forked from OSchip/llvm-project
270 lines
10 KiB
C++
270 lines
10 KiB
C++
//===- DependencyScanningFilesystem.cpp - clang-scan-deps fs --------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Tooling/DependencyScanning/DependencyScanningFilesystem.h"
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#include "clang/Lex/DependencyDirectivesSourceMinimizer.h"
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#include "llvm/Support/MemoryBuffer.h"
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#include "llvm/Support/Threading.h"
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using namespace clang;
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using namespace tooling;
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using namespace dependencies;
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CachedFileSystemEntry CachedFileSystemEntry::createFileEntry(
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StringRef Filename, llvm::vfs::FileSystem &FS, bool Minimize) {
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// Load the file and its content from the file system.
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llvm::ErrorOr<std::unique_ptr<llvm::vfs::File>> MaybeFile =
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FS.openFileForRead(Filename);
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if (!MaybeFile)
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return MaybeFile.getError();
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llvm::ErrorOr<llvm::vfs::Status> Stat = (*MaybeFile)->status();
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if (!Stat)
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return Stat.getError();
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llvm::vfs::File &F = **MaybeFile;
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llvm::ErrorOr<std::unique_ptr<llvm::MemoryBuffer>> MaybeBuffer =
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F.getBuffer(Stat->getName());
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if (!MaybeBuffer)
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return MaybeBuffer.getError();
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llvm::SmallString<1024> MinimizedFileContents;
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// Minimize the file down to directives that might affect the dependencies.
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const auto &Buffer = *MaybeBuffer;
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SmallVector<minimize_source_to_dependency_directives::Token, 64> Tokens;
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if (!Minimize || minimizeSourceToDependencyDirectives(
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Buffer->getBuffer(), MinimizedFileContents, Tokens)) {
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// Use the original file unless requested otherwise, or
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// if the minimization failed.
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// FIXME: Propage the diagnostic if desired by the client.
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CachedFileSystemEntry Result;
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Result.MaybeStat = std::move(*Stat);
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Result.Contents.reserve(Buffer->getBufferSize() + 1);
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Result.Contents.append(Buffer->getBufferStart(), Buffer->getBufferEnd());
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// Implicitly null terminate the contents for Clang's lexer.
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Result.Contents.push_back('\0');
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Result.Contents.pop_back();
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return Result;
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}
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CachedFileSystemEntry Result;
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size_t Size = MinimizedFileContents.size();
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Result.MaybeStat = llvm::vfs::Status(Stat->getName(), Stat->getUniqueID(),
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Stat->getLastModificationTime(),
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Stat->getUser(), Stat->getGroup(), Size,
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Stat->getType(), Stat->getPermissions());
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// The contents produced by the minimizer must be null terminated.
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assert(MinimizedFileContents.data()[MinimizedFileContents.size()] == '\0' &&
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"not null terminated contents");
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// Even though there's an implicit null terminator in the minimized contents,
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// we want to temporarily make it explicit. This will ensure that the
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// std::move will preserve it even if it needs to do a copy if the
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// SmallString still has the small capacity.
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MinimizedFileContents.push_back('\0');
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Result.Contents = std::move(MinimizedFileContents);
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// Now make the null terminator implicit again, so that Clang's lexer can find
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// it right where the buffer ends.
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Result.Contents.pop_back();
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// Compute the skipped PP ranges that speedup skipping over inactive
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// preprocessor blocks.
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llvm::SmallVector<minimize_source_to_dependency_directives::SkippedRange, 32>
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SkippedRanges;
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minimize_source_to_dependency_directives::computeSkippedRanges(Tokens,
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SkippedRanges);
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PreprocessorSkippedRangeMapping Mapping;
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for (const auto &Range : SkippedRanges) {
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if (Range.Length < 16) {
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// Ignore small ranges as non-profitable.
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// FIXME: This is a heuristic, its worth investigating the tradeoffs
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// when it should be applied.
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continue;
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}
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Mapping[Range.Offset] = Range.Length;
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}
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Result.PPSkippedRangeMapping = std::move(Mapping);
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return Result;
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}
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CachedFileSystemEntry
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CachedFileSystemEntry::createDirectoryEntry(llvm::vfs::Status &&Stat) {
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assert(Stat.isDirectory() && "not a directory!");
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auto Result = CachedFileSystemEntry();
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Result.MaybeStat = std::move(Stat);
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return Result;
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}
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DependencyScanningFilesystemSharedCache::
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DependencyScanningFilesystemSharedCache() {
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// This heuristic was chosen using a empirical testing on a
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// reasonably high core machine (iMacPro 18 cores / 36 threads). The cache
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// sharding gives a performance edge by reducing the lock contention.
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// FIXME: A better heuristic might also consider the OS to account for
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// the different cost of lock contention on different OSes.
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NumShards =
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std::max(2u, llvm::hardware_concurrency().compute_thread_count() / 4);
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CacheShards = std::make_unique<CacheShard[]>(NumShards);
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}
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/// Returns a cache entry for the corresponding key.
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///
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/// A new cache entry is created if the key is not in the cache. This is a
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/// thread safe call.
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DependencyScanningFilesystemSharedCache::SharedFileSystemEntry &
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DependencyScanningFilesystemSharedCache::get(StringRef Key) {
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CacheShard &Shard = CacheShards[llvm::hash_value(Key) % NumShards];
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std::unique_lock<std::mutex> LockGuard(Shard.CacheLock);
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auto It = Shard.Cache.try_emplace(Key);
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return It.first->getValue();
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}
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/// Whitelist file extensions that should be minimized, treating no extension as
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/// a source file that should be minimized.
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///
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/// This is kinda hacky, it would be better if we knew what kind of file Clang
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/// was expecting instead.
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static bool shouldMinimize(StringRef Filename) {
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StringRef Ext = llvm::sys::path::extension(Filename);
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if (Ext.empty())
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return true; // C++ standard library
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return llvm::StringSwitch<bool>(Ext)
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.CasesLower(".c", ".cc", ".cpp", ".c++", ".cxx", true)
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.CasesLower(".h", ".hh", ".hpp", ".h++", ".hxx", true)
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.CasesLower(".m", ".mm", true)
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.CasesLower(".i", ".ii", ".mi", ".mmi", true)
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.CasesLower(".def", ".inc", true)
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.Default(false);
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}
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static bool shouldCacheStatFailures(StringRef Filename) {
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StringRef Ext = llvm::sys::path::extension(Filename);
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if (Ext.empty())
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return false; // This may be the module cache directory.
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return shouldMinimize(Filename); // Only cache stat failures on source files.
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}
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llvm::ErrorOr<const CachedFileSystemEntry *>
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DependencyScanningWorkerFilesystem::getOrCreateFileSystemEntry(
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const StringRef Filename) {
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if (const CachedFileSystemEntry *Entry = getCachedEntry(Filename)) {
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return Entry;
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}
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// FIXME: Handle PCM/PCH files.
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// FIXME: Handle module map files.
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bool KeepOriginalSource = IgnoredFiles.count(Filename) ||
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!shouldMinimize(Filename);
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DependencyScanningFilesystemSharedCache::SharedFileSystemEntry
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&SharedCacheEntry = SharedCache.get(Filename);
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const CachedFileSystemEntry *Result;
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{
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std::unique_lock<std::mutex> LockGuard(SharedCacheEntry.ValueLock);
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CachedFileSystemEntry &CacheEntry = SharedCacheEntry.Value;
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if (!CacheEntry.isValid()) {
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llvm::vfs::FileSystem &FS = getUnderlyingFS();
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auto MaybeStatus = FS.status(Filename);
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if (!MaybeStatus) {
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if (!shouldCacheStatFailures(Filename))
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// HACK: We need to always restat non source files if the stat fails.
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// This is because Clang first looks up the module cache and module
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// files before building them, and then looks for them again. If we
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// cache the stat failure, it won't see them the second time.
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return MaybeStatus.getError();
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else
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CacheEntry = CachedFileSystemEntry(MaybeStatus.getError());
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} else if (MaybeStatus->isDirectory())
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CacheEntry = CachedFileSystemEntry::createDirectoryEntry(
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std::move(*MaybeStatus));
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else
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CacheEntry = CachedFileSystemEntry::createFileEntry(
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Filename, FS, !KeepOriginalSource);
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}
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Result = &CacheEntry;
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}
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// Store the result in the local cache.
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setCachedEntry(Filename, Result);
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return Result;
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}
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llvm::ErrorOr<llvm::vfs::Status>
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DependencyScanningWorkerFilesystem::status(const Twine &Path) {
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SmallString<256> OwnedFilename;
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StringRef Filename = Path.toStringRef(OwnedFilename);
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const llvm::ErrorOr<const CachedFileSystemEntry *> Result =
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getOrCreateFileSystemEntry(Filename);
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if (!Result)
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return Result.getError();
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return (*Result)->getStatus();
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}
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namespace {
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/// The VFS that is used by clang consumes the \c CachedFileSystemEntry using
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/// this subclass.
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class MinimizedVFSFile final : public llvm::vfs::File {
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public:
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MinimizedVFSFile(std::unique_ptr<llvm::MemoryBuffer> Buffer,
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llvm::vfs::Status Stat)
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: Buffer(std::move(Buffer)), Stat(std::move(Stat)) {}
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llvm::ErrorOr<llvm::vfs::Status> status() override { return Stat; }
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const llvm::MemoryBuffer *getBufferPtr() const { return Buffer.get(); }
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llvm::ErrorOr<std::unique_ptr<llvm::MemoryBuffer>>
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getBuffer(const Twine &Name, int64_t FileSize, bool RequiresNullTerminator,
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bool IsVolatile) override {
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return std::move(Buffer);
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}
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std::error_code close() override { return {}; }
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private:
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std::unique_ptr<llvm::MemoryBuffer> Buffer;
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llvm::vfs::Status Stat;
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};
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llvm::ErrorOr<std::unique_ptr<llvm::vfs::File>>
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createFile(const CachedFileSystemEntry *Entry,
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ExcludedPreprocessorDirectiveSkipMapping *PPSkipMappings) {
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if (Entry->isDirectory())
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return llvm::ErrorOr<std::unique_ptr<llvm::vfs::File>>(
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std::make_error_code(std::errc::is_a_directory));
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llvm::ErrorOr<StringRef> Contents = Entry->getContents();
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if (!Contents)
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return Contents.getError();
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auto Result = std::make_unique<MinimizedVFSFile>(
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llvm::MemoryBuffer::getMemBuffer(*Contents, Entry->getName(),
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/*RequiresNullTerminator=*/false),
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*Entry->getStatus());
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if (!Entry->getPPSkippedRangeMapping().empty() && PPSkipMappings)
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(*PPSkipMappings)[Result->getBufferPtr()] =
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&Entry->getPPSkippedRangeMapping();
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return llvm::ErrorOr<std::unique_ptr<llvm::vfs::File>>(
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std::unique_ptr<llvm::vfs::File>(std::move(Result)));
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}
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} // end anonymous namespace
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llvm::ErrorOr<std::unique_ptr<llvm::vfs::File>>
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DependencyScanningWorkerFilesystem::openFileForRead(const Twine &Path) {
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SmallString<256> OwnedFilename;
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StringRef Filename = Path.toStringRef(OwnedFilename);
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const llvm::ErrorOr<const CachedFileSystemEntry *> Result =
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getOrCreateFileSystemEntry(Filename);
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if (!Result)
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return Result.getError();
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return createFile(Result.get(), PPSkipMappings);
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}
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