// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). // #include "file/file_util.h" #include #include #include "file/random_access_file_reader.h" #include "file/sequence_file_reader.h" #include "file/sst_file_manager_impl.h" #include "file/writable_file_writer.h" #include "rocksdb/env.h" namespace ROCKSDB_NAMESPACE { // Utility function to copy a file up to a specified length IOStatus CopyFile(FileSystem* fs, const std::string& source, std::unique_ptr& dest_writer, uint64_t size, bool use_fsync, const std::shared_ptr& io_tracer, const Temperature temperature) { FileOptions soptions; IOStatus io_s; std::unique_ptr src_reader; { soptions.temperature = temperature; std::unique_ptr srcfile; io_s = fs->NewSequentialFile(source, soptions, &srcfile, nullptr); if (!io_s.ok()) { return io_s; } if (size == 0) { // default argument means copy everything io_s = fs->GetFileSize(source, IOOptions(), &size, nullptr); if (!io_s.ok()) { return io_s; } } src_reader.reset( new SequentialFileReader(std::move(srcfile), source, io_tracer)); } char buffer[4096]; Slice slice; while (size > 0) { size_t bytes_to_read = std::min(sizeof(buffer), static_cast(size)); // TODO: rate limit copy file io_s = status_to_io_status( src_reader->Read(bytes_to_read, &slice, buffer, Env::IO_TOTAL /* rate_limiter_priority */)); if (!io_s.ok()) { return io_s; } if (slice.size() == 0) { return IOStatus::Corruption("file too small"); } io_s = dest_writer->Append(slice); if (!io_s.ok()) { return io_s; } size -= slice.size(); } return dest_writer->Sync(use_fsync); } IOStatus CopyFile(FileSystem* fs, const std::string& source, const std::string& destination, uint64_t size, bool use_fsync, const std::shared_ptr& io_tracer, const Temperature temperature) { FileOptions options; IOStatus io_s; std::unique_ptr dest_writer; { options.temperature = temperature; std::unique_ptr destfile; io_s = fs->NewWritableFile(destination, options, &destfile, nullptr); if (!io_s.ok()) { return io_s; } dest_writer.reset( new WritableFileWriter(std::move(destfile), destination, options)); } return CopyFile(fs, source, dest_writer, size, use_fsync, io_tracer, temperature); } // Utility function to create a file with the provided contents IOStatus CreateFile(FileSystem* fs, const std::string& destination, const std::string& contents, bool use_fsync) { const EnvOptions soptions; IOStatus io_s; std::unique_ptr dest_writer; std::unique_ptr destfile; io_s = fs->NewWritableFile(destination, soptions, &destfile, nullptr); if (!io_s.ok()) { return io_s; } dest_writer.reset( new WritableFileWriter(std::move(destfile), destination, soptions)); io_s = dest_writer->Append(Slice(contents)); if (!io_s.ok()) { return io_s; } return dest_writer->Sync(use_fsync); } Status DeleteDBFile(const ImmutableDBOptions* db_options, const std::string& fname, const std::string& dir_to_sync, const bool force_bg, const bool force_fg) { SstFileManagerImpl* sfm = static_cast(db_options->sst_file_manager.get()); if (sfm && !force_fg) { return sfm->ScheduleFileDeletion(fname, dir_to_sync, force_bg); } else { return db_options->env->DeleteFile(fname); } } // requested_checksum_func_name brings the function name of the checksum // generator in checksum_factory. Empty string is permitted, in which case the // name of the generator created by the factory is unchecked. When // `requested_checksum_func_name` is non-empty, however, the created generator's // name must match it, otherwise an `InvalidArgument` error is returned. IOStatus GenerateOneFileChecksum( FileSystem* fs, const std::string& file_path, FileChecksumGenFactory* checksum_factory, const std::string& requested_checksum_func_name, std::string* file_checksum, std::string* file_checksum_func_name, size_t verify_checksums_readahead_size, bool allow_mmap_reads, std::shared_ptr& io_tracer, RateLimiter* rate_limiter, Env::IOPriority rate_limiter_priority) { if (checksum_factory == nullptr) { return IOStatus::InvalidArgument("Checksum factory is invalid"); } assert(file_checksum != nullptr); assert(file_checksum_func_name != nullptr); FileChecksumGenContext gen_context; gen_context.requested_checksum_func_name = requested_checksum_func_name; gen_context.file_name = file_path; std::unique_ptr checksum_generator = checksum_factory->CreateFileChecksumGenerator(gen_context); if (checksum_generator == nullptr) { std::string msg = "Cannot get the file checksum generator based on the requested " "checksum function name: " + requested_checksum_func_name + " from checksum factory: " + checksum_factory->Name(); return IOStatus::InvalidArgument(msg); } else { // For backward compatibility and use in file ingestion clients where there // is no stored checksum function name, `requested_checksum_func_name` can // be empty. If we give the requested checksum function name, we expect it // is the same name of the checksum generator. if (!requested_checksum_func_name.empty() && checksum_generator->Name() != requested_checksum_func_name) { std::string msg = "Expected file checksum generator named '" + requested_checksum_func_name + "', while the factory created one " "named '" + checksum_generator->Name() + "'"; return IOStatus::InvalidArgument(msg); } } uint64_t size; IOStatus io_s; std::unique_ptr reader; { std::unique_ptr r_file; io_s = fs->NewRandomAccessFile(file_path, FileOptions(), &r_file, nullptr); if (!io_s.ok()) { return io_s; } io_s = fs->GetFileSize(file_path, IOOptions(), &size, nullptr); if (!io_s.ok()) { return io_s; } reader.reset(new RandomAccessFileReader(std::move(r_file), file_path, nullptr /*Env*/, io_tracer, nullptr, 0, nullptr, rate_limiter)); } // Found that 256 KB readahead size provides the best performance, based on // experiments, for auto readahead. Experiment data is in PR #3282. size_t default_max_read_ahead_size = 256 * 1024; size_t readahead_size = (verify_checksums_readahead_size != 0) ? verify_checksums_readahead_size : default_max_read_ahead_size; FilePrefetchBuffer prefetch_buffer(readahead_size /* readahead_size */, readahead_size /* max_readahead_size */, !allow_mmap_reads /* enable */); Slice slice; uint64_t offset = 0; IOOptions opts; while (size > 0) { size_t bytes_to_read = static_cast(std::min(uint64_t{readahead_size}, size)); if (!prefetch_buffer.TryReadFromCache( opts, reader.get(), offset, bytes_to_read, &slice, nullptr /* status */, rate_limiter_priority, false /* for_compaction */)) { return IOStatus::Corruption("file read failed"); } if (slice.size() == 0) { return IOStatus::Corruption("file too small"); } checksum_generator->Update(slice.data(), slice.size()); size -= slice.size(); offset += slice.size(); } checksum_generator->Finalize(); *file_checksum = checksum_generator->GetChecksum(); *file_checksum_func_name = checksum_generator->Name(); return IOStatus::OK(); } Status DestroyDir(Env* env, const std::string& dir) { Status s; if (env->FileExists(dir).IsNotFound()) { return s; } std::vector files_in_dir; s = env->GetChildren(dir, &files_in_dir); if (s.ok()) { for (auto& file_in_dir : files_in_dir) { std::string path = dir + "/" + file_in_dir; bool is_dir = false; s = env->IsDirectory(path, &is_dir); if (s.ok()) { if (is_dir) { s = DestroyDir(env, path); } else { s = env->DeleteFile(path); } } else if (s.IsNotSupported()) { s = Status::OK(); } if (!s.ok()) { // IsDirectory, etc. might not report NotFound if (s.IsNotFound() || env->FileExists(path).IsNotFound()) { // Allow files to be deleted externally s = Status::OK(); } else { break; } } } } if (s.ok()) { s = env->DeleteDir(dir); // DeleteDir might or might not report NotFound if (!s.ok() && (s.IsNotFound() || env->FileExists(dir).IsNotFound())) { // Allow to be deleted externally s = Status::OK(); } } return s; } } // namespace ROCKSDB_NAMESPACE