//===- DependencyScanningFilesystem.cpp - clang-scan-deps fs --------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "clang/Tooling/DependencyScanning/DependencyScanningFilesystem.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/SmallVectorMemoryBuffer.h" #include "llvm/Support/Threading.h" #include using namespace clang; using namespace tooling; using namespace dependencies; llvm::ErrorOr DependencyScanningWorkerFilesystem::readFile(StringRef Filename) { // Load the file and its content from the file system. auto MaybeFile = getUnderlyingFS().openFileForRead(Filename); if (!MaybeFile) return MaybeFile.getError(); auto File = std::move(*MaybeFile); auto MaybeStat = File->status(); if (!MaybeStat) return MaybeStat.getError(); auto Stat = std::move(*MaybeStat); auto MaybeBuffer = File->getBuffer(Stat.getName()); if (!MaybeBuffer) return MaybeBuffer.getError(); auto Buffer = std::move(*MaybeBuffer); // If the file size changed between read and stat, pretend it didn't. if (Stat.getSize() != Buffer->getBufferSize()) Stat = llvm::vfs::Status::copyWithNewSize(Stat, Buffer->getBufferSize()); return TentativeEntry(Stat, std::move(Buffer)); } EntryRef DependencyScanningWorkerFilesystem::scanForDirectivesIfNecessary( const CachedFileSystemEntry &Entry, StringRef Filename, bool Disable) { if (Entry.isError() || Entry.isDirectory() || Disable || !shouldScanForDirectives(Filename)) return EntryRef(Filename, Entry); CachedFileContents *Contents = Entry.getCachedContents(); assert(Contents && "contents not initialized"); // Double-checked locking. if (Contents->DepDirectives.load()) return EntryRef(Filename, Entry); std::lock_guard GuardLock(Contents->ValueLock); // Double-checked locking. if (Contents->DepDirectives.load()) return EntryRef(Filename, Entry); SmallVector Directives; // Scan the file for preprocessor directives that might affect the // dependencies. if (scanSourceForDependencyDirectives(Contents->Original->getBuffer(), Contents->DepDirectiveTokens, Directives)) { Contents->DepDirectiveTokens.clear(); // FIXME: Propagate the diagnostic if desired by the client. Contents->DepDirectives.store(new std::optional()); return EntryRef(Filename, Entry); } // This function performed double-checked locking using `DepDirectives`. // Assigning it must be the last thing this function does, otherwise other // threads may skip the // critical section (`DepDirectives != nullptr`), leading to a data race. Contents->DepDirectives.store( new std::optional(std::move(Directives))); return EntryRef(Filename, Entry); } DependencyScanningFilesystemSharedCache:: DependencyScanningFilesystemSharedCache() { // This heuristic was chosen using a empirical testing on a // reasonably high core machine (iMacPro 18 cores / 36 threads). The cache // sharding gives a performance edge by reducing the lock contention. // FIXME: A better heuristic might also consider the OS to account for // the different cost of lock contention on different OSes. NumShards = std::max(2u, llvm::hardware_concurrency().compute_thread_count() / 4); CacheShards = std::make_unique(NumShards); } DependencyScanningFilesystemSharedCache::CacheShard & DependencyScanningFilesystemSharedCache::getShardForFilename( StringRef Filename) const { return CacheShards[llvm::hash_value(Filename) % NumShards]; } DependencyScanningFilesystemSharedCache::CacheShard & DependencyScanningFilesystemSharedCache::getShardForUID( llvm::sys::fs::UniqueID UID) const { auto Hash = llvm::hash_combine(UID.getDevice(), UID.getFile()); return CacheShards[Hash % NumShards]; } const CachedFileSystemEntry * DependencyScanningFilesystemSharedCache::CacheShard::findEntryByFilename( StringRef Filename) const { std::lock_guard LockGuard(CacheLock); auto It = EntriesByFilename.find(Filename); return It == EntriesByFilename.end() ? nullptr : It->getValue(); } const CachedFileSystemEntry * DependencyScanningFilesystemSharedCache::CacheShard::findEntryByUID( llvm::sys::fs::UniqueID UID) const { std::lock_guard LockGuard(CacheLock); auto It = EntriesByUID.find(UID); return It == EntriesByUID.end() ? nullptr : It->getSecond(); } const CachedFileSystemEntry & DependencyScanningFilesystemSharedCache::CacheShard:: getOrEmplaceEntryForFilename(StringRef Filename, llvm::ErrorOr Stat) { std::lock_guard LockGuard(CacheLock); auto Insertion = EntriesByFilename.insert({Filename, nullptr}); if (Insertion.second) Insertion.first->second = new (EntryStorage.Allocate()) CachedFileSystemEntry(std::move(Stat)); return *Insertion.first->second; } const CachedFileSystemEntry & DependencyScanningFilesystemSharedCache::CacheShard::getOrEmplaceEntryForUID( llvm::sys::fs::UniqueID UID, llvm::vfs::Status Stat, std::unique_ptr Contents) { std::lock_guard LockGuard(CacheLock); auto Insertion = EntriesByUID.insert({UID, nullptr}); if (Insertion.second) { CachedFileContents *StoredContents = nullptr; if (Contents) StoredContents = new (ContentsStorage.Allocate()) CachedFileContents(std::move(Contents)); Insertion.first->second = new (EntryStorage.Allocate()) CachedFileSystemEntry(std::move(Stat), StoredContents); } return *Insertion.first->second; } const CachedFileSystemEntry & DependencyScanningFilesystemSharedCache::CacheShard:: getOrInsertEntryForFilename(StringRef Filename, const CachedFileSystemEntry &Entry) { std::lock_guard LockGuard(CacheLock); return *EntriesByFilename.insert({Filename, &Entry}).first->getValue(); } /// Whitelist file extensions that should be minimized, treating no extension as /// a source file that should be minimized. /// /// This is kinda hacky, it would be better if we knew what kind of file Clang /// was expecting instead. static bool shouldScanForDirectivesBasedOnExtension(StringRef Filename) { StringRef Ext = llvm::sys::path::extension(Filename); if (Ext.empty()) return true; // C++ standard library return llvm::StringSwitch(Ext) .CasesLower(".c", ".cc", ".cpp", ".c++", ".cxx", true) .CasesLower(".h", ".hh", ".hpp", ".h++", ".hxx", true) .CasesLower(".m", ".mm", true) .CasesLower(".i", ".ii", ".mi", ".mmi", true) .CasesLower(".def", ".inc", true) .Default(false); } static bool shouldCacheStatFailures(StringRef Filename) { StringRef Ext = llvm::sys::path::extension(Filename); if (Ext.empty()) return false; // This may be the module cache directory. // Only cache stat failures on source files. return shouldScanForDirectivesBasedOnExtension(Filename); } bool DependencyScanningWorkerFilesystem::shouldScanForDirectives( StringRef Filename) { return shouldScanForDirectivesBasedOnExtension(Filename); } const CachedFileSystemEntry & DependencyScanningWorkerFilesystem::getOrEmplaceSharedEntryForUID( TentativeEntry TEntry) { auto &Shard = SharedCache.getShardForUID(TEntry.Status.getUniqueID()); return Shard.getOrEmplaceEntryForUID(TEntry.Status.getUniqueID(), std::move(TEntry.Status), std::move(TEntry.Contents)); } const CachedFileSystemEntry * DependencyScanningWorkerFilesystem::findEntryByFilenameWithWriteThrough( StringRef Filename) { if (const auto *Entry = LocalCache.findEntryByFilename(Filename)) return Entry; auto &Shard = SharedCache.getShardForFilename(Filename); if (const auto *Entry = Shard.findEntryByFilename(Filename)) return &LocalCache.insertEntryForFilename(Filename, *Entry); return nullptr; } llvm::ErrorOr DependencyScanningWorkerFilesystem::computeAndStoreResult(StringRef Filename) { llvm::ErrorOr Stat = getUnderlyingFS().status(Filename); if (!Stat) { if (!shouldCacheStatFailures(Filename)) return Stat.getError(); const auto &Entry = getOrEmplaceSharedEntryForFilename(Filename, Stat.getError()); return insertLocalEntryForFilename(Filename, Entry); } if (const auto *Entry = findSharedEntryByUID(*Stat)) return insertLocalEntryForFilename(Filename, *Entry); auto TEntry = Stat->isDirectory() ? TentativeEntry(*Stat) : readFile(Filename); const CachedFileSystemEntry *SharedEntry = [&]() { if (TEntry) { const auto &UIDEntry = getOrEmplaceSharedEntryForUID(std::move(*TEntry)); return &getOrInsertSharedEntryForFilename(Filename, UIDEntry); } return &getOrEmplaceSharedEntryForFilename(Filename, TEntry.getError()); }(); return insertLocalEntryForFilename(Filename, *SharedEntry); } llvm::ErrorOr DependencyScanningWorkerFilesystem::getOrCreateFileSystemEntry( StringRef Filename, bool DisableDirectivesScanning) { if (const auto *Entry = findEntryByFilenameWithWriteThrough(Filename)) return scanForDirectivesIfNecessary(*Entry, Filename, DisableDirectivesScanning) .unwrapError(); auto MaybeEntry = computeAndStoreResult(Filename); if (!MaybeEntry) return MaybeEntry.getError(); return scanForDirectivesIfNecessary(*MaybeEntry, Filename, DisableDirectivesScanning) .unwrapError(); } llvm::ErrorOr DependencyScanningWorkerFilesystem::status(const Twine &Path) { SmallString<256> OwnedFilename; StringRef Filename = Path.toStringRef(OwnedFilename); llvm::ErrorOr Result = getOrCreateFileSystemEntry(Filename); if (!Result) return Result.getError(); return Result->getStatus(); } namespace { /// The VFS that is used by clang consumes the \c CachedFileSystemEntry using /// this subclass. class DepScanFile final : public llvm::vfs::File { public: DepScanFile(std::unique_ptr Buffer, llvm::vfs::Status Stat) : Buffer(std::move(Buffer)), Stat(std::move(Stat)) {} static llvm::ErrorOr> create(EntryRef Entry); llvm::ErrorOr status() override { return Stat; } llvm::ErrorOr> getBuffer(const Twine &Name, int64_t FileSize, bool RequiresNullTerminator, bool IsVolatile) override { return std::move(Buffer); } std::error_code close() override { return {}; } private: std::unique_ptr Buffer; llvm::vfs::Status Stat; }; } // end anonymous namespace llvm::ErrorOr> DepScanFile::create(EntryRef Entry) { assert(!Entry.isError() && "error"); if (Entry.isDirectory()) return std::make_error_code(std::errc::is_a_directory); auto Result = std::make_unique( llvm::MemoryBuffer::getMemBuffer(Entry.getContents(), Entry.getStatus().getName(), /*RequiresNullTerminator=*/false), Entry.getStatus()); return llvm::ErrorOr>( std::unique_ptr(std::move(Result))); } llvm::ErrorOr> DependencyScanningWorkerFilesystem::openFileForRead(const Twine &Path) { SmallString<256> OwnedFilename; StringRef Filename = Path.toStringRef(OwnedFilename); llvm::ErrorOr Result = getOrCreateFileSystemEntry(Filename); if (!Result) return Result.getError(); return DepScanFile::create(Result.get()); }