X-Git-Url: https://gerrit.opnfv.org/gerrit/gitweb?a=blobdiff_plain;f=src%2Fceph%2Fsrc%2Fmds%2FCDir.h;fp=src%2Fceph%2Fsrc%2Fmds%2FCDir.h;h=45b2998b3d24d00ec67268b9d00b51978094f1d6;hb=812ff6ca9fcd3e629e49d4328905f33eee8ca3f5;hp=0000000000000000000000000000000000000000;hpb=15280273faafb77777eab341909a3f495cf248d9;p=stor4nfv.git diff --git a/src/ceph/src/mds/CDir.h b/src/ceph/src/mds/CDir.h new file mode 100644 index 0000000..45b2998 --- /dev/null +++ b/src/ceph/src/mds/CDir.h @@ -0,0 +1,754 @@ +// -*- 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_CDIR_H +#define CEPH_CDIR_H + +#include "include/counter.h" +#include "include/types.h" +#include "include/buffer_fwd.h" +#include "common/bloom_filter.hpp" +#include "common/config.h" +#include "common/DecayCounter.h" + +#include "MDSCacheObject.h" + +#include + +#include +#include +#include +#include + + +#include "CInode.h" + +class CDentry; +class MDCache; + +struct ObjectOperation; + +ostream& operator<<(ostream& out, const class CDir& dir); +class CDir : public MDSCacheObject, public Counter { + friend ostream& operator<<(ostream& out, const class CDir& dir); + +public: + MEMPOOL_CLASS_HELPERS(); + // -- pins -- + static const int PIN_DNWAITER = 1; + static const int PIN_INOWAITER = 2; + static const int PIN_CHILD = 3; + static const int PIN_FROZEN = 4; + static const int PIN_SUBTREE = 5; + static const int PIN_IMPORTING = 7; + static const int PIN_IMPORTBOUND = 9; + static const int PIN_EXPORTBOUND = 10; + static const int PIN_STICKY = 11; + static const int PIN_SUBTREETEMP = 12; // used by MDCache::trim_non_auth() + const char *pin_name(int p) const override { + switch (p) { + case PIN_DNWAITER: return "dnwaiter"; + case PIN_INOWAITER: return "inowaiter"; + case PIN_CHILD: return "child"; + case PIN_FROZEN: return "frozen"; + case PIN_SUBTREE: return "subtree"; + case PIN_IMPORTING: return "importing"; + case PIN_IMPORTBOUND: return "importbound"; + case PIN_EXPORTBOUND: return "exportbound"; + case PIN_STICKY: return "sticky"; + case PIN_SUBTREETEMP: return "subtreetemp"; + default: return generic_pin_name(p); + } + } + + // -- state -- + static const unsigned STATE_COMPLETE = (1<< 1); // the complete contents are in cache + static const unsigned STATE_FROZENTREE = (1<< 2); // root of tree (bounded by exports) + static const unsigned STATE_FREEZINGTREE = (1<< 3); // in process of freezing + static const unsigned STATE_FROZENDIR = (1<< 4); + static const unsigned STATE_FREEZINGDIR = (1<< 5); + static const unsigned STATE_COMMITTING = (1<< 6); // mid-commit + static const unsigned STATE_FETCHING = (1<< 7); // currenting fetching + static const unsigned STATE_CREATING = (1<< 8); + static const unsigned STATE_IMPORTBOUND = (1<<10); + static const unsigned STATE_EXPORTBOUND = (1<<11); + static const unsigned STATE_EXPORTING = (1<<12); + static const unsigned STATE_IMPORTING = (1<<13); + static const unsigned STATE_FRAGMENTING = (1<<14); + static const unsigned STATE_STICKY = (1<<15); // sticky pin due to inode stickydirs + static const unsigned STATE_DNPINNEDFRAG = (1<<16); // dir is refragmenting + static const unsigned STATE_ASSIMRSTAT = (1<<17); // assimilating inode->frag rstats + static const unsigned STATE_DIRTYDFT = (1<<18); // dirty dirfragtree + static const unsigned STATE_BADFRAG = (1<<19); // bad dirfrag + static const unsigned STATE_AUXSUBTREE = (1<<20); // no subtree merge + + // common states + static const unsigned STATE_CLEAN = 0; + static const unsigned STATE_INITIAL = 0; + + // these state bits are preserved by an import/export + // ...except if the directory is hashed, in which case none of them are! + static const unsigned MASK_STATE_EXPORTED = + (STATE_COMPLETE|STATE_DIRTY|STATE_DIRTYDFT|STATE_BADFRAG); + static const unsigned MASK_STATE_IMPORT_KEPT = + ( + STATE_IMPORTING + |STATE_IMPORTBOUND|STATE_EXPORTBOUND + |STATE_FROZENTREE + |STATE_STICKY); + static const unsigned MASK_STATE_EXPORT_KEPT = + (STATE_EXPORTING + |STATE_IMPORTBOUND|STATE_EXPORTBOUND + |STATE_FROZENTREE + |STATE_FROZENDIR + |STATE_STICKY); + static const unsigned MASK_STATE_FRAGMENT_KEPT = + (STATE_DIRTY| + STATE_EXPORTBOUND | + STATE_IMPORTBOUND | + STATE_AUXSUBTREE | + STATE_REJOINUNDEF); + + // -- rep spec -- + static const int REP_NONE = 0; + static const int REP_ALL = 1; + static const int REP_LIST = 2; + + + static const unsigned EXPORT_NONCE = 1; + + + // -- wait masks -- + static const uint64_t WAIT_DENTRY = (1<<0); // wait for item to be in cache + static const uint64_t WAIT_COMPLETE = (1<<1); // wait for complete dir contents + static const uint64_t WAIT_FROZEN = (1<<2); // auth pins removed + static const uint64_t WAIT_CREATED = (1<<3); // new dirfrag is logged + + static const int WAIT_DNLOCK_OFFSET = 4; + + static const uint64_t WAIT_ANY_MASK = (uint64_t)(-1); + static const uint64_t WAIT_ATFREEZEROOT = (WAIT_UNFREEZE); + static const uint64_t WAIT_ATSUBTREEROOT = (WAIT_SINGLEAUTH); + + + + + public: + // context + MDCache *cache; + + CInode *inode; // my inode + frag_t frag; // my frag + + bool is_lt(const MDSCacheObject *r) const override { + return dirfrag() < (static_cast(r))->dirfrag(); + } + + fnode_t fnode; + snapid_t first; + compact_map dirty_old_rstat; // [value.first,key] + + // my inodes with dirty rstat data + elist dirty_rstat_inodes; + + void resync_accounted_fragstat(); + void resync_accounted_rstat(); + void assimilate_dirty_rstat_inodes(); + void assimilate_dirty_rstat_inodes_finish(MutationRef& mut, EMetaBlob *blob); + +protected: + version_t projected_version; + std::list projected_fnode; + +public: + elist::item item_dirty, item_new; + + +public: + version_t get_version() const { return fnode.version; } + void set_version(version_t v) { + assert(projected_fnode.empty()); + projected_version = fnode.version = v; + } + version_t get_projected_version() const { return projected_version; } + + const fnode_t *get_projected_fnode() const { + if (projected_fnode.empty()) + return &fnode; + else + return projected_fnode.back(); + } + + fnode_t *get_projected_fnode() { + if (projected_fnode.empty()) + return &fnode; + else + return projected_fnode.back(); + } + fnode_t *project_fnode(); + + void pop_and_dirty_projected_fnode(LogSegment *ls); + bool is_projected() const { return !projected_fnode.empty(); } + version_t pre_dirty(version_t min=0); + void _mark_dirty(LogSegment *ls); + void _set_dirty_flag() { + if (!state_test(STATE_DIRTY)) { + state_set(STATE_DIRTY); + get(PIN_DIRTY); + } + } + void mark_dirty(version_t pv, LogSegment *ls); + void mark_clean(); + + bool is_new() { return item_new.is_on_list(); } + void mark_new(LogSegment *ls); + + bool is_bad() { return state_test(STATE_BADFRAG); } +private: + void log_mark_dirty(); + +public: + typedef std::map map_t; + + class scrub_info_t { + public: + /// inodes we contain with dirty scrub stamps + map dirty_scrub_stamps; // TODO: make use of this! + struct scrub_stamps { + version_t version; + utime_t time; + scrub_stamps() : version(0) {} + void operator=(const scrub_stamps &o) { + version = o.version; + time = o.time; + } + }; + + scrub_stamps recursive_start; // when we last started a recursive scrub + scrub_stamps last_recursive; // when we last finished a recursive scrub + scrub_stamps last_local; // when we last did a local scrub + + bool directory_scrubbing; /// safety check + bool need_scrub_local; + bool last_scrub_dirty; /// is scrub info dirty or is it flushed to fnode? + bool pending_scrub_error; + + /// these are lists of children in each stage of scrubbing + set directories_to_scrub; + set directories_scrubbing; + set directories_scrubbed; + set others_to_scrub; + set others_scrubbing; + set others_scrubbed; + + ScrubHeaderRefConst header; + + scrub_info_t() : + directory_scrubbing(false), + need_scrub_local(false), + last_scrub_dirty(false), + pending_scrub_error(false) {} + }; + /** + * Call to start this CDir on a new scrub. + * @pre It is not currently scrubbing + * @pre The CDir is marked complete. + * @post It has set up its internal scrubbing state. + */ + void scrub_initialize(const ScrubHeaderRefConst& header); + /** + * Get the next dentry to scrub. Gives you a CDentry* and its meaning. This + * function will give you all directory-representing dentries before any + * others. + * 0: success, you should scrub this CDentry right now + * EAGAIN: is currently fetching the next CDentry into memory for you. + * It will activate your callback when done; try again when it does! + * ENOENT: there are no remaining dentries to scrub + * <0: There was an unexpected error + * + * @param cb An MDSInternalContext which will be activated only if + * we return EAGAIN via rcode, or else ignored + * @param dnout CDentry * which you should next scrub, or NULL + * @returns a value as described above + */ + int scrub_dentry_next(MDSInternalContext *cb, CDentry **dnout); + /** + * Get the currently scrubbing dentries. When returned, the passed-in + * list will be filled with all CDentry * which have been returned + * from scrub_dentry_next() but not sent back via scrub_dentry_finished(). + */ + void scrub_dentries_scrubbing(list *out_dentries); + /** + * Report to the CDir that a CDentry has been scrubbed. Call this + * for every CDentry returned from scrub_dentry_next(). + * @param dn The CDentry which has been scrubbed. + */ + void scrub_dentry_finished(CDentry *dn); + /** + * Call this once all CDentries have been scrubbed, according to + * scrub_dentry_next's listing. It finalizes the scrub statistics. + */ + void scrub_finished(); + /** + * Tell the CDir to do a local scrub of itself. + * @pre The CDir is_complete(). + * @returns true if the rstats and directory contents match, false otherwise. + */ + bool scrub_local(); +private: + /** + * Create a scrub_info_t struct for the scrub_infop pointer. + */ + void scrub_info_create() const; + /** + * Delete the scrub_infop if it's not got any useful data. + */ + void scrub_maybe_delete_info(); + /** + * Check the given set (presumably one of those in scrub_info_t) for the + * next key to scrub and look it up (or fail!). + */ + int _next_dentry_on_set(set& dns, bool missing_okay, + MDSInternalContext *cb, CDentry **dnout); + + +protected: + std::unique_ptr scrub_infop; + + // contents of this directory + map_t items; // non-null AND null + unsigned num_head_items; + unsigned num_head_null; + unsigned num_snap_items; + unsigned num_snap_null; + + int num_dirty; + + // state + version_t committing_version; + version_t committed_version; + + compact_set stale_items; + + // lock nesting, freeze + static int num_frozen_trees; + static int num_freezing_trees; + + int dir_auth_pins; + int request_pins; + + // cache control (defined for authority; hints for replicas) + __s32 dir_rep; + compact_set<__s32> dir_rep_by; // if dir_rep == REP_LIST + + // popularity + dirfrag_load_vec_t pop_me; + dirfrag_load_vec_t pop_nested; + dirfrag_load_vec_t pop_auth_subtree; + dirfrag_load_vec_t pop_auth_subtree_nested; + + utime_t last_popularity_sample; + + load_spread_t pop_spread; + + // and to provide density + int num_dentries_nested; + int num_dentries_auth_subtree; + int num_dentries_auth_subtree_nested; + + + // friends + friend class Migrator; + friend class CInode; + friend class MDCache; + friend class MDiscover; + friend class MDBalancer; + + friend class CDirDiscover; + friend class CDirExport; + friend class C_IO_Dir_TMAP_Fetched; + friend class C_IO_Dir_OMAP_Fetched; + friend class C_IO_Dir_OMAP_FetchedMore; + friend class C_IO_Dir_Committed; + + std::unique_ptr bloom; + /* If you set up the bloom filter, you must keep it accurate! + * It's deleted when you mark_complete() and is deliberately not serialized.*/ + + public: + CDir(CInode *in, frag_t fg, MDCache *mdcache, bool auth); + + const scrub_info_t *scrub_info() const { + if (!scrub_infop) { + scrub_info_create(); + } + return scrub_infop.get(); + } + + + // -- accessors -- + inodeno_t ino() const { return inode->ino(); } // deprecate me? + frag_t get_frag() const { return frag; } + dirfrag_t dirfrag() const { return dirfrag_t(inode->ino(), frag); } + + CInode *get_inode() { return inode; } + const CInode *get_inode() const { return inode; } + CDir *get_parent_dir() { return inode->get_parent_dir(); } + + map_t::iterator begin() { return items.begin(); } + map_t::iterator end() { return items.end(); } + map_t::iterator lower_bound(dentry_key_t key) { return items.lower_bound(key); } + + unsigned get_num_head_items() const { return num_head_items; } + unsigned get_num_head_null() const { return num_head_null; } + unsigned get_num_snap_items() const { return num_snap_items; } + unsigned get_num_snap_null() const { return num_snap_null; } + unsigned get_num_any() const { return num_head_items + num_head_null + num_snap_items + num_snap_null; } + + bool check_rstats(bool scrub=false); + + void inc_num_dirty() { num_dirty++; } + void dec_num_dirty() { + assert(num_dirty > 0); + num_dirty--; + } + int get_num_dirty() const { + return num_dirty; + } + + int64_t get_frag_size() const { + return get_projected_fnode()->fragstat.size(); + } + + // -- dentries and inodes -- + public: + CDentry* lookup_exact_snap(const std::string& dname, snapid_t last); + CDentry* lookup(const std::string& n, snapid_t snap=CEPH_NOSNAP); + CDentry* lookup(const char *n, snapid_t snap=CEPH_NOSNAP) { + return lookup(std::string(n), snap); + } + + CDentry* add_null_dentry(const std::string& dname, + snapid_t first=2, snapid_t last=CEPH_NOSNAP); + CDentry* add_primary_dentry(const std::string& dname, CInode *in, + snapid_t first=2, snapid_t last=CEPH_NOSNAP); + CDentry* add_remote_dentry(const std::string& dname, inodeno_t ino, unsigned char d_type, + snapid_t first=2, snapid_t last=CEPH_NOSNAP); + void remove_dentry( CDentry *dn ); // delete dentry + void link_remote_inode( CDentry *dn, inodeno_t ino, unsigned char d_type); + void link_remote_inode( CDentry *dn, CInode *in ); + void link_primary_inode( CDentry *dn, CInode *in ); + void unlink_inode(CDentry *dn, bool adjust_lru=true); + void try_remove_unlinked_dn(CDentry *dn); + + void add_to_bloom(CDentry *dn); + bool is_in_bloom(const std::string& name); + bool has_bloom() { return (bloom ? true : false); } + void remove_bloom() { + bloom.reset(); + } +private: + void link_inode_work( CDentry *dn, CInode *in ); + void unlink_inode_work( CDentry *dn ); + void remove_null_dentries(); + void purge_stale_snap_data(const std::set& snaps); +public: + void try_remove_dentries_for_stray(); + bool try_trim_snap_dentry(CDentry *dn, const std::set& snaps); + + +public: + void split(int bits, list& subs, list& waiters, bool replay); + void merge(list& subs, list& waiters, bool replay); + + bool should_split() const { + return (int)get_frag_size() > g_conf->mds_bal_split_size; + } + bool should_split_fast() const; + bool should_merge() const { + return (int)get_frag_size() < g_conf->mds_bal_merge_size; + } + +private: + void prepare_new_fragment(bool replay); + void prepare_old_fragment(map >& dentry_waiters, bool replay); + void steal_dentry(CDentry *dn); // from another dir. used by merge/split. + void finish_old_fragment(list& waiters, bool replay); + void init_fragment_pins(); + + + // -- authority -- + /* + * normal: !subtree_root + * delegation: subtree_root + * ambiguous: subtree_root + * subtree_root + */ + mds_authority_t dir_auth; + + std::string get_path() const; + + public: + mds_authority_t authority() const override; + mds_authority_t get_dir_auth() const { return dir_auth; } + void set_dir_auth(mds_authority_t a); + void set_dir_auth(mds_rank_t a) { set_dir_auth(mds_authority_t(a, CDIR_AUTH_UNKNOWN)); } + bool is_ambiguous_dir_auth() const { + return dir_auth.second != CDIR_AUTH_UNKNOWN; + } + bool is_full_dir_auth() const { + return is_auth() && !is_ambiguous_dir_auth(); + } + bool is_full_dir_nonauth() const { + return !is_auth() && !is_ambiguous_dir_auth(); + } + + bool is_subtree_root() const { + return dir_auth != CDIR_AUTH_DEFAULT; + } + + bool contains(CDir *x); // true if we are x or an ancestor of x + + + // for giving to clients + void get_dist_spec(std::set& ls, mds_rank_t auth) { + if (is_rep()) { + list_replicas(ls); + if (!ls.empty()) + ls.insert(auth); + } + } + void encode_dirstat(bufferlist& bl, mds_rank_t whoami) { + /* + * note: encoding matches struct ceph_client_reply_dirfrag + */ + frag_t frag = get_frag(); + mds_rank_t auth; + std::set dist; + + auth = dir_auth.first; + if (is_auth()) + get_dist_spec(dist, whoami); + + ::encode(frag, bl); + ::encode(auth, bl); + ::encode(dist, bl); + } + + void _encode_base(bufferlist& bl) { + ::encode(first, bl); + ::encode(fnode, bl); + ::encode(dir_rep, bl); + ::encode(dir_rep_by, bl); + } + void _decode_base(bufferlist::iterator& p) { + ::decode(first, p); + ::decode(fnode, p); + ::decode(dir_rep, p); + ::decode(dir_rep_by, p); + } + void encode_replica(mds_rank_t who, bufferlist& bl) { + __u32 nonce = add_replica(who); + ::encode(nonce, bl); + _encode_base(bl); + } + void decode_replica(bufferlist::iterator& p) { + __u32 nonce; + ::decode(nonce, p); + replica_nonce = nonce; + _decode_base(p); + } + + + + // -- state -- + bool is_complete() { return state & STATE_COMPLETE; } + bool is_exporting() { return state & STATE_EXPORTING; } + bool is_importing() { return state & STATE_IMPORTING; } + bool is_dirty_dft() { return state & STATE_DIRTYDFT; } + + int get_dir_rep() const { return dir_rep; } + bool is_rep() const { + if (dir_rep == REP_NONE) return false; + return true; + } + + // -- fetch -- + object_t get_ondisk_object() { + return file_object_t(ino(), frag); + } + void fetch(MDSInternalContextBase *c, bool ignore_authpinnability=false); + void fetch(MDSInternalContextBase *c, const std::string& want_dn, bool ignore_authpinnability=false); + void fetch(MDSInternalContextBase *c, const std::set& keys); +protected: + compact_set wanted_items; + + void _omap_fetch(MDSInternalContextBase *fin, const std::set& keys); + void _omap_fetch_more( + bufferlist& hdrbl, std::map& omap, + MDSInternalContextBase *fin); + CDentry *_load_dentry( + const std::string &key, + const std::string &dname, + snapid_t last, + bufferlist &bl, + int pos, + const std::set *snaps, + bool *force_dirty, + list *undef_inodes); + + /** + * Mark this fragment as BADFRAG (common part of go_bad and go_bad_dentry) + */ + void _go_bad(); + + /** + * Go bad due to a damaged dentry (register with damagetable and go BADFRAG) + */ + void go_bad_dentry(snapid_t last, const std::string &dname); + + /** + * Go bad due to a damaged header (register with damagetable and go BADFRAG) + */ + void go_bad(bool complete); + + void _omap_fetched(bufferlist& hdrbl, std::map& omap, + bool complete, int r); + + // -- commit -- + compact_map > waiting_for_commit; + void _commit(version_t want, int op_prio); + void _omap_commit(int op_prio); + void _encode_dentry(CDentry *dn, bufferlist& bl, const std::set *snaps); + void _committed(int r, version_t v); +public: +#if 0 // unused? + void wait_for_commit(Context *c, version_t v=0); +#endif + void commit_to(version_t want); + void commit(version_t want, MDSInternalContextBase *c, + bool ignore_authpinnability=false, int op_prio=-1); + + // -- dirtyness -- + version_t get_committing_version() const { return committing_version; } + version_t get_committed_version() const { return committed_version; } + void set_committed_version(version_t v) { committed_version = v; } + + void mark_complete(); + + + // -- reference counting -- + void first_get() override; + void last_put() override; + + void request_pin_get() { + if (request_pins == 0) get(PIN_REQUEST); + request_pins++; + } + void request_pin_put() { + request_pins--; + if (request_pins == 0) put(PIN_REQUEST); + } + + // -- waiters -- +protected: + compact_map< string_snap_t, std::list > waiting_on_dentry; + +public: + bool is_waiting_for_dentry(const std::string& dname, snapid_t snap) { + return waiting_on_dentry.count(string_snap_t(dname, snap)); + } + void add_dentry_waiter(const std::string& dentry, snapid_t snap, MDSInternalContextBase *c); + void take_dentry_waiting(const std::string& dentry, snapid_t first, snapid_t last, std::list& ls); + void take_sub_waiting(std::list& ls); // dentry or ino + + void add_waiter(uint64_t mask, MDSInternalContextBase *c) override; + void take_waiting(uint64_t mask, std::list& ls) override; // may include dentry waiters + void finish_waiting(uint64_t mask, int result = 0); // ditto + + + // -- import/export -- + void encode_export(bufferlist& bl); + void finish_export(utime_t now); + void abort_export() { + put(PIN_TEMPEXPORTING); + } + void decode_import(bufferlist::iterator& blp, utime_t now, LogSegment *ls); + + // -- auth pins -- + bool can_auth_pin() const override { return is_auth() && !(is_frozen() || is_freezing()); } + int get_cum_auth_pins() const { return auth_pins + nested_auth_pins; } + int get_auth_pins() const { return auth_pins; } + int get_nested_auth_pins() const { return nested_auth_pins; } + int get_dir_auth_pins() const { return dir_auth_pins; } + void auth_pin(void *who) override; + void auth_unpin(void *who) override; + + void adjust_nested_auth_pins(int inc, int dirinc, void *by); + void verify_fragstat(); + + // -- freezing -- + bool freeze_tree(); + void _freeze_tree(); + void unfreeze_tree(); + + bool freeze_dir(); + void _freeze_dir(); + void unfreeze_dir(); + + void maybe_finish_freeze(); + + bool is_freezing() const override { return is_freezing_tree() || is_freezing_dir(); } + bool is_freezing_tree() const; + bool is_freezing_tree_root() const { return state & STATE_FREEZINGTREE; } + bool is_freezing_dir() const { return state & STATE_FREEZINGDIR; } + + bool is_frozen() const override { return is_frozen_dir() || is_frozen_tree(); } + bool is_frozen_tree() const; + bool is_frozen_tree_root() const { return state & STATE_FROZENTREE; } + bool is_frozen_dir() const { return state & STATE_FROZENDIR; } + + bool is_freezeable(bool freezing=false) const { + // no nested auth pins. + if ((auth_pins-freezing) > 0 || nested_auth_pins > 0) + return false; + + // inode must not be frozen. + if (!is_subtree_root() && inode->is_frozen()) + return false; + + return true; + } + bool is_freezeable_dir(bool freezing=false) const { + if ((auth_pins-freezing) > 0 || dir_auth_pins > 0) + return false; + + // if not subtree root, inode must not be frozen (tree--frozen_dir is okay). + if (!is_subtree_root() && inode->is_frozen() && !inode->is_frozen_dir()) + return false; + + return true; + } + + CDir *get_frozen_tree_root(); + + + ostream& print_db_line_prefix(ostream& out) override; + void print(ostream& out) override; + void dump(Formatter *f) const; +}; + +#endif