// Copyright (c) 2024-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 "env/fs_on_demand.h" #include #include #include "file/filename.h" #include "port/port.h" #include "rocksdb/types.h" namespace ROCKSDB_NAMESPACE { // Check if the input path is under orig (typically the local directory), and if // so, change it to the equivalent path under replace (typically the remote // directory). For example, if orig is "/data/follower", replace is // "/data/leader", and the given path is "/data/follower/000010.sst", on return // the path would be changed to // "/data/leader/000010.sst". // Return value is true if the path was modified, false otherwise bool OnDemandFileSystem::CheckPathAndAdjust(const std::string& orig, const std::string& replace, std::string& path) { size_t pos = path.find(orig); if (pos > 0) { return false; } path.replace(pos, orig.length(), replace); return true; } bool OnDemandFileSystem::LookupFileType(const std::string& name, FileType* type) { std::size_t found = name.find_last_of('/'); std::string file_name = name.substr(found); uint64_t number = 0; return ParseFileName(file_name, &number, type); } // RocksDB opens non-SST files for reading in sequential file mode. This // includes CURRENT, OPTIONS, MANIFEST etc. For these files, we open them // in place in the source directory. For files that are appendable or // can be renamed, which is MANIFEST and CURRENT files, we wrap the // underlying FSSequentialFile with another class that checks when EOF // has been reached and re-opens the file to see the latest data. On some // distributed file systems, this is necessary. IOStatus OnDemandFileSystem::NewSequentialFile( const std::string& fname, const FileOptions& file_opts, std::unique_ptr* result, IODebugContext* dbg) { FileType type; static std::unordered_set valid_types( {kWalFile, kDescriptorFile, kCurrentFile, kIdentityFile, kOptionsFile}); if (!LookupFileType(fname, &type) || (valid_types.find(type) == valid_types.end())) { return IOStatus::NotSupported(); } IOStatus s; std::string rname = fname; if (CheckPathAndAdjust(local_path_, remote_path_, rname)) { // First clear any local directory cache as it may be out of date target()->DiscardCacheForDirectory(rname); std::unique_ptr inner_file; s = target()->NewSequentialFile(rname, file_opts, &inner_file, dbg); if (s.ok() && type == kDescriptorFile) { result->reset(new OnDemandSequentialFile(std::move(inner_file), this, file_opts, rname)); } else { *result = std::move(inner_file); } } else { s = target()->NewSequentialFile(fname, file_opts, result, dbg); } return s; } // This is only supported for SST files. If the file is present locally, // i.e in the destination dir, we just open it and return. If its in the // remote, i.e source dir, we link it locally and open the link. // TODO: Add support for blob files belonging to the new BlobDB IOStatus OnDemandFileSystem::NewRandomAccessFile( const std::string& fname, const FileOptions& file_opts, std::unique_ptr* result, IODebugContext* dbg) { FileType type; if (!LookupFileType(fname, &type) || type != kTableFile) { return IOStatus::NotSupported(); } IOStatus s = target()->FileExists(fname, file_opts.io_options, nullptr); if (s.IsNotFound() || s.IsPathNotFound()) { std::string rname = fname; if (CheckPathAndAdjust(local_path_, remote_path_, rname)) { // First clear any local directory cache as it may be out of date target()->DiscardCacheForDirectory(rname); s = target()->LinkFile(rname, fname, IOOptions(), nullptr); if (!s.ok()) { return s; } } } return s.ok() ? target()->NewRandomAccessFile(fname, file_opts, result, dbg) : s; } // We don't expect to create any writable file other than info LOG files. IOStatus OnDemandFileSystem::NewWritableFile( const std::string& fname, const FileOptions& file_opts, std::unique_ptr* result, IODebugContext* dbg) { FileType type; if (!LookupFileType(fname, &type) || type != kInfoLogFile) { return IOStatus::NotSupported(); } std::string rname = fname; if (CheckPathAndAdjust(local_path_, remote_path_, rname)) { // First clear any local directory cache as it may be out of date target()->DiscardCacheForDirectory(rname); IOStatus s = target()->FileExists(rname, file_opts.io_options, dbg); if (s.ok()) { return IOStatus::InvalidArgument( "Writing to a file present in the remote directory not supoprted"); } } return target()->NewWritableFile(fname, file_opts, result, dbg); } // Currently not supported, as there's no need for RocksDB to create a // directory object for a DB in read-only mode. IOStatus OnDemandFileSystem::NewDirectory( const std::string& /*name*/, const IOOptions& /*io_opts*/, std::unique_ptr* /*result*/, IODebugContext* /*dbg*/) { return IOStatus::NotSupported(); } // Check if the given file exists, either locally or remote. If the file is an // SST file, then link it locally. We assume if the file existence is being // checked, its for verification purposes, for example while replaying the // MANIFEST. The file will be opened for reading some time in the future. IOStatus OnDemandFileSystem::FileExists(const std::string& fname, const IOOptions& options, IODebugContext* dbg) { IOStatus s = target()->FileExists(fname, options, dbg); if (!s.IsNotFound() && !s.IsPathNotFound()) { return s; } std::string rname = fname; if (CheckPathAndAdjust(local_path_, remote_path_, rname)) { // First clear any local directory cache as it may be out of date target()->DiscardCacheForDirectory(rname); FileType type; if (LookupFileType(fname, &type) && type == kTableFile) { s = target()->LinkFile(rname, fname, options, dbg); } else { s = target()->FileExists(rname, options, dbg); } } return s; } // Doa listing of both the local and remote directories and merge the two. IOStatus OnDemandFileSystem::GetChildren(const std::string& dir, const IOOptions& options, std::vector* result, IODebugContext* dbg) { std::string rdir = dir; IOStatus s = target()->GetChildren(dir, options, result, dbg); if (!s.ok() || !CheckPathAndAdjust(local_path_, remote_path_, rdir)) { return s; } std::vector rchildren; // First clear any local directory cache as it may be out of date target()->DiscardCacheForDirectory(rdir); s = target()->GetChildren(rdir, options, &rchildren, dbg); if (s.ok()) { std::for_each(rchildren.begin(), rchildren.end(), [&](std::string& name) { // Adjust name (void)CheckPathAndAdjust(remote_path_, local_path_, name); }); std::sort(result->begin(), result->end()); std::sort(rchildren.begin(), rchildren.end()); std::vector output; output.reserve(result->size() + rchildren.size()); std::set_union(result->begin(), result->end(), rchildren.begin(), rchildren.end(), std::back_inserter(output)); *result = std::move(output); } return s; } // Doa listing of both the local and remote directories and merge the two. IOStatus OnDemandFileSystem::GetChildrenFileAttributes( const std::string& dir, const IOOptions& options, std::vector* result, IODebugContext* dbg) { std::string rdir = dir; IOStatus s = target()->GetChildrenFileAttributes(dir, options, result, dbg); if (!s.ok() || !CheckPathAndAdjust(local_path_, remote_path_, rdir)) { return s; } std::vector rchildren; // First clear any local directory cache as it may be out of date target()->DiscardCacheForDirectory(rdir); s = target()->GetChildrenFileAttributes(rdir, options, &rchildren, dbg); if (s.ok()) { struct FileAttributeSorter { bool operator()(const FileAttributes& lhs, const FileAttributes& rhs) { return lhs.name < rhs.name; } } file_attr_sorter; std::for_each( rchildren.begin(), rchildren.end(), [&](FileAttributes& file) { // Adjust name (void)CheckPathAndAdjust(remote_path_, local_path_, file.name); }); std::sort(result->begin(), result->end(), file_attr_sorter); std::sort(rchildren.begin(), rchildren.end(), file_attr_sorter); std::vector output; output.reserve(result->size() + rchildren.size()); std::set_union(rchildren.begin(), rchildren.end(), result->begin(), result->end(), std::back_inserter(output), file_attr_sorter); *result = std::move(output); } return s; } IOStatus OnDemandFileSystem::GetFileSize(const std::string& fname, const IOOptions& options, uint64_t* file_size, IODebugContext* dbg) { uint64_t local_size = 0; IOStatus s = target()->GetFileSize(fname, options, &local_size, dbg); if (!s.ok() && !s.IsNotFound() && !s.IsPathNotFound()) { return s; } if (s.IsNotFound() || s.IsPathNotFound()) { std::string rname = fname; if (CheckPathAndAdjust(local_path_, remote_path_, rname)) { // First clear any local directory cache as it may be out of date target()->DiscardCacheForDirectory(rname); FileType type; if (LookupFileType(fname, &type) && type == kTableFile) { s = target()->LinkFile(rname, fname, options, dbg); if (s.ok()) { s = target()->GetFileSize(fname, options, &local_size, dbg); } } else { s = target()->GetFileSize(rname, options, &local_size, dbg); } } } *file_size = local_size; return s; } // An implementation of Read that tracks whether we've reached EOF. If so, // re-open the file to try to read past the previous EOF offset. After // re-opening, positing it back to the last read offset. IOStatus OnDemandSequentialFile::Read(size_t n, const IOOptions& options, Slice* result, char* scratch, IODebugContext* dbg) { IOStatus s; if (eof_) { // Reopen the file. With some distributed file systems, this is required // in order to get the new size file_.reset(); s = fs_->NewSequentialFile(path_, file_opts_, &file_, dbg); if (!s.ok()) { return IOStatus::IOError("While opening file after relinking, got error ", s.ToString()); } s = file_->Skip(offset_); if (!s.ok()) { return IOStatus::IOError( "While seeking to offset" + std::to_string(offset_) + "got error", s.ToString()); } eof_ = false; } s = file_->Read(n, options, result, scratch, dbg); if (s.ok()) { offset_ += result->size(); if (result->size() < n) { // We reached EOF. Mark it so we know to relink next time eof_ = true; } } return s; } IOStatus OnDemandSequentialFile::Skip(uint64_t n) { IOStatus s = file_->Skip(n); if (s.ok()) { offset_ += n; } return s; } bool OnDemandSequentialFile::use_direct_io() const { return file_->use_direct_io(); } size_t OnDemandSequentialFile::GetRequiredBufferAlignment() const { return file_->GetRequiredBufferAlignment(); } Temperature OnDemandSequentialFile::GetTemperature() const { return file_->GetTemperature(); } std::shared_ptr NewOnDemandFileSystem( const std::shared_ptr& fs, std::string src_path, std::string dest_path) { return std::make_shared(fs, src_path, dest_path); } } // namespace ROCKSDB_NAMESPACE