make sure we get the top-most entry
{
std::error_code EC;
vfs::directory_iterator I = O->dir_begin("/", EC), E;
for ( ; !EC && I != E; I.increment(EC))
if (I->getName() == "/hiddenByUp")
break;
ASSERT_NE(E, I);
EXPECT_EQ(sys::fs::owner_all, I->getPermissions());
}
{
std::error_code EC;
vfs::directory_iterator I = O->dir_begin("/", EC), E;
for ( ; !EC && I != E; I.increment(EC))
if (I->getName() == "/hiddenByMid")
break;
ASSERT_NE(E, I);
EXPECT_EQ(sys::fs::owner_write, I->getPermissions());
}
}
// NOTE: in the tests below, we use '//root/' as our root directory, since it is
// a legal *absolute* path on Windows as well as *nix.
class VFSFromYAMLTest : public ::testing::Test {
public:
int NumDiagnostics;
void SetUp() {
NumDiagnostics = 0;
}
static void CountingDiagHandler(const SMDiagnostic &, void *Context) {
VFSFromYAMLTest *Test = static_cast<VFSFromYAMLTest *>(Context);
++Test->NumDiagnostics;
}
IntrusiveRefCntPtr<vfs::FileSystem>
getFromYAMLRawString(StringRef Content,
IntrusiveRefCntPtr<vfs::FileSystem> ExternalFS) {
MemoryBuffer *Buffer = MemoryBuffer::getMemBuffer(Content);
return getVFSFromYAML(Buffer, CountingDiagHandler, this, ExternalFS);
}
IntrusiveRefCntPtr<vfs::FileSystem> getFromYAMLString(
StringRef Content,
IntrusiveRefCntPtr<vfs::FileSystem> ExternalFS = new DummyFileSystem()) {
std::string VersionPlusContent("{\n 'version':0,\n");
VersionPlusContent += Content.slice(Content.find('{') + 1, StringRef::npos);
return getFromYAMLRawString(VersionPlusContent, ExternalFS);
}
};
TEST_F(VFSFromYAMLTest, BasicVFSFromYAML) {
IntrusiveRefCntPtr<vfs::FileSystem> FS;
FS = getFromYAMLString("");
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString("[]");
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString("'string'");
EXPECT_EQ(nullptr, FS.get());
EXPECT_EQ(3, NumDiagnostics);
}
TEST_F(VFSFromYAMLTest, MappedFiles) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
Lower->addRegularFile("//root/foo/bar/a");
IntrusiveRefCntPtr<vfs::FileSystem> FS =
getFromYAMLString("{ 'roots': [\n"
"{\n"
" 'type': 'directory',\n"
" 'name': '//root/',\n"
" 'contents': [ {\n"
" 'type': 'file',\n"
" 'name': 'file1',\n"
" 'external-contents': '//root/foo/bar/a'\n"
" },\n"
" {\n"
" 'type': 'file',\n"
" 'name': 'file2',\n"
" 'external-contents': '//root/foo/b'\n"
" }\n"
" ]\n"
"}\n"
"]\n"
"}",
Lower);
ASSERT_TRUE(FS.get() != nullptr);
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(FS);
// file
ErrorOr<vfs::Status> S = O->status("//root/file1");
ASSERT_FALSE(S.getError());
EXPECT_EQ("//root/foo/bar/a", S->getName());
ErrorOr<vfs::Status> SLower = O->status("//root/foo/bar/a");
EXPECT_EQ("//root/foo/bar/a", SLower->getName());
EXPECT_TRUE(S->equivalent(*SLower));
// directory
S = O->status("//root/");
ASSERT_FALSE(S.getError());
EXPECT_TRUE(S->isDirectory());
EXPECT_TRUE(S->equivalent(*O->status("//root/"))); // non-volatile UniqueID
// broken mapping
EXPECT_EQ(O->status("//root/file2").getError(),
llvm::errc::no_such_file_or_directory);
EXPECT_EQ(0, NumDiagnostics);
}
TEST_F(VFSFromYAMLTest, CaseInsensitive) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
Lower->addRegularFile("//root/foo/bar/a");
IntrusiveRefCntPtr<vfs::FileSystem> FS =
getFromYAMLString("{ 'case-sensitive': 'false',\n"
" 'roots': [\n"
"{\n"
" 'type': 'directory',\n"
" 'name': '//root/',\n"
" 'contents': [ {\n"
" 'type': 'file',\n"
" 'name': 'XX',\n"
" 'external-contents': '//root/foo/bar/a'\n"
" }\n"
" ]\n"
"}]}",
Lower);
ASSERT_TRUE(FS.get() != nullptr);
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(FS);
ErrorOr<vfs::Status> S = O->status("//root/XX");
ASSERT_FALSE(S.getError());
ErrorOr<vfs::Status> SS = O->status("//root/xx");
ASSERT_FALSE(SS.getError());
EXPECT_TRUE(S->equivalent(*SS));
SS = O->status("//root/xX");
EXPECT_TRUE(S->equivalent(*SS));
SS = O->status("//root/Xx");
EXPECT_TRUE(S->equivalent(*SS));
EXPECT_EQ(0, NumDiagnostics);
}
TEST_F(VFSFromYAMLTest, CaseSensitive) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
Lower->addRegularFile("//root/foo/bar/a");
IntrusiveRefCntPtr<vfs::FileSystem> FS =
getFromYAMLString("{ 'case-sensitive': 'true',\n"
" 'roots': [\n"
"{\n"
" 'type': 'directory',\n"
" 'name': '//root/',\n"
" 'contents': [ {\n"
" 'type': 'file',\n"
" 'name': 'XX',\n"
" 'external-contents': '//root/foo/bar/a'\n"
" }\n"
" ]\n"
"}]}",
Lower);
ASSERT_TRUE(FS.get() != nullptr);
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(FS);
ErrorOr<vfs::Status> SS = O->status("//root/xx");
EXPECT_EQ(SS.getError(), llvm::errc::no_such_file_or_directory);
SS = O->status("//root/xX");
EXPECT_EQ(SS.getError(), llvm::errc::no_such_file_or_directory);
SS = O->status("//root/Xx");
EXPECT_EQ(SS.getError(), llvm::errc::no_such_file_or_directory);
EXPECT_EQ(0, NumDiagnostics);
}
TEST_F(VFSFromYAMLTest, IllegalVFSFile) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
// invalid YAML at top-level
IntrusiveRefCntPtr<vfs::FileSystem> FS = getFromYAMLString("{]", Lower);
EXPECT_EQ(nullptr, FS.get());
// invalid YAML in roots
FS = getFromYAMLString("{ 'roots':[}", Lower);
// invalid YAML in directory
FS = getFromYAMLString(
"{ 'roots':[ { 'name': 'foo', 'type': 'directory', 'contents': [}",
Lower);
EXPECT_EQ(nullptr, FS.get());
// invalid configuration
FS = getFromYAMLString("{ 'knobular': 'true', 'roots':[] }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString("{ 'case-sensitive': 'maybe', 'roots':[] }", Lower);
EXPECT_EQ(nullptr, FS.get());
// invalid roots
FS = getFromYAMLString("{ 'roots':'' }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString("{ 'roots':{} }", Lower);
EXPECT_EQ(nullptr, FS.get());
// invalid entries
FS = getFromYAMLString(
"{ 'roots':[ { 'type': 'other', 'name': 'me', 'contents': '' }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString("{ 'roots':[ { 'type': 'file', 'name': [], "
"'external-contents': 'other' }",
Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString(
"{ 'roots':[ { 'type': 'file', 'name': 'me', 'external-contents': [] }",
Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString(
"{ 'roots':[ { 'type': 'file', 'name': 'me', 'external-contents': {} }",
Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString(
"{ 'roots':[ { 'type': 'directory', 'name': 'me', 'contents': {} }",
Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString(
"{ 'roots':[ { 'type': 'directory', 'name': 'me', 'contents': '' }",
Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString(
"{ 'roots':[ { 'thingy': 'directory', 'name': 'me', 'contents': [] }",
Lower);
EXPECT_EQ(nullptr, FS.get());
// missing mandatory fields
FS = getFromYAMLString("{ 'roots':[ { 'type': 'file', 'name': 'me' }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString(
"{ 'roots':[ { 'type': 'file', 'external-contents': 'other' }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString("{ 'roots':[ { 'name': 'me', 'contents': [] }", Lower);
EXPECT_EQ(nullptr, FS.get());
// duplicate keys
FS = getFromYAMLString("{ 'roots':[], 'roots':[] }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLString(
"{ 'case-sensitive':'true', 'case-sensitive':'true', 'roots':[] }",
Lower);
EXPECT_EQ(nullptr, FS.get());
FS =
getFromYAMLString("{ 'roots':[{'name':'me', 'name':'you', 'type':'file', "
"'external-contents':'blah' } ] }",
Lower);
EXPECT_EQ(nullptr, FS.get());
// missing version
FS = getFromYAMLRawString("{ 'roots':[] }", Lower);
EXPECT_EQ(nullptr, FS.get());
// bad version number
FS = getFromYAMLRawString("{ 'version':'foo', 'roots':[] }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLRawString("{ 'version':-1, 'roots':[] }", Lower);
EXPECT_EQ(nullptr, FS.get());
FS = getFromYAMLRawString("{ 'version':100000, 'roots':[] }", Lower);
EXPECT_EQ(nullptr, FS.get());
EXPECT_EQ(24, NumDiagnostics);
}
TEST_F(VFSFromYAMLTest, UseExternalName) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
Lower->addRegularFile("//root/external/file");
IntrusiveRefCntPtr<vfs::FileSystem> FS = getFromYAMLString(
"{ 'roots': [\n"
" { 'type': 'file', 'name': '//root/A',\n"
" 'external-contents': '//root/external/file'\n"
" },\n"
" { 'type': 'file', 'name': '//root/B',\n"
" 'use-external-name': true,\n"
" 'external-contents': '//root/external/file'\n"
" },\n"
" { 'type': 'file', 'name': '//root/C',\n"
" 'use-external-name': false,\n"
" 'external-contents': '//root/external/file'\n"
" }\n"
"] }", Lower);
ASSERT_TRUE(nullptr != FS.get());
// default true
EXPECT_EQ("//root/external/file", FS->status("//root/A")->getName());
// explicit
EXPECT_EQ("//root/external/file", FS->status("//root/B")->getName());
EXPECT_EQ("//root/C", FS->status("//root/C")->getName());
// global configuration
FS = getFromYAMLString(
"{ 'use-external-names': false,\n"
" 'roots': [\n"
" { 'type': 'file', 'name': '//root/A',\n"
" 'external-contents': '//root/external/file'\n"
" },\n"
" { 'type': 'file', 'name': '//root/B',\n"
" 'use-external-name': true,\n"
" 'external-contents': '//root/external/file'\n"
" },\n"
" { 'type': 'file', 'name': '//root/C',\n"
" 'use-external-name': false,\n"
" 'external-contents': '//root/external/file'\n"
" }\n"
"] }", Lower);
ASSERT_TRUE(nullptr != FS.get());
// default
EXPECT_EQ("//root/A", FS->status("//root/A")->getName());
// explicit
EXPECT_EQ("//root/external/file", FS->status("//root/B")->getName());
EXPECT_EQ("//root/C", FS->status("//root/C")->getName());
}
TEST_F(VFSFromYAMLTest, MultiComponentPath) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
Lower->addRegularFile("//root/other");
// file in roots
IntrusiveRefCntPtr<vfs::FileSystem> FS = getFromYAMLString(
"{ 'roots': [\n"
" { 'type': 'file', 'name': '//root/path/to/file',\n"
" 'external-contents': '//root/other' }]\n"
"}", Lower);
ASSERT_TRUE(nullptr != FS.get());
EXPECT_FALSE(FS->status("//root/path/to/file").getError());
EXPECT_FALSE(FS->status("//root/path/to").getError());
EXPECT_FALSE(FS->status("//root/path").getError());
EXPECT_FALSE(FS->status("//root/").getError());
// at the start
FS = getFromYAMLString(
"{ 'roots': [\n"
" { 'type': 'directory', 'name': '//root/path/to',\n"
" 'contents': [ { 'type': 'file', 'name': 'file',\n"
" 'external-contents': '//root/other' }]}]\n"
"}", Lower);
ASSERT_TRUE(nullptr != FS.get());
EXPECT_FALSE(FS->status("//root/path/to/file").getError());
EXPECT_FALSE(FS->status("//root/path/to").getError());
EXPECT_FALSE(FS->status("//root/path").getError());
EXPECT_FALSE(FS->status("//root/").getError());
// at the end
FS = getFromYAMLString(
"{ 'roots': [\n"
" { 'type': 'directory', 'name': '//root/',\n"
" 'contents': [ { 'type': 'file', 'name': 'path/to/file',\n"
" 'external-contents': '//root/other' }]}]\n"
"}", Lower);
ASSERT_TRUE(nullptr != FS.get());
EXPECT_FALSE(FS->status("//root/path/to/file").getError());
EXPECT_FALSE(FS->status("//root/path/to").getError());
EXPECT_FALSE(FS->status("//root/path").getError());
EXPECT_FALSE(FS->status("//root/").getError());
}
TEST_F(VFSFromYAMLTest, TrailingSlashes) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
Lower->addRegularFile("//root/other");
// file in roots
IntrusiveRefCntPtr<vfs::FileSystem> FS = getFromYAMLString(
"{ 'roots': [\n"
" { 'type': 'directory', 'name': '//root/path/to////',\n"
" 'contents': [ { 'type': 'file', 'name': 'file',\n"
" 'external-contents': '//root/other' }]}]\n"
"}", Lower);
ASSERT_TRUE(nullptr != FS.get());
EXPECT_FALSE(FS->status("//root/path/to/file").getError());
EXPECT_FALSE(FS->status("//root/path/to").getError());
EXPECT_FALSE(FS->status("//root/path").getError());
EXPECT_FALSE(FS->status("//root/").getError());
}
TEST_F(VFSFromYAMLTest, DirectoryIteration) {
IntrusiveRefCntPtr<DummyFileSystem> Lower(new DummyFileSystem());
Lower->addDirectory("//root/");
Lower->addDirectory("//root/foo");
Lower->addDirectory("//root/foo/bar");
Lower->addRegularFile("//root/foo/bar/a");
Lower->addRegularFile("//root/foo/bar/b");
Lower->addRegularFile("//root/file3");
IntrusiveRefCntPtr<vfs::FileSystem> FS =
getFromYAMLString("{ 'use-external-names': false,\n"
" 'roots': [\n"
"{\n"
" 'type': 'directory',\n"
" 'name': '//root/',\n"
" 'contents': [ {\n"
" 'type': 'file',\n"
" 'name': 'file1',\n"
" 'external-contents': '//root/foo/bar/a'\n"
" },\n"
" {\n"
" 'type': 'file',\n"
" 'name': 'file2',\n"
" 'external-contents': '//root/foo/bar/b'\n"
" }\n"
" ]\n"
"}\n"
"]\n"
"}",
Lower);
ASSERT_TRUE(FS.get() != NULL);
IntrusiveRefCntPtr<vfs::OverlayFileSystem> O(
new vfs::OverlayFileSystem(Lower));
O->pushOverlay(FS);
std::error_code EC;
{
const char *Contents[] = {"//root/file1", "//root/file2", "//root/file3",
"//root/foo"};
checkContents(O->dir_begin("//root/", EC), makeStringRefVector(Contents));
}
{
const char *Contents[] = {"//root/foo/bar/a", "//root/foo/bar/b"};
checkContents(O->dir_begin("//root/foo/bar", EC),
makeStringRefVector(Contents));
}
}