#include "FileSegment.h" #include #include #include #include #include #include #include #include namespace CurrentMetrics { extern const Metric CacheDetachedFileSegments; } namespace DB { namespace ErrorCodes { extern const int REMOTE_FS_OBJECT_CACHE_ERROR; extern const int LOGICAL_ERROR; } FileSegment::FileSegment( size_t offset_, size_t size_, const Key & key_, FileCache * cache_, State download_state_, const CreateFileSegmentSettings & settings) : segment_range(offset_, offset_ + size_ - 1) , download_state(download_state_) , file_key(key_) , cache(cache_) #ifndef NDEBUG , log(&Poco::Logger::get(fmt::format("FileSegment({}) : {}", getHexUIntLowercase(key_), range().toString()))) #else , log(&Poco::Logger::get("FileSegment")) #endif , is_persistent(settings.is_persistent) { /// On creation, file segment state can be EMPTY, DOWNLOADED, DOWNLOADING. switch (download_state) { /// EMPTY is used when file segment is not in cache and /// someone will _potentially_ want to download it (after calling getOrSetDownloader()). case (State::EMPTY): { break; } /// DOWNLOADED is used either on initial cache metadata load into memory on server startup /// or on reduceSizeToDownloaded() -- when file segment object is updated. case (State::DOWNLOADED): { reserved_size = downloaded_size = size_; is_downloaded = true; break; } case (State::SKIP_CACHE): { break; } default: { throw Exception( ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Can create cell with either EMPTY, DOWNLOADED, DOWNLOADING state"); } } } String FileSegment::getPathInLocalCache() const { return cache->getPathInLocalCache(key(), offset(), isPersistent()); } FileSegment::State FileSegment::state() const { std::unique_lock segment_lock(mutex); return download_state; } void FileSegment::setDownloadState(State state) { LOG_TEST(log, "Updated state from {} to {}", stateToString(download_state), stateToString(state)); download_state = state; } size_t FileSegment::getFirstNonDownloadedOffset() const { std::unique_lock segment_lock(mutex); return getFirstNonDownloadedOffsetUnlocked(segment_lock); } size_t FileSegment::getFirstNonDownloadedOffsetUnlocked(std::unique_lock & segment_lock) const { return range().left + getDownloadedSizeUnlocked(segment_lock); } size_t FileSegment::getCurrentWriteOffset() const { std::unique_lock segment_lock(mutex); return getCurrentWriteOffsetUnlocked(segment_lock); } size_t FileSegment::getCurrentWriteOffsetUnlocked(std::unique_lock & segment_lock) const { return getFirstNonDownloadedOffsetUnlocked(segment_lock); } size_t FileSegment::getDownloadedSize() const { std::unique_lock segment_lock(mutex); return getDownloadedSizeUnlocked(segment_lock); } size_t FileSegment::getDownloadedSizeUnlocked(std::unique_lock & /* segment_lock */) const { if (download_state == State::DOWNLOADED) return downloaded_size; std::unique_lock download_lock(download_mutex); return downloaded_size; } bool FileSegment::isDownloaded() const { std::lock_guard segment_lock(mutex); return is_downloaded; } String FileSegment::getCallerId() { if (!CurrentThread::isInitialized() || !CurrentThread::get().getQueryContext() || CurrentThread::getQueryId().empty()) return "None:" + toString(getThreadId()); return std::string(CurrentThread::getQueryId()) + ":" + toString(getThreadId()); } String FileSegment::getDownloader() const { std::unique_lock segment_lock(mutex); return getDownloaderUnlocked(segment_lock); } String FileSegment::getDownloaderUnlocked(std::unique_lock & /* segment_lock */) const { return downloader_id; } String FileSegment::getOrSetDownloader() { std::unique_lock segment_lock(mutex); assertNotDetachedUnlocked(segment_lock); auto current_downloader = getDownloaderUnlocked(segment_lock); if (current_downloader.empty()) { bool allow_new_downloader = download_state == State::EMPTY || download_state == State::PARTIALLY_DOWNLOADED; if (!allow_new_downloader) return "notAllowed:" + stateToString(download_state); current_downloader = downloader_id = getCallerId(); setDownloadState(State::DOWNLOADING); } return current_downloader; } void FileSegment::resetDownloadingStateUnlocked([[maybe_unused]] std::unique_lock & segment_lock) { assert(isDownloaderUnlocked(segment_lock)); assert(download_state == State::DOWNLOADING); size_t current_downloaded_size = getDownloadedSizeUnlocked(segment_lock); /// range().size() can equal 0 in case of write-though cache. if (current_downloaded_size != 0 && current_downloaded_size == range().size()) setDownloadedUnlocked(segment_lock); else setDownloadState(State::PARTIALLY_DOWNLOADED); } void FileSegment::resetDownloader() { std::unique_lock segment_lock(mutex); assertNotDetachedUnlocked(segment_lock); assertIsDownloaderUnlocked("resetDownloader", segment_lock); resetDownloadingStateUnlocked(segment_lock); resetDownloaderUnlocked(segment_lock); } void FileSegment::resetDownloaderUnlocked(std::unique_lock & /* segment_lock */) { LOG_TEST(log, "Resetting downloader from {}", downloader_id); downloader_id.clear(); } void FileSegment::assertIsDownloaderUnlocked(const std::string & operation, std::unique_lock & segment_lock) const { auto caller = getCallerId(); auto current_downloader = getDownloaderUnlocked(segment_lock); LOG_TEST(log, "Downloader id: {}, caller id: {}", current_downloader, caller); if (caller != current_downloader) { throw Exception( ErrorCodes::LOGICAL_ERROR, "Operation `{}` can be done only by downloader. " "(CallerId: {}, downloader id: {})", operation, caller, downloader_id); } } bool FileSegment::isDownloader() const { std::unique_lock segment_lock(mutex); return isDownloaderUnlocked(segment_lock); } bool FileSegment::isDownloaderUnlocked(std::unique_lock & segment_lock) const { return getCallerId() == getDownloaderUnlocked(segment_lock); } FileSegment::RemoteFileReaderPtr FileSegment::getRemoteFileReader() { std::unique_lock segment_lock(mutex); assertIsDownloaderUnlocked("getRemoteFileReader", segment_lock); return remote_file_reader; } FileSegment::RemoteFileReaderPtr FileSegment::extractRemoteFileReader() { std::lock_guard cache_lock(cache->mutex); std::unique_lock segment_lock(mutex); if (!is_detached) { bool is_last_holder = cache->isLastFileSegmentHolder(key(), offset(), cache_lock, segment_lock); if (!downloader_id.empty() || !is_last_holder) return nullptr; } return std::move(remote_file_reader); } void FileSegment::setRemoteFileReader(RemoteFileReaderPtr remote_file_reader_) { std::unique_lock segment_lock(mutex); assertIsDownloaderUnlocked("setRemoteFileReader", segment_lock); if (remote_file_reader) throw Exception(ErrorCodes::LOGICAL_ERROR, "Remote file reader already exists"); remote_file_reader = remote_file_reader_; } void FileSegment::resetRemoteFileReader() { std::unique_lock segment_lock(mutex); assertIsDownloaderUnlocked("resetRemoteFileReader", segment_lock); if (!remote_file_reader) throw Exception(ErrorCodes::LOGICAL_ERROR, "Remote file reader does not exist"); remote_file_reader.reset(); } void FileSegment::write(const char * from, size_t size, size_t offset) { if (!size) throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Writing zero size is not allowed"); { std::unique_lock segment_lock(mutex); assertIsDownloaderUnlocked("write", segment_lock); assertNotDetachedUnlocked(segment_lock); if (download_state != State::DOWNLOADING) throw Exception( ErrorCodes::LOGICAL_ERROR, "Expected DOWNLOADING state, got {}", stateToString(download_state)); size_t first_non_downloaded_offset = getFirstNonDownloadedOffsetUnlocked(segment_lock); if (offset != first_non_downloaded_offset) throw Exception( ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Attempt to write {} bytes to offset: {}, but current write offset is {}", size, offset, first_non_downloaded_offset); size_t current_downloaded_size = getDownloadedSizeUnlocked(segment_lock); chassert(reserved_size >= current_downloaded_size); size_t free_reserved_size = reserved_size - current_downloaded_size; if (free_reserved_size < size) throw Exception( ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Not enough space is reserved. Available: {}, expected: {}", free_reserved_size, size); if (current_downloaded_size == range().size()) throw Exception(ErrorCodes::LOGICAL_ERROR, "File segment is already fully downloaded"); if (!cache_writer) { if (current_downloaded_size > 0) throw Exception( ErrorCodes::LOGICAL_ERROR, "Cache writer was finalized (downloaded size: {}, state: {})", current_downloaded_size, stateToString(download_state)); auto download_path = getPathInLocalCache(); cache_writer = std::make_unique(download_path); } } try { cache_writer->write(from, size); std::unique_lock download_lock(download_mutex); cache_writer->next(); downloaded_size += size; } catch (Exception & e) { std::unique_lock segment_lock(mutex); wrapWithCacheInfo(e, "while writing into cache", segment_lock); setDownloadFailedUnlocked(segment_lock); cv.notify_all(); throw; } #ifndef NDEBUG chassert(getFirstNonDownloadedOffset() == offset + size); #endif } FileSegment::State FileSegment::wait() { std::unique_lock segment_lock(mutex); if (is_detached) throw Exception( ErrorCodes::LOGICAL_ERROR, "Cache file segment is in detached state, operation not allowed"); if (downloader_id.empty()) return download_state; if (download_state == State::EMPTY) throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Cannot wait on a file segment with empty state"); if (download_state == State::DOWNLOADING) { LOG_TEST(log, "{} waiting on: {}, current downloader: {}", getCallerId(), range().toString(), downloader_id); chassert(!getDownloaderUnlocked(segment_lock).empty()); chassert(!isDownloaderUnlocked(segment_lock)); cv.wait_for(segment_lock, std::chrono::seconds(60)); } return download_state; } bool FileSegment::reserve(size_t size_to_reserve) { if (!size_to_reserve) throw Exception(ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Zero space reservation is not allowed"); size_t expected_downloaded_size; { std::unique_lock segment_lock(mutex); assertNotDetachedUnlocked(segment_lock); assertIsDownloaderUnlocked("reserve", segment_lock); expected_downloaded_size = getDownloadedSizeUnlocked(segment_lock); if (expected_downloaded_size + size_to_reserve > range().size()) throw Exception( ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Attempt to reserve space too much space ({}) for file segment with range: {} (downloaded size: {})", size_to_reserve, range().toString(), downloaded_size); chassert(reserved_size >= expected_downloaded_size); } /** * It is possible to have downloaded_size < reserved_size when reserve is called * in case previous downloader did not fully download current file_segment * and the caller is going to continue; */ size_t already_reserved_size = reserved_size - expected_downloaded_size; bool reserved = already_reserved_size >= size_to_reserve; if (!reserved) { std::lock_guard cache_lock(cache->mutex); size_to_reserve = size_to_reserve - already_reserved_size; reserved = cache->tryReserve(key(), offset(), size_to_reserve, cache_lock); if (reserved) { std::lock_guard segment_lock(mutex); reserved_size += size_to_reserve; } } return reserved; } void FileSegment::setDownloadedUnlocked([[maybe_unused]] std::unique_lock & segment_lock) { if (is_downloaded) return; setDownloadState(State::DOWNLOADED); is_downloaded = true; if (cache_writer) { cache_writer->finalize(); cache_writer.reset(); remote_file_reader.reset(); } download_state = State::DOWNLOADED; is_downloaded = true; assert(getDownloadedSizeUnlocked(segment_lock) > 0); assert(std::filesystem::file_size(getPathInLocalCache()) > 0); } void FileSegment::setDownloadFailedUnlocked(std::unique_lock & segment_lock) { LOG_INFO(log, "Settings download as failed: {}", getInfoForLogUnlocked(segment_lock)); setDownloadState(State::PARTIALLY_DOWNLOADED_NO_CONTINUATION); resetDownloaderUnlocked(segment_lock); if (cache_writer) { cache_writer->finalize(); cache_writer.reset(); remote_file_reader.reset(); } } void FileSegment::completePartAndResetDownloader() { std::unique_lock segment_lock(mutex); completePartAndResetDownloaderUnlocked(segment_lock); } void FileSegment::completePartAndResetDownloaderUnlocked(std::unique_lock & segment_lock) { assertNotDetachedUnlocked(segment_lock); assertIsDownloaderUnlocked("completePartAndResetDownloader", segment_lock); resetDownloadingStateUnlocked(segment_lock); resetDownloaderUnlocked(segment_lock); LOG_TEST(log, "Complete batch. ({})", getInfoForLogUnlocked(segment_lock)); cv.notify_all(); } void FileSegment::completeWithState(State state) { std::lock_guard cache_lock(cache->mutex); std::unique_lock segment_lock(mutex); assertNotDetachedUnlocked(segment_lock); assertIsDownloaderUnlocked("complete", segment_lock); if (state != State::DOWNLOADED && state != State::PARTIALLY_DOWNLOADED && state != State::PARTIALLY_DOWNLOADED_NO_CONTINUATION) { cv.notify_all(); throw Exception( ErrorCodes::REMOTE_FS_OBJECT_CACHE_ERROR, "Cannot complete file segment with state: {}", stateToString(state)); } setDownloadState(state); completeBasedOnCurrentState(cache_lock, segment_lock); } void FileSegment::completeWithoutState() { std::lock_guard cache_lock(cache->mutex); completeWithoutStateUnlocked(cache_lock); } void FileSegment::completeWithoutStateUnlocked(std::lock_guard & cache_lock) { std::unique_lock segment_lock(mutex); completeBasedOnCurrentState(cache_lock, segment_lock); } void FileSegment::completeBasedOnCurrentState(std::lock_guard & cache_lock, std::unique_lock & segment_lock) { if (is_detached) return; bool is_downloader = isDownloaderUnlocked(segment_lock); bool is_last_holder = cache->isLastFileSegmentHolder(key(), offset(), cache_lock, segment_lock); size_t current_downloaded_size = getDownloadedSizeUnlocked(segment_lock); SCOPE_EXIT({ if (is_downloader) { cv.notify_all(); } }); LOG_TEST( log, "Complete based on current state (is_last_holder: {}, {})", is_last_holder, getInfoForLogUnlocked(segment_lock)); if (is_downloader) { if (download_state == State::DOWNLOADING) /// != in case of completeWithState resetDownloadingStateUnlocked(segment_lock); resetDownloaderUnlocked(segment_lock); } switch (download_state) { case State::SKIP_CACHE: { if (is_last_holder) cache->remove(key(), offset(), cache_lock, segment_lock); return; } case State::DOWNLOADED: { chassert(getDownloadedSizeUnlocked(segment_lock) == range().size()); assert(is_downloaded); assert(!cache_writer); break; } case State::DOWNLOADING: { chassert(!is_last_holder); break; } case State::EMPTY: case State::PARTIALLY_DOWNLOADED: case State::PARTIALLY_DOWNLOADED_NO_CONTINUATION: { if (is_last_holder) { if (current_downloaded_size == 0) { LOG_TEST(log, "Remove cell {} (nothing downloaded)", range().toString()); setDownloadState(State::SKIP_CACHE); cache->remove(key(), offset(), cache_lock, segment_lock); } else { LOG_TEST(log, "Resize cell {} to downloaded: {}", range().toString(), current_downloaded_size); /** * Only last holder of current file segment can resize the cell, * because there is an invariant that file segments returned to users * in FileSegmentsHolder represent a contiguous range, so we can resize * it only when nobody needs it. */ setDownloadState(State::PARTIALLY_DOWNLOADED_NO_CONTINUATION); /// Resize this file segment by creating a copy file segment with DOWNLOADED state, /// but current file segment should remain PARRTIALLY_DOWNLOADED_NO_CONTINUATION and with detached state, /// because otherwise an invariant that getOrSet() returns a contiguous range of file segments will be broken /// (this will be crucial for other file segment holder, not for current one). cache->reduceSizeToDownloaded(key(), offset(), cache_lock, segment_lock); } detachAssumeStateFinalized(segment_lock); } break; } } LOG_TEST(log, "Completed file segment: {}", getInfoForLogUnlocked(segment_lock)); } String FileSegment::getInfoForLog() const { std::unique_lock segment_lock(mutex); return getInfoForLogUnlocked(segment_lock); } String FileSegment::getInfoForLogUnlocked(std::unique_lock & segment_lock) const { WriteBufferFromOwnString info; info << "File segment: " << range().toString() << ", "; info << "key: " << key().toString() << ", "; info << "state: " << download_state << ", "; info << "downloaded size: " << getDownloadedSizeUnlocked(segment_lock) << ", "; info << "reserved size: " << reserved_size << ", "; info << "downloader id: " << (downloader_id.empty() ? "None" : downloader_id) << ", "; info << "current write offset: " << getCurrentWriteOffsetUnlocked(segment_lock) << ", "; info << "first non-downloaded offset: " << getFirstNonDownloadedOffsetUnlocked(segment_lock) << ", "; info << "caller id: " << getCallerId() << ", "; info << "detached: " << is_detached << ", "; info << "persistent: " << is_persistent; return info.str(); } void FileSegment::wrapWithCacheInfo(Exception & e, const String & message, std::unique_lock & segment_lock) const { e.addMessage(fmt::format("{}, current cache state: {}", message, getInfoForLogUnlocked(segment_lock))); } String FileSegment::stateToString(FileSegment::State state) { switch (state) { case FileSegment::State::DOWNLOADED: return "DOWNLOADED"; case FileSegment::State::EMPTY: return "EMPTY"; case FileSegment::State::DOWNLOADING: return "DOWNLOADING"; case FileSegment::State::PARTIALLY_DOWNLOADED: return "PARTIALLY DOWNLOADED"; case FileSegment::State::PARTIALLY_DOWNLOADED_NO_CONTINUATION: return "PARTIALLY DOWNLOADED NO CONTINUATION"; case FileSegment::State::SKIP_CACHE: return "SKIP_CACHE"; } UNREACHABLE(); } void FileSegment::assertCorrectness() const { std::unique_lock segment_lock(mutex); assertCorrectnessUnlocked(segment_lock); } void FileSegment::assertCorrectnessUnlocked(std::unique_lock & segment_lock) const { auto current_downloader = getDownloaderUnlocked(segment_lock); chassert(current_downloader.empty() == (download_state != FileSegment::State::DOWNLOADING)); chassert(!current_downloader.empty() == (download_state == FileSegment::State::DOWNLOADING)); chassert(download_state != FileSegment::State::DOWNLOADED || std::filesystem::file_size(getPathInLocalCache()) > 0); } void FileSegment::throwIfDetachedUnlocked(std::unique_lock & segment_lock) const { throw Exception( ErrorCodes::LOGICAL_ERROR, "Cache file segment is in detached state, operation not allowed. " "It can happen when cache was concurrently dropped with SYSTEM DROP FILESYSTEM CACHE FORCE. " "Please, retry. File segment info: {}", getInfoForLogUnlocked(segment_lock)); } void FileSegment::assertNotDetached() const { std::unique_lock segment_lock(mutex); assertNotDetachedUnlocked(segment_lock); } void FileSegment::assertNotDetachedUnlocked(std::unique_lock & segment_lock) const { if (is_detached) throwIfDetachedUnlocked(segment_lock); } void FileSegment::assertDetachedStatus(std::unique_lock & segment_lock) const { /// Detached file segment is allowed to have only a certain subset of states. /// It should be either EMPTY or one of the finalized states. if (download_state != State::EMPTY && !hasFinalizedStateUnlocked(segment_lock)) { throw Exception( ErrorCodes::LOGICAL_ERROR, "Detached file segment has incorrect state: {}", getInfoForLogUnlocked(segment_lock)); } } FileSegmentPtr FileSegment::getSnapshot(const FileSegmentPtr & file_segment, std::lock_guard & /* cache_lock */) { std::unique_lock segment_lock(file_segment->mutex); auto snapshot = std::make_shared( file_segment->offset(), file_segment->range().size(), file_segment->key(), nullptr, State::EMPTY, CreateFileSegmentSettings{}); snapshot->hits_count = file_segment->getHitsCount(); snapshot->ref_count = file_segment.use_count(); snapshot->downloaded_size = file_segment->getDownloadedSizeUnlocked(segment_lock); snapshot->download_state = file_segment->download_state; snapshot->is_persistent = file_segment->isPersistent(); return snapshot; } bool FileSegment::hasFinalizedStateUnlocked(std::unique_lock & /* segment_lock */) const { return download_state == State::DOWNLOADED || download_state == State::PARTIALLY_DOWNLOADED_NO_CONTINUATION || download_state == State::SKIP_CACHE; } bool FileSegment::isDetached() const { std::unique_lock segment_lock(mutex); return is_detached; } void FileSegment::detach(std::lock_guard & /* cache_lock */, std::unique_lock & segment_lock) { if (is_detached) return; if (download_state == State::DOWNLOADING) resetDownloadingStateUnlocked(segment_lock); else setDownloadState(State::PARTIALLY_DOWNLOADED_NO_CONTINUATION); resetDownloaderUnlocked(segment_lock); detachAssumeStateFinalized(segment_lock); } void FileSegment::detachAssumeStateFinalized(std::unique_lock & segment_lock) { is_detached = true; CurrentMetrics::add(CurrentMetrics::CacheDetachedFileSegments); LOG_TEST(log, "Detached file segment: {}", getInfoForLogUnlocked(segment_lock)); } FileSegment::~FileSegment() { std::unique_lock segment_lock(mutex); if (is_detached) CurrentMetrics::sub(CurrentMetrics::CacheDetachedFileSegments); } FileSegmentsHolder::~FileSegmentsHolder() { /// In CacheableReadBufferFromRemoteFS file segment's downloader removes file segments from /// FileSegmentsHolder right after calling file_segment->complete(), so on destruction here /// remain only uncompleted file segments. FileCache * cache = nullptr; for (auto file_segment_it = file_segments.begin(); file_segment_it != file_segments.end();) { auto current_file_segment_it = file_segment_it; auto & file_segment = *current_file_segment_it; if (!cache) cache = file_segment->cache; try { bool is_detached = false; { std::unique_lock segment_lock(file_segment->mutex); is_detached = file_segment->isDetached(segment_lock); if (is_detached) file_segment->assertDetachedStatus(segment_lock); } if (is_detached) { /// This file segment is not owned by cache, so it will be destructed /// at this point, therefore no completion required. file_segment_it = file_segments.erase(current_file_segment_it); continue; } /// File segment pointer must be reset right after calling complete() and /// under the same mutex, because complete() checks for segment pointers. std::lock_guard cache_lock(cache->mutex); file_segment->completeWithoutStateUnlocked(cache_lock); file_segment_it = file_segments.erase(current_file_segment_it); } catch (...) { tryLogCurrentException(__PRETTY_FUNCTION__); } } } String FileSegmentsHolder::toString() { String ranges; for (const auto & file_segment : file_segments) { if (!ranges.empty()) ranges += ", "; ranges += file_segment->range().toString(); } return ranges; } }