// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab /* * Ceph - scalable distributed file system * * Copyright (C) 2004-2006 Sage Weil * * This is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License version 2.1, as published by the Free Software * Foundation. See file COPYING. * */ #ifndef CEPH_FILESTORE_H #define CEPH_FILESTORE_H #include "include/types.h" #include #include #include #include #include #include "include/unordered_map.h" #include "include/ceph_assert.h" #include "os/ObjectStore.h" #include "JournalingObjectStore.h" #include "common/Timer.h" #include "common/WorkQueue.h" #include "common/perf_counters.h" #include "common/zipkin_trace.h" #include "common/Mutex.h" #include "HashIndex.h" #include "IndexManager.h" #include "os/ObjectMap.h" #include "SequencerPosition.h" #include "FDCache.h" #include "WBThrottle.h" #include "include/uuid.h" #if defined(__linux__) # ifndef BTRFS_SUPER_MAGIC #define BTRFS_SUPER_MAGIC 0x9123683EUL # endif # ifndef XFS_SUPER_MAGIC #define XFS_SUPER_MAGIC 0x58465342UL # endif # ifndef ZFS_SUPER_MAGIC #define ZFS_SUPER_MAGIC 0x2fc12fc1UL # endif #endif class FileStoreBackend; #define CEPH_FS_FEATURE_INCOMPAT_SHARDS CompatSet::Feature(1, "sharded objects") enum { l_filestore_first = 84000, l_filestore_journal_queue_ops, l_filestore_journal_queue_bytes, l_filestore_journal_ops, l_filestore_journal_bytes, l_filestore_journal_latency, l_filestore_journal_wr, l_filestore_journal_wr_bytes, l_filestore_journal_full, l_filestore_committing, l_filestore_commitcycle, l_filestore_commitcycle_interval, l_filestore_commitcycle_latency, l_filestore_op_queue_max_ops, l_filestore_op_queue_ops, l_filestore_ops, l_filestore_op_queue_max_bytes, l_filestore_op_queue_bytes, l_filestore_bytes, l_filestore_apply_latency, l_filestore_queue_transaction_latency_avg, l_filestore_sync_pause_max_lat, l_filestore_last, }; class FSSuperblock { public: CompatSet compat_features; string omap_backend; FSSuperblock() { } void encode(bufferlist &bl) const; void decode(bufferlist::const_iterator &bl); void dump(Formatter *f) const; static void generate_test_instances(list& o); }; WRITE_CLASS_ENCODER(FSSuperblock) inline ostream& operator<<(ostream& out, const FSSuperblock& sb) { return out << "sb(" << sb.compat_features << "): " << sb.omap_backend; } class FileStore : public JournalingObjectStore, public md_config_obs_t { static const uint32_t target_version = 4; public: uint32_t get_target_version() { return target_version; } static int get_block_device_fsid(CephContext* cct, const string& path, uuid_d *fsid); struct FSPerfTracker { PerfCounters::avg_tracker os_commit_latency_ns; PerfCounters::avg_tracker os_apply_latency_ns; objectstore_perf_stat_t get_cur_stats() const { objectstore_perf_stat_t ret; ret.os_commit_latency_ns = os_commit_latency_ns.current_avg(); ret.os_apply_latency_ns = os_apply_latency_ns.current_avg(); return ret; } void update_from_perfcounters(PerfCounters &logger); } perf_tracker; objectstore_perf_stat_t get_cur_stats() override { perf_tracker.update_from_perfcounters(*logger); return perf_tracker.get_cur_stats(); } const PerfCounters* get_perf_counters() const override { return logger; } private: string internal_name; ///< internal name, used to name the perfcounter instance string basedir, journalpath; osflagbits_t generic_flags; std::string current_fn; std::string current_op_seq_fn; std::string omap_dir; uuid_d fsid; size_t blk_size; ///< fs block size int fsid_fd, op_fd, basedir_fd, current_fd; FileStoreBackend *backend; void create_backend(unsigned long f_type); string devname; int vdo_fd = -1; string vdo_name; deque snaps; // Indexed Collections IndexManager index_manager; int get_index(const coll_t& c, Index *index); int init_index(const coll_t& c); bool _need_temp_object_collection(const coll_t& cid, const ghobject_t& oid) { // - normal temp case: cid is pg, object is temp (pool < -1) // - hammer temp case: cid is pg (or already temp), object pool is -1 return cid.is_pg() && oid.hobj.pool <= -1; } void init_temp_collections(); void handle_eio(); // ObjectMap boost::scoped_ptr object_map; // helper fns int get_cdir(const coll_t& cid, char *s, int len); /// read a uuid from fd int read_fsid(int fd, uuid_d *uuid); /// lock fsid_fd int lock_fsid(); // sync thread Mutex lock; bool force_sync; Cond sync_cond; Mutex sync_entry_timeo_lock; SafeTimer timer; list sync_waiters; bool stop; void sync_entry(); struct SyncThread : public Thread { FileStore *fs; explicit SyncThread(FileStore *f) : fs(f) {} void *entry() override { fs->sync_entry(); return 0; } } sync_thread; // -- op workqueue -- struct Op { utime_t start; uint64_t op; vector tls; Context *onreadable, *onreadable_sync; uint64_t ops, bytes; TrackedOpRef osd_op; ZTracer::Trace trace; bool registered_apply = false; }; class OpSequencer : public CollectionImpl { CephContext *cct; Mutex qlock; // to protect q, for benefit of flush (peek/dequeue also protected by lock) list q; list jq; list > flush_commit_waiters; Cond cond; string osr_name_str; /// hash of pointers to ghobject_t's for in-flight writes unordered_multimap applying; public: Mutex apply_lock; // for apply mutual exclusion int id; const char *osr_name; /// get_max_uncompleted bool _get_max_uncompleted( uint64_t *seq ///< [out] max uncompleted seq ) { ceph_assert(qlock.is_locked()); ceph_assert(seq); *seq = 0; if (q.empty() && jq.empty()) return true; if (!q.empty()) *seq = q.back()->op; if (!jq.empty() && jq.back() > *seq) *seq = jq.back(); return false; } /// @returns true if both queues are empty /// get_min_uncompleted bool _get_min_uncompleted( uint64_t *seq ///< [out] min uncompleted seq ) { ceph_assert(qlock.is_locked()); ceph_assert(seq); *seq = 0; if (q.empty() && jq.empty()) return true; if (!q.empty()) *seq = q.front()->op; if (!jq.empty() && jq.front() < *seq) *seq = jq.front(); return false; } /// @returns true if both queues are empty void _wake_flush_waiters(list *to_queue) { uint64_t seq; if (_get_min_uncompleted(&seq)) seq = -1; for (list >::iterator i = flush_commit_waiters.begin(); i != flush_commit_waiters.end() && i->first < seq; flush_commit_waiters.erase(i++)) { to_queue->push_back(i->second); } } void queue_journal(Op *o) { Mutex::Locker l(qlock); jq.push_back(o->op); _register_apply(o); } void dequeue_journal(list *to_queue) { Mutex::Locker l(qlock); jq.pop_front(); cond.Signal(); _wake_flush_waiters(to_queue); } void queue(Op *o) { Mutex::Locker l(qlock); q.push_back(o); _register_apply(o); o->trace.keyval("queue depth", q.size()); } void _register_apply(Op *o); void _unregister_apply(Op *o); void wait_for_apply(const ghobject_t& oid); Op *peek_queue() { Mutex::Locker l(qlock); ceph_assert(apply_lock.is_locked()); return q.front(); } Op *dequeue(list *to_queue) { ceph_assert(to_queue); ceph_assert(apply_lock.is_locked()); Mutex::Locker l(qlock); Op *o = q.front(); q.pop_front(); cond.Signal(); _unregister_apply(o); _wake_flush_waiters(to_queue); return o; } void flush() override { Mutex::Locker l(qlock); while (cct->_conf->filestore_blackhole) cond.Wait(qlock); // wait forever // get max for journal _or_ op queues uint64_t seq = 0; if (!q.empty()) seq = q.back()->op; if (!jq.empty() && jq.back() > seq) seq = jq.back(); if (seq) { // everything prior to our watermark to drain through either/both queues while ((!q.empty() && q.front()->op <= seq) || (!jq.empty() && jq.front() <= seq)) cond.Wait(qlock); } } bool flush_commit(Context *c) override { Mutex::Locker l(qlock); uint64_t seq = 0; if (_get_max_uncompleted(&seq)) { return true; } else { flush_commit_waiters.push_back(make_pair(seq, c)); return false; } } OpSequencer(CephContext* cct, int i, coll_t cid) : CollectionImpl(cid), cct(cct), qlock("FileStore::OpSequencer::qlock", false, false), osr_name_str(stringify(cid)), apply_lock("FileStore::OpSequencer::apply_lock", false, false), id(i), osr_name(osr_name_str.c_str()) {} ~OpSequencer() override { ceph_assert(q.empty()); } }; typedef boost::intrusive_ptr OpSequencerRef; Mutex coll_lock; map coll_map; friend ostream& operator<<(ostream& out, const OpSequencer& s); FDCache fdcache; WBThrottle wbthrottle; std::atomic next_osr_id = { 0 }; bool m_disable_wbthrottle; deque op_queue; BackoffThrottle throttle_ops, throttle_bytes; const int m_ondisk_finisher_num; const int m_apply_finisher_num; vector ondisk_finishers; vector apply_finishers; ThreadPool op_tp; struct OpWQ : public ThreadPool::WorkQueue { FileStore *store; OpWQ(FileStore *fs, time_t timeout, time_t suicide_timeout, ThreadPool *tp) : ThreadPool::WorkQueue("FileStore::OpWQ", timeout, suicide_timeout, tp), store(fs) {} bool _enqueue(OpSequencer *osr) override { store->op_queue.push_back(osr); return true; } void _dequeue(OpSequencer *o) override { ceph_abort(); } bool _empty() override { return store->op_queue.empty(); } OpSequencer *_dequeue() override { if (store->op_queue.empty()) return nullptr; OpSequencer *osr = store->op_queue.front(); store->op_queue.pop_front(); return osr; } void _process(OpSequencer *osr, ThreadPool::TPHandle &handle) override { store->_do_op(osr, handle); } void _process_finish(OpSequencer *osr) override { store->_finish_op(osr); } void _clear() override { ceph_assert(store->op_queue.empty()); } } op_wq; void _do_op(OpSequencer *o, ThreadPool::TPHandle &handle); void _finish_op(OpSequencer *o); Op *build_op(vector& tls, Context *onreadable, Context *onreadable_sync, TrackedOpRef osd_op); void queue_op(OpSequencer *osr, Op *o); void op_queue_reserve_throttle(Op *o); void op_queue_release_throttle(Op *o); void _journaled_ahead(OpSequencer *osr, Op *o, Context *ondisk); friend struct C_JournaledAhead; void new_journal(); PerfCounters *logger; ZTracer::Endpoint trace_endpoint; public: int lfn_find(const ghobject_t& oid, const Index& index, IndexedPath *path = nullptr); int lfn_truncate(const coll_t& cid, const ghobject_t& oid, off_t length); int lfn_stat(const coll_t& cid, const ghobject_t& oid, struct stat *buf); int lfn_open( const coll_t& cid, const ghobject_t& oid, bool create, FDRef *outfd, Index *index = nullptr); void lfn_close(FDRef fd); int lfn_link(const coll_t& c, const coll_t& newcid, const ghobject_t& o, const ghobject_t& newoid) ; int lfn_unlink(const coll_t& cid, const ghobject_t& o, const SequencerPosition &spos, bool force_clear_omap=false); public: FileStore(CephContext* cct, const std::string &base, const std::string &jdev, osflagbits_t flags = 0, const char *internal_name = "filestore", bool update_to=false); ~FileStore() override; string get_type() override { return "filestore"; } int _detect_fs(); int _sanity_check_fs(); bool test_mount_in_use() override; int read_op_seq(uint64_t *seq); int write_op_seq(int, uint64_t seq); int mount() override; int umount() override; int validate_hobject_key(const hobject_t &obj) const override; unsigned get_max_attr_name_length() override { // xattr limit is 128; leave room for our prefixes (user.ceph._), // some margin, and cap at 100 return 100; } int mkfs() override; int mkjournal() override; bool wants_journal() override { return true; } bool allows_journal() override { return true; } bool needs_journal() override { return false; } bool is_sync_onreadable() const override { return false; } bool is_rotational() override; bool is_journal_rotational() override; void dump_perf_counters(Formatter *f) override { f->open_object_section("perf_counters"); logger->dump_formatted(f, false); f->close_section(); } int flush_cache(ostream *os = NULL) override; int write_version_stamp(); int version_stamp_is_valid(uint32_t *version); int update_version_stamp(); int upgrade() override; bool can_sort_nibblewise() override { return true; // i support legacy sort order } void collect_metadata(map *pm) override; int get_devices(set *ls) override; int statfs(struct store_statfs_t *buf, osd_alert_list_t* alerts = nullptr) override; int pool_statfs(uint64_t pool_id, struct store_statfs_t *buf) override; int _do_transactions( vector &tls, uint64_t op_seq, ThreadPool::TPHandle *handle, const char *osr_name); int do_transactions(vector &tls, uint64_t op_seq) override { return _do_transactions(tls, op_seq, nullptr, "replay"); } void _do_transaction( Transaction& t, uint64_t op_seq, int trans_num, ThreadPool::TPHandle *handle, const char *osr_name); CollectionHandle open_collection(const coll_t& c) override; CollectionHandle create_new_collection(const coll_t& c) override; void set_collection_commit_queue(const coll_t& cid, ContextQueue *commit_queue) override { } int queue_transactions(CollectionHandle& ch, vector& tls, TrackedOpRef op = TrackedOpRef(), ThreadPool::TPHandle *handle = nullptr) override; /** * set replay guard xattr on given file * * This will ensure that we will not replay this (or any previous) operation * against this particular inode/object. * * @param fd open file descriptor for the file/object * @param spos sequencer position of the last operation we should not replay */ void _set_replay_guard(int fd, const SequencerPosition& spos, const ghobject_t *oid=0, bool in_progress=false); void _set_replay_guard(const coll_t& cid, const SequencerPosition& spos, bool in_progress); void _set_global_replay_guard(const coll_t& cid, const SequencerPosition &spos); /// close a replay guard opened with in_progress=true void _close_replay_guard(int fd, const SequencerPosition& spos, const ghobject_t *oid=0); void _close_replay_guard(const coll_t& cid, const SequencerPosition& spos); /** * check replay guard xattr on given file * * Check the current position against any marker on the file that * indicates which operations have already been applied. If the * current or a newer operation has been marked as applied, we * should not replay the current operation again. * * If we are not replaying the journal, we already return true. It * is only on replay that we might return false, indicated that the * operation should not be performed (again). * * @param fd open fd on the file/object in question * @param spos sequencerposition for an operation we could apply/replay * @return 1 if we can apply (maybe replay) this operation, -1 if spos has already been applied, 0 if it was in progress */ int _check_replay_guard(int fd, const SequencerPosition& spos); int _check_replay_guard(const coll_t& cid, const SequencerPosition& spos); int _check_replay_guard(const coll_t& cid, const ghobject_t &oid, const SequencerPosition& pos); int _check_global_replay_guard(const coll_t& cid, const SequencerPosition& spos); // ------------------ // objects int pick_object_revision_lt(ghobject_t& oid) { return 0; } using ObjectStore::exists; bool exists(CollectionHandle& c, const ghobject_t& oid) override; using ObjectStore::stat; int stat( CollectionHandle& c, const ghobject_t& oid, struct stat *st, bool allow_eio = false) override; using ObjectStore::set_collection_opts; int set_collection_opts( CollectionHandle& c, const pool_opts_t& opts) override; using ObjectStore::read; int read( CollectionHandle& c, const ghobject_t& oid, uint64_t offset, size_t len, bufferlist& bl, uint32_t op_flags = 0) override; int _do_fiemap(int fd, uint64_t offset, size_t len, map *m); int _do_seek_hole_data(int fd, uint64_t offset, size_t len, map *m); using ObjectStore::fiemap; int fiemap(CollectionHandle& c, const ghobject_t& oid, uint64_t offset, size_t len, bufferlist& bl) override; int fiemap(CollectionHandle& c, const ghobject_t& oid, uint64_t offset, size_t len, map& destmap) override; int _touch(const coll_t& cid, const ghobject_t& oid); int _write(const coll_t& cid, const ghobject_t& oid, uint64_t offset, size_t len, const bufferlist& bl, uint32_t fadvise_flags = 0); int _zero(const coll_t& cid, const ghobject_t& oid, uint64_t offset, size_t len); int _truncate(const coll_t& cid, const ghobject_t& oid, uint64_t size); int _clone(const coll_t& cid, const ghobject_t& oldoid, const ghobject_t& newoid, const SequencerPosition& spos); int _clone_range(const coll_t& oldcid, const ghobject_t& oldoid, const coll_t& newcid, const ghobject_t& newoid, uint64_t srcoff, uint64_t len, uint64_t dstoff, const SequencerPosition& spos); int _do_clone_range(int from, int to, uint64_t srcoff, uint64_t len, uint64_t dstoff); int _do_sparse_copy_range(int from, int to, uint64_t srcoff, uint64_t len, uint64_t dstoff); int _do_copy_range(int from, int to, uint64_t srcoff, uint64_t len, uint64_t dstoff, bool skip_sloppycrc=false); int _remove(const coll_t& cid, const ghobject_t& oid, const SequencerPosition &spos); int _fgetattr(int fd, const char *name, bufferptr& bp); int _fgetattrs(int fd, map& aset); int _fsetattrs(int fd, map &aset); void do_force_sync(); void start_sync(Context *onsafe); void sync(); void _flush_op_queue(); void flush(); void sync_and_flush(); int flush_journal() override; int dump_journal(ostream& out) override; void set_fsid(uuid_d u) override { fsid = u; } uuid_d get_fsid() override { return fsid; } uint64_t estimate_objects_overhead(uint64_t num_objects) override; // DEBUG read error injection, an object is removed from both on delete() Mutex read_error_lock; set data_error_set; // read() will return -EIO set mdata_error_set; // getattr(),stat() will return -EIO void inject_data_error(const ghobject_t &oid) override; void inject_mdata_error(const ghobject_t &oid) override; void compact() override { ceph_assert(object_map); object_map->compact(); } bool has_builtin_csum() const override { return false; } void debug_obj_on_delete(const ghobject_t &oid); bool debug_data_eio(const ghobject_t &oid); bool debug_mdata_eio(const ghobject_t &oid); int snapshot(const string& name) override; // attrs using ObjectStore::getattr; using ObjectStore::getattrs; int getattr(CollectionHandle& c, const ghobject_t& oid, const char *name, bufferptr &bp) override; int getattrs(CollectionHandle& c, const ghobject_t& oid, map& aset) override; int _setattrs(const coll_t& cid, const ghobject_t& oid, map& aset, const SequencerPosition &spos); int _rmattr(const coll_t& cid, const ghobject_t& oid, const char *name, const SequencerPosition &spos); int _rmattrs(const coll_t& cid, const ghobject_t& oid, const SequencerPosition &spos); int _collection_remove_recursive(const coll_t &cid, const SequencerPosition &spos); int _collection_set_bits(const coll_t& cid, int bits); // collections using ObjectStore::collection_list; int collection_bits(CollectionHandle& c) override; int collection_list(CollectionHandle& c, const ghobject_t& start, const ghobject_t& end, int max, vector *ls, ghobject_t *next) override { c->flush(); return collection_list(c->cid, start, end, max, ls, next); } int collection_list(const coll_t& cid, const ghobject_t& start, const ghobject_t& end, int max, vector *ls, ghobject_t *next); int list_collections(vector& ls) override; int list_collections(vector& ls, bool include_temp); int collection_stat(const coll_t& c, struct stat *st); bool collection_exists(const coll_t& c) override; int collection_empty(CollectionHandle& c, bool *empty) override { c->flush(); return collection_empty(c->cid, empty); } int collection_empty(const coll_t& cid, bool *empty); // omap (see ObjectStore.h for documentation) using ObjectStore::omap_get; int omap_get(CollectionHandle& c, const ghobject_t &oid, bufferlist *header, map *out) override; using ObjectStore::omap_get_header; int omap_get_header( CollectionHandle& c, const ghobject_t &oid, bufferlist *out, bool allow_eio = false) override; using ObjectStore::omap_get_keys; int omap_get_keys(CollectionHandle& c, const ghobject_t &oid, set *keys) override; using ObjectStore::omap_get_values; int omap_get_values(CollectionHandle& c, const ghobject_t &oid, const set &keys, map *out) override; using ObjectStore::omap_check_keys; int omap_check_keys(CollectionHandle& c, const ghobject_t &oid, const set &keys, set *out) override; using ObjectStore::get_omap_iterator; ObjectMap::ObjectMapIterator get_omap_iterator(CollectionHandle& c, const ghobject_t &oid) override; ObjectMap::ObjectMapIterator get_omap_iterator(const coll_t& cid, const ghobject_t &oid); int _create_collection(const coll_t& c, int bits, const SequencerPosition &spos); int _destroy_collection(const coll_t& c); /** * Give an expected number of objects hint to the collection. * * @param c - collection id. * @param pg_num - pg number of the pool this collection belongs to * @param expected_num_objs - expected number of objects in this collection * @param spos - sequence position * * @return 0 on success, an error code otherwise */ int _collection_hint_expected_num_objs(const coll_t& c, uint32_t pg_num, uint64_t expected_num_objs, const SequencerPosition &spos); int _collection_add(const coll_t& c, const coll_t& ocid, const ghobject_t& oid, const SequencerPosition& spos); int _collection_move_rename(const coll_t& oldcid, const ghobject_t& oldoid, coll_t c, const ghobject_t& o, const SequencerPosition& spos, bool ignore_enoent = false); int _set_alloc_hint(const coll_t& cid, const ghobject_t& oid, uint64_t expected_object_size, uint64_t expected_write_size); void dump_start(const std::string& file); void dump_stop(); void dump_transactions(vector& ls, uint64_t seq, OpSequencer *osr); virtual int apply_layout_settings(const coll_t &cid, int target_level); void get_db_statistics(Formatter* f) override; private: void _inject_failure(); // omap int _omap_clear(const coll_t& cid, const ghobject_t &oid, const SequencerPosition &spos); int _omap_setkeys(const coll_t& cid, const ghobject_t &oid, const map &aset, const SequencerPosition &spos); int _omap_rmkeys(const coll_t& cid, const ghobject_t &oid, const set &keys, const SequencerPosition &spos); int _omap_rmkeyrange(const coll_t& cid, const ghobject_t &oid, const string& first, const string& last, const SequencerPosition &spos); int _omap_setheader(const coll_t& cid, const ghobject_t &oid, const bufferlist &bl, const SequencerPosition &spos); int _split_collection(const coll_t& cid, uint32_t bits, uint32_t rem, coll_t dest, const SequencerPosition &spos); int _merge_collection(const coll_t& cid, uint32_t bits, coll_t dest, const SequencerPosition &spos); const char** get_tracked_conf_keys() const override; void handle_conf_change(const ConfigProxy& conf, const std::set &changed) override; int set_throttle_params(); float m_filestore_commit_timeout; bool m_filestore_journal_parallel; bool m_filestore_journal_trailing; bool m_filestore_journal_writeahead; int m_filestore_fiemap_threshold; double m_filestore_max_sync_interval; double m_filestore_min_sync_interval; bool m_filestore_fail_eio; bool m_filestore_fadvise; int do_update; bool m_journal_dio, m_journal_aio, m_journal_force_aio; std::string m_osd_rollback_to_cluster_snap; bool m_osd_use_stale_snap; bool m_filestore_do_dump; std::ofstream m_filestore_dump; JSONFormatter m_filestore_dump_fmt; std::atomic m_filestore_kill_at = { 0 }; bool m_filestore_sloppy_crc; int m_filestore_sloppy_crc_block_size; uint64_t m_filestore_max_alloc_hint_size; unsigned long m_fs_type; //Determined xattr handling based on fs type void set_xattr_limits_via_conf(); uint32_t m_filestore_max_inline_xattr_size; uint32_t m_filestore_max_inline_xattrs; uint32_t m_filestore_max_xattr_value_size; FSSuperblock superblock; /** * write_superblock() * * Write superblock to persisent storage * * return value: 0 on success, otherwise negative errno */ int write_superblock(); /** * read_superblock() * * Fill in FileStore::superblock by reading persistent storage * * return value: 0 on success, otherwise negative errno */ int read_superblock(); friend class FileStoreBackend; friend class TestFileStore; }; ostream& operator<<(ostream& out, const FileStore::OpSequencer& s); struct fiemap; class FileStoreBackend { private: FileStore *filestore; protected: int get_basedir_fd() { return filestore->basedir_fd; } int get_current_fd() { return filestore->current_fd; } int get_op_fd() { return filestore->op_fd; } size_t get_blksize() { return filestore->blk_size; } const string& get_basedir_path() { return filestore->basedir; } const string& get_journal_path() { return filestore->journalpath; } const string& get_current_path() { return filestore->current_fn; } int _copy_range(int from, int to, uint64_t srcoff, uint64_t len, uint64_t dstoff) { if (has_fiemap() || has_seek_data_hole()) { return filestore->_do_sparse_copy_range(from, to, srcoff, len, dstoff); } else { return filestore->_do_copy_range(from, to, srcoff, len, dstoff); } } int get_crc_block_size() { return filestore->m_filestore_sloppy_crc_block_size; } public: explicit FileStoreBackend(FileStore *fs) : filestore(fs) {} virtual ~FileStoreBackend() {} CephContext* cct() const { return filestore->cct; } static FileStoreBackend *create(unsigned long f_type, FileStore *fs); virtual const char *get_name() = 0; virtual int detect_features() = 0; virtual int create_current() = 0; virtual bool can_checkpoint() = 0; virtual int list_checkpoints(list& ls) = 0; virtual int create_checkpoint(const string& name, uint64_t *cid) = 0; virtual int sync_checkpoint(uint64_t id) = 0; virtual int rollback_to(const string& name) = 0; virtual int destroy_checkpoint(const string& name) = 0; virtual int syncfs() = 0; virtual bool has_fiemap() = 0; virtual bool has_seek_data_hole() = 0; virtual bool is_rotational() = 0; virtual bool is_journal_rotational() = 0; virtual int do_fiemap(int fd, off_t start, size_t len, struct fiemap **pfiemap) = 0; virtual int clone_range(int from, int to, uint64_t srcoff, uint64_t len, uint64_t dstoff) = 0; virtual int set_alloc_hint(int fd, uint64_t hint) = 0; virtual bool has_splice() const = 0; // hooks for (sloppy) crc tracking virtual int _crc_update_write(int fd, loff_t off, size_t len, const bufferlist& bl) = 0; virtual int _crc_update_truncate(int fd, loff_t off) = 0; virtual int _crc_update_zero(int fd, loff_t off, size_t len) = 0; virtual int _crc_update_clone_range(int srcfd, int destfd, loff_t srcoff, size_t len, loff_t dstoff) = 0; virtual int _crc_verify_read(int fd, loff_t off, size_t len, const bufferlist& bl, ostream *out) = 0; }; #endif