llvm-for-llvmta/tools/clang/unittests/Basic/FileManagerTest.cpp

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//===- unittests/Basic/FileMangerTest.cpp ------------ FileManger tests ---===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "clang/Basic/FileManager.h"
#include "clang/Basic/FileSystemOptions.h"
#include "clang/Basic/FileSystemStatCache.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Path.h"
#include "llvm/Support/VirtualFileSystem.h"
#include "gtest/gtest.h"
using namespace llvm;
using namespace clang;
namespace {
// Used to create a fake file system for running the tests with such
// that the tests are not affected by the structure/contents of the
// file system on the machine running the tests.
class FakeStatCache : public FileSystemStatCache {
private:
// Maps a file/directory path to its desired stat result. Anything
// not in this map is considered to not exist in the file system.
llvm::StringMap<llvm::vfs::Status, llvm::BumpPtrAllocator> StatCalls;
void InjectFileOrDirectory(const char *Path, ino_t INode, bool IsFile,
const char *StatPath) {
#ifndef _WIN32
SmallString<128> NormalizedPath(Path);
llvm::sys::path::native(NormalizedPath);
Path = NormalizedPath.c_str();
SmallString<128> NormalizedStatPath;
if (StatPath) {
NormalizedStatPath = StatPath;
llvm::sys::path::native(NormalizedStatPath);
StatPath = NormalizedStatPath.c_str();
}
#endif
if (!StatPath)
StatPath = Path;
auto fileType = IsFile ?
llvm::sys::fs::file_type::regular_file :
llvm::sys::fs::file_type::directory_file;
llvm::vfs::Status Status(StatPath, llvm::sys::fs::UniqueID(1, INode),
/*MTime*/{}, /*User*/0, /*Group*/0,
/*Size*/0, fileType,
llvm::sys::fs::perms::all_all);
StatCalls[Path] = Status;
}
public:
// Inject a file with the given inode value to the fake file system.
void InjectFile(const char *Path, ino_t INode,
const char *StatPath = nullptr) {
InjectFileOrDirectory(Path, INode, /*IsFile=*/true, StatPath);
}
// Inject a directory with the given inode value to the fake file system.
void InjectDirectory(const char *Path, ino_t INode) {
InjectFileOrDirectory(Path, INode, /*IsFile=*/false, nullptr);
}
// Implement FileSystemStatCache::getStat().
std::error_code getStat(StringRef Path, llvm::vfs::Status &Status,
bool isFile,
std::unique_ptr<llvm::vfs::File> *F,
llvm::vfs::FileSystem &FS) override {
#ifndef _WIN32
SmallString<128> NormalizedPath(Path);
llvm::sys::path::native(NormalizedPath);
Path = NormalizedPath.c_str();
#endif
if (StatCalls.count(Path) != 0) {
Status = StatCalls[Path];
return std::error_code();
}
return std::make_error_code(std::errc::no_such_file_or_directory);
}
};
// The test fixture.
class FileManagerTest : public ::testing::Test {
protected:
FileManagerTest() : manager(options) {
}
FileSystemOptions options;
FileManager manager;
};
// When a virtual file is added, its getDir() field is set correctly
// (not NULL, correct name).
TEST_F(FileManagerTest, getVirtualFileSetsTheDirFieldCorrectly) {
const FileEntry *file = manager.getVirtualFile("foo.cpp", 42, 0);
ASSERT_TRUE(file != nullptr);
const DirectoryEntry *dir = file->getDir();
ASSERT_TRUE(dir != nullptr);
EXPECT_EQ(".", dir->getName());
file = manager.getVirtualFile("x/y/z.cpp", 42, 0);
ASSERT_TRUE(file != nullptr);
dir = file->getDir();
ASSERT_TRUE(dir != nullptr);
EXPECT_EQ("x/y", dir->getName());
}
// Before any virtual file is added, no virtual directory exists.
TEST_F(FileManagerTest, NoVirtualDirectoryExistsBeforeAVirtualFileIsAdded) {
// An empty FakeStatCache causes all stat calls made by the
// FileManager to report "file/directory doesn't exist". This
// avoids the possibility of the result of this test being affected
// by what's in the real file system.
manager.setStatCache(std::make_unique<FakeStatCache>());
ASSERT_FALSE(manager.getDirectory("virtual/dir/foo"));
ASSERT_FALSE(manager.getDirectory("virtual/dir"));
ASSERT_FALSE(manager.getDirectory("virtual"));
}
// When a virtual file is added, all of its ancestors should be created.
TEST_F(FileManagerTest, getVirtualFileCreatesDirectoryEntriesForAncestors) {
// Fake an empty real file system.
manager.setStatCache(std::make_unique<FakeStatCache>());
manager.getVirtualFile("virtual/dir/bar.h", 100, 0);
ASSERT_FALSE(manager.getDirectory("virtual/dir/foo"));
auto dir = manager.getDirectory("virtual/dir");
ASSERT_TRUE(dir);
EXPECT_EQ("virtual/dir", (*dir)->getName());
dir = manager.getDirectory("virtual");
ASSERT_TRUE(dir);
EXPECT_EQ("virtual", (*dir)->getName());
}
// getFile() returns non-NULL if a real file exists at the given path.
TEST_F(FileManagerTest, getFileReturnsValidFileEntryForExistingRealFile) {
// Inject fake files into the file system.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory("/tmp", 42);
statCache->InjectFile("/tmp/test", 43);
#ifdef _WIN32
const char *DirName = "C:.";
const char *FileName = "C:test";
statCache->InjectDirectory(DirName, 44);
statCache->InjectFile(FileName, 45);
#endif
manager.setStatCache(std::move(statCache));
auto file = manager.getFile("/tmp/test");
ASSERT_TRUE(file);
ASSERT_TRUE((*file)->isValid());
EXPECT_EQ("/tmp/test", (*file)->getName());
const DirectoryEntry *dir = (*file)->getDir();
ASSERT_TRUE(dir != nullptr);
EXPECT_EQ("/tmp", dir->getName());
#ifdef _WIN32
file = manager.getFile(FileName);
ASSERT_TRUE(file);
dir = (*file)->getDir();
ASSERT_TRUE(dir != NULL);
EXPECT_EQ(DirName, dir->getName());
#endif
}
// getFile() returns non-NULL if a virtual file exists at the given path.
TEST_F(FileManagerTest, getFileReturnsValidFileEntryForExistingVirtualFile) {
// Fake an empty real file system.
manager.setStatCache(std::make_unique<FakeStatCache>());
manager.getVirtualFile("virtual/dir/bar.h", 100, 0);
auto file = manager.getFile("virtual/dir/bar.h");
ASSERT_TRUE(file);
ASSERT_TRUE((*file)->isValid());
EXPECT_EQ("virtual/dir/bar.h", (*file)->getName());
const DirectoryEntry *dir = (*file)->getDir();
ASSERT_TRUE(dir != nullptr);
EXPECT_EQ("virtual/dir", dir->getName());
}
// getFile() returns different FileEntries for different paths when
// there's no aliasing.
TEST_F(FileManagerTest, getFileReturnsDifferentFileEntriesForDifferentFiles) {
// Inject two fake files into the file system. Different inodes
// mean the files are not symlinked together.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory(".", 41);
statCache->InjectFile("foo.cpp", 42);
statCache->InjectFile("bar.cpp", 43);
manager.setStatCache(std::move(statCache));
auto fileFoo = manager.getFile("foo.cpp");
auto fileBar = manager.getFile("bar.cpp");
ASSERT_TRUE(fileFoo);
ASSERT_TRUE((*fileFoo)->isValid());
ASSERT_TRUE(fileBar);
ASSERT_TRUE((*fileBar)->isValid());
EXPECT_NE(*fileFoo, *fileBar);
}
// getFile() returns an error if neither a real file nor a virtual file
// exists at the given path.
TEST_F(FileManagerTest, getFileReturnsErrorForNonexistentFile) {
// Inject a fake foo.cpp into the file system.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory(".", 41);
statCache->InjectFile("foo.cpp", 42);
statCache->InjectDirectory("MyDirectory", 49);
manager.setStatCache(std::move(statCache));
// Create a virtual bar.cpp file.
manager.getVirtualFile("bar.cpp", 200, 0);
auto file = manager.getFile("xyz.txt");
ASSERT_FALSE(file);
ASSERT_EQ(file.getError(), std::errc::no_such_file_or_directory);
auto readingDirAsFile = manager.getFile("MyDirectory");
ASSERT_FALSE(readingDirAsFile);
ASSERT_EQ(readingDirAsFile.getError(), std::errc::is_a_directory);
auto readingFileAsDir = manager.getDirectory("foo.cpp");
ASSERT_FALSE(readingFileAsDir);
ASSERT_EQ(readingFileAsDir.getError(), std::errc::not_a_directory);
}
// The following tests apply to Unix-like system only.
#ifndef _WIN32
// getFile() returns the same FileEntry for real files that are aliases.
TEST_F(FileManagerTest, getFileReturnsSameFileEntryForAliasedRealFiles) {
// Inject two real files with the same inode.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory("abc", 41);
statCache->InjectFile("abc/foo.cpp", 42);
statCache->InjectFile("abc/bar.cpp", 42);
manager.setStatCache(std::move(statCache));
auto f1 = manager.getFile("abc/foo.cpp");
auto f2 = manager.getFile("abc/bar.cpp");
EXPECT_EQ(f1 ? *f1 : nullptr,
f2 ? *f2 : nullptr);
// Check that getFileRef also does the right thing.
auto r1 = manager.getFileRef("abc/foo.cpp");
auto r2 = manager.getFileRef("abc/bar.cpp");
ASSERT_FALSE(!r1);
ASSERT_FALSE(!r2);
EXPECT_EQ("abc/foo.cpp", r1->getName());
EXPECT_EQ("abc/bar.cpp", r2->getName());
EXPECT_EQ((f1 ? *f1 : nullptr), &r1->getFileEntry());
EXPECT_EQ((f2 ? *f2 : nullptr), &r2->getFileEntry());
}
TEST_F(FileManagerTest, getFileRefReturnsCorrectNameForDifferentStatPath) {
// Inject files with the same inode, but where some files have a stat that
// gives a different name. This is adding coverage for weird stat behaviour
// triggered by the RedirectingFileSystem that FileManager::getFileRef has
// special logic for.
auto StatCache = std::make_unique<FakeStatCache>();
StatCache->InjectDirectory("dir", 40);
StatCache->InjectFile("dir/f1.cpp", 41);
StatCache->InjectFile("dir/f1-alias.cpp", 41, "dir/f1.cpp");
StatCache->InjectFile("dir/f2.cpp", 42);
StatCache->InjectFile("dir/f2-alias.cpp", 42, "dir/f2.cpp");
// This unintuitive rename-the-file-on-stat behaviour supports how the
// RedirectingFileSystem VFS layer responds to stats. However, even if you
// have two layers, you should only get a single filename back. As such the
// following stat cache behaviour is not supported (the correct stat entry
// for a double-redirection would be "dir/f1.cpp") and the getFileRef below
// should assert.
StatCache->InjectFile("dir/f1-alias-alias.cpp", 41, "dir/f1-alias.cpp");
manager.setStatCache(std::move(StatCache));
// With F1, test accessing the non-redirected name first.
auto F1 = manager.getFileRef("dir/f1.cpp");
auto F1Alias = manager.getFileRef("dir/f1-alias.cpp");
auto F1Alias2 = manager.getFileRef("dir/f1-alias.cpp");
ASSERT_FALSE(!F1);
ASSERT_FALSE(!F1Alias);
ASSERT_FALSE(!F1Alias2);
EXPECT_EQ("dir/f1.cpp", F1->getName());
EXPECT_EQ("dir/f1.cpp", F1->getFileEntry().getName());
EXPECT_EQ("dir/f1.cpp", F1Alias->getName());
EXPECT_EQ("dir/f1.cpp", F1Alias2->getName());
EXPECT_EQ(&F1->getFileEntry(), &F1Alias->getFileEntry());
EXPECT_EQ(&F1->getFileEntry(), &F1Alias2->getFileEntry());
#if !defined(NDEBUG) && GTEST_HAS_DEATH_TEST
EXPECT_DEATH((void)manager.getFileRef("dir/f1-alias-alias.cpp"),
"filename redirected to a non-canonical filename?");
#endif
// With F2, test accessing the redirected name first.
auto F2Alias = manager.getFileRef("dir/f2-alias.cpp");
auto F2 = manager.getFileRef("dir/f2.cpp");
auto F2Alias2 = manager.getFileRef("dir/f2-alias.cpp");
ASSERT_FALSE(!F2);
ASSERT_FALSE(!F2Alias);
ASSERT_FALSE(!F2Alias2);
EXPECT_EQ("dir/f2.cpp", F2->getName());
EXPECT_EQ("dir/f2.cpp", F2->getFileEntry().getName());
EXPECT_EQ("dir/f2.cpp", F2Alias->getName());
EXPECT_EQ("dir/f2.cpp", F2Alias2->getName());
EXPECT_EQ(&F2->getFileEntry(), &F2Alias->getFileEntry());
EXPECT_EQ(&F2->getFileEntry(), &F2Alias2->getFileEntry());
}
// getFile() returns the same FileEntry for virtual files that have
// corresponding real files that are aliases.
TEST_F(FileManagerTest, getFileReturnsSameFileEntryForAliasedVirtualFiles) {
// Inject two real files with the same inode.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory("abc", 41);
statCache->InjectFile("abc/foo.cpp", 42);
statCache->InjectFile("abc/bar.cpp", 42);
manager.setStatCache(std::move(statCache));
ASSERT_TRUE(manager.getVirtualFile("abc/foo.cpp", 100, 0)->isValid());
ASSERT_TRUE(manager.getVirtualFile("abc/bar.cpp", 200, 0)->isValid());
auto f1 = manager.getFile("abc/foo.cpp");
auto f2 = manager.getFile("abc/bar.cpp");
EXPECT_EQ(f1 ? *f1 : nullptr,
f2 ? *f2 : nullptr);
}
TEST_F(FileManagerTest, getFileRefEquality) {
auto StatCache = std::make_unique<FakeStatCache>();
StatCache->InjectDirectory("dir", 40);
StatCache->InjectFile("dir/f1.cpp", 41);
StatCache->InjectFile("dir/f1-also.cpp", 41);
StatCache->InjectFile("dir/f1-redirect.cpp", 41, "dir/f1.cpp");
StatCache->InjectFile("dir/f2.cpp", 42);
manager.setStatCache(std::move(StatCache));
auto F1 = manager.getFileRef("dir/f1.cpp");
auto F1Again = manager.getFileRef("dir/f1.cpp");
auto F1Also = manager.getFileRef("dir/f1-also.cpp");
auto F1Redirect = manager.getFileRef("dir/f1-redirect.cpp");
auto F2 = manager.getFileRef("dir/f2.cpp");
// Check Expected<FileEntryRef> for error.
ASSERT_FALSE(!F1);
ASSERT_FALSE(!F1Also);
ASSERT_FALSE(!F1Again);
ASSERT_FALSE(!F1Redirect);
ASSERT_FALSE(!F2);
// Check names.
EXPECT_EQ("dir/f1.cpp", F1->getName());
EXPECT_EQ("dir/f1.cpp", F1Again->getName());
EXPECT_EQ("dir/f1-also.cpp", F1Also->getName());
EXPECT_EQ("dir/f1.cpp", F1Redirect->getName());
EXPECT_EQ("dir/f2.cpp", F2->getName());
// Compare against FileEntry*.
EXPECT_EQ(&F1->getFileEntry(), *F1);
EXPECT_EQ(*F1, &F1->getFileEntry());
EXPECT_NE(&F2->getFileEntry(), *F1);
EXPECT_NE(*F1, &F2->getFileEntry());
// Compare using ==.
EXPECT_EQ(*F1, *F1Also);
EXPECT_EQ(*F1, *F1Again);
EXPECT_EQ(*F1, *F1Redirect);
EXPECT_EQ(*F1Also, *F1Redirect);
EXPECT_NE(*F2, *F1);
EXPECT_NE(*F2, *F1Also);
EXPECT_NE(*F2, *F1Again);
EXPECT_NE(*F2, *F1Redirect);
// Compare using isSameRef.
EXPECT_TRUE(F1->isSameRef(*F1Again));
EXPECT_TRUE(F1->isSameRef(*F1Redirect));
EXPECT_FALSE(F1->isSameRef(*F1Also));
EXPECT_FALSE(F1->isSameRef(*F2));
}
// getFile() Should return the same entry as getVirtualFile if the file actually
// is a virtual file, even if the name is not exactly the same (but is after
// normalisation done by the file system, like on Windows). This can be checked
// here by checking the size.
TEST_F(FileManagerTest, getVirtualFileWithDifferentName) {
// Inject fake files into the file system.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory("c:\\tmp", 42);
statCache->InjectFile("c:\\tmp\\test", 43);
manager.setStatCache(std::move(statCache));
// Inject the virtual file:
const FileEntry *file1 = manager.getVirtualFile("c:\\tmp\\test", 123, 1);
ASSERT_TRUE(file1 != nullptr);
ASSERT_TRUE(file1->isValid());
EXPECT_EQ(43U, file1->getUniqueID().getFile());
EXPECT_EQ(123, file1->getSize());
// Lookup the virtual file with a different name:
auto file2 = manager.getFile("c:/tmp/test", 100, 1);
ASSERT_TRUE(file2);
ASSERT_TRUE((*file2)->isValid());
// Check that it's the same UFE:
EXPECT_EQ(file1, *file2);
EXPECT_EQ(43U, (*file2)->getUniqueID().getFile());
// Check that the contents of the UFE are not overwritten by the entry in the
// filesystem:
EXPECT_EQ(123, (*file2)->getSize());
}
#endif // !_WIN32
TEST_F(FileManagerTest, makeAbsoluteUsesVFS) {
SmallString<64> CustomWorkingDir;
#ifdef _WIN32
CustomWorkingDir = "C:";
#else
CustomWorkingDir = "/";
#endif
llvm::sys::path::append(CustomWorkingDir, "some", "weird", "path");
auto FS = IntrusiveRefCntPtr<llvm::vfs::InMemoryFileSystem>(
new llvm::vfs::InMemoryFileSystem);
// setCurrentworkingdirectory must finish without error.
ASSERT_TRUE(!FS->setCurrentWorkingDirectory(CustomWorkingDir));
FileSystemOptions Opts;
FileManager Manager(Opts, FS);
SmallString<64> Path("a/foo.cpp");
SmallString<64> ExpectedResult(CustomWorkingDir);
llvm::sys::path::append(ExpectedResult, Path);
ASSERT_TRUE(Manager.makeAbsolutePath(Path));
EXPECT_EQ(Path, ExpectedResult);
}
// getVirtualFile should always fill the real path.
TEST_F(FileManagerTest, getVirtualFileFillsRealPathName) {
SmallString<64> CustomWorkingDir;
#ifdef _WIN32
CustomWorkingDir = "C:/";
#else
CustomWorkingDir = "/";
#endif
auto FS = IntrusiveRefCntPtr<llvm::vfs::InMemoryFileSystem>(
new llvm::vfs::InMemoryFileSystem);
// setCurrentworkingdirectory must finish without error.
ASSERT_TRUE(!FS->setCurrentWorkingDirectory(CustomWorkingDir));
FileSystemOptions Opts;
FileManager Manager(Opts, FS);
// Inject fake files into the file system.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory("/tmp", 42);
statCache->InjectFile("/tmp/test", 43);
Manager.setStatCache(std::move(statCache));
// Check for real path.
const FileEntry *file = Manager.getVirtualFile("/tmp/test", 123, 1);
ASSERT_TRUE(file != nullptr);
ASSERT_TRUE(file->isValid());
SmallString<64> ExpectedResult = CustomWorkingDir;
llvm::sys::path::append(ExpectedResult, "tmp", "test");
EXPECT_EQ(file->tryGetRealPathName(), ExpectedResult);
}
TEST_F(FileManagerTest, getFileDontOpenRealPath) {
SmallString<64> CustomWorkingDir;
#ifdef _WIN32
CustomWorkingDir = "C:/";
#else
CustomWorkingDir = "/";
#endif
auto FS = IntrusiveRefCntPtr<llvm::vfs::InMemoryFileSystem>(
new llvm::vfs::InMemoryFileSystem);
// setCurrentworkingdirectory must finish without error.
ASSERT_TRUE(!FS->setCurrentWorkingDirectory(CustomWorkingDir));
FileSystemOptions Opts;
FileManager Manager(Opts, FS);
// Inject fake files into the file system.
auto statCache = std::make_unique<FakeStatCache>();
statCache->InjectDirectory("/tmp", 42);
statCache->InjectFile("/tmp/test", 43);
Manager.setStatCache(std::move(statCache));
// Check for real path.
auto file = Manager.getFile("/tmp/test", /*OpenFile=*/false);
ASSERT_TRUE(file);
ASSERT_TRUE((*file)->isValid());
SmallString<64> ExpectedResult = CustomWorkingDir;
llvm::sys::path::append(ExpectedResult, "tmp", "test");
EXPECT_EQ((*file)->tryGetRealPathName(), ExpectedResult);
}
TEST_F(FileManagerTest, getBypassFile) {
SmallString<64> CustomWorkingDir;
#ifdef _WIN32
CustomWorkingDir = "C:/";
#else
CustomWorkingDir = "/";
#endif
auto FS = IntrusiveRefCntPtr<llvm::vfs::InMemoryFileSystem>(
new llvm::vfs::InMemoryFileSystem);
// setCurrentworkingdirectory must finish without error.
ASSERT_TRUE(!FS->setCurrentWorkingDirectory(CustomWorkingDir));
FileSystemOptions Opts;
FileManager Manager(Opts, FS);
// Inject fake files into the file system.
auto Cache = std::make_unique<FakeStatCache>();
Cache->InjectDirectory("/tmp", 42);
Cache->InjectFile("/tmp/test", 43);
Manager.setStatCache(std::move(Cache));
// Set up a virtual file with a different size than FakeStatCache uses.
const FileEntry *File = Manager.getVirtualFile("/tmp/test", /*Size=*/10, 0);
ASSERT_TRUE(File);
const FileEntry &FE = *File;
EXPECT_TRUE(FE.isValid());
EXPECT_EQ(FE.getSize(), 10);
// Calling a second time should not affect the UID or size.
unsigned VirtualUID = FE.getUID();
EXPECT_EQ(
&FE,
&expectedToOptional(Manager.getFileRef("/tmp/test"))->getFileEntry());
EXPECT_EQ(FE.getUID(), VirtualUID);
EXPECT_EQ(FE.getSize(), 10);
// Bypass the file.
llvm::Optional<FileEntryRef> BypassRef =
Manager.getBypassFile(File->getLastRef());
ASSERT_TRUE(BypassRef);
EXPECT_TRUE(BypassRef->isValid());
EXPECT_EQ("/tmp/test", BypassRef->getName());
// Check that it's different in the right ways.
EXPECT_NE(&BypassRef->getFileEntry(), File);
EXPECT_NE(BypassRef->getUID(), VirtualUID);
EXPECT_NE(BypassRef->getSize(), FE.getSize());
// The virtual file should still be returned when searching.
EXPECT_EQ(
&FE,
&expectedToOptional(Manager.getFileRef("/tmp/test"))->getFileEntry());
}
} // anonymous namespace