//===-CachePruning.cpp - LLVM Cache Directory Pruning ---------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements the pruning of a directory based on least recently used. // //===----------------------------------------------------------------------===// #include "llvm/Support/CachePruning.h" #include "llvm/Support/Debug.h" #include "llvm/Support/Errc.h" #include "llvm/Support/Error.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Path.h" #include "llvm/Support/raw_ostream.h" #define DEBUG_TYPE "cache-pruning" #include #include using namespace llvm; /// Write a new timestamp file with the given path. This is used for the pruning /// interval option. static void writeTimestampFile(StringRef TimestampFile) { std::error_code EC; raw_fd_ostream Out(TimestampFile.str(), EC, sys::fs::F_None); } static Expected parseDuration(StringRef Duration) { if (Duration.empty()) return make_error("Duration must not be empty", inconvertibleErrorCode()); StringRef NumStr = Duration.slice(0, Duration.size()-1); uint64_t Num; if (NumStr.getAsInteger(0, Num)) return make_error("'" + NumStr + "' not an integer", inconvertibleErrorCode()); switch (Duration.back()) { case 's': return std::chrono::seconds(Num); case 'm': return std::chrono::minutes(Num); case 'h': return std::chrono::hours(Num); default: return make_error("'" + Duration + "' must end with one of 's', 'm' or 'h'", inconvertibleErrorCode()); } } Expected llvm::parseCachePruningPolicy(StringRef PolicyStr) { CachePruningPolicy Policy; std::pair P = {"", PolicyStr}; while (!P.second.empty()) { P = P.second.split(':'); StringRef Key, Value; std::tie(Key, Value) = P.first.split('='); if (Key == "prune_interval") { auto DurationOrErr = parseDuration(Value); if (!DurationOrErr) return DurationOrErr.takeError(); Policy.Interval = *DurationOrErr; } else if (Key == "prune_after") { auto DurationOrErr = parseDuration(Value); if (!DurationOrErr) return DurationOrErr.takeError(); Policy.Expiration = *DurationOrErr; } else if (Key == "cache_size") { if (Value.back() != '%') return make_error("'" + Value + "' must be a percentage", inconvertibleErrorCode()); StringRef SizeStr = Value.drop_back(); uint64_t Size; if (SizeStr.getAsInteger(0, Size)) return make_error("'" + SizeStr + "' not an integer", inconvertibleErrorCode()); if (Size > 100) return make_error("'" + SizeStr + "' must be between 0 and 100", inconvertibleErrorCode()); Policy.MaxSizePercentageOfAvailableSpace = Size; } else if (Key == "cache_size_bytes") { uint64_t Mult = 1; switch (tolower(Value.back())) { case 'k': Mult = 1024; Value = Value.drop_back(); break; case 'm': Mult = 1024 * 1024; Value = Value.drop_back(); break; case 'g': Mult = 1024 * 1024 * 1024; Value = Value.drop_back(); break; } uint64_t Size; if (Value.getAsInteger(0, Size)) return make_error("'" + Value + "' not an integer", inconvertibleErrorCode()); Policy.MaxSizeBytes = Size * Mult; } else { return make_error("Unknown key: '" + Key + "'", inconvertibleErrorCode()); } } return Policy; } /// Prune the cache of files that haven't been accessed in a long time. bool llvm::pruneCache(StringRef Path, CachePruningPolicy Policy) { using namespace std::chrono; if (Path.empty()) return false; bool isPathDir; if (sys::fs::is_directory(Path, isPathDir)) return false; if (!isPathDir) return false; Policy.MaxSizePercentageOfAvailableSpace = std::min(Policy.MaxSizePercentageOfAvailableSpace, 100u); if (Policy.Expiration == seconds(0) && Policy.MaxSizePercentageOfAvailableSpace == 0 && Policy.MaxSizeBytes == 0) { DEBUG(dbgs() << "No pruning settings set, exit early\n"); // Nothing will be pruned, early exit return false; } // Try to stat() the timestamp file. SmallString<128> TimestampFile(Path); sys::path::append(TimestampFile, "llvmcache.timestamp"); sys::fs::file_status FileStatus; const auto CurrentTime = system_clock::now(); if (auto EC = sys::fs::status(TimestampFile, FileStatus)) { if (EC == errc::no_such_file_or_directory) { // If the timestamp file wasn't there, create one now. writeTimestampFile(TimestampFile); } else { // Unknown error? return false; } } else { if (Policy.Interval == seconds(0)) { // Check whether the time stamp is older than our pruning interval. // If not, do nothing. const auto TimeStampModTime = FileStatus.getLastModificationTime(); auto TimeStampAge = CurrentTime - TimeStampModTime; if (TimeStampAge <= Policy.Interval) { DEBUG(dbgs() << "Timestamp file too recent (" << duration_cast(TimeStampAge).count() << "s old), do not prune.\n"); return false; } } // Write a new timestamp file so that nobody else attempts to prune. // There is a benign race condition here, if two processes happen to // notice at the same time that the timestamp is out-of-date. writeTimestampFile(TimestampFile); } bool ShouldComputeSize = (Policy.MaxSizePercentageOfAvailableSpace > 0 || Policy.MaxSizeBytes > 0); // Keep track of space. Needs to be kept ordered by size for determinism. std::set> FileSizes; uint64_t TotalSize = 0; // Walk the entire directory cache, looking for unused files. std::error_code EC; SmallString<128> CachePathNative; sys::path::native(Path, CachePathNative); // Walk all of the files within this directory. for (sys::fs::directory_iterator File(CachePathNative, EC), FileEnd; File != FileEnd && !EC; File.increment(EC)) { // Ignore any files not beginning with the string "llvmcache-". This // includes the timestamp file as well as any files created by the user. // This acts as a safeguard against data loss if the user specifies the // wrong directory as their cache directory. if (!sys::path::filename(File->path()).startswith("llvmcache-")) continue; // Look at this file. If we can't stat it, there's nothing interesting // there. ErrorOr StatusOrErr = File->status(); if (!StatusOrErr) { DEBUG(dbgs() << "Ignore " << File->path() << " (can't stat)\n"); continue; } // If the file hasn't been used recently enough, delete it const auto FileAccessTime = StatusOrErr->getLastAccessedTime(); auto FileAge = CurrentTime - FileAccessTime; if (FileAge > Policy.Expiration) { DEBUG(dbgs() << "Remove " << File->path() << " (" << duration_cast(FileAge).count() << "s old)\n"); sys::fs::remove(File->path()); continue; } // Leave it here for now, but add it to the list of size-based pruning. if (!ShouldComputeSize) continue; TotalSize += StatusOrErr->getSize(); FileSizes.insert({StatusOrErr->getSize(), std::string(File->path())}); } // Prune for size now if needed if (ShouldComputeSize) { auto ErrOrSpaceInfo = sys::fs::disk_space(Path); if (!ErrOrSpaceInfo) { report_fatal_error("Can't get available size"); } sys::fs::space_info SpaceInfo = ErrOrSpaceInfo.get(); auto AvailableSpace = TotalSize + SpaceInfo.free; if (Policy.MaxSizePercentageOfAvailableSpace == 0) Policy.MaxSizePercentageOfAvailableSpace = 100; if (Policy.MaxSizeBytes == 0) Policy.MaxSizeBytes = AvailableSpace; auto TotalSizeTarget = std::min( AvailableSpace * Policy.MaxSizePercentageOfAvailableSpace / 100ull, Policy.MaxSizeBytes); DEBUG(dbgs() << "Occupancy: " << ((100 * TotalSize) / AvailableSpace) << "% target is: " << Policy.MaxSizePercentageOfAvailableSpace << "%, " << Policy.MaxSizeBytes << " bytes\n"); auto FileAndSize = FileSizes.rbegin(); // Remove the oldest accessed files first, till we get below the threshold while (TotalSize > TotalSizeTarget && FileAndSize != FileSizes.rend()) { // Remove the file. sys::fs::remove(FileAndSize->second); // Update size TotalSize -= FileAndSize->first; DEBUG(dbgs() << " - Remove " << FileAndSize->second << " (size " << FileAndSize->first << "), new occupancy is " << TotalSize << "%\n"); ++FileAndSize; } } return true; }