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// -*- 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 <sage@newdream.net>
*
* 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_CDENTRY_H
#define CEPH_CDENTRY_H
#include <string>
#include <string_view>
#include <set>
#include "include/counter.h"
#include "include/types.h"
#include "include/buffer_fwd.h"
#include "include/lru.h"
#include "include/elist.h"
#include "include/filepath.h"
#include "MDSCacheObject.h"
#include "MDSContext.h"
#include "SimpleLock.h"
#include "LocalLock.h"
#include "ScrubHeader.h"
class CInode;
class CDir;
class Locker;
class CDentry;
class LogSegment;
class Session;
// define an ordering
bool operator<(const CDentry& l, const CDentry& r);
// dentry
class CDentry : public MDSCacheObject, public LRUObject, public Counter<CDentry> {
public:
MEMPOOL_CLASS_HELPERS();
friend class CDir;
struct linkage_t {
CInode *inode = nullptr;
inodeno_t remote_ino = 0;
unsigned char remote_d_type = 0;
linkage_t() {}
// dentry type is primary || remote || null
// inode ptr is required for primary, optional for remote, undefined for null
bool is_primary() const { return remote_ino == 0 && inode != 0; }
bool is_remote() const { return remote_ino > 0; }
bool is_null() const { return remote_ino == 0 && inode == 0; }
CInode *get_inode() { return inode; }
const CInode *get_inode() const { return inode; }
inodeno_t get_remote_ino() const { return remote_ino; }
unsigned char get_remote_d_type() const { return remote_d_type; }
std::string get_remote_d_type_string() const;
void set_remote(inodeno_t ino, unsigned char d_type) {
remote_ino = ino;
remote_d_type = d_type;
inode = 0;
}
void link_remote(CInode *in);
};
// -- state --
static const int STATE_NEW = (1<<0);
static const int STATE_FRAGMENTING = (1<<1);
static const int STATE_PURGING = (1<<2);
static const int STATE_BADREMOTEINO = (1<<3);
static const int STATE_EVALUATINGSTRAY = (1<<4);
static const int STATE_PURGINGPINNED = (1<<5);
static const int STATE_BOTTOMLRU = (1<<6);
// stray dentry needs notification of releasing reference
static const int STATE_STRAY = STATE_NOTIFYREF;
static const int MASK_STATE_IMPORT_KEPT = STATE_BOTTOMLRU;
// -- pins --
static const int PIN_INODEPIN = 1; // linked inode is pinned
static const int PIN_FRAGMENTING = -2; // containing dir is refragmenting
static const int PIN_PURGING = 3;
static const int PIN_SCRUBPARENT = 4;
static const unsigned EXPORT_NONCE = 1;
CDentry(std::string_view n, __u32 h,
snapid_t f, snapid_t l) :
hash(h),
first(f), last(l),
item_dirty(this),
lock(this, &lock_type),
versionlock(this, &versionlock_type),
name(n)
{}
CDentry(std::string_view n, __u32 h, inodeno_t ino, unsigned char dt,
snapid_t f, snapid_t l) :
hash(h),
first(f), last(l),
item_dirty(this),
lock(this, &lock_type),
versionlock(this, &versionlock_type),
name(n)
{
linkage.remote_ino = ino;
linkage.remote_d_type = dt;
}
std::string_view pin_name(int p) const override {
switch (p) {
case PIN_INODEPIN: return "inodepin";
case PIN_FRAGMENTING: return "fragmenting";
case PIN_PURGING: return "purging";
case PIN_SCRUBPARENT: return "scrubparent";
default: return generic_pin_name(p);
}
}
// -- wait --
//static const int WAIT_LOCK_OFFSET = 8;
void add_waiter(uint64_t tag, MDSContext *c) override;
bool is_lt(const MDSCacheObject *r) const override {
return *this < *static_cast<const CDentry*>(r);
}
dentry_key_t key() {
return dentry_key_t(last, name.c_str(), hash);
}
const CDir *get_dir() const { return dir; }
CDir *get_dir() { return dir; }
std::string_view get_name() const { return std::string_view(name); }
__u32 get_hash() const { return hash; }
// linkage
const linkage_t *get_linkage() const { return &linkage; }
linkage_t *get_linkage() { return &linkage; }
linkage_t *_project_linkage() {
projected.push_back(linkage_t());
return &projected.back();
}
void push_projected_linkage();
void push_projected_linkage(inodeno_t ino, char d_type) {
linkage_t *p = _project_linkage();
p->remote_ino = ino;
p->remote_d_type = d_type;
}
void push_projected_linkage(CInode *inode);
linkage_t *pop_projected_linkage();
bool is_projected() const { return !projected.empty(); }
linkage_t *get_projected_linkage() {
if (!projected.empty())
return &projected.back();
return &linkage;
}
const linkage_t *get_projected_linkage() const {
if (!projected.empty())
return &projected.back();
return &linkage;
}
CInode *get_projected_inode() {
return get_projected_linkage()->inode;
}
bool use_projected(client_t client, const MutationRef& mut) const {
return lock.can_read_projected(client) ||
lock.get_xlock_by() == mut;
}
linkage_t *get_linkage(client_t client, const MutationRef& mut) {
return use_projected(client, mut) ? get_projected_linkage() : get_linkage();
}
// ref counts: pin ourselves in the LRU when we're pinned.
void first_get() override {
lru_pin();
}
void last_put() override {
lru_unpin();
}
void _put() override;
// auth pins
bool can_auth_pin(int *err_ret=nullptr) const override;
void auth_pin(void *by) override;
void auth_unpin(void *by) override;
void adjust_nested_auth_pins(int diradj, void *by);
bool is_frozen() const override;
bool is_freezing() const override;
int get_num_dir_auth_pins() const;
// remote links
void link_remote(linkage_t *dnl, CInode *in);
void unlink_remote(linkage_t *dnl);
// copy cons
CDentry(const CDentry& m);
const CDentry& operator= (const CDentry& right);
// misc
void make_path_string(std::string& s, bool projected=false) const;
void make_path(filepath& fp, bool projected=false) const;
// -- version --
version_t get_version() const { return version; }
void set_version(version_t v) { projected_version = version = v; }
version_t get_projected_version() const { return projected_version; }
void set_projected_version(version_t v) { projected_version = v; }
mds_authority_t authority() const override;
version_t pre_dirty(version_t min=0);
void _mark_dirty(LogSegment *ls);
void mark_dirty(version_t projected_dirv, LogSegment *ls);
void mark_clean();
void mark_new();
bool is_new() const { return state_test(STATE_NEW); }
void clear_new() { state_clear(STATE_NEW); }
// -- replication
void encode_replica(mds_rank_t mds, bufferlist& bl, bool need_recover) {
__u32 nonce = add_replica(mds);
encode(nonce, bl);
encode(first, bl);
encode(linkage.remote_ino, bl);
encode(linkage.remote_d_type, bl);
lock.encode_state_for_replica(bl);
encode(need_recover, bl);
}
void decode_replica(bufferlist::const_iterator& p, bool is_new);
// -- exporting
// note: this assumes the dentry already exists.
// i.e., the name is already extracted... so we just need the other state.
void encode_export(bufferlist& bl) {
encode(first, bl);
encode(state, bl);
encode(version, bl);
encode(projected_version, bl);
encode(lock, bl);
encode(get_replicas(), bl);
get(PIN_TEMPEXPORTING);
}
void finish_export() {
// twiddle
clear_replica_map();
replica_nonce = EXPORT_NONCE;
state_clear(CDentry::STATE_AUTH);
if (is_dirty())
mark_clean();
put(PIN_TEMPEXPORTING);
}
void abort_export() {
put(PIN_TEMPEXPORTING);
}
void decode_import(bufferlist::const_iterator& blp, LogSegment *ls) {
decode(first, blp);
__u32 nstate;
decode(nstate, blp);
decode(version, blp);
decode(projected_version, blp);
decode(lock, blp);
decode(get_replicas(), blp);
// twiddle
state &= MASK_STATE_IMPORT_KEPT;
state_set(CDentry::STATE_AUTH);
if (nstate & STATE_DIRTY)
_mark_dirty(ls);
if (is_replicated())
get(PIN_REPLICATED);
replica_nonce = 0;
}
// -- locking --
SimpleLock* get_lock(int type) override {
ceph_assert(type == CEPH_LOCK_DN);
return &lock;
}
void set_object_info(MDSCacheObjectInfo &info) override;
void encode_lock_state(int type, bufferlist& bl) override;
void decode_lock_state(int type, const bufferlist& bl) override;
// ---------------------------------------------
// replicas (on clients)
bool is_any_leases() const {
return !client_lease_map.empty();
}
const ClientLease *get_client_lease(client_t c) const {
if (client_lease_map.count(c))
return client_lease_map.find(c)->second;
return 0;
}
ClientLease *get_client_lease(client_t c) {
if (client_lease_map.count(c))
return client_lease_map.find(c)->second;
return 0;
}
bool have_client_lease(client_t c) const {
const ClientLease *l = get_client_lease(c);
if (l)
return true;
else
return false;
}
ClientLease *add_client_lease(client_t c, Session *session);
void remove_client_lease(ClientLease *r, Locker *locker); // returns remaining mask (if any), and kicks locker eval_gathers
void remove_client_leases(Locker *locker);
ostream& print_db_line_prefix(ostream& out) override;
void print(ostream& out) override;
void dump(Formatter *f) const;
__u32 hash;
snapid_t first, last;
elist<CDentry*>::item item_dirty, item_dir_dirty;
elist<CDentry*>::item item_stray;
// lock
static LockType lock_type;
static LockType versionlock_type;
SimpleLock lock; // FIXME referenced containers not in mempool
LocalLock versionlock; // FIXME referenced containers not in mempool
mempool::mds_co::map<client_t,ClientLease*> client_lease_map;
protected:
friend class Migrator;
friend class Locker;
friend class MDCache;
friend class StrayManager;
friend class CInode;
friend class C_MDC_XlockRequest;
CDir *dir = nullptr; // containing dirfrag
linkage_t linkage;
mempool::mds_co::list<linkage_t> projected;
version_t version = 0; // dir version when last touched.
version_t projected_version = 0; // what it will be when i unlock/commit.
private:
mempool::mds_co::string name;
};
ostream& operator<<(ostream& out, const CDentry& dn);
#endif
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