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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) 2015 Red Hat
*
* 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.
*
*/
#include "common/perf_counters.h"
#include "mds/MDSRank.h"
#include "mds/MDCache.h"
#include "mds/MDLog.h"
#include "mds/CDir.h"
#include "mds/CDentry.h"
#include "events/EUpdate.h"
#include "messages/MClientRequest.h"
#include "StrayManager.h"
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_mds
#undef dout_prefix
#define dout_prefix _prefix(_dout, mds)
static ostream& _prefix(std::ostream *_dout, MDSRank *mds) {
return *_dout << "mds." << mds->get_nodeid() << ".cache.strays ";
}
class StrayManagerIOContext : public virtual MDSIOContextBase {
protected:
StrayManager *sm;
MDSRank *get_mds() override
{
return sm->mds;
}
public:
explicit StrayManagerIOContext(StrayManager *sm_) : sm(sm_) {}
};
class StrayManagerLogContext : public virtual MDSLogContextBase {
protected:
StrayManager *sm;
MDSRank *get_mds() override
{
return sm->mds;
}
public:
explicit StrayManagerLogContext(StrayManager *sm_) : sm(sm_) {}
};
class StrayManagerContext : public virtual MDSContext {
protected:
StrayManager *sm;
MDSRank *get_mds() override
{
return sm->mds;
}
public:
explicit StrayManagerContext(StrayManager *sm_) : sm(sm_) {}
};
/**
* Context wrapper for _purge_stray_purged completion
*/
class C_IO_PurgeStrayPurged : public StrayManagerIOContext {
CDentry *dn;
bool only_head;
public:
C_IO_PurgeStrayPurged(StrayManager *sm_, CDentry *d, bool oh) :
StrayManagerIOContext(sm_), dn(d), only_head(oh) { }
void finish(int r) override {
ceph_assert(r == 0 || r == -ENOENT);
sm->_purge_stray_purged(dn, only_head);
}
void print(ostream& out) const override {
CInode *in = dn->get_projected_linkage()->get_inode();
out << "purge_stray(" << in->ino() << ")";
}
};
void StrayManager::purge(CDentry *dn)
{
CDentry::linkage_t *dnl = dn->get_projected_linkage();
CInode *in = dnl->get_inode();
dout(10) << __func__ << " " << *dn << " " << *in << dendl;
ceph_assert(!dn->is_replicated());
// CHEAT. there's no real need to journal our intent to purge, since
// that is implicit in the dentry's presence and non-use in the stray
// dir. on recovery, we'll need to re-eval all strays anyway.
SnapContext nullsnapc;
PurgeItem item;
item.ino = in->inode.ino;
item.stamp = ceph_clock_now();
if (in->is_dir()) {
item.action = PurgeItem::PURGE_DIR;
item.fragtree = in->dirfragtree;
} else {
item.action = PurgeItem::PURGE_FILE;
const SnapContext *snapc;
SnapRealm *realm = in->find_snaprealm();
if (realm) {
dout(10) << " realm " << *realm << dendl;
snapc = &realm->get_snap_context();
} else {
dout(10) << " NO realm, using null context" << dendl;
snapc = &nullsnapc;
ceph_assert(in->last == CEPH_NOSNAP);
}
uint64_t to = 0;
if (in->is_file()) {
to = in->inode.get_max_size();
to = std::max(in->inode.size, to);
// when truncating a file, the filer does not delete stripe objects that are
// truncated to zero. so we need to purge stripe objects up to the max size
// the file has ever been.
to = std::max(in->inode.max_size_ever, to);
}
auto pi = in->get_projected_inode();
item.size = to;
item.layout = pi->layout;
item.old_pools.clear();
for (const auto &p : pi->old_pools)
item.old_pools.insert(p);
item.snapc = *snapc;
}
purge_queue.push(item, new C_IO_PurgeStrayPurged(
this, dn, false));
}
class C_PurgeStrayLogged : public StrayManagerLogContext {
CDentry *dn;
version_t pdv;
LogSegment *ls;
public:
C_PurgeStrayLogged(StrayManager *sm_, CDentry *d, version_t v, LogSegment *s) :
StrayManagerLogContext(sm_), dn(d), pdv(v), ls(s) { }
void finish(int r) override {
sm->_purge_stray_logged(dn, pdv, ls);
}
};
class C_TruncateStrayLogged : public StrayManagerLogContext {
CDentry *dn;
LogSegment *ls;
public:
C_TruncateStrayLogged(StrayManager *sm, CDentry *d, LogSegment *s) :
StrayManagerLogContext(sm), dn(d), ls(s) { }
void finish(int r) override {
sm->_truncate_stray_logged(dn, ls);
}
};
void StrayManager::_purge_stray_purged(
CDentry *dn, bool only_head)
{
CInode *in = dn->get_projected_linkage()->get_inode();
dout(10) << "_purge_stray_purged " << *dn << " " << *in << dendl;
logger->inc(l_mdc_strays_enqueued);
num_strays_enqueuing--;
logger->set(l_mdc_num_strays_enqueuing, num_strays_enqueuing);
if (only_head) {
/* This was a ::truncate */
EUpdate *le = new EUpdate(mds->mdlog, "purge_stray truncate");
mds->mdlog->start_entry(le);
auto &pi = in->project_inode();
pi.inode.size = 0;
pi.inode.max_size_ever = 0;
pi.inode.client_ranges.clear();
pi.inode.truncate_size = 0;
pi.inode.truncate_from = 0;
pi.inode.version = in->pre_dirty();
le->metablob.add_dir_context(dn->dir);
le->metablob.add_primary_dentry(dn, in, true);
mds->mdlog->submit_entry(le,
new C_TruncateStrayLogged(
this, dn, mds->mdlog->get_current_segment()));
} else {
if (in->get_num_ref() != (int)in->is_dirty() ||
dn->get_num_ref() != (int)dn->is_dirty() + !!in->get_num_ref() + 1/*PIN_PURGING*/) {
// Nobody should be taking new references to an inode when it
// is being purged (aside from it were
derr << "Rogue reference after purge to " << *dn << dendl;
ceph_abort_msg("rogue reference to purging inode");
}
// kill dentry.
version_t pdv = dn->pre_dirty();
dn->push_projected_linkage(); // NULL
EUpdate *le = new EUpdate(mds->mdlog, "purge_stray");
mds->mdlog->start_entry(le);
// update dirfrag fragstat, rstat
CDir *dir = dn->get_dir();
fnode_t *pf = dir->project_fnode();
pf->version = dir->pre_dirty();
if (in->is_dir())
pf->fragstat.nsubdirs--;
else
pf->fragstat.nfiles--;
pf->rstat.sub(in->inode.accounted_rstat);
le->metablob.add_dir_context(dn->dir);
EMetaBlob::dirlump& dl = le->metablob.add_dir(dn->dir, true);
le->metablob.add_null_dentry(dl, dn, true);
le->metablob.add_destroyed_inode(in->ino());
mds->mdlog->submit_entry(le, new C_PurgeStrayLogged(this, dn, pdv,
mds->mdlog->get_current_segment()));
}
}
void StrayManager::_purge_stray_logged(CDentry *dn, version_t pdv, LogSegment *ls)
{
CInode *in = dn->get_linkage()->get_inode();
dout(10) << "_purge_stray_logged " << *dn << " " << *in << dendl;
ceph_assert(!in->state_test(CInode::STATE_RECOVERING));
bool new_dn = dn->is_new();
// unlink
ceph_assert(dn->get_projected_linkage()->is_null());
dn->dir->unlink_inode(dn, !new_dn);
dn->pop_projected_linkage();
dn->mark_dirty(pdv, ls);
dn->dir->pop_and_dirty_projected_fnode(ls);
in->state_clear(CInode::STATE_ORPHAN);
dn->state_clear(CDentry::STATE_PURGING | CDentry::STATE_PURGINGPINNED);
dn->put(CDentry::PIN_PURGING);
// drop dentry?
if (new_dn) {
dout(20) << " dn is new, removing" << dendl;
dn->mark_clean();
dn->dir->remove_dentry(dn);
}
// drop inode
inodeno_t ino = in->ino();
if (in->is_dirty())
in->mark_clean();
mds->mdcache->remove_inode(in);
if (mds->is_stopping())
mds->mdcache->shutdown_export_stray_finish(ino);
}
void StrayManager::enqueue(CDentry *dn, bool trunc)
{
CDentry::linkage_t *dnl = dn->get_projected_linkage();
ceph_assert(dnl);
CInode *in = dnl->get_inode();
ceph_assert(in);
/* We consider a stray to be purging as soon as it is enqueued, to avoid
* enqueing it twice */
dn->state_set(CDentry::STATE_PURGING);
in->state_set(CInode::STATE_PURGING);
/* We must clear this as soon as enqueuing it, to prevent the journal
* expiry code from seeing a dirty parent and trying to write a backtrace */
if (!trunc) {
if (in->is_dirty_parent()) {
in->clear_dirty_parent();
}
}
dout(20) << __func__ << ": purging dn: " << *dn << dendl;
if (!dn->state_test(CDentry::STATE_PURGINGPINNED)) {
dn->get(CDentry::PIN_PURGING);
dn->state_set(CDentry::STATE_PURGINGPINNED);
}
++num_strays_enqueuing;
logger->set(l_mdc_num_strays_enqueuing, num_strays_enqueuing);
// Resources are available, acquire them and execute the purge
_enqueue(dn, trunc);
dout(10) << __func__ << ": purging this dentry immediately: "
<< *dn << dendl;
}
class C_OpenSnapParents : public StrayManagerContext {
CDentry *dn;
bool trunc;
public:
C_OpenSnapParents(StrayManager *sm_, CDentry *dn_, bool t) :
StrayManagerContext(sm_), dn(dn_), trunc(t) { }
void finish(int r) override {
sm->_enqueue(dn, trunc);
}
};
void StrayManager::_enqueue(CDentry *dn, bool trunc)
{
ceph_assert(started);
CInode *in = dn->get_linkage()->get_inode();
if (in->snaprealm &&
!in->snaprealm->have_past_parents_open() &&
!in->snaprealm->open_parents(new C_OpenSnapParents(this, dn, trunc))) {
// this can happen if the dentry had been trimmed from cache.
return;
}
if (trunc) {
truncate(dn);
} else {
purge(dn);
}
}
void StrayManager::queue_delayed(CDentry *dn)
{
if (!started)
return;
if (dn->state_test(CDentry::STATE_EVALUATINGSTRAY))
return;
if (!dn->item_stray.is_on_list()) {
delayed_eval_stray.push_back(&dn->item_stray);
num_strays_delayed++;
logger->set(l_mdc_num_strays_delayed, num_strays_delayed);
}
}
void StrayManager::advance_delayed()
{
if (!started)
return;
while (!delayed_eval_stray.empty()) {
CDentry *dn = delayed_eval_stray.front();
dn->item_stray.remove_myself();
num_strays_delayed--;
if (dn->get_projected_linkage()->is_null()) {
/* A special case: a stray dentry can go null if its inode is being
* re-linked into another MDS's stray dir during a shutdown migration. */
dout(4) << __func__ << ": delayed dentry is now null: " << *dn << dendl;
continue;
}
eval_stray(dn);
}
logger->set(l_mdc_num_strays_delayed, num_strays_delayed);
}
void StrayManager::set_num_strays(uint64_t num)
{
ceph_assert(!started);
num_strays = num;
logger->set(l_mdc_num_strays, num_strays);
}
void StrayManager::notify_stray_created()
{
num_strays++;
logger->set(l_mdc_num_strays, num_strays);
logger->inc(l_mdc_strays_created);
}
void StrayManager::notify_stray_removed()
{
num_strays--;
logger->set(l_mdc_num_strays, num_strays);
}
struct C_EvalStray : public StrayManagerContext {
CDentry *dn;
C_EvalStray(StrayManager *sm_, CDentry *d) : StrayManagerContext(sm_), dn(d) {}
void finish(int r) override {
sm->eval_stray(dn);
}
};
struct C_MDC_EvalStray : public StrayManagerContext {
CDentry *dn;
C_MDC_EvalStray(StrayManager *sm_, CDentry *d) : StrayManagerContext(sm_), dn(d) {}
void finish(int r) override {
sm->eval_stray(dn);
}
};
bool StrayManager::_eval_stray(CDentry *dn)
{
dout(10) << "eval_stray " << *dn << dendl;
CDentry::linkage_t *dnl = dn->get_projected_linkage();
ceph_assert(dnl->is_primary());
dout(10) << " inode is " << *dnl->get_inode() << dendl;
CInode *in = dnl->get_inode();
ceph_assert(in);
ceph_assert(!in->state_test(CInode::STATE_REJOINUNDEF));
// The only dentries elegible for purging are those
// in the stray directories
ceph_assert(dn->get_dir()->get_inode()->is_stray());
// Inode may not pass through this function if it
// was already identified for purging (i.e. cannot
// call eval_stray() after purge()
ceph_assert(!dn->state_test(CDentry::STATE_PURGING));
if (!dn->is_auth())
return false;
if (!started)
return false;
if (dn->item_stray.is_on_list()) {
dn->item_stray.remove_myself();
num_strays_delayed--;
logger->set(l_mdc_num_strays_delayed, num_strays_delayed);
}
// purge?
if (in->inode.nlink == 0) {
// past snaprealm parents imply snapped dentry remote links.
// only important for directories. normal file data snaps are handled
// by the object store.
if (in->snaprealm) {
if (!in->snaprealm->have_past_parents_open() &&
!in->snaprealm->open_parents(new C_MDC_EvalStray(this, dn))) {
return false;
}
in->snaprealm->prune_past_parents();
in->purge_stale_snap_data(in->snaprealm->get_snaps());
}
if (in->is_dir()) {
if (in->snaprealm && in->snaprealm->has_past_parents()) {
dout(20) << " directory has past parents "
<< in->snaprealm << dendl;
if (in->state_test(CInode::STATE_MISSINGOBJS)) {
mds->clog->error() << "previous attempt at committing dirfrag of ino "
<< in->ino() << " has failed, missing object";
mds->handle_write_error(-ENOENT);
}
return false; // not until some snaps are deleted.
}
mds->mdcache->clear_dirty_bits_for_stray(in);
if (!in->remote_parents.empty()) {
// unlink any stale remote snap dentry.
for (auto it = in->remote_parents.begin(); it != in->remote_parents.end(); ) {
CDentry *remote_dn = *it;
++it;
ceph_assert(remote_dn->last != CEPH_NOSNAP);
remote_dn->unlink_remote(remote_dn->get_linkage());
}
}
}
if (dn->is_replicated()) {
dout(20) << " replicated" << dendl;
return false;
}
if (dn->is_any_leases() || in->is_any_caps()) {
dout(20) << " caps | leases" << dendl;
return false; // wait
}
if (in->state_test(CInode::STATE_NEEDSRECOVER) ||
in->state_test(CInode::STATE_RECOVERING)) {
dout(20) << " pending recovery" << dendl;
return false; // don't mess with file size probing
}
if (in->get_num_ref() > (int)in->is_dirty() + (int)in->is_dirty_parent()) {
dout(20) << " too many inode refs" << dendl;
return false;
}
if (dn->get_num_ref() > (int)dn->is_dirty() + !!in->get_num_ref()) {
dout(20) << " too many dn refs" << dendl;
return false;
}
// don't purge multiversion inode with snap data
if (in->snaprealm && in->snaprealm->has_past_parents() &&
!in->old_inodes.empty()) {
// A file with snapshots: we will truncate the HEAD revision
// but leave the metadata intact.
ceph_assert(!in->is_dir());
dout(20) << " file has past parents "
<< in->snaprealm << dendl;
if (in->is_file() && in->get_projected_inode()->size > 0) {
enqueue(dn, true); // truncate head objects
}
} else {
// A straightforward file, ready to be purged. Enqueue it.
if (in->is_dir()) {
in->close_dirfrags();
}
enqueue(dn, false);
}
return true;
} else {
/*
* Where a stray has some links, they should be remotes, check
* if we can do anything with them if we happen to have them in
* cache.
*/
_eval_stray_remote(dn, NULL);
return false;
}
}
void StrayManager::activate()
{
dout(10) << __func__ << dendl;
started = true;
purge_queue.activate();
}
bool StrayManager::eval_stray(CDentry *dn)
{
// avoid nested eval_stray
if (dn->state_test(CDentry::STATE_EVALUATINGSTRAY))
return false;
dn->state_set(CDentry::STATE_EVALUATINGSTRAY);
bool ret = _eval_stray(dn);
dn->state_clear(CDentry::STATE_EVALUATINGSTRAY);
return ret;
}
void StrayManager::eval_remote(CDentry *remote_dn)
{
dout(10) << __func__ << " " << *remote_dn << dendl;
CDentry::linkage_t *dnl = remote_dn->get_projected_linkage();
ceph_assert(dnl->is_remote());
CInode *in = dnl->get_inode();
if (!in) {
dout(20) << __func__ << ": no inode, cannot evaluate" << dendl;
return;
}
if (remote_dn->last != CEPH_NOSNAP) {
dout(20) << __func__ << ": snap dentry, cannot evaluate" << dendl;
return;
}
// refers to stray?
CDentry *primary_dn = in->get_projected_parent_dn();
ceph_assert(primary_dn != NULL);
if (primary_dn->get_dir()->get_inode()->is_stray()) {
_eval_stray_remote(primary_dn, remote_dn);
} else {
dout(20) << __func__ << ": inode's primary dn not stray" << dendl;
}
}
class C_RetryEvalRemote : public StrayManagerContext {
CDentry *dn;
public:
C_RetryEvalRemote(StrayManager *sm_, CDentry *dn_) :
StrayManagerContext(sm_), dn(dn_) {
dn->get(CDentry::PIN_PTRWAITER);
}
void finish(int r) override {
if (dn->get_projected_linkage()->is_remote())
sm->eval_remote(dn);
dn->put(CDentry::PIN_PTRWAITER);
}
};
void StrayManager::_eval_stray_remote(CDentry *stray_dn, CDentry *remote_dn)
{
dout(20) << __func__ << " " << *stray_dn << dendl;
ceph_assert(stray_dn != NULL);
ceph_assert(stray_dn->get_dir()->get_inode()->is_stray());
CDentry::linkage_t *stray_dnl = stray_dn->get_projected_linkage();
ceph_assert(stray_dnl->is_primary());
CInode *stray_in = stray_dnl->get_inode();
ceph_assert(stray_in->inode.nlink >= 1);
ceph_assert(stray_in->last == CEPH_NOSNAP);
/* If no remote_dn hinted, pick one arbitrarily */
if (remote_dn == NULL) {
if (!stray_in->remote_parents.empty()) {
for (const auto &dn : stray_in->remote_parents) {
if (dn->last == CEPH_NOSNAP && !dn->is_projected()) {
if (dn->is_auth()) {
remote_dn = dn;
if (remote_dn->dir->can_auth_pin())
break;
} else if (!remote_dn) {
remote_dn = dn;
}
}
}
}
if (!remote_dn) {
dout(20) << __func__ << ": not reintegrating (no remote parents in cache)" << dendl;
return;
}
}
ceph_assert(remote_dn->last == CEPH_NOSNAP);
// NOTE: we repeat this check in _rename(), since our submission path is racey.
if (!remote_dn->is_projected()) {
if (remote_dn->is_auth()) {
if (remote_dn->dir->can_auth_pin()) {
reintegrate_stray(stray_dn, remote_dn);
} else {
remote_dn->dir->add_waiter(CDir::WAIT_UNFREEZE, new C_RetryEvalRemote(this, remote_dn));
dout(20) << __func__ << ": not reintegrating (can't authpin remote parent)" << dendl;
}
} else if (!remote_dn->is_auth() && stray_dn->is_auth()) {
migrate_stray(stray_dn, remote_dn->authority().first);
} else {
dout(20) << __func__ << ": not reintegrating" << dendl;
}
} else {
// don't do anything if the remote parent is projected, or we may
// break user-visible semantics!
dout(20) << __func__ << ": not reintegrating (projected)" << dendl;
}
}
void StrayManager::reintegrate_stray(CDentry *straydn, CDentry *rdn)
{
dout(10) << __func__ << " " << *straydn << " into " << *rdn << dendl;
logger->inc(l_mdc_strays_reintegrated);
// rename it to another mds.
filepath src;
straydn->make_path(src);
filepath dst;
rdn->make_path(dst);
auto req = MClientRequest::create(CEPH_MDS_OP_RENAME);
req->set_filepath(dst);
req->set_filepath2(src);
req->set_tid(mds->issue_tid());
mds->send_message_mds(req, rdn->authority().first);
}
void StrayManager::migrate_stray(CDentry *dn, mds_rank_t to)
{
CInode *in = dn->get_projected_linkage()->get_inode();
ceph_assert(in);
CInode *diri = dn->dir->get_inode();
ceph_assert(diri->is_stray());
dout(10) << "migrate_stray from mds." << MDS_INO_STRAY_OWNER(diri->inode.ino)
<< " to mds." << to
<< " " << *dn << " " << *in << dendl;
logger->inc(l_mdc_strays_migrated);
// rename it to another mds.
filepath src;
dn->make_path(src);
ceph_assert(src.depth() == 2);
filepath dst(MDS_INO_MDSDIR(to));
dst.push_dentry(src[0]);
dst.push_dentry(src[1]);
auto req = MClientRequest::create(CEPH_MDS_OP_RENAME);
req->set_filepath(dst);
req->set_filepath2(src);
req->set_tid(mds->issue_tid());
mds->send_message_mds(req, to);
}
StrayManager::StrayManager(MDSRank *mds, PurgeQueue &purge_queue_)
: delayed_eval_stray(member_offset(CDentry, item_stray)),
mds(mds), logger(NULL), started(false), num_strays(0),
num_strays_delayed(0), num_strays_enqueuing(0),
purge_queue(purge_queue_)
{
ceph_assert(mds != NULL);
}
void StrayManager::truncate(CDentry *dn)
{
const CDentry::linkage_t *dnl = dn->get_projected_linkage();
const CInode *in = dnl->get_inode();
ceph_assert(in);
dout(10) << __func__ << ": " << *dn << " " << *in << dendl;
ceph_assert(!dn->is_replicated());
const SnapRealm *realm = in->find_snaprealm();
ceph_assert(realm);
dout(10) << " realm " << *realm << dendl;
const SnapContext *snapc = &realm->get_snap_context();
uint64_t to = in->inode.get_max_size();
to = std::max(in->inode.size, to);
// when truncating a file, the filer does not delete stripe objects that are
// truncated to zero. so we need to purge stripe objects up to the max size
// the file has ever been.
to = std::max(in->inode.max_size_ever, to);
ceph_assert(to > 0);
PurgeItem item;
item.action = PurgeItem::TRUNCATE_FILE;
item.ino = in->inode.ino;
item.layout = in->inode.layout;
item.snapc = *snapc;
item.size = to;
item.stamp = ceph_clock_now();
purge_queue.push(item, new C_IO_PurgeStrayPurged(
this, dn, true));
}
void StrayManager::_truncate_stray_logged(CDentry *dn, LogSegment *ls)
{
CInode *in = dn->get_projected_linkage()->get_inode();
dout(10) << __func__ << ": " << *dn << " " << *in << dendl;
in->pop_and_dirty_projected_inode(ls);
in->state_clear(CInode::STATE_PURGING);
dn->state_clear(CDentry::STATE_PURGING | CDentry::STATE_PURGINGPINNED);
dn->put(CDentry::PIN_PURGING);
eval_stray(dn);
if (!dn->state_test(CDentry::STATE_PURGING) && mds->is_stopping())
mds->mdcache->shutdown_export_stray_finish(in->ino());
}
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