Bug Summary

File:src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Support/VirtualFileSystem.cpp
Warning:line 1286, column 27
Called C++ object pointer is null

Annotated Source Code

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clang -cc1 -cc1 -triple amd64-unknown-openbsd7.0 -analyze -disable-free -disable-llvm-verifier -discard-value-names -main-file-name VirtualFileSystem.cpp -analyzer-store=region -analyzer-opt-analyze-nested-blocks -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=cplusplus -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 1 -fhalf-no-semantic-interposition -mframe-pointer=all -relaxed-aliasing -fno-rounding-math -mconstructor-aliases -munwind-tables -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -fcoverage-compilation-dir=/usr/src/gnu/usr.bin/clang/libLLVM/obj -resource-dir /usr/local/lib/clang/13.0.0 -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/AMDGPU -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Analysis -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ASMParser -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/BinaryFormat -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Bitcode -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Bitcode -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Bitstream -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /include/llvm/CodeGen -I /include/llvm/CodeGen/PBQP -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/IR -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/IR -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms/Coroutines -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ProfileData/Coverage -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/DebugInfo/CodeView -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/DebugInfo/DWARF -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/DebugInfo -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/DebugInfo/MSF -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/DebugInfo/PDB -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Demangle -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ExecutionEngine -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ExecutionEngine/JITLink -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ExecutionEngine/Orc -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Frontend -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Frontend/OpenACC -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Frontend -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Frontend/OpenMP -I /include/llvm/CodeGen/GlobalISel -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/IRReader -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms/InstCombine -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/Transforms/InstCombine -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/LTO -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Linker -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/MC -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/MC/MCParser -I /include/llvm/CodeGen/MIRParser -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Object -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Option -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Passes -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ProfileData -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms/Scalar -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/ADT -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Support -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/DebugInfo/Symbolize -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Target -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms/Utils -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms/Vectorize -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include/llvm/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Target/X86 -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include/llvm/Transforms/IPO -I /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/include -I /usr/src/gnu/usr.bin/clang/libLLVM/../include -I /usr/src/gnu/usr.bin/clang/libLLVM/obj -I /usr/src/gnu/usr.bin/clang/libLLVM/obj/../include -D NDEBUG -D __STDC_LIMIT_MACROS -D __STDC_CONSTANT_MACROS -D __STDC_FORMAT_MACROS -D LLVM_PREFIX="/usr" -D PIC -internal-isystem /usr/include/c++/v1 -internal-isystem /usr/local/lib/clang/13.0.0/include -internal-externc-isystem /usr/include -O2 -Wno-unused-parameter -Wwrite-strings -Wno-missing-field-initializers -Wno-long-long -Wno-comment -std=c++14 -fdeprecated-macro -fdebug-compilation-dir=/usr/src/gnu/usr.bin/clang/libLLVM/obj -ferror-limit 19 -fvisibility-inlines-hidden -fwrapv -D_RET_PROTECTOR -ret-protector -fno-rtti -fgnuc-version=4.2.1 -vectorize-loops -vectorize-slp -fno-builtin-malloc -fno-builtin-calloc -fno-builtin-realloc -fno-builtin-valloc -fno-builtin-free -fno-builtin-strdup -fno-builtin-strndup -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /home/ben/Projects/vmm/scan-build/2022-01-12-194120-40624-1 -x c++ /usr/src/gnu/usr.bin/clang/libLLVM/../../../llvm/llvm/lib/Support/VirtualFileSystem.cpp
1//===- VirtualFileSystem.cpp - Virtual File System Layer ------------------===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8//
9// This file implements the VirtualFileSystem interface.
10//
11//===----------------------------------------------------------------------===//
12
13#include "llvm/Support/VirtualFileSystem.h"
14#include "llvm/ADT/ArrayRef.h"
15#include "llvm/ADT/DenseMap.h"
16#include "llvm/ADT/IntrusiveRefCntPtr.h"
17#include "llvm/ADT/None.h"
18#include "llvm/ADT/Optional.h"
19#include "llvm/ADT/STLExtras.h"
20#include "llvm/ADT/SmallString.h"
21#include "llvm/ADT/SmallVector.h"
22#include "llvm/ADT/StringRef.h"
23#include "llvm/ADT/StringSet.h"
24#include "llvm/ADT/Twine.h"
25#include "llvm/ADT/iterator_range.h"
26#include "llvm/Config/llvm-config.h"
27#include "llvm/Support/Casting.h"
28#include "llvm/Support/Chrono.h"
29#include "llvm/Support/Compiler.h"
30#include "llvm/Support/Debug.h"
31#include "llvm/Support/Errc.h"
32#include "llvm/Support/ErrorHandling.h"
33#include "llvm/Support/ErrorOr.h"
34#include "llvm/Support/FileSystem.h"
35#include "llvm/Support/MemoryBuffer.h"
36#include "llvm/Support/Path.h"
37#include "llvm/Support/Process.h"
38#include "llvm/Support/SMLoc.h"
39#include "llvm/Support/SourceMgr.h"
40#include "llvm/Support/YAMLParser.h"
41#include "llvm/Support/raw_ostream.h"
42#include <algorithm>
43#include <atomic>
44#include <cassert>
45#include <cstdint>
46#include <iterator>
47#include <limits>
48#include <map>
49#include <memory>
50#include <mutex>
51#include <string>
52#include <system_error>
53#include <utility>
54#include <vector>
55
56using namespace llvm;
57using namespace llvm::vfs;
58
59using llvm::sys::fs::file_t;
60using llvm::sys::fs::file_status;
61using llvm::sys::fs::file_type;
62using llvm::sys::fs::kInvalidFile;
63using llvm::sys::fs::perms;
64using llvm::sys::fs::UniqueID;
65
66Status::Status(const file_status &Status)
67 : UID(Status.getUniqueID()), MTime(Status.getLastModificationTime()),
68 User(Status.getUser()), Group(Status.getGroup()), Size(Status.getSize()),
69 Type(Status.type()), Perms(Status.permissions()) {}
70
71Status::Status(const Twine &Name, UniqueID UID, sys::TimePoint<> MTime,
72 uint32_t User, uint32_t Group, uint64_t Size, file_type Type,
73 perms Perms)
74 : Name(Name.str()), UID(UID), MTime(MTime), User(User), Group(Group),
75 Size(Size), Type(Type), Perms(Perms) {}
76
77Status Status::copyWithNewName(const Status &In, const Twine &NewName) {
78 return Status(NewName, In.getUniqueID(), In.getLastModificationTime(),
79 In.getUser(), In.getGroup(), In.getSize(), In.getType(),
80 In.getPermissions());
81}
82
83Status Status::copyWithNewName(const file_status &In, const Twine &NewName) {
84 return Status(NewName, In.getUniqueID(), In.getLastModificationTime(),
85 In.getUser(), In.getGroup(), In.getSize(), In.type(),
86 In.permissions());
87}
88
89bool Status::equivalent(const Status &Other) const {
90 assert(isStatusKnown() && Other.isStatusKnown())((void)0);
91 return getUniqueID() == Other.getUniqueID();
92}
93
94bool Status::isDirectory() const { return Type == file_type::directory_file; }
95
96bool Status::isRegularFile() const { return Type == file_type::regular_file; }
97
98bool Status::isOther() const {
99 return exists() && !isRegularFile() && !isDirectory() && !isSymlink();
100}
101
102bool Status::isSymlink() const { return Type == file_type::symlink_file; }
103
104bool Status::isStatusKnown() const { return Type != file_type::status_error; }
105
106bool Status::exists() const {
107 return isStatusKnown() && Type != file_type::file_not_found;
108}
109
110File::~File() = default;
111
112FileSystem::~FileSystem() = default;
113
114ErrorOr<std::unique_ptr<MemoryBuffer>>
115FileSystem::getBufferForFile(const llvm::Twine &Name, int64_t FileSize,
116 bool RequiresNullTerminator, bool IsVolatile) {
117 auto F = openFileForRead(Name);
118 if (!F)
119 return F.getError();
120
121 return (*F)->getBuffer(Name, FileSize, RequiresNullTerminator, IsVolatile);
122}
123
124std::error_code FileSystem::makeAbsolute(SmallVectorImpl<char> &Path) const {
125 if (llvm::sys::path::is_absolute(Path))
126 return {};
127
128 auto WorkingDir = getCurrentWorkingDirectory();
129 if (!WorkingDir)
130 return WorkingDir.getError();
131
132 llvm::sys::fs::make_absolute(WorkingDir.get(), Path);
133 return {};
134}
135
136std::error_code FileSystem::getRealPath(const Twine &Path,
137 SmallVectorImpl<char> &Output) const {
138 return errc::operation_not_permitted;
139}
140
141std::error_code FileSystem::isLocal(const Twine &Path, bool &Result) {
142 return errc::operation_not_permitted;
143}
144
145bool FileSystem::exists(const Twine &Path) {
146 auto Status = status(Path);
147 return Status && Status->exists();
148}
149
150#ifndef NDEBUG1
151static bool isTraversalComponent(StringRef Component) {
152 return Component.equals("..") || Component.equals(".");
153}
154
155static bool pathHasTraversal(StringRef Path) {
156 using namespace llvm::sys;
157
158 for (StringRef Comp : llvm::make_range(path::begin(Path), path::end(Path)))
159 if (isTraversalComponent(Comp))
160 return true;
161 return false;
162}
163#endif
164
165//===-----------------------------------------------------------------------===/
166// RealFileSystem implementation
167//===-----------------------------------------------------------------------===/
168
169namespace {
170
171/// Wrapper around a raw file descriptor.
172class RealFile : public File {
173 friend class RealFileSystem;
174
175 file_t FD;
176 Status S;
177 std::string RealName;
178
179 RealFile(file_t RawFD, StringRef NewName, StringRef NewRealPathName)
180 : FD(RawFD), S(NewName, {}, {}, {}, {}, {},
181 llvm::sys::fs::file_type::status_error, {}),
182 RealName(NewRealPathName.str()) {
183 assert(FD != kInvalidFile && "Invalid or inactive file descriptor")((void)0);
184 }
185
186public:
187 ~RealFile() override;
188
189 ErrorOr<Status> status() override;
190 ErrorOr<std::string> getName() override;
191 ErrorOr<std::unique_ptr<MemoryBuffer>> getBuffer(const Twine &Name,
192 int64_t FileSize,
193 bool RequiresNullTerminator,
194 bool IsVolatile) override;
195 std::error_code close() override;
196};
197
198} // namespace
199
200RealFile::~RealFile() { close(); }
201
202ErrorOr<Status> RealFile::status() {
203 assert(FD != kInvalidFile && "cannot stat closed file")((void)0);
204 if (!S.isStatusKnown()) {
205 file_status RealStatus;
206 if (std::error_code EC = sys::fs::status(FD, RealStatus))
207 return EC;
208 S = Status::copyWithNewName(RealStatus, S.getName());
209 }
210 return S;
211}
212
213ErrorOr<std::string> RealFile::getName() {
214 return RealName.empty() ? S.getName().str() : RealName;
215}
216
217ErrorOr<std::unique_ptr<MemoryBuffer>>
218RealFile::getBuffer(const Twine &Name, int64_t FileSize,
219 bool RequiresNullTerminator, bool IsVolatile) {
220 assert(FD != kInvalidFile && "cannot get buffer for closed file")((void)0);
221 return MemoryBuffer::getOpenFile(FD, Name, FileSize, RequiresNullTerminator,
222 IsVolatile);
223}
224
225std::error_code RealFile::close() {
226 std::error_code EC = sys::fs::closeFile(FD);
227 FD = kInvalidFile;
228 return EC;
229}
230
231namespace {
232
233/// A file system according to your operating system.
234/// This may be linked to the process's working directory, or maintain its own.
235///
236/// Currently, its own working directory is emulated by storing the path and
237/// sending absolute paths to llvm::sys::fs:: functions.
238/// A more principled approach would be to push this down a level, modelling
239/// the working dir as an llvm::sys::fs::WorkingDir or similar.
240/// This would enable the use of openat()-style functions on some platforms.
241class RealFileSystem : public FileSystem {
242public:
243 explicit RealFileSystem(bool LinkCWDToProcess) {
244 if (!LinkCWDToProcess) {
245 SmallString<128> PWD, RealPWD;
246 if (llvm::sys::fs::current_path(PWD))
247 return; // Awful, but nothing to do here.
248 if (llvm::sys::fs::real_path(PWD, RealPWD))
249 WD = {PWD, PWD};
250 else
251 WD = {PWD, RealPWD};
252 }
253 }
254
255 ErrorOr<Status> status(const Twine &Path) override;
256 ErrorOr<std::unique_ptr<File>> openFileForRead(const Twine &Path) override;
257 directory_iterator dir_begin(const Twine &Dir, std::error_code &EC) override;
258
259 llvm::ErrorOr<std::string> getCurrentWorkingDirectory() const override;
260 std::error_code setCurrentWorkingDirectory(const Twine &Path) override;
261 std::error_code isLocal(const Twine &Path, bool &Result) override;
262 std::error_code getRealPath(const Twine &Path,
263 SmallVectorImpl<char> &Output) const override;
264
265private:
266 // If this FS has its own working dir, use it to make Path absolute.
267 // The returned twine is safe to use as long as both Storage and Path live.
268 Twine adjustPath(const Twine &Path, SmallVectorImpl<char> &Storage) const {
269 if (!WD)
270 return Path;
271 Path.toVector(Storage);
272 sys::fs::make_absolute(WD->Resolved, Storage);
273 return Storage;
274 }
275
276 struct WorkingDirectory {
277 // The current working directory, without symlinks resolved. (echo $PWD).
278 SmallString<128> Specified;
279 // The current working directory, with links resolved. (readlink .).
280 SmallString<128> Resolved;
281 };
282 Optional<WorkingDirectory> WD;
283};
284
285} // namespace
286
287ErrorOr<Status> RealFileSystem::status(const Twine &Path) {
288 SmallString<256> Storage;
289 sys::fs::file_status RealStatus;
290 if (std::error_code EC =
291 sys::fs::status(adjustPath(Path, Storage), RealStatus))
292 return EC;
293 return Status::copyWithNewName(RealStatus, Path);
294}
295
296ErrorOr<std::unique_ptr<File>>
297RealFileSystem::openFileForRead(const Twine &Name) {
298 SmallString<256> RealName, Storage;
299 Expected<file_t> FDOrErr = sys::fs::openNativeFileForRead(
300 adjustPath(Name, Storage), sys::fs::OF_None, &RealName);
301 if (!FDOrErr)
302 return errorToErrorCode(FDOrErr.takeError());
303 return std::unique_ptr<File>(
304 new RealFile(*FDOrErr, Name.str(), RealName.str()));
305}
306
307llvm::ErrorOr<std::string> RealFileSystem::getCurrentWorkingDirectory() const {
308 if (WD)
309 return std::string(WD->Specified.str());
310
311 SmallString<128> Dir;
312 if (std::error_code EC = llvm::sys::fs::current_path(Dir))
313 return EC;
314 return std::string(Dir.str());
315}
316
317std::error_code RealFileSystem::setCurrentWorkingDirectory(const Twine &Path) {
318 if (!WD)
319 return llvm::sys::fs::set_current_path(Path);
320
321 SmallString<128> Absolute, Resolved, Storage;
322 adjustPath(Path, Storage).toVector(Absolute);
323 bool IsDir;
324 if (auto Err = llvm::sys::fs::is_directory(Absolute, IsDir))
325 return Err;
326 if (!IsDir)
327 return std::make_error_code(std::errc::not_a_directory);
328 if (auto Err = llvm::sys::fs::real_path(Absolute, Resolved))
329 return Err;
330 WD = {Absolute, Resolved};
331 return std::error_code();
332}
333
334std::error_code RealFileSystem::isLocal(const Twine &Path, bool &Result) {
335 SmallString<256> Storage;
336 return llvm::sys::fs::is_local(adjustPath(Path, Storage), Result);
337}
338
339std::error_code
340RealFileSystem::getRealPath(const Twine &Path,
341 SmallVectorImpl<char> &Output) const {
342 SmallString<256> Storage;
343 return llvm::sys::fs::real_path(adjustPath(Path, Storage), Output);
344}
345
346IntrusiveRefCntPtr<FileSystem> vfs::getRealFileSystem() {
347 static IntrusiveRefCntPtr<FileSystem> FS(new RealFileSystem(true));
348 return FS;
349}
350
351std::unique_ptr<FileSystem> vfs::createPhysicalFileSystem() {
352 return std::make_unique<RealFileSystem>(false);
353}
354
355namespace {
356
357class RealFSDirIter : public llvm::vfs::detail::DirIterImpl {
358 llvm::sys::fs::directory_iterator Iter;
359
360public:
361 RealFSDirIter(const Twine &Path, std::error_code &EC) : Iter(Path, EC) {
362 if (Iter != llvm::sys::fs::directory_iterator())
363 CurrentEntry = directory_entry(Iter->path(), Iter->type());
364 }
365
366 std::error_code increment() override {
367 std::error_code EC;
368 Iter.increment(EC);
369 CurrentEntry = (Iter == llvm::sys::fs::directory_iterator())
370 ? directory_entry()
371 : directory_entry(Iter->path(), Iter->type());
372 return EC;
373 }
374};
375
376} // namespace
377
378directory_iterator RealFileSystem::dir_begin(const Twine &Dir,
379 std::error_code &EC) {
380 SmallString<128> Storage;
381 return directory_iterator(
382 std::make_shared<RealFSDirIter>(adjustPath(Dir, Storage), EC));
383}
384
385//===-----------------------------------------------------------------------===/
386// OverlayFileSystem implementation
387//===-----------------------------------------------------------------------===/
388
389OverlayFileSystem::OverlayFileSystem(IntrusiveRefCntPtr<FileSystem> BaseFS) {
390 FSList.push_back(std::move(BaseFS));
391}
392
393void OverlayFileSystem::pushOverlay(IntrusiveRefCntPtr<FileSystem> FS) {
394 FSList.push_back(FS);
395 // Synchronize added file systems by duplicating the working directory from
396 // the first one in the list.
397 FS->setCurrentWorkingDirectory(getCurrentWorkingDirectory().get());
398}
399
400ErrorOr<Status> OverlayFileSystem::status(const Twine &Path) {
401 // FIXME: handle symlinks that cross file systems
402 for (iterator I = overlays_begin(), E = overlays_end(); I != E; ++I) {
403 ErrorOr<Status> Status = (*I)->status(Path);
404 if (Status || Status.getError() != llvm::errc::no_such_file_or_directory)
405 return Status;
406 }
407 return make_error_code(llvm::errc::no_such_file_or_directory);
408}
409
410ErrorOr<std::unique_ptr<File>>
411OverlayFileSystem::openFileForRead(const llvm::Twine &Path) {
412 // FIXME: handle symlinks that cross file systems
413 for (iterator I = overlays_begin(), E = overlays_end(); I != E; ++I) {
414 auto Result = (*I)->openFileForRead(Path);
415 if (Result || Result.getError() != llvm::errc::no_such_file_or_directory)
416 return Result;
417 }
418 return make_error_code(llvm::errc::no_such_file_or_directory);
419}
420
421llvm::ErrorOr<std::string>
422OverlayFileSystem::getCurrentWorkingDirectory() const {
423 // All file systems are synchronized, just take the first working directory.
424 return FSList.front()->getCurrentWorkingDirectory();
425}
426
427std::error_code
428OverlayFileSystem::setCurrentWorkingDirectory(const Twine &Path) {
429 for (auto &FS : FSList)
430 if (std::error_code EC = FS->setCurrentWorkingDirectory(Path))
431 return EC;
432 return {};
433}
434
435std::error_code OverlayFileSystem::isLocal(const Twine &Path, bool &Result) {
436 for (auto &FS : FSList)
437 if (FS->exists(Path))
438 return FS->isLocal(Path, Result);
439 return errc::no_such_file_or_directory;
440}
441
442std::error_code
443OverlayFileSystem::getRealPath(const Twine &Path,
444 SmallVectorImpl<char> &Output) const {
445 for (auto &FS : FSList)
446 if (FS->exists(Path))
447 return FS->getRealPath(Path, Output);
448 return errc::no_such_file_or_directory;
449}
450
451llvm::vfs::detail::DirIterImpl::~DirIterImpl() = default;
452
453namespace {
454
455/// Combines and deduplicates directory entries across multiple file systems.
456class CombiningDirIterImpl : public llvm::vfs::detail::DirIterImpl {
457 using FileSystemPtr = llvm::IntrusiveRefCntPtr<llvm::vfs::FileSystem>;
458
459 /// File systems to check for entries in. Processed in reverse order.
460 SmallVector<FileSystemPtr, 8> FSList;
461 /// The directory iterator for the current filesystem.
462 directory_iterator CurrentDirIter;
463 /// The path of the directory to iterate the entries of.
464 std::string DirPath;
465 /// The set of names already returned as entries.
466 llvm::StringSet<> SeenNames;
467
468 /// Sets \c CurrentDirIter to an iterator of \c DirPath in the next file
469 /// system in the list, or leaves it as is (at its end position) if we've
470 /// already gone through them all.
471 std::error_code incrementFS() {
472 while (!FSList.empty()) {
473 std::error_code EC;
474 CurrentDirIter = FSList.back()->dir_begin(DirPath, EC);
475 FSList.pop_back();
476 if (EC && EC != errc::no_such_file_or_directory)
477 return EC;
478 if (CurrentDirIter != directory_iterator())
479 break; // found
480 }
481 return {};
482 }
483
484 std::error_code incrementDirIter(bool IsFirstTime) {
485 assert((IsFirstTime || CurrentDirIter != directory_iterator()) &&((void)0)
486 "incrementing past end")((void)0);
487 std::error_code EC;
488 if (!IsFirstTime)
489 CurrentDirIter.increment(EC);
490 if (!EC && CurrentDirIter == directory_iterator())
491 EC = incrementFS();
492 return EC;
493 }
494
495 std::error_code incrementImpl(bool IsFirstTime) {
496 while (true) {
497 std::error_code EC = incrementDirIter(IsFirstTime);
498 if (EC || CurrentDirIter == directory_iterator()) {
499 CurrentEntry = directory_entry();
500 return EC;
501 }
502 CurrentEntry = *CurrentDirIter;
503 StringRef Name = llvm::sys::path::filename(CurrentEntry.path());
504 if (SeenNames.insert(Name).second)
505 return EC; // name not seen before
506 }
507 llvm_unreachable("returned above")__builtin_unreachable();
508 }
509
510public:
511 CombiningDirIterImpl(ArrayRef<FileSystemPtr> FileSystems, std::string Dir,
512 std::error_code &EC)
513 : FSList(FileSystems.begin(), FileSystems.end()),
514 DirPath(std::move(Dir)) {
515 if (!FSList.empty()) {
516 CurrentDirIter = FSList.back()->dir_begin(DirPath, EC);
517 FSList.pop_back();
518 if (!EC || EC == errc::no_such_file_or_directory)
519 EC = incrementImpl(true);
520 }
521 }
522
523 CombiningDirIterImpl(directory_iterator FirstIter, FileSystemPtr Fallback,
524 std::string FallbackDir, std::error_code &EC)
525 : FSList({Fallback}), CurrentDirIter(FirstIter),
526 DirPath(std::move(FallbackDir)) {
527 if (!EC || EC == errc::no_such_file_or_directory)
528 EC = incrementImpl(true);
529 }
530
531 std::error_code increment() override { return incrementImpl(false); }
532};
533
534} // namespace
535
536directory_iterator OverlayFileSystem::dir_begin(const Twine &Dir,
537 std::error_code &EC) {
538 return directory_iterator(
539 std::make_shared<CombiningDirIterImpl>(FSList, Dir.str(), EC));
540}
541
542void ProxyFileSystem::anchor() {}
543
544namespace llvm {
545namespace vfs {
546
547namespace detail {
548
549enum InMemoryNodeKind { IME_File, IME_Directory, IME_HardLink };
550
551/// The in memory file system is a tree of Nodes. Every node can either be a
552/// file , hardlink or a directory.
553class InMemoryNode {
554 InMemoryNodeKind Kind;
555 std::string FileName;
556
557public:
558 InMemoryNode(llvm::StringRef FileName, InMemoryNodeKind Kind)
559 : Kind(Kind), FileName(std::string(llvm::sys::path::filename(FileName))) {
560 }
561 virtual ~InMemoryNode() = default;
562
563 /// Get the filename of this node (the name without the directory part).
564 StringRef getFileName() const { return FileName; }
565 InMemoryNodeKind getKind() const { return Kind; }
566 virtual std::string toString(unsigned Indent) const = 0;
567};
568
569class InMemoryFile : public InMemoryNode {
570 Status Stat;
571 std::unique_ptr<llvm::MemoryBuffer> Buffer;
572
573public:
574 InMemoryFile(Status Stat, std::unique_ptr<llvm::MemoryBuffer> Buffer)
575 : InMemoryNode(Stat.getName(), IME_File), Stat(std::move(Stat)),
576 Buffer(std::move(Buffer)) {}
577
578 /// Return the \p Status for this node. \p RequestedName should be the name
579 /// through which the caller referred to this node. It will override
580 /// \p Status::Name in the return value, to mimic the behavior of \p RealFile.
581 Status getStatus(const Twine &RequestedName) const {
582 return Status::copyWithNewName(Stat, RequestedName);
583 }
584 llvm::MemoryBuffer *getBuffer() const { return Buffer.get(); }
585
586 std::string toString(unsigned Indent) const override {
587 return (std::string(Indent, ' ') + Stat.getName() + "\n").str();
588 }
589
590 static bool classof(const InMemoryNode *N) {
591 return N->getKind() == IME_File;
592 }
593};
594
595namespace {
596
597class InMemoryHardLink : public InMemoryNode {
598 const InMemoryFile &ResolvedFile;
599
600public:
601 InMemoryHardLink(StringRef Path, const InMemoryFile &ResolvedFile)
602 : InMemoryNode(Path, IME_HardLink), ResolvedFile(ResolvedFile) {}
603 const InMemoryFile &getResolvedFile() const { return ResolvedFile; }
604
605 std::string toString(unsigned Indent) const override {
606 return std::string(Indent, ' ') + "HardLink to -> " +
607 ResolvedFile.toString(0);
608 }
609
610 static bool classof(const InMemoryNode *N) {
611 return N->getKind() == IME_HardLink;
612 }
613};
614
615/// Adapt a InMemoryFile for VFS' File interface. The goal is to make
616/// \p InMemoryFileAdaptor mimic as much as possible the behavior of
617/// \p RealFile.
618class InMemoryFileAdaptor : public File {
619 const InMemoryFile &Node;
620 /// The name to use when returning a Status for this file.
621 std::string RequestedName;
622
623public:
624 explicit InMemoryFileAdaptor(const InMemoryFile &Node,
625 std::string RequestedName)
626 : Node(Node), RequestedName(std::move(RequestedName)) {}
627
628 llvm::ErrorOr<Status> status() override {
629 return Node.getStatus(RequestedName);
630 }
631
632 llvm::ErrorOr<std::unique_ptr<llvm::MemoryBuffer>>
633 getBuffer(const Twine &Name, int64_t FileSize, bool RequiresNullTerminator,
634 bool IsVolatile) override {
635 llvm::MemoryBuffer *Buf = Node.getBuffer();
636 return llvm::MemoryBuffer::getMemBuffer(
637 Buf->getBuffer(), Buf->getBufferIdentifier(), RequiresNullTerminator);
638 }
639
640 std::error_code close() override { return {}; }
641};
642} // namespace
643
644class InMemoryDirectory : public InMemoryNode {
645 Status Stat;
646 llvm::StringMap<std::unique_ptr<InMemoryNode>> Entries;
647
648public:
649 InMemoryDirectory(Status Stat)
650 : InMemoryNode(Stat.getName(), IME_Directory), Stat(std::move(Stat)) {}
651
652 /// Return the \p Status for this node. \p RequestedName should be the name
653 /// through which the caller referred to this node. It will override
654 /// \p Status::Name in the return value, to mimic the behavior of \p RealFile.
655 Status getStatus(const Twine &RequestedName) const {
656 return Status::copyWithNewName(Stat, RequestedName);
657 }
658 InMemoryNode *getChild(StringRef Name) {
659 auto I = Entries.find(Name);
660 if (I != Entries.end())
661 return I->second.get();
662 return nullptr;
663 }
664
665 InMemoryNode *addChild(StringRef Name, std::unique_ptr<InMemoryNode> Child) {
666 return Entries.insert(make_pair(Name, std::move(Child)))
667 .first->second.get();
668 }
669
670 using const_iterator = decltype(Entries)::const_iterator;
671
672 const_iterator begin() const { return Entries.begin(); }
673 const_iterator end() const { return Entries.end(); }
674
675 std::string toString(unsigned Indent) const override {
676 std::string Result =
677 (std::string(Indent, ' ') + Stat.getName() + "\n").str();
678 for (const auto &Entry : Entries)
679 Result += Entry.second->toString(Indent + 2);
680 return Result;
681 }
682
683 static bool classof(const InMemoryNode *N) {
684 return N->getKind() == IME_Directory;
685 }
686};
687
688namespace {
689Status getNodeStatus(const InMemoryNode *Node, const Twine &RequestedName) {
690 if (auto Dir = dyn_cast<detail::InMemoryDirectory>(Node))
691 return Dir->getStatus(RequestedName);
692 if (auto File = dyn_cast<detail::InMemoryFile>(Node))
693 return File->getStatus(RequestedName);
694 if (auto Link = dyn_cast<detail::InMemoryHardLink>(Node))
695 return Link->getResolvedFile().getStatus(RequestedName);
696 llvm_unreachable("Unknown node type")__builtin_unreachable();
697}
698} // namespace
699} // namespace detail
700
701InMemoryFileSystem::InMemoryFileSystem(bool UseNormalizedPaths)
702 : Root(new detail::InMemoryDirectory(
703 Status("", getNextVirtualUniqueID(), llvm::sys::TimePoint<>(), 0, 0,
704 0, llvm::sys::fs::file_type::directory_file,
705 llvm::sys::fs::perms::all_all))),
706 UseNormalizedPaths(UseNormalizedPaths) {}
707
708InMemoryFileSystem::~InMemoryFileSystem() = default;
709
710std::string InMemoryFileSystem::toString() const {
711 return Root->toString(/*Indent=*/0);
712}
713
714bool InMemoryFileSystem::addFile(const Twine &P, time_t ModificationTime,
715 std::unique_ptr<llvm::MemoryBuffer> Buffer,
716 Optional<uint32_t> User,
717 Optional<uint32_t> Group,
718 Optional<llvm::sys::fs::file_type> Type,
719 Optional<llvm::sys::fs::perms> Perms,
720 const detail::InMemoryFile *HardLinkTarget) {
721 SmallString<128> Path;
722 P.toVector(Path);
723
724 // Fix up relative paths. This just prepends the current working directory.
725 std::error_code EC = makeAbsolute(Path);
726 assert(!EC)((void)0);
727 (void)EC;
728
729 if (useNormalizedPaths())
730 llvm::sys::path::remove_dots(Path, /*remove_dot_dot=*/true);
731
732 if (Path.empty())
733 return false;
734
735 detail::InMemoryDirectory *Dir = Root.get();
736 auto I = llvm::sys::path::begin(Path), E = sys::path::end(Path);
737 const auto ResolvedUser = User.getValueOr(0);
738 const auto ResolvedGroup = Group.getValueOr(0);
739 const auto ResolvedType = Type.getValueOr(sys::fs::file_type::regular_file);
740 const auto ResolvedPerms = Perms.getValueOr(sys::fs::all_all);
741 assert(!(HardLinkTarget && Buffer) && "HardLink cannot have a buffer")((void)0);
742 // Any intermediate directories we create should be accessible by
743 // the owner, even if Perms says otherwise for the final path.
744 const auto NewDirectoryPerms = ResolvedPerms | sys::fs::owner_all;
745 while (true) {
746 StringRef Name = *I;
747 detail::InMemoryNode *Node = Dir->getChild(Name);
748 ++I;
749 if (!Node) {
750 if (I == E) {
751 // End of the path.
752 std::unique_ptr<detail::InMemoryNode> Child;
753 if (HardLinkTarget)
754 Child.reset(new detail::InMemoryHardLink(P.str(), *HardLinkTarget));
755 else {
756 // Create a new file or directory.
757 Status Stat(P.str(), getNextVirtualUniqueID(),
758 llvm::sys::toTimePoint(ModificationTime), ResolvedUser,
759 ResolvedGroup, Buffer->getBufferSize(), ResolvedType,
760 ResolvedPerms);
761 if (ResolvedType == sys::fs::file_type::directory_file) {
762 Child.reset(new detail::InMemoryDirectory(std::move(Stat)));
763 } else {
764 Child.reset(
765 new detail::InMemoryFile(std::move(Stat), std::move(Buffer)));
766 }
767 }
768 Dir->addChild(Name, std::move(Child));
769 return true;
770 }
771
772 // Create a new directory. Use the path up to here.
773 Status Stat(
774 StringRef(Path.str().begin(), Name.end() - Path.str().begin()),
775 getNextVirtualUniqueID(), llvm::sys::toTimePoint(ModificationTime),
776 ResolvedUser, ResolvedGroup, 0, sys::fs::file_type::directory_file,
777 NewDirectoryPerms);
778 Dir = cast<detail::InMemoryDirectory>(Dir->addChild(
779 Name, std::make_unique<detail::InMemoryDirectory>(std::move(Stat))));
780 continue;
781 }
782
783 if (auto *NewDir = dyn_cast<detail::InMemoryDirectory>(Node)) {
784 Dir = NewDir;
785 } else {
786 assert((isa<detail::InMemoryFile>(Node) ||((void)0)
787 isa<detail::InMemoryHardLink>(Node)) &&((void)0)
788 "Must be either file, hardlink or directory!")((void)0);
789
790 // Trying to insert a directory in place of a file.
791 if (I != E)
792 return false;
793
794 // Return false only if the new file is different from the existing one.
795 if (auto Link = dyn_cast<detail::InMemoryHardLink>(Node)) {
796 return Link->getResolvedFile().getBuffer()->getBuffer() ==
797 Buffer->getBuffer();
798 }
799 return cast<detail::InMemoryFile>(Node)->getBuffer()->getBuffer() ==
800 Buffer->getBuffer();
801 }
802 }
803}
804
805bool InMemoryFileSystem::addFile(const Twine &P, time_t ModificationTime,
806 std::unique_ptr<llvm::MemoryBuffer> Buffer,
807 Optional<uint32_t> User,
808 Optional<uint32_t> Group,
809 Optional<llvm::sys::fs::file_type> Type,
810 Optional<llvm::sys::fs::perms> Perms) {
811 return addFile(P, ModificationTime, std::move(Buffer), User, Group, Type,
812 Perms, /*HardLinkTarget=*/nullptr);
813}
814
815bool InMemoryFileSystem::addFileNoOwn(const Twine &P, time_t ModificationTime,
816 const llvm::MemoryBufferRef &Buffer,
817 Optional<uint32_t> User,
818 Optional<uint32_t> Group,
819 Optional<llvm::sys::fs::file_type> Type,
820 Optional<llvm::sys::fs::perms> Perms) {
821 return addFile(P, ModificationTime, llvm::MemoryBuffer::getMemBuffer(Buffer),
822 std::move(User), std::move(Group), std::move(Type),
823 std::move(Perms));
824}
825
826static ErrorOr<const detail::InMemoryNode *>
827lookupInMemoryNode(const InMemoryFileSystem &FS, detail::InMemoryDirectory *Dir,
828 const Twine &P) {
829 SmallString<128> Path;
830 P.toVector(Path);
831
832 // Fix up relative paths. This just prepends the current working directory.
833 std::error_code EC = FS.makeAbsolute(Path);
834 assert(!EC)((void)0);
835 (void)EC;
836
837 if (FS.useNormalizedPaths())
838 llvm::sys::path::remove_dots(Path, /*remove_dot_dot=*/true);
839
840 if (Path.empty())
841 return Dir;
842
843 auto I = llvm::sys::path::begin(Path), E = llvm::sys::path::end(Path);
844 while (true) {
845 detail::InMemoryNode *Node = Dir->getChild(*I);
846 ++I;
847 if (!Node)
848 return errc::no_such_file_or_directory;
849
850 // Return the file if it's at the end of the path.
851 if (auto File = dyn_cast<detail::InMemoryFile>(Node)) {
852 if (I == E)
853 return File;
854 return errc::no_such_file_or_directory;
855 }
856
857 // If Node is HardLink then return the resolved file.
858 if (auto File = dyn_cast<detail::InMemoryHardLink>(Node)) {
859 if (I == E)
860 return &File->getResolvedFile();
861 return errc::no_such_file_or_directory;
862 }
863 // Traverse directories.
864 Dir = cast<detail::InMemoryDirectory>(Node);
865 if (I == E)
866 return Dir;
867 }
868}
869
870bool InMemoryFileSystem::addHardLink(const Twine &FromPath,
871 const Twine &ToPath) {
872 auto FromNode = lookupInMemoryNode(*this, Root.get(), FromPath);
873 auto ToNode = lookupInMemoryNode(*this, Root.get(), ToPath);
874 // FromPath must not have been added before. ToPath must have been added
875 // before. Resolved ToPath must be a File.
876 if (!ToNode || FromNode || !isa<detail::InMemoryFile>(*ToNode))
877 return false;
878 return this->addFile(FromPath, 0, nullptr, None, None, None, None,
879 cast<detail::InMemoryFile>(*ToNode));
880}
881
882llvm::ErrorOr<Status> InMemoryFileSystem::status(const Twine &Path) {
883 auto Node = lookupInMemoryNode(*this, Root.get(), Path);
884 if (Node)
885 return detail::getNodeStatus(*Node, Path);
886 return Node.getError();
887}
888
889llvm::ErrorOr<std::unique_ptr<File>>
890InMemoryFileSystem::openFileForRead(const Twine &Path) {
891 auto Node = lookupInMemoryNode(*this, Root.get(), Path);
892 if (!Node)
893 return Node.getError();
894
895 // When we have a file provide a heap-allocated wrapper for the memory buffer
896 // to match the ownership semantics for File.
897 if (auto *F = dyn_cast<detail::InMemoryFile>(*Node))
898 return std::unique_ptr<File>(
899 new detail::InMemoryFileAdaptor(*F, Path.str()));
900
901 // FIXME: errc::not_a_file?
902 return make_error_code(llvm::errc::invalid_argument);
903}
904
905namespace {
906
907/// Adaptor from InMemoryDir::iterator to directory_iterator.
908class InMemoryDirIterator : public llvm::vfs::detail::DirIterImpl {
909 detail::InMemoryDirectory::const_iterator I;
910 detail::InMemoryDirectory::const_iterator E;
911 std::string RequestedDirName;
912
913 void setCurrentEntry() {
914 if (I != E) {
915 SmallString<256> Path(RequestedDirName);
916 llvm::sys::path::append(Path, I->second->getFileName());
917 sys::fs::file_type Type = sys::fs::file_type::type_unknown;
918 switch (I->second->getKind()) {
919 case detail::IME_File:
920 case detail::IME_HardLink:
921 Type = sys::fs::file_type::regular_file;
922 break;
923 case detail::IME_Directory:
924 Type = sys::fs::file_type::directory_file;
925 break;
926 }
927 CurrentEntry = directory_entry(std::string(Path.str()), Type);
928 } else {
929 // When we're at the end, make CurrentEntry invalid and DirIterImpl will
930 // do the rest.
931 CurrentEntry = directory_entry();
932 }
933 }
934
935public:
936 InMemoryDirIterator() = default;
937
938 explicit InMemoryDirIterator(const detail::InMemoryDirectory &Dir,
939 std::string RequestedDirName)
940 : I(Dir.begin()), E(Dir.end()),
941 RequestedDirName(std::move(RequestedDirName)) {
942 setCurrentEntry();
943 }
944
945 std::error_code increment() override {
946 ++I;
947 setCurrentEntry();
948 return {};
949 }
950};
951
952} // namespace
953
954directory_iterator InMemoryFileSystem::dir_begin(const Twine &Dir,
955 std::error_code &EC) {
956 auto Node = lookupInMemoryNode(*this, Root.get(), Dir);
957 if (!Node) {
958 EC = Node.getError();
959 return directory_iterator(std::make_shared<InMemoryDirIterator>());
960 }
961
962 if (auto *DirNode = dyn_cast<detail::InMemoryDirectory>(*Node))
963 return directory_iterator(
964 std::make_shared<InMemoryDirIterator>(*DirNode, Dir.str()));
965
966 EC = make_error_code(llvm::errc::not_a_directory);
967 return directory_iterator(std::make_shared<InMemoryDirIterator>());
968}
969
970std::error_code InMemoryFileSystem::setCurrentWorkingDirectory(const Twine &P) {
971 SmallString<128> Path;
972 P.toVector(Path);
973
974 // Fix up relative paths. This just prepends the current working directory.
975 std::error_code EC = makeAbsolute(Path);
976 assert(!EC)((void)0);
977 (void)EC;
978
979 if (useNormalizedPaths())
980 llvm::sys::path::remove_dots(Path, /*remove_dot_dot=*/true);
981
982 if (!Path.empty())
983 WorkingDirectory = std::string(Path.str());
984 return {};
985}
986
987std::error_code
988InMemoryFileSystem::getRealPath(const Twine &Path,
989 SmallVectorImpl<char> &Output) const {
990 auto CWD = getCurrentWorkingDirectory();
991 if (!CWD || CWD->empty())
992 return errc::operation_not_permitted;
993 Path.toVector(Output);
994 if (auto EC = makeAbsolute(Output))
995 return EC;
996 llvm::sys::path::remove_dots(Output, /*remove_dot_dot=*/true);
997 return {};
998}
999
1000std::error_code InMemoryFileSystem::isLocal(const Twine &Path, bool &Result) {
1001 Result = false;
1002 return {};
1003}
1004
1005} // namespace vfs
1006} // namespace llvm
1007
1008//===-----------------------------------------------------------------------===/
1009// RedirectingFileSystem implementation
1010//===-----------------------------------------------------------------------===/
1011
1012namespace {
1013
1014static llvm::sys::path::Style getExistingStyle(llvm::StringRef Path) {
1015 // Detect the path style in use by checking the first separator.
1016 llvm::sys::path::Style style = llvm::sys::path::Style::native;
1017 const size_t n = Path.find_first_of("/\\");
1018 if (n != static_cast<size_t>(-1))
1019 style = (Path[n] == '/') ? llvm::sys::path::Style::posix
1020 : llvm::sys::path::Style::windows;
1021 return style;
1022}
1023
1024/// Removes leading "./" as well as path components like ".." and ".".
1025static llvm::SmallString<256> canonicalize(llvm::StringRef Path) {
1026 // First detect the path style in use by checking the first separator.
1027 llvm::sys::path::Style style = getExistingStyle(Path);
1028
1029 // Now remove the dots. Explicitly specifying the path style prevents the
1030 // direction of the slashes from changing.
1031 llvm::SmallString<256> result =
1032 llvm::sys::path::remove_leading_dotslash(Path, style);
1033 llvm::sys::path::remove_dots(result, /*remove_dot_dot=*/true, style);
1034 return result;
1035}
1036
1037} // anonymous namespace
1038
1039
1040RedirectingFileSystem::RedirectingFileSystem(IntrusiveRefCntPtr<FileSystem> FS)
1041 : ExternalFS(std::move(FS)) {
1042 if (ExternalFS)
1043 if (auto ExternalWorkingDirectory =
1044 ExternalFS->getCurrentWorkingDirectory()) {
1045 WorkingDirectory = *ExternalWorkingDirectory;
1046 }
1047}
1048
1049/// Directory iterator implementation for \c RedirectingFileSystem's
1050/// directory entries.
1051class llvm::vfs::RedirectingFSDirIterImpl
1052 : public llvm::vfs::detail::DirIterImpl {
1053 std::string Dir;
1054 RedirectingFileSystem::DirectoryEntry::iterator Current, End;
1055
1056 std::error_code incrementImpl(bool IsFirstTime) {
1057 assert((IsFirstTime || Current != End) && "cannot iterate past end")((void)0);
1058 if (!IsFirstTime)
1059 ++Current;
1060 if (Current != End) {
1061 SmallString<128> PathStr(Dir);
1062 llvm::sys::path::append(PathStr, (*Current)->getName());
1063 sys::fs::file_type Type = sys::fs::file_type::type_unknown;
1064 switch ((*Current)->getKind()) {
1065 case RedirectingFileSystem::EK_Directory:
1066 LLVM_FALLTHROUGH[[gnu::fallthrough]];
1067 case RedirectingFileSystem::EK_DirectoryRemap:
1068 Type = sys::fs::file_type::directory_file;
1069 break;
1070 case RedirectingFileSystem::EK_File:
1071 Type = sys::fs::file_type::regular_file;
1072 break;
1073 }
1074 CurrentEntry = directory_entry(std::string(PathStr.str()), Type);
1075 } else {
1076 CurrentEntry = directory_entry();
1077 }
1078 return {};
1079 };
1080
1081public:
1082 RedirectingFSDirIterImpl(
1083 const Twine &Path, RedirectingFileSystem::DirectoryEntry::iterator Begin,
1084 RedirectingFileSystem::DirectoryEntry::iterator End, std::error_code &EC)
1085 : Dir(Path.str()), Current(Begin), End(End) {
1086 EC = incrementImpl(/*IsFirstTime=*/true);
1087 }
1088
1089 std::error_code increment() override {
1090 return incrementImpl(/*IsFirstTime=*/false);
1091 }
1092};
1093
1094/// Directory iterator implementation for \c RedirectingFileSystem's
1095/// directory remap entries that maps the paths reported by the external
1096/// file system's directory iterator back to the virtual directory's path.
1097class RedirectingFSDirRemapIterImpl : public llvm::vfs::detail::DirIterImpl {
1098 std::string Dir;
1099 llvm::sys::path::Style DirStyle;
1100 llvm::vfs::directory_iterator ExternalIter;
1101
1102public:
1103 RedirectingFSDirRemapIterImpl(std::string DirPath,
1104 llvm::vfs::directory_iterator ExtIter)
1105 : Dir(std::move(DirPath)), DirStyle(getExistingStyle(Dir)),
1106 ExternalIter(ExtIter) {
1107 if (ExternalIter != llvm::vfs::directory_iterator())
1108 setCurrentEntry();
1109 }
1110
1111 void setCurrentEntry() {
1112 StringRef ExternalPath = ExternalIter->path();
1113 llvm::sys::path::Style ExternalStyle = getExistingStyle(ExternalPath);
1114 StringRef File = llvm::sys::path::filename(ExternalPath, ExternalStyle);
1115
1116 SmallString<128> NewPath(Dir);
1117 llvm::sys::path::append(NewPath, DirStyle, File);
1118
1119 CurrentEntry = directory_entry(std::string(NewPath), ExternalIter->type());
1120 }
1121
1122 std::error_code increment() override {
1123 std::error_code EC;
1124 ExternalIter.increment(EC);
1125 if (!EC && ExternalIter != llvm::vfs::directory_iterator())
1126 setCurrentEntry();
1127 else
1128 CurrentEntry = directory_entry();
1129 return EC;
1130 }
1131};
1132
1133llvm::ErrorOr<std::string>
1134RedirectingFileSystem::getCurrentWorkingDirectory() const {
1135 return WorkingDirectory;
1136}
1137
1138std::error_code
1139RedirectingFileSystem::setCurrentWorkingDirectory(const Twine &Path) {
1140 // Don't change the working directory if the path doesn't exist.
1141 if (!exists(Path))
1142 return errc::no_such_file_or_directory;
1143
1144 SmallString<128> AbsolutePath;
1145 Path.toVector(AbsolutePath);
1146 if (std::error_code EC = makeAbsolute(AbsolutePath))
1147 return EC;
1148 WorkingDirectory = std::string(AbsolutePath.str());
1149 return {};
1150}
1151
1152std::error_code RedirectingFileSystem::isLocal(const Twine &Path_,
1153 bool &Result) {
1154 SmallString<256> Path;
1155 Path_.toVector(Path);
1156
1157 if (std::error_code EC = makeCanonical(Path))
1158 return {};
1159
1160 return ExternalFS->isLocal(Path, Result);
1161}
1162
1163std::error_code RedirectingFileSystem::makeAbsolute(SmallVectorImpl<char> &Path) const {
1164 if (llvm::sys::path::is_absolute(Path, llvm::sys::path::Style::posix) ||
1165 llvm::sys::path::is_absolute(Path, llvm::sys::path::Style::windows))
1166 return {};
1167
1168 auto WorkingDir = getCurrentWorkingDirectory();
1169 if (!WorkingDir)
1170 return WorkingDir.getError();
1171
1172 // We can't use sys::fs::make_absolute because that assumes the path style
1173 // is native and there is no way to override that. Since we know WorkingDir
1174 // is absolute, we can use it to determine which style we actually have and
1175 // append Path ourselves.
1176 sys::path::Style style = sys::path::Style::windows;
1177 if (sys::path::is_absolute(WorkingDir.get(), sys::path::Style::posix)) {
1178 style = sys::path::Style::posix;
1179 }
1180
1181 std::string Result = WorkingDir.get();
1182 StringRef Dir(Result);
1183 if (!Dir.endswith(sys::path::get_separator(style))) {
1184 Result += sys::path::get_separator(style);
1185 }
1186 Result.append(Path.data(), Path.size());
1187 Path.assign(Result.begin(), Result.end());
1188
1189 return {};
1190}
1191
1192directory_iterator RedirectingFileSystem::dir_begin(const Twine &Dir,
1193 std::error_code &EC) {
1194 SmallString<256> Path;
1195 Dir.toVector(Path);
1196
1197 EC = makeCanonical(Path);
1198 if (EC)
1199 return {};
1200
1201 ErrorOr<RedirectingFileSystem::LookupResult> Result = lookupPath(Path);
1202 if (!Result) {
1203 EC = Result.getError();
1204 if (shouldFallBackToExternalFS(EC))
1205 return ExternalFS->dir_begin(Path, EC);
1206 return {};
1207 }
1208
1209 // Use status to make sure the path exists and refers to a directory.
1210 ErrorOr<Status> S = status(Path, *Result);
1211 if (!S) {
1212 if (shouldFallBackToExternalFS(S.getError(), Result->E))
1213 return ExternalFS->dir_begin(Dir, EC);
1214 EC = S.getError();
1215 return {};
1216 }
1217 if (!S->isDirectory()) {
1218 EC = std::error_code(static_cast<int>(errc::not_a_directory),
1219 std::system_category());
1220 return {};
1221 }
1222
1223 // Create the appropriate directory iterator based on whether we found a
1224 // DirectoryRemapEntry or DirectoryEntry.
1225 directory_iterator DirIter;
1226 if (auto ExtRedirect = Result->getExternalRedirect()) {
1227 auto RE = cast<RedirectingFileSystem::RemapEntry>(Result->E);
1228 DirIter = ExternalFS->dir_begin(*ExtRedirect, EC);
1229
1230 if (!RE->useExternalName(UseExternalNames)) {
1231 // Update the paths in the results to use the virtual directory's path.
1232 DirIter =
1233 directory_iterator(std::make_shared<RedirectingFSDirRemapIterImpl>(
1234 std::string(Path), DirIter));
1235 }
1236 } else {
1237 auto DE = cast<DirectoryEntry>(Result->E);
1238 DirIter = directory_iterator(std::make_shared<RedirectingFSDirIterImpl>(
1239 Path, DE->contents_begin(), DE->contents_end(), EC));
1240 }
1241
1242 if (!shouldUseExternalFS())
1243 return DirIter;
1244 return directory_iterator(std::make_shared<CombiningDirIterImpl>(
1245 DirIter, ExternalFS, std::string(Path), EC));
1246}
1247
1248void RedirectingFileSystem::setExternalContentsPrefixDir(StringRef PrefixDir) {
1249 ExternalContentsPrefixDir = PrefixDir.str();
1250}
1251
1252StringRef RedirectingFileSystem::getExternalContentsPrefixDir() const {
1253 return ExternalContentsPrefixDir;
1254}
1255
1256void RedirectingFileSystem::setFallthrough(bool Fallthrough) {
1257 IsFallthrough = Fallthrough;
1258}
1259
1260std::vector<StringRef> RedirectingFileSystem::getRoots() const {
1261 std::vector<StringRef> R;
1262 for (const auto &Root : Roots)
1263 R.push_back(Root->getName());
1264 return R;
1265}
1266
1267void RedirectingFileSystem::dump(raw_ostream &OS) const {
1268 for (const auto &Root : Roots)
1269 dumpEntry(OS, Root.get());
1
Calling 'RedirectingFileSystem::dumpEntry'
1270}
1271
1272void RedirectingFileSystem::dumpEntry(raw_ostream &OS,
1273 RedirectingFileSystem::Entry *E,
1274 int NumSpaces) const {
1275 StringRef Name = E->getName();
1276 for (int i = 0, e = NumSpaces; i < e; ++i)
2
Loop condition is false. Execution continues on line 1279
1277 OS << " ";
1278 OS << "'" << Name.str().c_str() << "'"
1279 << "\n";
1280
1281 if (E->getKind() == RedirectingFileSystem::EK_Directory) {
3
Assuming the condition is true
4
Taking true branch
1282 auto *DE = dyn_cast<RedirectingFileSystem::DirectoryEntry>(E);
5
Assuming 'E' is not a 'DirectoryEntry'
6
'DE' initialized to a null pointer value
1283 assert(DE && "Should be a directory")((void)0);
1284
1285 for (std::unique_ptr<Entry> &SubEntry :
1286 llvm::make_range(DE->contents_begin(), DE->contents_end()))
7
Called C++ object pointer is null
1287 dumpEntry(OS, SubEntry.get(), NumSpaces + 2);
1288 }
1289}
1290
1291#if !defined(NDEBUG1) || defined(LLVM_ENABLE_DUMP)
1292LLVM_DUMP_METHOD__attribute__((noinline)) void RedirectingFileSystem::dump() const { dump(dbgs()); }
1293#endif
1294
1295/// A helper class to hold the common YAML parsing state.
1296class llvm::vfs::RedirectingFileSystemParser {
1297 yaml::Stream &Stream;
1298
1299 void error(yaml::Node *N, const Twine &Msg) { Stream.printError(N, Msg); }
1300
1301 // false on error
1302 bool parseScalarString(yaml::Node *N, StringRef &Result,
1303 SmallVectorImpl<char> &Storage) {
1304 const auto *S = dyn_cast<yaml::ScalarNode>(N);
1305
1306 if (!S) {
1307 error(N, "expected string");
1308 return false;
1309 }
1310 Result = S->getValue(Storage);
1311 return true;
1312 }
1313
1314 // false on error
1315 bool parseScalarBool(yaml::Node *N, bool &Result) {
1316 SmallString<5> Storage;
1317 StringRef Value;
1318 if (!parseScalarString(N, Value, Storage))
1319 return false;
1320
1321 if (Value.equals_insensitive("true") || Value.equals_insensitive("on") ||
1322 Value.equals_insensitive("yes") || Value == "1") {
1323 Result = true;
1324 return true;
1325 } else if (Value.equals_insensitive("false") ||
1326 Value.equals_insensitive("off") ||
1327 Value.equals_insensitive("no") || Value == "0") {
1328 Result = false;
1329 return true;
1330 }
1331
1332 error(N, "expected boolean value");
1333 return false;
1334 }
1335
1336 struct KeyStatus {
1337 bool Required;
1338 bool Seen = false;
1339
1340 KeyStatus(bool Required = false) : Required(Required) {}
1341 };
1342
1343 using KeyStatusPair = std::pair<StringRef, KeyStatus>;
1344
1345 // false on error
1346 bool checkDuplicateOrUnknownKey(yaml::Node *KeyNode, StringRef Key,
1347 DenseMap<StringRef, KeyStatus> &Keys) {
1348 if (!Keys.count(Key)) {
1349 error(KeyNode, "unknown key");
1350 return false;
1351 }
1352 KeyStatus &S = Keys[Key];
1353 if (S.Seen) {
1354 error(KeyNode, Twine("duplicate key '") + Key + "'");
1355 return false;
1356 }
1357 S.Seen = true;
1358 return true;
1359 }
1360
1361 // false on error
1362 bool checkMissingKeys(yaml::Node *Obj, DenseMap<StringRef, KeyStatus> &Keys) {
1363 for (const auto &I : Keys) {
1364 if (I.second.Required && !I.second.Seen) {
1365 error(Obj, Twine("missing key '") + I.first + "'");
1366 return false;
1367 }
1368 }
1369 return true;
1370 }
1371
1372public:
1373 static RedirectingFileSystem::Entry *
1374 lookupOrCreateEntry(RedirectingFileSystem *FS, StringRef Name,
1375 RedirectingFileSystem::Entry *ParentEntry = nullptr) {
1376 if (!ParentEntry) { // Look for a existent root
1377 for (const auto &Root : FS->Roots) {
1378 if (Name.equals(Root->getName())) {
1379 ParentEntry = Root.get();
1380 return ParentEntry;
1381 }
1382 }
1383 } else { // Advance to the next component
1384 auto *DE = dyn_cast<RedirectingFileSystem::DirectoryEntry>(ParentEntry);
1385 for (std::unique_ptr<RedirectingFileSystem::Entry> &Content :
1386 llvm::make_range(DE->contents_begin(), DE->contents_end())) {
1387 auto *DirContent =
1388 dyn_cast<RedirectingFileSystem::DirectoryEntry>(Content.get());
1389 if (DirContent && Name.equals(Content->getName()))
1390 return DirContent;
1391 }
1392 }
1393
1394 // ... or create a new one
1395 std::unique_ptr<RedirectingFileSystem::Entry> E =
1396 std::make_unique<RedirectingFileSystem::DirectoryEntry>(
1397 Name, Status("", getNextVirtualUniqueID(),
1398 std::chrono::system_clock::now(), 0, 0, 0,
1399 file_type::directory_file, sys::fs::all_all));
1400
1401 if (!ParentEntry) { // Add a new root to the overlay
1402 FS->Roots.push_back(std::move(E));
1403 ParentEntry = FS->Roots.back().get();
1404 return ParentEntry;
1405 }
1406
1407 auto *DE = cast<RedirectingFileSystem::DirectoryEntry>(ParentEntry);
1408 DE->addContent(std::move(E));
1409 return DE->getLastContent();
1410 }
1411
1412private:
1413 void uniqueOverlayTree(RedirectingFileSystem *FS,
1414 RedirectingFileSystem::Entry *SrcE,
1415 RedirectingFileSystem::Entry *NewParentE = nullptr) {
1416 StringRef Name = SrcE->getName();
1417 switch (SrcE->getKind()) {
1418 case RedirectingFileSystem::EK_Directory: {
1419 auto *DE = cast<RedirectingFileSystem::DirectoryEntry>(SrcE);
1420 // Empty directories could be present in the YAML as a way to
1421 // describe a file for a current directory after some of its subdir
1422 // is parsed. This only leads to redundant walks, ignore it.
1423 if (!Name.empty())
1424 NewParentE = lookupOrCreateEntry(FS, Name, NewParentE);
1425 for (std::unique_ptr<RedirectingFileSystem::Entry> &SubEntry :
1426 llvm::make_range(DE->contents_begin(), DE->contents_end()))
1427 uniqueOverlayTree(FS, SubEntry.get(), NewParentE);
1428 break;
1429 }
1430 case RedirectingFileSystem::EK_DirectoryRemap: {
1431 assert(NewParentE && "Parent entry must exist")((void)0);
1432 auto *DR = cast<RedirectingFileSystem::DirectoryRemapEntry>(SrcE);
1433 auto *DE = cast<RedirectingFileSystem::DirectoryEntry>(NewParentE);
1434 DE->addContent(
1435 std::make_unique<RedirectingFileSystem::DirectoryRemapEntry>(
1436 Name, DR->getExternalContentsPath(), DR->getUseName()));
1437 break;
1438 }
1439 case RedirectingFileSystem::EK_File: {
1440 assert(NewParentE && "Parent entry must exist")((void)0);
1441 auto *FE = cast<RedirectingFileSystem::FileEntry>(SrcE);
1442 auto *DE = cast<RedirectingFileSystem::DirectoryEntry>(NewParentE);
1443 DE->addContent(std::make_unique<RedirectingFileSystem::FileEntry>(
1444 Name, FE->getExternalContentsPath(), FE->getUseName()));
1445 break;
1446 }
1447 }
1448 }
1449
1450 std::unique_ptr<RedirectingFileSystem::Entry>
1451 parseEntry(yaml::Node *N, RedirectingFileSystem *FS, bool IsRootEntry) {
1452 auto *M = dyn_cast<yaml::MappingNode>(N);
1453 if (!M) {
1454 error(N, "expected mapping node for file or directory entry");
1455 return nullptr;
1456 }
1457
1458 KeyStatusPair Fields[] = {
1459 KeyStatusPair("name", true),
1460 KeyStatusPair("type", true),
1461 KeyStatusPair("contents", false),
1462 KeyStatusPair("external-contents", false),
1463 KeyStatusPair("use-external-name", false),
1464 };
1465
1466 DenseMap<StringRef, KeyStatus> Keys(std::begin(Fields), std::end(Fields));
1467
1468 enum { CF_NotSet, CF_List, CF_External } ContentsField = CF_NotSet;
1469 std::vector<std::unique_ptr<RedirectingFileSystem::Entry>>
1470 EntryArrayContents;
1471 SmallString<256> ExternalContentsPath;
1472 SmallString<256> Name;
1473 yaml::Node *NameValueNode = nullptr;
1474 auto UseExternalName = RedirectingFileSystem::NK_NotSet;
1475 RedirectingFileSystem::EntryKind Kind;
1476
1477 for (auto &I : *M) {
1478 StringRef Key;
1479 // Reuse the buffer for key and value, since we don't look at key after
1480 // parsing value.
1481 SmallString<256> Buffer;
1482 if (!parseScalarString(I.getKey(), Key, Buffer))
1483 return nullptr;
1484
1485 if (!checkDuplicateOrUnknownKey(I.getKey(), Key, Keys))
1486 return nullptr;
1487
1488 StringRef Value;
1489 if (Key == "name") {
1490 if (!parseScalarString(I.getValue(), Value, Buffer))
1491 return nullptr;
1492
1493 NameValueNode = I.getValue();
1494 // Guarantee that old YAML files containing paths with ".." and "."
1495 // are properly canonicalized before read into the VFS.
1496 Name = canonicalize(Value).str();
1497 } else if (Key == "type") {
1498 if (!parseScalarString(I.getValue(), Value, Buffer))
1499 return nullptr;
1500 if (Value == "file")
1501 Kind = RedirectingFileSystem::EK_File;
1502 else if (Value == "directory")
1503 Kind = RedirectingFileSystem::EK_Directory;
1504 else if (Value == "directory-remap")
1505 Kind = RedirectingFileSystem::EK_DirectoryRemap;
1506 else {
1507 error(I.getValue(), "unknown value for 'type'");
1508 return nullptr;
1509 }
1510 } else if (Key == "contents") {
1511 if (ContentsField != CF_NotSet) {
1512 error(I.getKey(),
1513 "entry already has 'contents' or 'external-contents'");
1514 return nullptr;
1515 }
1516 ContentsField = CF_List;
1517 auto *Contents = dyn_cast<yaml::SequenceNode>(I.getValue());
1518 if (!Contents) {
1519 // FIXME: this is only for directories, what about files?
1520 error(I.getValue(), "expected array");
1521 return nullptr;
1522 }
1523
1524 for (auto &I : *Contents) {
1525 if (std::unique_ptr<RedirectingFileSystem::Entry> E =
1526 parseEntry(&I, FS, /*IsRootEntry*/ false))
1527 EntryArrayContents.push_back(std::move(E));
1528 else
1529 return nullptr;
1530 }
1531 } else if (Key == "external-contents") {
1532 if (ContentsField != CF_NotSet) {
1533 error(I.getKey(),
1534 "entry already has 'contents' or 'external-contents'");
1535 return nullptr;
1536 }
1537 ContentsField = CF_External;
1538 if (!parseScalarString(I.getValue(), Value, Buffer))
1539 return nullptr;
1540
1541 SmallString<256> FullPath;
1542 if (FS->IsRelativeOverlay) {
1543 FullPath = FS->getExternalContentsPrefixDir();
1544 assert(!FullPath.empty() &&((void)0)
1545 "External contents prefix directory must exist")((void)0);
1546 llvm::sys::path::append(FullPath, Value);
1547 } else {
1548 FullPath = Value;
1549 }
1550
1551 // Guarantee that old YAML files containing paths with ".." and "."
1552 // are properly canonicalized before read into the VFS.
1553 FullPath = canonicalize(FullPath);
1554 ExternalContentsPath = FullPath.str();
1555 } else if (Key == "use-external-name") {
1556 bool Val;
1557 if (!parseScalarBool(I.getValue(), Val))
1558 return nullptr;
1559 UseExternalName = Val ? RedirectingFileSystem::NK_External
1560 : RedirectingFileSystem::NK_Virtual;
1561 } else {
1562 llvm_unreachable("key missing from Keys")__builtin_unreachable();
1563 }
1564 }
1565
1566 if (Stream.failed())
1567 return nullptr;
1568
1569 // check for missing keys
1570 if (ContentsField == CF_NotSet) {
1571 error(N, "missing key 'contents' or 'external-contents'");
1572 return nullptr;
1573 }
1574 if (!checkMissingKeys(N, Keys))
1575 return nullptr;
1576
1577 // check invalid configuration
1578 if (Kind == RedirectingFileSystem::EK_Directory &&
1579 UseExternalName != RedirectingFileSystem::NK_NotSet) {
1580 error(N, "'use-external-name' is not supported for 'directory' entries");
1581 return nullptr;
1582 }
1583
1584 if (Kind == RedirectingFileSystem::EK_DirectoryRemap &&
1585 ContentsField == CF_List) {
1586 error(N, "'contents' is not supported for 'directory-remap' entries");
1587 return nullptr;
1588 }
1589
1590 sys::path::Style path_style = sys::path::Style::native;
1591 if (IsRootEntry) {
1592 // VFS root entries may be in either Posix or Windows style. Figure out
1593 // which style we have, and use it consistently.
1594 if (sys::path::is_absolute(Name, sys::path::Style::posix)) {
1595 path_style = sys::path::Style::posix;
1596 } else if (sys::path::is_absolute(Name, sys::path::Style::windows)) {
1597 path_style = sys::path::Style::windows;
1598 } else {
1599 assert(NameValueNode && "Name presence should be checked earlier")((void)0);
1600 error(NameValueNode,
1601 "entry with relative path at the root level is not discoverable");
1602 return nullptr;
1603 }
1604 }
1605
1606 // Remove trailing slash(es), being careful not to remove the root path
1607 StringRef Trimmed = Name;
1608 size_t RootPathLen = sys::path::root_path(Trimmed, path_style).size();
1609 while (Trimmed.size() > RootPathLen &&
1610 sys::path::is_separator(Trimmed.back(), path_style))
1611 Trimmed = Trimmed.slice(0, Trimmed.size() - 1);
1612
1613 // Get the last component
1614 StringRef LastComponent = sys::path::filename(Trimmed, path_style);
1615
1616 std::unique_ptr<RedirectingFileSystem::Entry> Result;
1617 switch (Kind) {
1618 case RedirectingFileSystem::EK_File:
1619 Result = std::make_unique<RedirectingFileSystem::FileEntry>(
1620 LastComponent, std::move(ExternalContentsPath), UseExternalName);
1621 break;
1622 case RedirectingFileSystem::EK_DirectoryRemap:
1623 Result = std::make_unique<RedirectingFileSystem::DirectoryRemapEntry>(
1624 LastComponent, std::move(ExternalContentsPath), UseExternalName);
1625 break;
1626 case RedirectingFileSystem::EK_Directory:
1627 Result = std::make_unique<RedirectingFileSystem::DirectoryEntry>(
1628 LastComponent, std::move(EntryArrayContents),
1629 Status("", getNextVirtualUniqueID(), std::chrono::system_clock::now(),
1630 0, 0, 0, file_type::directory_file, sys::fs::all_all));
1631 break;
1632 }
1633
1634 StringRef Parent = sys::path::parent_path(Trimmed, path_style);
1635 if (Parent.empty())
1636 return Result;
1637
1638 // if 'name' contains multiple components, create implicit directory entries
1639 for (sys::path::reverse_iterator I = sys::path::rbegin(Parent, path_style),
1640 E = sys::path::rend(Parent);
1641 I != E; ++I) {
1642 std::vector<std::unique_ptr<RedirectingFileSystem::Entry>> Entries;
1643 Entries.push_back(std::move(Result));
1644 Result = std::make_unique<RedirectingFileSystem::DirectoryEntry>(
1645 *I, std::move(Entries),
1646 Status("", getNextVirtualUniqueID(), std::chrono::system_clock::now(),
1647 0, 0, 0, file_type::directory_file, sys::fs::all_all));
1648 }
1649 return Result;
1650 }
1651
1652public:
1653 RedirectingFileSystemParser(yaml::Stream &S) : Stream(S) {}
1654
1655 // false on error
1656 bool parse(yaml::Node *Root, RedirectingFileSystem *FS) {
1657 auto *Top = dyn_cast<yaml::MappingNode>(Root);
1658 if (!Top) {
1659 error(Root, "expected mapping node");
1660 return false;
1661 }
1662
1663 KeyStatusPair Fields[] = {
1664 KeyStatusPair("version", true),
1665 KeyStatusPair("case-sensitive", false),
1666 KeyStatusPair("use-external-names", false),
1667 KeyStatusPair("overlay-relative", false),
1668 KeyStatusPair("fallthrough", false),
1669 KeyStatusPair("roots", true),
1670 };
1671
1672 DenseMap<StringRef, KeyStatus> Keys(std::begin(Fields), std::end(Fields));
1673 std::vector<std::unique_ptr<RedirectingFileSystem::Entry>> RootEntries;
1674
1675 // Parse configuration and 'roots'
1676 for (auto &I : *Top) {
1677 SmallString<10> KeyBuffer;
1678 StringRef Key;
1679 if (!parseScalarString(I.getKey(), Key, KeyBuffer))
1680 return false;
1681
1682 if (!checkDuplicateOrUnknownKey(I.getKey(), Key, Keys))
1683 return false;
1684
1685 if (Key == "roots") {
1686 auto *Roots = dyn_cast<yaml::SequenceNode>(I.getValue());
1687 if (!Roots) {
1688 error(I.getValue(), "expected array");
1689 return false;
1690 }
1691
1692 for (auto &I : *Roots) {
1693 if (std::unique_ptr<RedirectingFileSystem::Entry> E =
1694 parseEntry(&I, FS, /*IsRootEntry*/ true))
1695 RootEntries.push_back(std::move(E));
1696 else
1697 return false;
1698 }
1699 } else if (Key == "version") {
1700 StringRef VersionString;
1701 SmallString<4> Storage;
1702 if (!parseScalarString(I.getValue(), VersionString, Storage))
1703 return false;
1704 int Version;
1705 if (VersionString.getAsInteger<int>(10, Version)) {
1706 error(I.getValue(), "expected integer");
1707 return false;
1708 }
1709 if (Version < 0) {
1710 error(I.getValue(), "invalid version number");
1711 return false;
1712 }
1713 if (Version != 0) {
1714 error(I.getValue(), "version mismatch, expected 0");
1715 return false;
1716 }
1717 } else if (Key == "case-sensitive") {
1718 if (!parseScalarBool(I.getValue(), FS->CaseSensitive))
1719 return false;
1720 } else if (Key == "overlay-relative") {
1721 if (!parseScalarBool(I.getValue(), FS->IsRelativeOverlay))
1722 return false;
1723 } else if (Key == "use-external-names") {
1724 if (!parseScalarBool(I.getValue(), FS->UseExternalNames))
1725 return false;
1726 } else if (Key == "fallthrough") {
1727 if (!parseScalarBool(I.getValue(), FS->IsFallthrough))
1728 return false;
1729 } else {
1730 llvm_unreachable("key missing from Keys")__builtin_unreachable();
1731 }
1732 }
1733
1734 if (Stream.failed())
1735 return false;
1736
1737 if (!checkMissingKeys(Top, Keys))
1738 return false;
1739
1740 // Now that we sucessefully parsed the YAML file, canonicalize the internal
1741 // representation to a proper directory tree so that we can search faster
1742 // inside the VFS.
1743 for (auto &E : RootEntries)
1744 uniqueOverlayTree(FS, E.get());
1745
1746 return true;
1747 }
1748};
1749
1750std::unique_ptr<RedirectingFileSystem>
1751RedirectingFileSystem::create(std::unique_ptr<MemoryBuffer> Buffer,
1752 SourceMgr::DiagHandlerTy DiagHandler,
1753 StringRef YAMLFilePath, void *DiagContext,
1754 IntrusiveRefCntPtr<FileSystem> ExternalFS) {
1755 SourceMgr SM;
1756 yaml::Stream Stream(Buffer->getMemBufferRef(), SM);
1757
1758 SM.setDiagHandler(DiagHandler, DiagContext);
1759 yaml::document_iterator DI = Stream.begin();
1760 yaml::Node *Root = DI->getRoot();
1761 if (DI == Stream.end() || !Root) {
1762 SM.PrintMessage(SMLoc(), SourceMgr::DK_Error, "expected root node");
1763 return nullptr;
1764 }
1765
1766 RedirectingFileSystemParser P(Stream);
1767
1768 std::unique_ptr<RedirectingFileSystem> FS(
1769 new RedirectingFileSystem(ExternalFS));
1770
1771 if (!YAMLFilePath.empty()) {
1772 // Use the YAML path from -ivfsoverlay to compute the dir to be prefixed
1773 // to each 'external-contents' path.
1774 //
1775 // Example:
1776 // -ivfsoverlay dummy.cache/vfs/vfs.yaml
1777 // yields:
1778 // FS->ExternalContentsPrefixDir => /<absolute_path_to>/dummy.cache/vfs
1779 //
1780 SmallString<256> OverlayAbsDir = sys::path::parent_path(YAMLFilePath);
1781 std::error_code EC = llvm::sys::fs::make_absolute(OverlayAbsDir);
1782 assert(!EC && "Overlay dir final path must be absolute")((void)0);
1783 (void)EC;
1784 FS->setExternalContentsPrefixDir(OverlayAbsDir);
1785 }
1786
1787 if (!P.parse(Root, FS.get()))
1788 return nullptr;
1789
1790 return FS;
1791}
1792
1793std::unique_ptr<RedirectingFileSystem> RedirectingFileSystem::create(
1794 ArrayRef<std::pair<std::string, std::string>> RemappedFiles,
1795 bool UseExternalNames, FileSystem &ExternalFS) {
1796 std::unique_ptr<RedirectingFileSystem> FS(
1797 new RedirectingFileSystem(&ExternalFS));
1798 FS->UseExternalNames = UseExternalNames;
1799
1800 StringMap<RedirectingFileSystem::Entry *> Entries;
1801
1802 for (auto &Mapping : llvm::reverse(RemappedFiles)) {
1803 SmallString<128> From = StringRef(Mapping.first);
1804 SmallString<128> To = StringRef(Mapping.second);
1805 {
1806 auto EC = ExternalFS.makeAbsolute(From);
1807 (void)EC;
1808 assert(!EC && "Could not make absolute path")((void)0);
1809 }
1810
1811 // Check if we've already mapped this file. The first one we see (in the
1812 // reverse iteration) wins.
1813 RedirectingFileSystem::Entry *&ToEntry = Entries[From];
1814 if (ToEntry)
1815 continue;
1816
1817 // Add parent directories.
1818 RedirectingFileSystem::Entry *Parent = nullptr;
1819 StringRef FromDirectory = llvm::sys::path::parent_path(From);
1820 for (auto I = llvm::sys::path::begin(FromDirectory),
1821 E = llvm::sys::path::end(FromDirectory);
1822 I != E; ++I) {
1823 Parent = RedirectingFileSystemParser::lookupOrCreateEntry(FS.get(), *I,
1824 Parent);
1825 }
1826 assert(Parent && "File without a directory?")((void)0);
1827 {
1828 auto EC = ExternalFS.makeAbsolute(To);
1829 (void)EC;
1830 assert(!EC && "Could not make absolute path")((void)0);
1831 }
1832
1833 // Add the file.
1834 auto NewFile = std::make_unique<RedirectingFileSystem::FileEntry>(
1835 llvm::sys::path::filename(From), To,
1836 UseExternalNames ? RedirectingFileSystem::NK_External
1837 : RedirectingFileSystem::NK_Virtual);
1838 ToEntry = NewFile.get();
1839 cast<RedirectingFileSystem::DirectoryEntry>(Parent)->addContent(
1840 std::move(NewFile));
1841 }
1842
1843 return FS;
1844}
1845
1846RedirectingFileSystem::LookupResult::LookupResult(
1847 Entry *E, sys::path::const_iterator Start, sys::path::const_iterator End)
1848 : E(E) {
1849 assert(E != nullptr)((void)0);
1850 // If the matched entry is a DirectoryRemapEntry, set ExternalRedirect to the
1851 // path of the directory it maps to in the external file system plus any
1852 // remaining path components in the provided iterator.
1853 if (auto *DRE = dyn_cast<RedirectingFileSystem::DirectoryRemapEntry>(E)) {
1854 SmallString<256> Redirect(DRE->getExternalContentsPath());
1855 sys::path::append(Redirect, Start, End,
1856 getExistingStyle(DRE->getExternalContentsPath()));
1857 ExternalRedirect = std::string(Redirect);
1858 }
1859}
1860
1861bool RedirectingFileSystem::shouldFallBackToExternalFS(
1862 std::error_code EC, RedirectingFileSystem::Entry *E) const {
1863 if (E && !isa<RedirectingFileSystem::DirectoryRemapEntry>(E))
1864 return false;
1865 return shouldUseExternalFS() && EC == llvm::errc::no_such_file_or_directory;
1866}
1867
1868std::error_code
1869RedirectingFileSystem::makeCanonical(SmallVectorImpl<char> &Path) const {
1870 if (std::error_code EC = makeAbsolute(Path))
1871 return EC;
1872
1873 llvm::SmallString<256> CanonicalPath =
1874 canonicalize(StringRef(Path.data(), Path.size()));
1875 if (CanonicalPath.empty())
1876 return make_error_code(llvm::errc::invalid_argument);
1877
1878 Path.assign(CanonicalPath.begin(), CanonicalPath.end());
1879 return {};
1880}
1881
1882ErrorOr<RedirectingFileSystem::LookupResult>
1883RedirectingFileSystem::lookupPath(StringRef Path) const {
1884 sys::path::const_iterator Start = sys::path::begin(Path);
1885 sys::path::const_iterator End = sys::path::end(Path);
1886 for (const auto &Root : Roots) {
1887 ErrorOr<RedirectingFileSystem::LookupResult> Result =
1888 lookupPathImpl(Start, End, Root.get());
1889 if (Result || Result.getError() != llvm::errc::no_such_file_or_directory)
1890 return Result;
1891 }
1892 return make_error_code(llvm::errc::no_such_file_or_directory);
1893}
1894
1895ErrorOr<RedirectingFileSystem::LookupResult>
1896RedirectingFileSystem::lookupPathImpl(
1897 sys::path::const_iterator Start, sys::path::const_iterator End,
1898 RedirectingFileSystem::Entry *From) const {
1899 assert(!isTraversalComponent(*Start) &&((void)0)
1900 !isTraversalComponent(From->getName()) &&((void)0)
1901 "Paths should not contain traversal components")((void)0);
1902
1903 StringRef FromName = From->getName();
1904
1905 // Forward the search to the next component in case this is an empty one.
1906 if (!FromName.empty()) {
1907 if (!pathComponentMatches(*Start, FromName))
1908 return make_error_code(llvm::errc::no_such_file_or_directory);
1909
1910 ++Start;
1911
1912 if (Start == End) {
1913 // Match!
1914 return LookupResult(From, Start, End);
1915 }
1916 }
1917
1918 if (isa<RedirectingFileSystem::FileEntry>(From))
1919 return make_error_code(llvm::errc::not_a_directory);
1920
1921 if (isa<RedirectingFileSystem::DirectoryRemapEntry>(From))
1922 return LookupResult(From, Start, End);
1923
1924 auto *DE = cast<RedirectingFileSystem::DirectoryEntry>(From);
1925 for (const std::unique_ptr<RedirectingFileSystem::Entry> &DirEntry :
1926 llvm::make_range(DE->contents_begin(), DE->contents_end())) {
1927 ErrorOr<RedirectingFileSystem::LookupResult> Result =
1928 lookupPathImpl(Start, End, DirEntry.get());
1929 if (Result || Result.getError() != llvm::errc::no_such_file_or_directory)
1930 return Result;
1931 }
1932
1933 return make_error_code(llvm::errc::no_such_file_or_directory);
1934}
1935
1936static Status getRedirectedFileStatus(const Twine &Path, bool UseExternalNames,
1937 Status ExternalStatus) {
1938 Status S = ExternalStatus;
1939 if (!UseExternalNames)
1940 S = Status::copyWithNewName(S, Path);
1941 S.IsVFSMapped = true;
1942 return S;
1943}
1944
1945ErrorOr<Status> RedirectingFileSystem::status(
1946 const Twine &Path, const RedirectingFileSystem::LookupResult &Result) {
1947 if (Optional<StringRef> ExtRedirect = Result.getExternalRedirect()) {
1948 ErrorOr<Status> S = ExternalFS->status(*ExtRedirect);
1949 if (!S)
1950 return S;
1951 auto *RE = cast<RedirectingFileSystem::RemapEntry>(Result.E);
1952 return getRedirectedFileStatus(Path, RE->useExternalName(UseExternalNames),
1953 *S);
1954 }
1955
1956 auto *DE = cast<RedirectingFileSystem::DirectoryEntry>(Result.E);
1957 return Status::copyWithNewName(DE->getStatus(), Path);
1958}
1959
1960ErrorOr<Status> RedirectingFileSystem::status(const Twine &Path_) {
1961 SmallString<256> Path;
1962 Path_.toVector(Path);
1963
1964 if (std::error_code EC = makeCanonical(Path))
1965 return EC;
1966
1967 ErrorOr<RedirectingFileSystem::LookupResult> Result = lookupPath(Path);
1968 if (!Result) {
1969 if (shouldFallBackToExternalFS(Result.getError()))
1970 return ExternalFS->status(Path);
1971 return Result.getError();
1972 }
1973
1974 ErrorOr<Status> S = status(Path, *Result);
1975 if (!S && shouldFallBackToExternalFS(S.getError(), Result->E))
1976 S = ExternalFS->status(Path);
1977 return S;
1978}
1979
1980namespace {
1981
1982/// Provide a file wrapper with an overriden status.
1983class FileWithFixedStatus : public File {
1984 std::unique_ptr<File> InnerFile;
1985 Status S;
1986
1987public:
1988 FileWithFixedStatus(std::unique_ptr<File> InnerFile, Status S)
1989 : InnerFile(std::move(InnerFile)), S(std::move(S)) {}
1990
1991 ErrorOr<Status> status() override { return S; }
1992 ErrorOr<std::unique_ptr<llvm::MemoryBuffer>>
1993
1994 getBuffer(const Twine &Name, int64_t FileSize, bool RequiresNullTerminator,
1995 bool IsVolatile) override {
1996 return InnerFile->getBuffer(Name, FileSize, RequiresNullTerminator,
1997 IsVolatile);
1998 }
1999
2000 std::error_code close() override { return InnerFile->close(); }
2001};
2002
2003} // namespace
2004
2005ErrorOr<std::unique_ptr<File>>
2006RedirectingFileSystem::openFileForRead(const Twine &Path_) {
2007 SmallString<256> Path;
2008 Path_.toVector(Path);
2009
2010 if (std::error_code EC = makeCanonical(Path))
2011 return EC;
2012
2013 ErrorOr<RedirectingFileSystem::LookupResult> Result = lookupPath(Path);
2014 if (!Result) {
2015 if (shouldFallBackToExternalFS(Result.getError()))
2016 return ExternalFS->openFileForRead(Path);
2017 return Result.getError();
2018 }
2019
2020 if (!Result->getExternalRedirect()) // FIXME: errc::not_a_file?
2021 return make_error_code(llvm::errc::invalid_argument);
2022
2023 StringRef ExtRedirect = *Result->getExternalRedirect();
2024 auto *RE = cast<RedirectingFileSystem::RemapEntry>(Result->E);
2025
2026 auto ExternalFile = ExternalFS->openFileForRead(ExtRedirect);
2027 if (!ExternalFile) {
2028 if (shouldFallBackToExternalFS(ExternalFile.getError(), Result->E))
2029 return ExternalFS->openFileForRead(Path);
2030 return ExternalFile;
2031 }
2032
2033 auto ExternalStatus = (*ExternalFile)->status();
2034 if (!ExternalStatus)
2035 return ExternalStatus.getError();
2036
2037 // FIXME: Update the status with the name and VFSMapped.
2038 Status S = getRedirectedFileStatus(
2039 Path, RE->useExternalName(UseExternalNames), *ExternalStatus);
2040 return std::unique_ptr<File>(
2041 std::make_unique<FileWithFixedStatus>(std::move(*ExternalFile), S));
2042}
2043
2044std::error_code
2045RedirectingFileSystem::getRealPath(const Twine &Path_,
2046 SmallVectorImpl<char> &Output) const {
2047 SmallString<256> Path;
2048 Path_.toVector(Path);
2049
2050 if (std::error_code EC = makeCanonical(Path))
2051 return EC;
2052
2053 ErrorOr<RedirectingFileSystem::LookupResult> Result = lookupPath(Path);
2054 if (!Result) {
2055 if (shouldFallBackToExternalFS(Result.getError()))
2056 return ExternalFS->getRealPath(Path, Output);
2057 return Result.getError();
2058 }
2059
2060 // If we found FileEntry or DirectoryRemapEntry, look up the mapped
2061 // path in the external file system.
2062 if (auto ExtRedirect = Result->getExternalRedirect()) {
2063 auto P = ExternalFS->getRealPath(*ExtRedirect, Output);
2064 if (!P && shouldFallBackToExternalFS(P, Result->E)) {
2065 return ExternalFS->getRealPath(Path, Output);
2066 }
2067 return P;
2068 }
2069
2070 // If we found a DirectoryEntry, still fall back to ExternalFS if allowed,
2071 // because directories don't have a single external contents path.
2072 return shouldUseExternalFS() ? ExternalFS->getRealPath(Path, Output)
2073 : llvm::errc::invalid_argument;
2074}
2075
2076std::unique_ptr<FileSystem>
2077vfs::getVFSFromYAML(std::unique_ptr<MemoryBuffer> Buffer,
2078 SourceMgr::DiagHandlerTy DiagHandler,
2079 StringRef YAMLFilePath, void *DiagContext,
2080 IntrusiveRefCntPtr<FileSystem> ExternalFS) {
2081 return RedirectingFileSystem::create(std::move(Buffer), DiagHandler,
2082 YAMLFilePath, DiagContext,
2083 std::move(ExternalFS));
2084}
2085
2086static void getVFSEntries(RedirectingFileSystem::Entry *SrcE,
2087 SmallVectorImpl<StringRef> &Path,
2088 SmallVectorImpl<YAMLVFSEntry> &Entries) {
2089 auto Kind = SrcE->getKind();
2090 if (Kind == RedirectingFileSystem::EK_Directory) {
2091 auto *DE = dyn_cast<RedirectingFileSystem::DirectoryEntry>(SrcE);
2092 assert(DE && "Must be a directory")((void)0);
2093 for (std::unique_ptr<RedirectingFileSystem::Entry> &SubEntry :
2094 llvm::make_range(DE->contents_begin(), DE->contents_end())) {
2095 Path.push_back(SubEntry->getName());
2096 getVFSEntries(SubEntry.get(), Path, Entries);
2097 Path.pop_back();
2098 }
2099 return;
2100 }
2101
2102 if (Kind == RedirectingFileSystem::EK_DirectoryRemap) {
2103 auto *DR = dyn_cast<RedirectingFileSystem::DirectoryRemapEntry>(SrcE);
2104 assert(DR && "Must be a directory remap")((void)0);
2105 SmallString<128> VPath;
2106 for (auto &Comp : Path)
2107 llvm::sys::path::append(VPath, Comp);
2108 Entries.push_back(
2109 YAMLVFSEntry(VPath.c_str(), DR->getExternalContentsPath()));
2110 return;
2111 }
2112
2113 assert(Kind == RedirectingFileSystem::EK_File && "Must be a EK_File")((void)0);
2114 auto *FE = dyn_cast<RedirectingFileSystem::FileEntry>(SrcE);
2115 assert(FE && "Must be a file")((void)0);
2116 SmallString<128> VPath;
2117 for (auto &Comp : Path)
2118 llvm::sys::path::append(VPath, Comp);
2119 Entries.push_back(YAMLVFSEntry(VPath.c_str(), FE->getExternalContentsPath()));
2120}
2121
2122void vfs::collectVFSFromYAML(std::unique_ptr<MemoryBuffer> Buffer,
2123 SourceMgr::DiagHandlerTy DiagHandler,
2124 StringRef YAMLFilePath,
2125 SmallVectorImpl<YAMLVFSEntry> &CollectedEntries,
2126 void *DiagContext,
2127 IntrusiveRefCntPtr<FileSystem> ExternalFS) {
2128 std::unique_ptr<RedirectingFileSystem> VFS = RedirectingFileSystem::create(
2129 std::move(Buffer), DiagHandler, YAMLFilePath, DiagContext,
2130 std::move(ExternalFS));
2131 if (!VFS)
2132 return;
2133 ErrorOr<RedirectingFileSystem::LookupResult> RootResult =
2134 VFS->lookupPath("/");
2135 if (!RootResult)
2136 return;
2137 SmallVector<StringRef, 8> Components;
2138 Components.push_back("/");
2139 getVFSEntries(RootResult->E, Components, CollectedEntries);
2140}
2141
2142UniqueID vfs::getNextVirtualUniqueID() {
2143 static std::atomic<unsigned> UID;
2144 unsigned ID = ++UID;
2145 // The following assumes that uint64_t max will never collide with a real
2146 // dev_t value from the OS.
2147 return UniqueID(std::numeric_limits<uint64_t>::max(), ID);
2148}
2149
2150void YAMLVFSWriter::addEntry(StringRef VirtualPath, StringRef RealPath,
2151 bool IsDirectory) {
2152 assert(sys::path::is_absolute(VirtualPath) && "virtual path not absolute")((void)0);
2153 assert(sys::path::is_absolute(RealPath) && "real path not absolute")((void)0);
2154 assert(!pathHasTraversal(VirtualPath) && "path traversal is not supported")((void)0);
2155 Mappings.emplace_back(VirtualPath, RealPath, IsDirectory);
2156}
2157
2158void YAMLVFSWriter::addFileMapping(StringRef VirtualPath, StringRef RealPath) {
2159 addEntry(VirtualPath, RealPath, /*IsDirectory=*/false);
2160}
2161
2162void YAMLVFSWriter::addDirectoryMapping(StringRef VirtualPath,
2163 StringRef RealPath) {
2164 addEntry(VirtualPath, RealPath, /*IsDirectory=*/true);
2165}
2166
2167namespace {
2168
2169class JSONWriter {
2170 llvm::raw_ostream &OS;
2171 SmallVector<StringRef, 16> DirStack;
2172
2173 unsigned getDirIndent() { return 4 * DirStack.size(); }
2174 unsigned getFileIndent() { return 4 * (DirStack.size() + 1); }
2175 bool containedIn(StringRef Parent, StringRef Path);
2176 StringRef containedPart(StringRef Parent, StringRef Path);
2177 void startDirectory(StringRef Path);
2178 void endDirectory();
2179 void writeEntry(StringRef VPath, StringRef RPath);
2180
2181public:
2182 JSONWriter(llvm::raw_ostream &OS) : OS(OS) {}
2183
2184 void write(ArrayRef<YAMLVFSEntry> Entries, Optional<bool> UseExternalNames,
2185 Optional<bool> IsCaseSensitive, Optional<bool> IsOverlayRelative,
2186 StringRef OverlayDir);
2187};
2188
2189} // namespace
2190
2191bool JSONWriter::containedIn(StringRef Parent, StringRef Path) {
2192 using namespace llvm::sys;
2193
2194 // Compare each path component.
2195 auto IParent = path::begin(Parent), EParent = path::end(Parent);
2196 for (auto IChild = path::begin(Path), EChild = path::end(Path);
2197 IParent != EParent && IChild != EChild; ++IParent, ++IChild) {
2198 if (*IParent != *IChild)
2199 return false;
2200 }
2201 // Have we exhausted the parent path?
2202 return IParent == EParent;
2203}
2204
2205StringRef JSONWriter::containedPart(StringRef Parent, StringRef Path) {
2206 assert(!Parent.empty())((void)0);
2207 assert(containedIn(Parent, Path))((void)0);
2208 return Path.slice(Parent.size() + 1, StringRef::npos);
2209}
2210
2211void JSONWriter::startDirectory(StringRef Path) {
2212 StringRef Name =
2213 DirStack.empty() ? Path : containedPart(DirStack.back(), Path);
2214 DirStack.push_back(Path);
2215 unsigned Indent = getDirIndent();
2216 OS.indent(Indent) << "{\n";
2217 OS.indent(Indent + 2) << "'type': 'directory',\n";
2218 OS.indent(Indent + 2) << "'name': \"" << llvm::yaml::escape(Name) << "\",\n";
2219 OS.indent(Indent + 2) << "'contents': [\n";
2220}
2221
2222void JSONWriter::endDirectory() {
2223 unsigned Indent = getDirIndent();
2224 OS.indent(Indent + 2) << "]\n";
2225 OS.indent(Indent) << "}";
2226
2227 DirStack.pop_back();
2228}
2229
2230void JSONWriter::writeEntry(StringRef VPath, StringRef RPath) {
2231 unsigned Indent = getFileIndent();
2232 OS.indent(Indent) << "{\n";
2233 OS.indent(Indent + 2) << "'type': 'file',\n";
2234 OS.indent(Indent + 2) << "'name': \"" << llvm::yaml::escape(VPath) << "\",\n";
2235 OS.indent(Indent + 2) << "'external-contents': \""
2236 << llvm::yaml::escape(RPath) << "\"\n";
2237 OS.indent(Indent) << "}";
2238}
2239
2240void JSONWriter::write(ArrayRef<YAMLVFSEntry> Entries,
2241 Optional<bool> UseExternalNames,
2242 Optional<bool> IsCaseSensitive,
2243 Optional<bool> IsOverlayRelative,
2244 StringRef OverlayDir) {
2245 using namespace llvm::sys;
2246
2247 OS << "{\n"
2248 " 'version': 0,\n";
2249 if (IsCaseSensitive.hasValue())
2250 OS << " 'case-sensitive': '"
2251 << (IsCaseSensitive.getValue() ? "true" : "false") << "',\n";
2252 if (UseExternalNames.hasValue())
2253 OS << " 'use-external-names': '"
2254 << (UseExternalNames.getValue() ? "true" : "false") << "',\n";
2255 bool UseOverlayRelative = false;
2256 if (IsOverlayRelative.hasValue()) {
2257 UseOverlayRelative = IsOverlayRelative.getValue();
2258 OS << " 'overlay-relative': '" << (UseOverlayRelative ? "true" : "false")
2259 << "',\n";
2260 }
2261 OS << " 'roots': [\n";
2262
2263 if (!Entries.empty()) {
2264 const YAMLVFSEntry &Entry = Entries.front();
2265
2266 startDirectory(
2267 Entry.IsDirectory ? Entry.VPath : path::parent_path(Entry.VPath)
2268 );
2269
2270 StringRef RPath = Entry.RPath;
2271 if (UseOverlayRelative) {
2272 unsigned OverlayDirLen = OverlayDir.size();
2273 assert(RPath.substr(0, OverlayDirLen) == OverlayDir &&((void)0)
2274 "Overlay dir must be contained in RPath")((void)0);
2275 RPath = RPath.slice(OverlayDirLen, RPath.size());
2276 }
2277
2278 bool IsCurrentDirEmpty = true;
2279 if (!Entry.IsDirectory) {
2280 writeEntry(path::filename(Entry.VPath), RPath);
2281 IsCurrentDirEmpty = false;
2282 }
2283
2284 for (const auto &Entry : Entries.slice(1)) {
2285 StringRef Dir =
2286 Entry.IsDirectory ? Entry.VPath : path::parent_path(Entry.VPath);
2287 if (Dir == DirStack.back()) {
2288 if (!IsCurrentDirEmpty) {
2289 OS << ",\n";
2290 }
2291 } else {
2292 bool IsDirPoppedFromStack = false;
2293 while (!DirStack.empty() && !containedIn(DirStack.back(), Dir)) {
2294 OS << "\n";
2295 endDirectory();
2296 IsDirPoppedFromStack = true;
2297 }
2298 if (IsDirPoppedFromStack || !IsCurrentDirEmpty) {
2299 OS << ",\n";
2300 }
2301 startDirectory(Dir);
2302 IsCurrentDirEmpty = true;
2303 }
2304 StringRef RPath = Entry.RPath;
2305 if (UseOverlayRelative) {
2306 unsigned OverlayDirLen = OverlayDir.size();
2307 assert(RPath.substr(0, OverlayDirLen) == OverlayDir &&((void)0)
2308 "Overlay dir must be contained in RPath")((void)0);
2309 RPath = RPath.slice(OverlayDirLen, RPath.size());
2310 }
2311 if (!Entry.IsDirectory) {
2312 writeEntry(path::filename(Entry.VPath), RPath);
2313 IsCurrentDirEmpty = false;
2314 }
2315 }
2316
2317 while (!DirStack.empty()) {
2318 OS << "\n";
2319 endDirectory();
2320 }
2321 OS << "\n";
2322 }
2323
2324 OS << " ]\n"
2325 << "}\n";
2326}
2327
2328void YAMLVFSWriter::write(llvm::raw_ostream &OS) {
2329 llvm::sort(Mappings, [](const YAMLVFSEntry &LHS, const YAMLVFSEntry &RHS) {
2330 return LHS.VPath < RHS.VPath;
2331 });
2332
2333 JSONWriter(OS).write(Mappings, UseExternalNames, IsCaseSensitive,
2334 IsOverlayRelative, OverlayDir);
2335}
2336
2337vfs::recursive_directory_iterator::recursive_directory_iterator(
2338 FileSystem &FS_, const Twine &Path, std::error_code &EC)
2339 : FS(&FS_) {
2340 directory_iterator I = FS->dir_begin(Path, EC);
2341 if (I != directory_iterator()) {
2342 State = std::make_shared<detail::RecDirIterState>();
2343 State->Stack.push(I);
2344 }
2345}
2346
2347vfs::recursive_directory_iterator &
2348recursive_directory_iterator::increment(std::error_code &EC) {
2349 assert(FS && State && !State->Stack.empty() && "incrementing past end")((void)0);
2350 assert(!State->Stack.top()->path().empty() && "non-canonical end iterator")((void)0);
2351 vfs::directory_iterator End;
2352
2353 if (State->HasNoPushRequest)
2354 State->HasNoPushRequest = false;
2355 else {
2356 if (State->Stack.top()->type() == sys::fs::file_type::directory_file) {
2357 vfs::directory_iterator I = FS->dir_begin(State->Stack.top()->path(), EC);
2358 if (I != End) {
2359 State->Stack.push(I);
2360 return *this;
2361 }
2362 }
2363 }
2364
2365 while (!State->Stack.empty() && State->Stack.top().increment(EC) == End)
2366 State->Stack.pop();
2367
2368 if (State->Stack.empty())
2369 State.reset(); // end iterator
2370
2371 return *this;
2372}