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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 <string_view>
#include <typeinfo>
#include "common/debug.h"
#include "common/errno.h"
#include "common/likely.h"
#include "common/async/blocked_completion.h"
#include "messages/MClientRequestForward.h"
#include "messages/MMDSLoadTargets.h"
#include "messages/MMDSTableRequest.h"
#include "messages/MMDSMetrics.h"
#include "mgr/MgrClient.h"
#include "MDSDaemon.h"
#include "MDSMap.h"
#include "MetricAggregator.h"
#include "SnapClient.h"
#include "SnapServer.h"
#include "MDBalancer.h"
#include "Migrator.h"
#include "Locker.h"
#include "InoTable.h"
#include "mon/MonClient.h"
#include "common/HeartbeatMap.h"
#include "ScrubStack.h"
#include "Mutation.h"
#include "MDSRank.h"
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_mds
#undef dout_prefix
#define dout_prefix *_dout << "mds." << whoami << '.' << incarnation << ' '
using std::ostream;
using std::set;
using std::string;
using std::vector;
using TOPNSPC::common::cmd_getval;
class C_Flush_Journal : public MDSInternalContext {
public:
C_Flush_Journal(MDCache *mdcache, MDLog *mdlog, MDSRank *mds,
std::ostream *ss, Context *on_finish)
: MDSInternalContext(mds),
mdcache(mdcache), mdlog(mdlog), ss(ss), on_finish(on_finish),
whoami(mds->whoami), incarnation(mds->incarnation) {
}
void send() {
ceph_assert(ceph_mutex_is_locked(mds->mds_lock));
dout(20) << __func__ << dendl;
if (mdcache->is_readonly()) {
dout(5) << __func__ << ": read-only FS" << dendl;
complete(-CEPHFS_EROFS);
return;
}
if (!mds->is_active()) {
dout(5) << __func__ << ": MDS not active, no-op" << dendl;
complete(0);
return;
}
flush_mdlog();
}
private:
void flush_mdlog() {
dout(20) << __func__ << dendl;
// I need to seal off the current segment, and then mark all
// previous segments for expiry
mdlog->start_new_segment();
Context *ctx = new LambdaContext([this](int r) {
handle_flush_mdlog(r);
});
// Flush initially so that all the segments older than our new one
// will be elegible for expiry
mdlog->flush();
mdlog->wait_for_safe(new MDSInternalContextWrapper(mds, ctx));
}
void handle_flush_mdlog(int r) {
dout(20) << __func__ << ": r=" << r << dendl;
if (r != 0) {
*ss << "Error " << r << " (" << cpp_strerror(r) << ") while flushing journal";
complete(r);
return;
}
clear_mdlog();
}
void clear_mdlog() {
dout(20) << __func__ << dendl;
Context *ctx = new LambdaContext([this](int r) {
handle_clear_mdlog(r);
});
// Because we may not be the last wait_for_safe context on MDLog,
// and subsequent contexts might wake up in the middle of our
// later trim_all and interfere with expiry (by e.g. marking
// dirs/dentries dirty on previous log segments), we run a second
// wait_for_safe here. See #10368
mdlog->wait_for_safe(new MDSInternalContextWrapper(mds, ctx));
}
void handle_clear_mdlog(int r) {
dout(20) << __func__ << ": r=" << r << dendl;
if (r != 0) {
*ss << "Error " << r << " (" << cpp_strerror(r) << ") while flushing journal";
complete(r);
return;
}
trim_mdlog();
}
void trim_mdlog() {
// Put all the old log segments into expiring or expired state
dout(5) << __func__ << ": beginning segment expiry" << dendl;
int ret = mdlog->trim_all();
if (ret != 0) {
*ss << "Error " << ret << " (" << cpp_strerror(ret) << ") while trimming log";
complete(ret);
return;
}
expire_segments();
}
void expire_segments() {
dout(20) << __func__ << dendl;
// Attach contexts to wait for all expiring segments to expire
MDSGatherBuilder expiry_gather(g_ceph_context);
const auto &expiring_segments = mdlog->get_expiring_segments();
for (auto p : expiring_segments) {
p->wait_for_expiry(expiry_gather.new_sub());
}
dout(5) << __func__ << ": waiting for " << expiry_gather.num_subs_created()
<< " segments to expire" << dendl;
if (!expiry_gather.has_subs()) {
trim_segments();
return;
}
Context *ctx = new LambdaContext([this](int r) {
handle_expire_segments(r);
});
expiry_gather.set_finisher(new MDSInternalContextWrapper(mds, ctx));
expiry_gather.activate();
}
void handle_expire_segments(int r) {
dout(20) << __func__ << ": r=" << r << dendl;
ceph_assert(r == 0); // MDLog is not allowed to raise errors via
// wait_for_expiry
trim_segments();
}
void trim_segments() {
dout(20) << __func__ << dendl;
Context *ctx = new C_OnFinisher(new LambdaContext([this](int) {
std::lock_guard locker(mds->mds_lock);
trim_expired_segments();
}), mds->finisher);
ctx->complete(0);
}
void trim_expired_segments() {
dout(5) << __func__ << ": expiry complete, expire_pos/trim_pos is now "
<< std::hex << mdlog->get_journaler()->get_expire_pos() << "/"
<< mdlog->get_journaler()->get_trimmed_pos() << dendl;
// Now everyone I'm interested in is expired
mdlog->trim_expired_segments();
dout(5) << __func__ << ": trim complete, expire_pos/trim_pos is now "
<< std::hex << mdlog->get_journaler()->get_expire_pos() << "/"
<< mdlog->get_journaler()->get_trimmed_pos() << dendl;
write_journal_head();
}
void write_journal_head() {
dout(20) << __func__ << dendl;
Context *ctx = new LambdaContext([this](int r) {
std::lock_guard locker(mds->mds_lock);
handle_write_head(r);
});
// Flush the journal header so that readers will start from after
// the flushed region
mdlog->get_journaler()->write_head(ctx);
}
void handle_write_head(int r) {
if (r != 0) {
*ss << "Error " << r << " (" << cpp_strerror(r) << ") while writing header";
} else {
dout(5) << __func__ << ": write_head complete, all done!" << dendl;
}
complete(r);
}
void finish(int r) override {
dout(20) << __func__ << ": r=" << r << dendl;
on_finish->complete(r);
}
MDCache *mdcache;
MDLog *mdlog;
std::ostream *ss;
Context *on_finish;
// so as to use dout
mds_rank_t whoami;
int incarnation;
};
class C_Drop_Cache : public MDSInternalContext {
public:
C_Drop_Cache(Server *server, MDCache *mdcache, MDLog *mdlog,
MDSRank *mds, uint64_t recall_timeout,
Formatter *f, Context *on_finish)
: MDSInternalContext(mds),
server(server), mdcache(mdcache), mdlog(mdlog),
recall_timeout(recall_timeout), recall_start(mono_clock::now()),
f(f), on_finish(on_finish),
whoami(mds->whoami), incarnation(mds->incarnation) {
}
void send() {
// not really a hard requirement here, but lets ensure this in
// case we change the logic here.
ceph_assert(ceph_mutex_is_locked(mds->mds_lock));
dout(20) << __func__ << dendl;
f->open_object_section("result");
recall_client_state();
}
private:
// context which completes itself (with -CEPHFS_ETIMEDOUT) after a specified
// timeout or when explicitly completed, whichever comes first. Note
// that the context does not detroy itself after completion -- it
// needs to be explicitly freed.
class C_ContextTimeout : public MDSInternalContext {
public:
C_ContextTimeout(MDSRank *mds, uint64_t timeout, Context *on_finish)
: MDSInternalContext(mds),
timeout(timeout),
on_finish(on_finish) {
}
~C_ContextTimeout() {
ceph_assert(timer_task == nullptr);
}
void start_timer() {
if (!timeout) {
return;
}
timer_task = new LambdaContext([this](int) {
timer_task = nullptr;
complete(-CEPHFS_ETIMEDOUT);
});
mds->timer.add_event_after(timeout, timer_task);
}
void finish(int r) override {
Context *ctx = nullptr;
{
std::lock_guard locker(lock);
std::swap(on_finish, ctx);
}
if (ctx != nullptr) {
ctx->complete(r);
}
}
void complete(int r) override {
if (timer_task != nullptr) {
mds->timer.cancel_event(timer_task);
}
finish(r);
}
uint64_t timeout;
ceph::mutex lock = ceph::make_mutex("mds::context::timeout");
Context *on_finish = nullptr;
Context *timer_task = nullptr;
};
auto do_trim() {
auto [throttled, count] = mdcache->trim(UINT64_MAX);
dout(10) << __func__
<< (throttled ? " (throttled)" : "")
<< " trimmed " << count << " caps" << dendl;
dentries_trimmed += count;
return std::make_pair(throttled, count);
}
void recall_client_state() {
dout(20) << __func__ << dendl;
auto now = mono_clock::now();
auto duration = std::chrono::duration<double>(now-recall_start).count();
MDSGatherBuilder gather(g_ceph_context);
auto flags = Server::RecallFlags::STEADY|Server::RecallFlags::TRIM;
auto [throttled, count] = server->recall_client_state(&gather, flags);
dout(10) << __func__
<< (throttled ? " (throttled)" : "")
<< " recalled " << count << " caps" << dendl;
caps_recalled += count;
if ((throttled || count > 0) && (recall_timeout == 0 || duration < recall_timeout)) {
C_ContextTimeout *ctx = new C_ContextTimeout(
mds, 1, new LambdaContext([this](int r) {
recall_client_state();
}));
ctx->start_timer();
gather.set_finisher(new MDSInternalContextWrapper(mds, ctx));
gather.activate();
mdlog->flush(); /* use down-time to incrementally flush log */
do_trim(); /* use down-time to incrementally trim cache */
} else {
if (!gather.has_subs()) {
return handle_recall_client_state(0);
} else if (recall_timeout > 0 && duration > recall_timeout) {
gather.set_finisher(new C_MDSInternalNoop);
gather.activate();
return handle_recall_client_state(-CEPHFS_ETIMEDOUT);
} else {
uint64_t remaining = (recall_timeout == 0 ? 0 : recall_timeout-duration);
C_ContextTimeout *ctx = new C_ContextTimeout(
mds, remaining, new LambdaContext([this](int r) {
handle_recall_client_state(r);
}));
ctx->start_timer();
gather.set_finisher(new MDSInternalContextWrapper(mds, ctx));
gather.activate();
}
}
}
void handle_recall_client_state(int r) {
dout(20) << __func__ << ": r=" << r << dendl;
// client recall section
f->open_object_section("client_recall");
f->dump_int("return_code", r);
f->dump_string("message", cpp_strerror(r));
f->dump_int("recalled", caps_recalled);
f->close_section();
// we can still continue after recall timeout
flush_journal();
}
void flush_journal() {
dout(20) << __func__ << dendl;
Context *ctx = new LambdaContext([this](int r) {
handle_flush_journal(r);
});
C_Flush_Journal *flush_journal = new C_Flush_Journal(mdcache, mdlog, mds, &ss, ctx);
flush_journal->send();
}
void handle_flush_journal(int r) {
dout(20) << __func__ << ": r=" << r << dendl;
if (r != 0) {
cmd_err(f, ss.str());
complete(r);
return;
}
// journal flush section
f->open_object_section("flush_journal");
f->dump_int("return_code", r);
f->dump_string("message", ss.str());
f->close_section();
trim_cache();
}
void trim_cache() {
dout(20) << __func__ << dendl;
auto [throttled, count] = do_trim();
if (throttled && count > 0) {
auto timer = new LambdaContext([this](int) {
trim_cache();
});
mds->timer.add_event_after(1.0, timer);
} else {
cache_status();
}
}
void cache_status() {
dout(20) << __func__ << dendl;
f->open_object_section("trim_cache");
f->dump_int("trimmed", dentries_trimmed);
f->close_section();
// cache status section
mdcache->cache_status(f);
complete(0);
}
void finish(int r) override {
dout(20) << __func__ << ": r=" << r << dendl;
auto d = std::chrono::duration<double>(mono_clock::now()-recall_start);
f->dump_float("duration", d.count());
f->close_section();
on_finish->complete(r);
}
Server *server;
MDCache *mdcache;
MDLog *mdlog;
uint64_t recall_timeout;
mono_time recall_start;
Formatter *f;
Context *on_finish;
int retval = 0;
std::stringstream ss;
uint64_t caps_recalled = 0;
uint64_t dentries_trimmed = 0;
// so as to use dout
mds_rank_t whoami;
int incarnation;
void cmd_err(Formatter *f, std::string_view err) {
f->reset();
f->open_object_section("result");
f->dump_string("error", err);
f->close_section();
}
};
MDSRank::MDSRank(
mds_rank_t whoami_,
ceph::fair_mutex &mds_lock_,
LogChannelRef &clog_,
CommonSafeTimer<ceph::fair_mutex> &timer_,
Beacon &beacon_,
std::unique_ptr<MDSMap>& mdsmap_,
Messenger *msgr,
MonClient *monc_,
MgrClient *mgrc,
Context *respawn_hook_,
Context *suicide_hook_,
boost::asio::io_context& ioc) :
cct(msgr->cct), mds_lock(mds_lock_), clog(clog_),
timer(timer_), mdsmap(mdsmap_),
objecter(new Objecter(g_ceph_context, msgr, monc_, ioc)),
damage_table(whoami_), sessionmap(this),
op_tracker(g_ceph_context, g_conf()->mds_enable_op_tracker,
g_conf()->osd_num_op_tracker_shard),
progress_thread(this), whoami(whoami_),
purge_queue(g_ceph_context, whoami_,
mdsmap_->get_metadata_pool(), objecter,
new LambdaContext([this](int r) {
std::lock_guard l(mds_lock);
handle_write_error(r);
}
)
),
metrics_handler(cct, this),
beacon(beacon_),
messenger(msgr), monc(monc_), mgrc(mgrc),
respawn_hook(respawn_hook_),
suicide_hook(suicide_hook_),
inject_journal_corrupt_dentry_first(g_conf().get_val<double>("mds_inject_journal_corrupt_dentry_first")),
starttime(mono_clock::now()),
ioc(ioc)
{
hb = g_ceph_context->get_heartbeat_map()->add_worker("MDSRank", pthread_self());
// The metadata pool won't change in the whole life time
// of the fs, with this we can get rid of the mds_lock
// in many places too.
metadata_pool = mdsmap->get_metadata_pool();
purge_queue.update_op_limit(*mdsmap);
objecter->unset_honor_pool_full();
finisher = new Finisher(cct, "MDSRank", "MR_Finisher");
mdcache = new MDCache(this, purge_queue);
mdlog = new MDLog(this);
balancer = new MDBalancer(this, messenger, monc);
scrubstack = new ScrubStack(mdcache, clog, finisher);
inotable = new InoTable(this);
snapserver = new SnapServer(this, monc);
snapclient = new SnapClient(this);
server = new Server(this, &metrics_handler);
locker = new Locker(this, mdcache);
_heartbeat_reset_grace = g_conf().get_val<uint64_t>("mds_heartbeat_reset_grace");
heartbeat_grace = g_conf().get_val<double>("mds_heartbeat_grace");
op_tracker.set_complaint_and_threshold(cct->_conf->mds_op_complaint_time,
cct->_conf->mds_op_log_threshold);
op_tracker.set_history_size_and_duration(cct->_conf->mds_op_history_size,
cct->_conf->mds_op_history_duration);
op_tracker.set_history_slow_op_size_and_threshold(cct->_conf->mds_op_history_slow_op_size,
cct->_conf->mds_op_history_slow_op_threshold);
schedule_update_timer_task();
}
MDSRank::~MDSRank()
{
if (hb) {
g_ceph_context->get_heartbeat_map()->remove_worker(hb);
hb = nullptr;
}
if (scrubstack) { delete scrubstack; scrubstack = NULL; }
if (mdcache) { delete mdcache; mdcache = NULL; }
if (mdlog) { delete mdlog; mdlog = NULL; }
if (balancer) { delete balancer; balancer = NULL; }
if (inotable) { delete inotable; inotable = NULL; }
if (snapserver) { delete snapserver; snapserver = NULL; }
if (snapclient) { delete snapclient; snapclient = NULL; }
if (server) { delete server; server = 0; }
if (locker) { delete locker; locker = 0; }
if (logger) {
g_ceph_context->get_perfcounters_collection()->remove(logger);
delete logger;
logger = 0;
}
if (mlogger) {
g_ceph_context->get_perfcounters_collection()->remove(mlogger);
delete mlogger;
mlogger = 0;
}
delete finisher;
finisher = NULL;
delete suicide_hook;
suicide_hook = NULL;
delete respawn_hook;
respawn_hook = NULL;
delete objecter;
objecter = nullptr;
}
void MDSRankDispatcher::init()
{
objecter->init();
messenger->add_dispatcher_head(objecter);
objecter->start();
update_log_config();
create_logger();
// Expose the OSDMap (already populated during MDS::init) to anyone
// who is interested in it.
handle_osd_map();
progress_thread.create("mds_rank_progr");
purge_queue.init();
finisher->start();
}
void MDSRank::update_targets()
{
// get MonMap's idea of my export_targets
const set<mds_rank_t>& map_targets = mdsmap->get_mds_info(get_nodeid()).export_targets;
dout(20) << "updating export targets, currently " << map_targets.size() << " ranks are targets" << dendl;
bool send = false;
set<mds_rank_t> new_map_targets;
auto it = export_targets.begin();
while (it != export_targets.end()) {
mds_rank_t rank = it->first;
auto &counter = it->second;
dout(20) << "export target mds." << rank << " is " << counter << dendl;
double val = counter.get();
if (val <= 0.01) {
dout(15) << "export target mds." << rank << " is no longer an export target" << dendl;
export_targets.erase(it++);
send = true;
continue;
}
if (!map_targets.count(rank)) {
dout(15) << "export target mds." << rank << " not in map's export_targets" << dendl;
send = true;
}
new_map_targets.insert(rank);
it++;
}
if (new_map_targets.size() < map_targets.size()) {
dout(15) << "export target map holds stale targets, sending update" << dendl;
send = true;
}
if (send) {
dout(15) << "updating export_targets, now " << new_map_targets.size() << " ranks are targets" << dendl;
auto m = make_message<MMDSLoadTargets>(mds_gid_t(monc->get_global_id()), new_map_targets);
monc->send_mon_message(m.detach());
}
}
void MDSRank::hit_export_target(mds_rank_t rank, double amount)
{
double rate = g_conf()->mds_bal_target_decay;
if (amount < 0.0) {
amount = 100.0/g_conf()->mds_bal_target_decay; /* a good default for "i am trying to keep this export_target active" */
}
auto em = export_targets.emplace(std::piecewise_construct, std::forward_as_tuple(rank), std::forward_as_tuple(DecayRate(rate)));
auto &counter = em.first->second;
counter.hit(amount);
if (em.second) {
dout(15) << "hit export target (new) is " << counter << dendl;
} else {
dout(15) << "hit export target is " << counter << dendl;
}
}
class C_MDS_MonCommand : public MDSInternalContext {
std::string cmd;
public:
std::string outs;
C_MDS_MonCommand(MDSRank *m, std::string_view c)
: MDSInternalContext(m), cmd(c) {}
void finish(int r) override {
mds->_mon_command_finish(r, cmd, outs);
}
};
void MDSRank::_mon_command_finish(int r, std::string_view cmd, std::string_view outs)
{
if (r < 0) {
dout(0) << __func__ << ": mon command " << cmd << " failed with errno " << r
<< " (" << outs << ")" << dendl;
} else {
dout(1) << __func__ << ": mon command " << cmd << " succeed" << dendl;
}
}
void MDSRank::set_mdsmap_multimds_snaps_allowed()
{
static bool already_sent = false;
if (already_sent)
return;
CachedStackStringStream css;
*css << "{\"prefix\":\"fs set\", \"fs_name\":\"" << mdsmap->get_fs_name() << "\", ";
*css << "\"var\":\"allow_multimds_snaps\", \"val\":\"true\", ";
*css << "\"confirm\":\"--yes-i-am-really-a-mds\"}";
std::vector<std::string> cmd = {css->str()};
dout(0) << __func__ << ": sending mon command: " << cmd[0] << dendl;
C_MDS_MonCommand *fin = new C_MDS_MonCommand(this, cmd[0]);
monc->start_mon_command(cmd, {}, nullptr, &fin->outs, new C_IO_Wrapper(this, fin));
already_sent = true;
}
void MDSRankDispatcher::tick()
{
heartbeat_reset();
if (beacon.is_laggy()) {
dout(1) << "skipping upkeep work because connection to Monitors appears laggy" << dendl;
return;
}
check_ops_in_flight();
// Wake up thread in case we use to be laggy and have waiting_for_nolaggy
// messages to progress.
progress_thread.signal();
// make sure mds log flushes, trims periodically
mdlog->flush();
// update average session uptime
sessionmap.update_average_session_age();
if (is_active() || is_stopping()) {
mdlog->trim(); // NOT during recovery!
}
// ...
if (is_clientreplay() || is_active() || is_stopping()) {
server->clear_laggy_clients();
server->find_idle_sessions();
server->evict_cap_revoke_non_responders();
locker->tick();
}
// log
if (logger) {
logger->set(l_mds_subtrees, mdcache->num_subtrees());
mdcache->log_stat();
}
if (is_reconnect())
server->reconnect_tick();
if (is_active()) {
balancer->tick();
mdcache->find_stale_fragment_freeze();
mdcache->migrator->find_stale_export_freeze();
if (mdsmap->get_tableserver() == whoami) {
snapserver->check_osd_map(false);
// Filesystem was created by pre-mimic mds. Allow multi-active mds after
// all old snapshots are deleted.
if (!mdsmap->allows_multimds_snaps() &&
snapserver->can_allow_multimds_snaps()) {
set_mdsmap_multimds_snaps_allowed();
}
}
if (whoami == 0)
scrubstack->advance_scrub_status();
}
if (is_active() || is_stopping()) {
update_targets();
}
// shut down?
if (is_stopping()) {
mdlog->trim();
if (mdcache->shutdown_pass()) {
uint64_t pq_progress = 0 ;
uint64_t pq_total = 0;
size_t pq_in_flight = 0;
if (!purge_queue.drain(&pq_progress, &pq_total, &pq_in_flight)) {
dout(7) << "shutdown_pass=true, but still waiting for purge queue"
<< dendl;
// This takes unbounded time, so we must indicate progress
// to the administrator: we do it in a slightly imperfect way
// by sending periodic (tick frequency) clog messages while
// in this state.
clog->info() << "MDS rank " << whoami << " waiting for purge queue ("
<< std::dec << pq_progress << "/" << pq_total << " " << pq_in_flight
<< " files purging" << ")";
} else {
dout(7) << "shutdown_pass=true, finished w/ shutdown, moving to "
"down:stopped" << dendl;
stopping_done();
}
}
else {
dout(7) << "shutdown_pass=false" << dendl;
}
}
// Expose ourselves to Beacon to update health indicators
beacon.notify_health(this);
}
void MDSRankDispatcher::shutdown()
{
// It should never be possible for shutdown to get called twice, because
// anyone picking up mds_lock checks if stopping is true and drops
// out if it is.
ceph_assert(stopping == false);
stopping = true;
dout(1) << __func__ << ": shutting down rank " << whoami << dendl;
g_conf().remove_observer(this);
timer.shutdown();
// MDLog has to shut down before the finisher, because some of its
// threads block on IOs that require finisher to complete.
mdlog->shutdown();
// shut down cache
mdcache->shutdown();
purge_queue.shutdown();
// shutdown metrics handler/updater -- this is ok even if it was not
// inited.
metrics_handler.shutdown();
// shutdown metric aggergator
if (metric_aggregator != nullptr) {
metric_aggregator->shutdown();
}
mds_lock.unlock();
finisher->stop(); // no flushing
mds_lock.lock();
if (objecter->initialized)
objecter->shutdown();
monc->shutdown();
op_tracker.on_shutdown();
progress_thread.shutdown();
// release mds_lock for finisher/messenger threads (e.g.
// MDSDaemon::ms_handle_reset called from Messenger).
mds_lock.unlock();
// shut down messenger
messenger->shutdown();
mds_lock.lock();
// Workaround unclean shutdown: HeartbeatMap will assert if
// worker is not removed (as we do in ~MDS), but ~MDS is not
// always called after suicide.
if (hb) {
g_ceph_context->get_heartbeat_map()->remove_worker(hb);
hb = NULL;
}
}
/**
* Helper for simple callbacks that call a void fn with no args.
*/
class C_MDS_VoidFn : public MDSInternalContext
{
typedef void (MDSRank::*fn_ptr)();
protected:
fn_ptr fn;
public:
C_MDS_VoidFn(MDSRank *mds_, fn_ptr fn_)
: MDSInternalContext(mds_), fn(fn_)
{
ceph_assert(mds_);
ceph_assert(fn_);
}
void finish(int r) override
{
(mds->*fn)();
}
};
MDSTableClient *MDSRank::get_table_client(int t)
{
switch (t) {
case TABLE_ANCHOR: return NULL;
case TABLE_SNAP: return snapclient;
default: ceph_abort();
}
}
MDSTableServer *MDSRank::get_table_server(int t)
{
switch (t) {
case TABLE_ANCHOR: return NULL;
case TABLE_SNAP: return snapserver;
default: ceph_abort();
}
}
void MDSRank::suicide()
{
if (suicide_hook) {
suicide_hook->complete(0);
suicide_hook = NULL;
}
}
void MDSRank::respawn()
{
if (respawn_hook) {
respawn_hook->complete(0);
respawn_hook = NULL;
}
}
void MDSRank::abort(std::string_view msg)
{
monc->flush_log();
ceph_abort(msg);
}
void MDSRank::damaged()
{
ceph_assert(whoami != MDS_RANK_NONE);
ceph_assert(ceph_mutex_is_locked_by_me(mds_lock));
beacon.set_want_state(*mdsmap, MDSMap::STATE_DAMAGED);
monc->flush_log(); // Flush any clog error from before we were called
beacon.notify_health(this); // Include latest status in our swan song
beacon.send_and_wait(g_conf()->mds_mon_shutdown_timeout);
// It's okay if we timed out and the mon didn't get our beacon, because
// another daemon (or ourselves after respawn) will eventually take the
// rank and report DAMAGED again when it hits same problem we did.
respawn(); // Respawn into standby in case mon has other work for us
}
void MDSRank::damaged_unlocked()
{
std::lock_guard l(mds_lock);
damaged();
}
void MDSRank::handle_write_error(int err)
{
if (err == -CEPHFS_EBLOCKLISTED) {
derr << "we have been blocklisted (fenced), respawning..." << dendl;
respawn();
return;
}
if (g_conf()->mds_action_on_write_error >= 2) {
derr << "unhandled write error " << cpp_strerror(err) << ", suicide..." << dendl;
respawn();
} else if (g_conf()->mds_action_on_write_error == 1) {
derr << "unhandled write error " << cpp_strerror(err) << ", force readonly..." << dendl;
mdcache->force_readonly();
} else {
// ignore;
derr << "unhandled write error " << cpp_strerror(err) << ", ignore..." << dendl;
}
}
void MDSRank::handle_write_error_with_lock(int err)
{
std::scoped_lock l(mds_lock);
handle_write_error(err);
}
void *MDSRank::ProgressThread::entry()
{
std::unique_lock l(mds->mds_lock);
while (true) {
cond.wait(l, [this] {
return (mds->stopping ||
!mds->finished_queue.empty() ||
(!mds->waiting_for_nolaggy.empty() && !mds->beacon.is_laggy()));
});
if (mds->stopping) {
break;
}
mds->_advance_queues();
}
return NULL;
}
void MDSRank::ProgressThread::shutdown()
{
ceph_assert(ceph_mutex_is_locked_by_me(mds->mds_lock));
ceph_assert(mds->stopping);
if (am_self()) {
// Stopping is set, we will fall out of our main loop naturally
} else {
// Kick the thread to notice mds->stopping, and join it
cond.notify_all();
mds->mds_lock.unlock();
if (is_started())
join();
mds->mds_lock.lock();
}
}
bool MDSRankDispatcher::ms_dispatch(const cref_t<Message> &m)
{
if (m->get_source().is_mds()) {
const Message *msg = m.get();
const MMDSOp *op = dynamic_cast<const MMDSOp*>(msg);
if (!op)
dout(0) << typeid(*msg).name() << " is not an MMDSOp type" << dendl;
ceph_assert(op);
}
else if (m->get_source().is_client()) {
Session *session = static_cast<Session*>(m->get_connection()->get_priv().get());
if (session)
session->last_seen = Session::clock::now();
}
inc_dispatch_depth();
bool ret = _dispatch(m, true);
dec_dispatch_depth();
return ret;
}
bool MDSRank::_dispatch(const cref_t<Message> &m, bool new_msg)
{
if (is_stale_message(m)) {
return true;
}
// do not proceed if this message cannot be handled
if (!is_valid_message(m)) {
return false;
}
if (beacon.is_laggy()) {
dout(5) << " laggy, deferring " << *m << dendl;
waiting_for_nolaggy.push_back(m);
} else if (new_msg && !waiting_for_nolaggy.empty()) {
dout(5) << " there are deferred messages, deferring " << *m << dendl;
waiting_for_nolaggy.push_back(m);
} else {
handle_message(m);
heartbeat_reset();
}
if (dispatch_depth > 1)
return true;
// finish any triggered contexts
_advance_queues();
if (beacon.is_laggy()) {
// We've gone laggy during dispatch, don't do any
// more housekeeping
return true;
}
// hack: thrash exports
static utime_t start;
utime_t now = ceph_clock_now();
if (start == utime_t())
start = now;
/*double el = now - start;
if (el > 30.0 &&
el < 60.0)*/
for (int i=0; i<g_conf()->mds_thrash_exports; i++) {
set<mds_rank_t> s;
if (!is_active()) break;
mdsmap->get_mds_set(s, MDSMap::STATE_ACTIVE);
if (s.size() < 2 || CInode::count() < 10)
break; // need peers for this to work.
if (mdcache->migrator->get_num_exporting() > g_conf()->mds_thrash_exports * 5 ||
mdcache->migrator->get_export_queue_size() > g_conf()->mds_thrash_exports * 10)
break;
dout(7) << "mds thrashing exports pass " << (i+1) << "/" << g_conf()->mds_thrash_exports << dendl;
// pick a random dir inode
CInode *in = mdcache->hack_pick_random_inode();
auto&& ls = in->get_dirfrags();
if (!ls.empty()) { // must be an open dir.
const auto& dir = ls[rand() % ls.size()];
if (!dir->get_parent_dir()) continue; // must be linked.
if (!dir->is_auth()) continue; // must be auth.
mds_rank_t dest;
do {
int k = rand() % s.size();
set<mds_rank_t>::iterator p = s.begin();
while (k--) ++p;
dest = *p;
} while (dest == whoami);
mdcache->migrator->export_dir_nicely(dir,dest);
}
}
// hack: thrash fragments
for (int i=0; i<g_conf()->mds_thrash_fragments; i++) {
if (!is_active()) break;
if (mdcache->get_num_fragmenting_dirs() > 5 * g_conf()->mds_thrash_fragments) break;
dout(7) << "mds thrashing fragments pass " << (i+1) << "/" << g_conf()->mds_thrash_fragments << dendl;
// pick a random dir inode
CInode *in = mdcache->hack_pick_random_inode();
auto&& ls = in->get_dirfrags();
if (ls.empty()) continue; // must be an open dir.
CDir *dir = ls.front();
if (!dir->get_parent_dir()) continue; // must be linked.
if (!dir->is_auth()) continue; // must be auth.
frag_t fg = dir->get_frag();
if ((fg == frag_t() || (rand() % (1 << fg.bits()) == 0))) {
mdcache->split_dir(dir, 1);
} else {
balancer->queue_merge(dir);
}
}
// hack: force hash root?
/*
if (false &&
mdcache->get_root() &&
mdcache->get_root()->dir &&
!(mdcache->get_root()->dir->is_hashed() ||
mdcache->get_root()->dir->is_hashing())) {
dout(0) << "hashing root" << dendl;
mdcache->migrator->hash_dir(mdcache->get_root()->dir);
}
*/
update_mlogger();
return true;
}
void MDSRank::update_mlogger()
{
if (mlogger) {
mlogger->set(l_mdm_ino, CInode::count());
mlogger->set(l_mdm_dir, CDir::count());
mlogger->set(l_mdm_dn, CDentry::count());
mlogger->set(l_mdm_cap, Capability::count());
mlogger->set(l_mdm_inoa, CInode::increments());
mlogger->set(l_mdm_inos, CInode::decrements());
mlogger->set(l_mdm_dira, CDir::increments());
mlogger->set(l_mdm_dirs, CDir::decrements());
mlogger->set(l_mdm_dna, CDentry::increments());
mlogger->set(l_mdm_dns, CDentry::decrements());
mlogger->set(l_mdm_capa, Capability::increments());
mlogger->set(l_mdm_caps, Capability::decrements());
}
}
// message types that the mds can handle
bool MDSRank::is_valid_message(const cref_t<Message> &m) {
int port = m->get_type() & 0xff00;
int type = m->get_type();
if (port == MDS_PORT_CACHE ||
port == MDS_PORT_MIGRATOR ||
type == CEPH_MSG_CLIENT_SESSION ||
type == CEPH_MSG_CLIENT_RECONNECT ||
type == CEPH_MSG_CLIENT_RECLAIM ||
type == CEPH_MSG_CLIENT_REQUEST ||
type == CEPH_MSG_CLIENT_REPLY ||
type == MSG_MDS_PEER_REQUEST ||
type == MSG_MDS_HEARTBEAT ||
type == MSG_MDS_TABLE_REQUEST ||
type == MSG_MDS_LOCK ||
type == MSG_MDS_INODEFILECAPS ||
type == MSG_MDS_SCRUB ||
type == MSG_MDS_SCRUB_STATS ||
type == CEPH_MSG_CLIENT_CAPS ||
type == CEPH_MSG_CLIENT_CAPRELEASE ||
type == CEPH_MSG_CLIENT_LEASE) {
return true;
}
return false;
}
/*
* lower priority messages we defer if we seem laggy
*/
#define ALLOW_MESSAGES_FROM(peers) \
do { \
if (m->get_connection() && (m->get_connection()->get_peer_type() & (peers)) == 0) { \
dout(0) << __FILE__ << "." << __LINE__ << ": filtered out request, peer=" << m->get_connection()->get_peer_type() \
<< " allowing=" << #peers << " message=" << *m << dendl; \
return; \
} \
} while (0)
void MDSRank::handle_message(const cref_t<Message> &m)
{
int port = m->get_type() & 0xff00;
switch (port) {
case MDS_PORT_CACHE:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_MDS);
mdcache->dispatch(m);
break;
case MDS_PORT_MIGRATOR:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_MDS);
mdcache->migrator->dispatch(m);
break;
default:
switch (m->get_type()) {
// SERVER
case CEPH_MSG_CLIENT_SESSION:
case CEPH_MSG_CLIENT_RECONNECT:
case CEPH_MSG_CLIENT_RECLAIM:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_CLIENT);
// fall-thru
case CEPH_MSG_CLIENT_REQUEST:
case CEPH_MSG_CLIENT_REPLY:
server->dispatch(m);
break;
case MSG_MDS_PEER_REQUEST:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_MDS);
server->dispatch(m);
break;
case MSG_MDS_HEARTBEAT:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_MDS);
balancer->proc_message(m);
break;
case MSG_MDS_TABLE_REQUEST:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_MDS);
{
const cref_t<MMDSTableRequest> &req = ref_cast<MMDSTableRequest>(m);
if (req->op < 0) {
MDSTableClient *client = get_table_client(req->table);
client->handle_request(req);
} else {
MDSTableServer *server = get_table_server(req->table);
server->handle_request(req);
}
}
break;
case MSG_MDS_LOCK:
case MSG_MDS_INODEFILECAPS:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_MDS);
locker->dispatch(m);
break;
case CEPH_MSG_CLIENT_CAPS:
case CEPH_MSG_CLIENT_CAPRELEASE:
case CEPH_MSG_CLIENT_LEASE:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_CLIENT);
locker->dispatch(m);
break;
case MSG_MDS_SCRUB:
case MSG_MDS_SCRUB_STATS:
ALLOW_MESSAGES_FROM(CEPH_ENTITY_TYPE_MDS);
scrubstack->dispatch(m);
break;
default:
derr << "unrecognized message " << *m << dendl;
}
}
}
/**
* Advance finished_queue and waiting_for_nolaggy.
*
* Usually drain both queues, but may not drain waiting_for_nolaggy
* if beacon is currently laggy.
*/
void MDSRank::_advance_queues()
{
ceph_assert(ceph_mutex_is_locked_by_me(mds_lock));
if (!finished_queue.empty()) {
dout(7) << "mds has " << finished_queue.size() << " queued contexts" << dendl;
while (!finished_queue.empty()) {
auto fin = finished_queue.front();
finished_queue.pop_front();
dout(10) << " finish " << fin << dendl;
fin->complete(0);
heartbeat_reset();
}
}
while (!waiting_for_nolaggy.empty()) {
// stop if we're laggy now!
if (beacon.is_laggy())
break;
cref_t<Message> old = waiting_for_nolaggy.front();
waiting_for_nolaggy.pop_front();
if (!is_stale_message(old)) {
dout(7) << " processing laggy deferred " << *old << dendl;
ceph_assert(is_valid_message(old));
handle_message(old);
}
heartbeat_reset();
}
}
/**
* Call this when you take mds_lock, or periodically if you're going to
* hold the lock for a long time (e.g. iterating over clients/inodes)
*/
void MDSRank::heartbeat_reset()
{
// Any thread might jump into mds_lock and call us immediately
// after a call to suicide() completes, in which case MDSRank::hb
// has been freed and we are a no-op.
if (!hb) {
ceph_assert(stopping);
return;
}
// NB not enabling suicide grace, because the mon takes care of killing us
// (by blocklisting us) when we fail to send beacons, and it's simpler to
// only have one way of dying.
g_ceph_context->get_heartbeat_map()->reset_timeout(hb,
ceph::make_timespan(heartbeat_grace),
ceph::timespan::zero());
}
bool MDSRank::is_stale_message(const cref_t<Message> &m) const
{
// from bad mds?
if (m->get_source().is_mds()) {
mds_rank_t from = mds_rank_t(m->get_source().num());
bool bad = false;
if (mdsmap->is_down(from)) {
bad = true;
} else {
// FIXME: this is a convoluted check. we should be maintaining a nice
// clean map of current ConnectionRefs for current mdses!!!
auto c = messenger->connect_to(CEPH_ENTITY_TYPE_MDS,
mdsmap->get_addrs(from));
if (c != m->get_connection()) {
bad = true;
dout(5) << " mds." << from << " should be " << c << " "
<< c->get_peer_addrs() << " but this message is "
<< m->get_connection() << " " << m->get_source_addrs()
<< dendl;
}
}
if (bad) {
// bogus mds?
if (m->get_type() == CEPH_MSG_MDS_MAP) {
dout(5) << "got " << *m << " from old/bad/imposter mds " << m->get_source()
<< ", but it's an mdsmap, looking at it" << dendl;
} else if (m->get_type() == MSG_MDS_CACHEEXPIRE &&
mdsmap->get_addrs(from) == m->get_source_addrs()) {
dout(5) << "got " << *m << " from down mds " << m->get_source()
<< ", but it's a cache_expire, looking at it" << dendl;
} else {
dout(5) << "got " << *m << " from down/old/bad/imposter mds " << m->get_source()
<< ", dropping" << dendl;
return true;
}
}
}
return false;
}
Session *MDSRank::get_session(const cref_t<Message> &m)
{
// do not carry ref
auto session = static_cast<Session *>(m->get_connection()->get_priv().get());
if (session) {
dout(20) << "get_session have " << session << " " << session->info.inst
<< " state " << session->get_state_name() << dendl;
// Check if we've imported an open session since (new sessions start closed)
if (session->is_closed() && m->get_type() == CEPH_MSG_CLIENT_SESSION) {
Session *imported_session = sessionmap.get_session(session->info.inst.name);
if (imported_session && imported_session != session) {
dout(10) << __func__ << " replacing connection bootstrap session "
<< session << " with imported session " << imported_session
<< dendl;
imported_session->info.auth_name = session->info.auth_name;
//assert(session->info.auth_name == imported_session->info.auth_name);
ceph_assert(session->info.inst == imported_session->info.inst);
imported_session->set_connection(session->get_connection().get());
// send out any queued messages
while (!session->preopen_out_queue.empty()) {
imported_session->get_connection()->send_message2(std::move(session->preopen_out_queue.front()));
session->preopen_out_queue.pop_front();
}
imported_session->auth_caps = session->auth_caps;
imported_session->last_seen = session->last_seen;
ceph_assert(session->get_nref() == 1);
imported_session->get_connection()->set_priv(imported_session->get());
session = imported_session;
}
}
} else {
dout(20) << "get_session dne for " << m->get_source_inst() << dendl;
}
return session;
}
void MDSRank::send_message(const ref_t<Message>& m, const ConnectionRef& c)
{
ceph_assert(c);
c->send_message2(m);
}
class C_MDS_RetrySendMessageMDS : public MDSInternalContext {
public:
C_MDS_RetrySendMessageMDS(MDSRank* mds, mds_rank_t who, ref_t<Message> m)
: MDSInternalContext(mds), who(who), m(std::move(m)) {}
void finish(int r) override {
mds->send_message_mds(m, who);
}
private:
mds_rank_t who;
ref_t<Message> m;
};
void MDSRank::send_message_mds(const ref_t<Message>& m, mds_rank_t mds)
{
if (!mdsmap->is_up(mds)) {
dout(10) << "send_message_mds mds." << mds << " not up, dropping " << *m << dendl;
return;
} else if (mdsmap->is_bootstrapping(mds)) {
dout(5) << __func__ << "mds." << mds << " is bootstrapping, deferring " << *m << dendl;
wait_for_bootstrapped_peer(mds, new C_MDS_RetrySendMessageMDS(this, mds, m));
return;
}
// send mdsmap first?
auto addrs = mdsmap->get_addrs(mds);
if (mds != whoami && peer_mdsmap_epoch[mds] < mdsmap->get_epoch()) {
auto _m = make_message<MMDSMap>(monc->get_fsid(), *mdsmap);
send_message_mds(_m, addrs);
peer_mdsmap_epoch[mds] = mdsmap->get_epoch();
}
// send message
send_message_mds(m, addrs);
}
void MDSRank::send_message_mds(const ref_t<Message>& m, const entity_addrvec_t &addr)
{
messenger->send_to_mds(ref_t<Message>(m).detach(), addr);
}
void MDSRank::forward_message_mds(MDRequestRef& mdr, mds_rank_t mds)
{
ceph_assert(mds != whoami);
auto m = mdr->release_client_request();
/*
* don't actually forward if non-idempotent!
* client has to do it. although the MDS will ignore duplicate requests,
* the affected metadata may migrate, in which case the new authority
* won't have the metareq_id in the completed request map.
*/
// NEW: always make the client resend!
bool client_must_resend = true; //!creq->can_forward();
// tell the client where it should go
auto session = get_session(m);
if (!session) {
dout(1) << "no session found, failed to forward client request " << mdr << dendl;
return;
}
auto f = make_message<MClientRequestForward>(m->get_tid(), mds, m->get_num_fwd()+1, client_must_resend);
send_message_client(f, session);
}
void MDSRank::send_message_client_counted(const ref_t<Message>& m, client_t client)
{
Session *session = sessionmap.get_session(entity_name_t::CLIENT(client.v));
if (session) {
send_message_client_counted(m, session);
} else {
dout(10) << "send_message_client_counted no session for client." << client << " " << *m << dendl;
}
}
void MDSRank::send_message_client_counted(const ref_t<Message>& m, const ConnectionRef& connection)
{
// do not carry ref
auto session = static_cast<Session *>(connection->get_priv().get());
if (session) {
send_message_client_counted(m, session);
} else {
dout(10) << "send_message_client_counted has no session for " << m->get_source_inst() << dendl;
// another Connection took over the Session
}
}
void MDSRank::send_message_client_counted(const ref_t<Message>& m, Session* session)
{
version_t seq = session->inc_push_seq();
dout(10) << "send_message_client_counted " << session->info.inst.name << " seq "
<< seq << " " << *m << dendl;
if (session->get_connection()) {
session->get_connection()->send_message2(m);
} else {
session->preopen_out_queue.push_back(m);
}
}
void MDSRank::send_message_client(const ref_t<Message>& m, Session* session)
{
dout(10) << "send_message_client " << session->info.inst << " " << *m << dendl;
if (session->get_connection()) {
session->get_connection()->send_message2(m);
} else {
session->preopen_out_queue.push_back(m);
}
}
/**
* This is used whenever a RADOS operation has been cancelled
* or a RADOS client has been blocklisted, to cause the MDS and
* any clients to wait for this OSD epoch before using any new caps.
*
* See doc/cephfs/eviction
*/
void MDSRank::set_osd_epoch_barrier(epoch_t e)
{
dout(4) << __func__ << ": epoch=" << e << dendl;
osd_epoch_barrier = e;
}
void MDSRank::retry_dispatch(const cref_t<Message> &m)
{
inc_dispatch_depth();
_dispatch(m, false);
dec_dispatch_depth();
}
double MDSRank::get_dispatch_queue_max_age(utime_t now) const
{
return messenger->get_dispatch_queue_max_age(now);
}
bool MDSRank::is_daemon_stopping() const
{
return stopping;
}
void MDSRank::request_state(MDSMap::DaemonState s)
{
dout(3) << "request_state " << ceph_mds_state_name(s) << dendl;
beacon.set_want_state(*mdsmap, s);
beacon.send();
}
class C_MDS_BootStart : public MDSInternalContext {
MDSRank::BootStep nextstep;
public:
C_MDS_BootStart(MDSRank *m, MDSRank::BootStep n)
: MDSInternalContext(m), nextstep(n) {}
void finish(int r) override {
mds->boot_start(nextstep, r);
}
};
void MDSRank::boot_start(BootStep step, int r)
{
// Handle errors from previous step
if (r < 0) {
if (is_standby_replay() && (r == -CEPHFS_EAGAIN)) {
dout(0) << "boot_start encountered an error CEPHFS_EAGAIN"
<< ", respawning since we fell behind journal" << dendl;
respawn();
} else if (r == -CEPHFS_EINVAL || r == -CEPHFS_ENOENT) {
// Invalid or absent data, indicates damaged on-disk structures
clog->error() << "Error loading MDS rank " << whoami << ": "
<< cpp_strerror(r);
damaged();
ceph_assert(r == 0); // Unreachable, damaged() calls respawn()
} else if (r == -CEPHFS_EROFS) {
dout(0) << "boot error forcing transition to read-only; MDS will try to continue" << dendl;
} else {
// Completely unexpected error, give up and die
dout(0) << "boot_start encountered an error, failing" << dendl;
suicide();
return;
}
}
ceph_assert(is_starting() || is_any_replay());
switch(step) {
case MDS_BOOT_INITIAL:
{
mdcache->init_layouts();
MDSGatherBuilder gather(g_ceph_context,
new C_MDS_BootStart(this, MDS_BOOT_OPEN_ROOT));
dout(2) << "Booting: " << step << ": opening inotable" << dendl;
inotable->set_rank(whoami);
inotable->load(gather.new_sub());
dout(2) << "Booting: " << step << ": opening sessionmap" << dendl;
sessionmap.set_rank(whoami);
sessionmap.load(gather.new_sub());
dout(2) << "Booting: " << step << ": opening mds log" << dendl;
mdlog->open(gather.new_sub());
if (is_starting()) {
dout(2) << "Booting: " << step << ": opening purge queue" << dendl;
purge_queue.open(new C_IO_Wrapper(this, gather.new_sub()));
} else if (!standby_replaying) {
dout(2) << "Booting: " << step << ": opening purge queue (async)" << dendl;
purge_queue.open(NULL);
dout(2) << "Booting: " << step << ": loading open file table (async)" << dendl;
mdcache->open_file_table.load(nullptr);
}
if (mdsmap->get_tableserver() == whoami) {
dout(2) << "Booting: " << step << ": opening snap table" << dendl;
snapserver->set_rank(whoami);
snapserver->load(gather.new_sub());
}
gather.activate();
}
break;
case MDS_BOOT_OPEN_ROOT:
{
dout(2) << "Booting: " << step << ": loading/discovering base inodes" << dendl;
MDSGatherBuilder gather(g_ceph_context,
new C_MDS_BootStart(this, MDS_BOOT_PREPARE_LOG));
if (is_starting()) {
// load mydir frag for the first log segment (creating subtree map)
mdcache->open_mydir_frag(gather.new_sub());
} else {
mdcache->open_mydir_inode(gather.new_sub());
}
mdcache->create_global_snaprealm();
if (whoami == mdsmap->get_root()) { // load root inode off disk if we are auth
mdcache->open_root_inode(gather.new_sub());
} else if (is_any_replay()) {
// replay. make up fake root inode to start with
mdcache->create_root_inode();
}
gather.activate();
}
break;
case MDS_BOOT_PREPARE_LOG:
if (is_any_replay()) {
dout(2) << "Booting: " << step << ": replaying mds log" << dendl;
MDSGatherBuilder gather(g_ceph_context,
new C_MDS_BootStart(this, MDS_BOOT_REPLAY_DONE));
if (!standby_replaying) {
dout(2) << "Booting: " << step << ": waiting for purge queue recovered" << dendl;
purge_queue.wait_for_recovery(new C_IO_Wrapper(this, gather.new_sub()));
}
mdlog->replay(gather.new_sub());
gather.activate();
} else {
dout(2) << "Booting: " << step << ": positioning at end of old mds log" << dendl;
mdlog->append();
starting_done();
}
break;
case MDS_BOOT_REPLAY_DONE:
ceph_assert(is_any_replay());
// Sessiontable and inotable should be in sync after replay, validate
// that they are consistent.
validate_sessions();
replay_done();
break;
}
}
void MDSRank::validate_sessions()
{
ceph_assert(ceph_mutex_is_locked_by_me(mds_lock));
bool valid = true;
// Identify any sessions which have state inconsistent with other,
// after they have been loaded from rados during startup.
// Mitigate bugs like: http://tracker.ceph.com/issues/16842
for (const auto &i : sessionmap.get_sessions()) {
Session *session = i.second;
ceph_assert(session->info.prealloc_inos == session->free_prealloc_inos);
interval_set<inodeno_t> badones;
if (inotable->intersects_free(session->info.prealloc_inos, &badones)) {
clog->error() << "client " << *session
<< "loaded with preallocated inodes that are inconsistent with inotable";
valid = false;
}
}
if (!valid) {
damaged();
ceph_assert(valid);
}
}
void MDSRank::starting_done()
{
dout(3) << "starting_done" << dendl;
ceph_assert(is_starting());
request_state(MDSMap::STATE_ACTIVE);
mdlog->start_new_segment();
// sync snaptable cache
snapclient->sync(new C_MDSInternalNoop);
}
void MDSRank::calc_recovery_set()
{
// initialize gather sets
set<mds_rank_t> rs;
mdsmap->get_recovery_mds_set(rs);
rs.erase(whoami);
mdcache->set_recovery_set(rs);
dout(1) << " recovery set is " << rs << dendl;
}
void MDSRank::replay_start()
{
dout(1) << "replay_start" << dendl;
if (is_standby_replay()) {
standby_replaying = true;
if (unlikely(g_conf().get_val<bool>("mds_standby_replay_damaged"))) {
damaged();
}
}
// Check if we need to wait for a newer OSD map before starting
bool const ready = objecter->with_osdmap(
[this](const OSDMap& o) {
return o.get_epoch() >= mdsmap->get_last_failure_osd_epoch();
});
if (ready) {
boot_start();
} else {
dout(1) << " waiting for osdmap " << mdsmap->get_last_failure_osd_epoch()
<< " (which blocklists prior instance)" << dendl;
Context *fin = new C_IO_Wrapper(this, new C_MDS_BootStart(this, MDS_BOOT_INITIAL));
objecter->wait_for_map(
mdsmap->get_last_failure_osd_epoch(),
lambdafy(fin));
}
}
class MDSRank::C_MDS_StandbyReplayRestartFinish : public MDSIOContext {
uint64_t old_read_pos;
public:
C_MDS_StandbyReplayRestartFinish(MDSRank *mds_, uint64_t old_read_pos_) :
MDSIOContext(mds_), old_read_pos(old_read_pos_) {}
void finish(int r) override {
mds->_standby_replay_restart_finish(r, old_read_pos);
}
void print(ostream& out) const override {
out << "standby_replay_restart";
}
};
void MDSRank::_standby_replay_restart_finish(int r, uint64_t old_read_pos)
{
if (old_read_pos < mdlog->get_journaler()->get_trimmed_pos()) {
dout(0) << "standby MDS fell behind active MDS journal's expire_pos, restarting" << dendl;
respawn(); /* we're too far back, and this is easier than
trying to reset everything in the cache, etc */
} else {
mdlog->standby_trim_segments();
boot_start(MDS_BOOT_PREPARE_LOG, r);
}
}
class MDSRank::C_MDS_StandbyReplayRestart : public MDSInternalContext {
public:
explicit C_MDS_StandbyReplayRestart(MDSRank *m) : MDSInternalContext(m) {}
void finish(int r) override {
ceph_assert(!r);
mds->standby_replay_restart();
}
};
void MDSRank::standby_replay_restart()
{
if (standby_replaying) {
/* Go around for another pass of replaying in standby */
dout(5) << "Restarting replay as standby-replay" << dendl;
mdlog->get_journaler()->reread_head_and_probe(
new C_MDS_StandbyReplayRestartFinish(
this,
mdlog->get_journaler()->get_read_pos()));
} else {
/* We are transitioning out of standby: wait for OSD map update
before making final pass */
dout(1) << "standby_replay_restart (final takeover pass)" << dendl;
bool ready = objecter->with_osdmap(
[this](const OSDMap& o) {
return o.get_epoch() >= mdsmap->get_last_failure_osd_epoch();
});
if (ready) {
mdlog->get_journaler()->reread_head_and_probe(
new C_MDS_StandbyReplayRestartFinish(
this,
mdlog->get_journaler()->get_read_pos()));
dout(1) << " opening purge_queue (async)" << dendl;
purge_queue.open(NULL);
dout(1) << " opening open_file_table (async)" << dendl;
mdcache->open_file_table.load(nullptr);
} else {
auto fin = new C_IO_Wrapper(this, new C_MDS_StandbyReplayRestart(this));
dout(1) << " waiting for osdmap " << mdsmap->get_last_failure_osd_epoch()
<< " (which blocklists prior instance)" << dendl;
objecter->wait_for_map(mdsmap->get_last_failure_osd_epoch(),
lambdafy(fin));
}
}
}
void MDSRank::replay_done()
{
if (!standby_replaying) {
dout(1) << "Finished replaying journal" << dendl;
} else {
dout(5) << "Finished replaying journal as standby-replay" << dendl;
}
if (is_standby_replay()) {
// The replay was done in standby state, and we are still in that state
ceph_assert(standby_replaying);
dout(10) << "setting replay timer" << dendl;
timer.add_event_after(g_conf()->mds_replay_interval,
new C_MDS_StandbyReplayRestart(this));
return;
} else if (standby_replaying) {
// The replay was done in standby state, we have now _left_ that state
dout(10) << " last replay pass was as a standby; making final pass" << dendl;
standby_replaying = false;
standby_replay_restart();
return;
} else {
// Replay is complete, journal read should be up to date
ceph_assert(mdlog->get_journaler()->get_read_pos() == mdlog->get_journaler()->get_write_pos());
ceph_assert(!is_standby_replay());
// Reformat and come back here
if (mdlog->get_journaler()->get_stream_format() < g_conf()->mds_journal_format) {
dout(4) << "reformatting journal on standby-replay->replay transition" << dendl;
mdlog->reopen(new C_MDS_BootStart(this, MDS_BOOT_REPLAY_DONE));
return;
}
}
dout(1) << "making mds journal writeable" << dendl;
mdlog->get_journaler()->set_writeable();
mdlog->get_journaler()->trim_tail();
if (mdsmap->get_tableserver() == whoami &&
snapserver->upgrade_format()) {
dout(1) << "upgrading snaptable format" << dendl;
snapserver->save(new C_MDSInternalNoop);
}
if (g_conf()->mds_wipe_sessions) {
dout(1) << "wiping out client sessions" << dendl;
sessionmap.wipe();
sessionmap.save(new C_MDSInternalNoop);
}
if (g_conf()->mds_wipe_ino_prealloc) {
dout(1) << "wiping out ino prealloc from sessions" << dendl;
sessionmap.wipe_ino_prealloc();
sessionmap.save(new C_MDSInternalNoop);
}
if (g_conf()->mds_skip_ino) {
inodeno_t i = g_conf()->mds_skip_ino;
dout(1) << "skipping " << i << " inodes" << dendl;
inotable->skip_inos(i);
inotable->save(new C_MDSInternalNoop);
}
if (mdsmap->get_num_in_mds() == 1 &&
mdsmap->get_num_failed_mds() == 0) { // just me!
dout(2) << "i am alone, moving to state reconnect" << dendl;
request_state(MDSMap::STATE_RECONNECT);
// sync snaptable cache
snapclient->sync(new C_MDSInternalNoop);
} else {
dout(2) << "i am not alone, moving to state resolve" << dendl;
request_state(MDSMap::STATE_RESOLVE);
}
}
void MDSRank::reopen_log()
{
dout(1) << "reopen_log" << dendl;
mdcache->rollback_uncommitted_fragments();
}
void MDSRank::resolve_start()
{
dout(1) << "resolve_start" << dendl;
reopen_log();
calc_recovery_set();
mdcache->resolve_start(new C_MDS_VoidFn(this, &MDSRank::resolve_done));
finish_contexts(g_ceph_context, waiting_for_resolve);
}
void MDSRank::resolve_done()
{
dout(1) << "resolve_done" << dendl;
request_state(MDSMap::STATE_RECONNECT);
// sync snaptable cache
snapclient->sync(new C_MDSInternalNoop);
}
void MDSRank::apply_blocklist(const std::set<entity_addr_t> &addrs, epoch_t epoch) {
auto victims = server->apply_blocklist();
dout(4) << __func__ << ": killed " << victims << ", blocklisted sessions ("
<< addrs.size() << " blocklist entries, "
<< sessionmap.get_sessions().size() << ")" << dendl;
if (victims) {
set_osd_epoch_barrier(epoch);
}
}
void MDSRank::reconnect_start()
{
dout(1) << "reconnect_start" << dendl;
if (last_state == MDSMap::STATE_REPLAY) {
reopen_log();
}
// Drop any blocklisted clients from the SessionMap before going
// into reconnect, so that we don't wait for them.
objecter->enable_blocklist_events();
std::set<entity_addr_t> blocklist;
std::set<entity_addr_t> range;
epoch_t epoch = 0;
objecter->with_osdmap([&blocklist, &range, &epoch](const OSDMap& o) {
o.get_blocklist(&blocklist, &range);
epoch = o.get_epoch();
});
apply_blocklist(blocklist, epoch);
server->reconnect_clients(new C_MDS_VoidFn(this, &MDSRank::reconnect_done));
finish_contexts(g_ceph_context, waiting_for_reconnect);
}
void MDSRank::reconnect_done()
{
dout(1) << "reconnect_done" << dendl;
request_state(MDSMap::STATE_REJOIN); // move to rejoin state
}
void MDSRank::rejoin_joint_start()
{
dout(1) << "rejoin_joint_start" << dendl;
mdcache->rejoin_send_rejoins();
}
void MDSRank::rejoin_start()
{
dout(1) << "rejoin_start" << dendl;
mdcache->rejoin_start(new C_MDS_VoidFn(this, &MDSRank::rejoin_done));
finish_contexts(g_ceph_context, waiting_for_rejoin);
}
void MDSRank::rejoin_done()
{
dout(1) << "rejoin_done" << dendl;
mdcache->show_subtrees();
mdcache->show_cache();
if (mdcache->is_any_uncommitted_fragment()) {
dout(1) << " waiting for uncommitted fragments" << dendl;
mdcache->wait_for_uncommitted_fragments(new C_MDS_VoidFn(this, &MDSRank::rejoin_done));
return;
}
// funny case: is our cache empty? no subtrees?
if (!mdcache->is_subtrees()) {
if (whoami == 0) {
// The root should always have a subtree!
clog->error() << "No subtrees found for root MDS rank!";
damaged();
ceph_assert(mdcache->is_subtrees());
} else {
dout(1) << " empty cache, no subtrees, leaving cluster" << dendl;
request_state(MDSMap::STATE_STOPPED);
}
return;
}
if (replay_queue.empty() && !server->get_num_pending_reclaim()) {
request_state(MDSMap::STATE_ACTIVE);
} else {
replaying_requests_done = replay_queue.empty();
request_state(MDSMap::STATE_CLIENTREPLAY);
}
}
void MDSRank::clientreplay_start()
{
dout(1) << "clientreplay_start" << dendl;
finish_contexts(g_ceph_context, waiting_for_replay); // kick waiters
queue_one_replay();
}
bool MDSRank::queue_one_replay()
{
if (!replay_queue.empty()) {
queue_waiter(replay_queue.front());
replay_queue.pop_front();
dout(10) << " queued next replay op" << dendl;
return true;
}
if (!replaying_requests_done) {
replaying_requests_done = true;
mdlog->flush();
}
maybe_clientreplay_done();
dout(10) << " journaled last replay op" << dendl;
return false;
}
void MDSRank::maybe_clientreplay_done()
{
if (is_clientreplay() && get_want_state() == MDSMap::STATE_CLIENTREPLAY) {
// don't go to active if there are session waiting for being reclaimed
if (replaying_requests_done && !server->get_num_pending_reclaim()) {
mdlog->wait_for_safe(new C_MDS_VoidFn(this, &MDSRank::clientreplay_done));
return;
}
dout(1) << " still have " << replay_queue.size() + (int)!replaying_requests_done
<< " requests need to be replayed, " << server->get_num_pending_reclaim()
<< " sessions need to be reclaimed" << dendl;
}
}
void MDSRank::clientreplay_done()
{
dout(1) << "clientreplay_done" << dendl;
request_state(MDSMap::STATE_ACTIVE);
}
void MDSRank::active_start()
{
dout(1) << "active_start" << dendl;
if (last_state == MDSMap::STATE_CREATING ||
last_state == MDSMap::STATE_STARTING) {
mdcache->open_root();
}
dout(10) << __func__ << ": initializing metrics handler" << dendl;
metrics_handler.init();
messenger->add_dispatcher_tail(&metrics_handler);
// metric aggregation is solely done by rank 0
if (is_rank0()) {
dout(10) << __func__ << ": initializing metric aggregator" << dendl;
ceph_assert(metric_aggregator == nullptr);
metric_aggregator = std::make_unique<MetricAggregator>(cct, this, mgrc);
metric_aggregator->init();
messenger->add_dispatcher_tail(metric_aggregator.get());
}
mdcache->clean_open_file_lists();
mdcache->export_remaining_imported_caps();
finish_contexts(g_ceph_context, waiting_for_replay); // kick waiters
mdcache->reissue_all_caps();
finish_contexts(g_ceph_context, waiting_for_active); // kick waiters
}
void MDSRank::recovery_done(int oldstate)
{
dout(1) << "recovery_done -- successful recovery!" << dendl;
ceph_assert(is_clientreplay() || is_active());
if (oldstate == MDSMap::STATE_CREATING)
return;
mdcache->start_recovered_truncates();
mdcache->start_purge_inodes();
mdcache->start_files_to_recover();
mdcache->populate_mydir();
}
void MDSRank::creating_done()
{
dout(1)<< "creating_done" << dendl;
request_state(MDSMap::STATE_ACTIVE);
// sync snaptable cache
snapclient->sync(new C_MDSInternalNoop);
}
void MDSRank::boot_create()
{
dout(3) << "boot_create" << dendl;
MDSGatherBuilder fin(g_ceph_context, new C_MDS_VoidFn(this, &MDSRank::creating_done));
mdcache->init_layouts();
inotable->set_rank(whoami);
sessionmap.set_rank(whoami);
// start with a fresh journal
dout(10) << "boot_create creating fresh journal" << dendl;
mdlog->create(fin.new_sub());
// open new journal segment, but do not journal subtree map (yet)
mdlog->prepare_new_segment();
if (whoami == mdsmap->get_root()) {
dout(3) << "boot_create creating fresh hierarchy" << dendl;
mdcache->create_empty_hierarchy(fin.get());
}
dout(3) << "boot_create creating mydir hierarchy" << dendl;
mdcache->create_mydir_hierarchy(fin.get());
dout(3) << "boot_create creating global snaprealm" << dendl;
mdcache->create_global_snaprealm();
// fixme: fake out inotable (reset, pretend loaded)
dout(10) << "boot_create creating fresh inotable table" << dendl;
inotable->reset();
inotable->save(fin.new_sub());
// write empty sessionmap
sessionmap.save(fin.new_sub());
// Create empty purge queue
purge_queue.create(new C_IO_Wrapper(this, fin.new_sub()));
// initialize tables
if (mdsmap->get_tableserver() == whoami) {
dout(10) << "boot_create creating fresh snaptable" << dendl;
snapserver->set_rank(whoami);
snapserver->reset();
snapserver->save(fin.new_sub());
}
ceph_assert(g_conf()->mds_kill_create_at != 1);
// ok now journal it
mdlog->journal_segment_subtree_map(fin.new_sub());
mdlog->flush();
// Usually we do this during reconnect, but creation skips that.
objecter->enable_blocklist_events();
fin.activate();
}
void MDSRank::stopping_start()
{
dout(2) << "Stopping..." << dendl;
if (mdsmap->get_num_in_mds() == 1 && !sessionmap.empty()) {
std::vector<Session*> victims;
const auto& sessions = sessionmap.get_sessions();
for (const auto& p : sessions) {
if (!p.first.is_client()) {
continue;
}
Session *s = p.second;
victims.push_back(s);
}
dout(20) << __func__ << " matched " << victims.size() << " sessions" << dendl;
ceph_assert(!victims.empty());
C_GatherBuilder gather(g_ceph_context, new C_MDSInternalNoop);
for (const auto &s : victims) {
CachedStackStringStream css;
evict_client(s->get_client().v, false,
g_conf()->mds_session_blocklist_on_evict, *css, gather.new_sub());
}
gather.activate();
}
mdcache->shutdown_start();
}
void MDSRank::stopping_done()
{
dout(2) << "Finished stopping..." << dendl;
// tell monitor we shut down cleanly.
request_state(MDSMap::STATE_STOPPED);
}
void MDSRankDispatcher::handle_mds_map(
const cref_t<MMDSMap> &m,
const MDSMap &oldmap)
{
// I am only to be passed MDSMaps in which I hold a rank
ceph_assert(whoami != MDS_RANK_NONE);
mds_gid_t mds_gid = mds_gid_t(monc->get_global_id());
MDSMap::DaemonState oldstate = oldmap.get_state_gid(mds_gid);
if (oldstate == MDSMap::STATE_NULL) {
// monitor may skip sending me the STANDBY map (e.g. if paxos_propose_interval is high)
// Assuming I have passed STANDBY state if I got a rank in the first map.
oldstate = MDSMap::STATE_STANDBY;
}
// I should not miss map update
ceph_assert(state == oldstate);
state = mdsmap->get_state_gid(mds_gid);
if (state != oldstate) {
last_state = oldstate;
incarnation = mdsmap->get_inc_gid(mds_gid);
}
version_t epoch = m->get_epoch();
// note source's map version
if (m->get_source().is_mds() &&
peer_mdsmap_epoch[mds_rank_t(m->get_source().num())] < epoch) {
dout(15) << " peer " << m->get_source()
<< " has mdsmap epoch >= " << epoch
<< dendl;
peer_mdsmap_epoch[mds_rank_t(m->get_source().num())] = epoch;
}
// Validate state transitions while I hold a rank
if (!MDSMap::state_transition_valid(oldstate, state)) {
derr << "Invalid state transition " << ceph_mds_state_name(oldstate)
<< "->" << ceph_mds_state_name(state) << dendl;
respawn();
}
if (oldstate != state) {
// update messenger.
auto sleep_rank_change = g_conf().get_val<double>("mds_sleep_rank_change");
if (unlikely(sleep_rank_change > 0)) {
// This is to trigger a race where another rank tries to connect to this
// MDS before an update to the messenger "myname" is processed. This race
// should be closed by ranks holding messages until the rank is out of a
// "bootstrapping" state.
usleep(sleep_rank_change);
} if (state == MDSMap::STATE_STANDBY_REPLAY) {
dout(1) << "handle_mds_map i am now mds." << mds_gid << "." << incarnation
<< " replaying mds." << whoami << "." << incarnation << dendl;
messenger->set_myname(entity_name_t::MDS(mds_gid));
} else {
dout(1) << "handle_mds_map i am now mds." << whoami << "." << incarnation << dendl;
messenger->set_myname(entity_name_t::MDS(whoami));
}
}
// tell objecter my incarnation
if (objecter->get_client_incarnation() != incarnation)
objecter->set_client_incarnation(incarnation);
if (mdsmap->get_required_client_features() != oldmap.get_required_client_features())
server->update_required_client_features();
// for debug
if (g_conf()->mds_dump_cache_on_map)
mdcache->dump_cache();
cluster_degraded = mdsmap->is_degraded();
// mdsmap and oldmap can be discontinuous. failover might happen in the missing mdsmap.
// the 'restart' set tracks ranks that have restarted since the old mdsmap
set<mds_rank_t> restart;
// replaying mds does not communicate with other ranks
if (state >= MDSMap::STATE_RESOLVE) {
// did someone fail?
// new down?
set<mds_rank_t> olddown, down;
oldmap.get_down_mds_set(&olddown);
mdsmap->get_down_mds_set(&down);
for (const auto& r : down) {
if (oldmap.have_inst(r) && olddown.count(r) == 0) {
messenger->mark_down_addrs(oldmap.get_addrs(r));
handle_mds_failure(r);
}
}
// did someone fail?
// did their addr/inst change?
set<mds_rank_t> up;
mdsmap->get_up_mds_set(up);
for (const auto& r : up) {
auto& info = mdsmap->get_info(r);
if (oldmap.have_inst(r)) {
auto& oldinfo = oldmap.get_info(r);
if (info.inc != oldinfo.inc) {
messenger->mark_down_addrs(oldinfo.get_addrs());
if (info.state == MDSMap::STATE_REPLAY ||
info.state == MDSMap::STATE_RESOLVE) {
restart.insert(r);
handle_mds_failure(r);
} else {
ceph_assert(info.state == MDSMap::STATE_STARTING ||
info.state == MDSMap::STATE_ACTIVE);
// -> stopped (missing) -> starting -> active
restart.insert(r);
mdcache->migrator->handle_mds_failure_or_stop(r);
if (mdsmap->get_tableserver() == whoami)
snapserver->handle_mds_failure_or_stop(r);
}
}
} else {
if (info.state == MDSMap::STATE_REPLAY ||
info.state == MDSMap::STATE_RESOLVE) {
// -> starting/creating (missing) -> active (missing) -> replay -> resolve
restart.insert(r);
handle_mds_failure(r);
} else {
ceph_assert(info.state == MDSMap::STATE_CREATING ||
info.state == MDSMap::STATE_STARTING ||
info.state == MDSMap::STATE_ACTIVE);
}
}
}
}
// did it change?
if (oldstate != state) {
dout(1) << "handle_mds_map state change "
<< ceph_mds_state_name(oldstate) << " --> "
<< ceph_mds_state_name(state) << dendl;
beacon.set_want_state(*mdsmap, state);
if (oldstate == MDSMap::STATE_STANDBY_REPLAY) {
dout(10) << "Monitor activated us! Deactivating replay loop" << dendl;
ceph_assert (state == MDSMap::STATE_REPLAY);
} else {
// did i just recover?
if ((is_active() || is_clientreplay()) &&
(oldstate == MDSMap::STATE_CREATING ||
oldstate == MDSMap::STATE_REJOIN ||
oldstate == MDSMap::STATE_RECONNECT))
recovery_done(oldstate);
if (is_active()) {
active_start();
} else if (is_any_replay()) {
replay_start();
} else if (is_resolve()) {
resolve_start();
} else if (is_reconnect()) {
reconnect_start();
} else if (is_rejoin()) {
rejoin_start();
} else if (is_clientreplay()) {
clientreplay_start();
} else if (is_creating()) {
boot_create();
} else if (is_starting()) {
boot_start();
} else if (is_stopping()) {
ceph_assert(oldstate == MDSMap::STATE_ACTIVE);
stopping_start();
}
}
}
// RESOLVE
// is someone else newly resolving?
if (state >= MDSMap::STATE_RESOLVE) {
// recover snaptable
if (mdsmap->get_tableserver() == whoami) {
if (oldstate < MDSMap::STATE_RESOLVE) {
set<mds_rank_t> s;
mdsmap->get_mds_set_lower_bound(s, MDSMap::STATE_RESOLVE);
snapserver->finish_recovery(s);
} else {
set<mds_rank_t> old_set, new_set;
oldmap.get_mds_set_lower_bound(old_set, MDSMap::STATE_RESOLVE);
mdsmap->get_mds_set_lower_bound(new_set, MDSMap::STATE_RESOLVE);
for (const auto& r : new_set) {
if (r == whoami)
continue; // not me
if (!old_set.count(r) || restart.count(r)) { // newly so?
snapserver->handle_mds_recovery(r);
}
}
}
}
if ((!oldmap.is_resolving() || !restart.empty()) && mdsmap->is_resolving()) {
set<mds_rank_t> resolve;
mdsmap->get_mds_set(resolve, MDSMap::STATE_RESOLVE);
dout(10) << " resolve set is " << resolve << dendl;
calc_recovery_set();
mdcache->send_resolves();
}
}
// REJOIN
// is everybody finally rejoining?
if (state >= MDSMap::STATE_REJOIN) {
// did we start?
if (!oldmap.is_rejoining() && mdsmap->is_rejoining())
rejoin_joint_start();
// did we finish?
if (g_conf()->mds_dump_cache_after_rejoin &&
oldmap.is_rejoining() && !mdsmap->is_rejoining())
mdcache->dump_cache(); // for DEBUG only
if (oldstate >= MDSMap::STATE_REJOIN ||
oldstate == MDSMap::STATE_STARTING) {
// ACTIVE|CLIENTREPLAY|REJOIN => we can discover from them.
set<mds_rank_t> olddis, dis;
oldmap.get_mds_set_lower_bound(olddis, MDSMap::STATE_REJOIN);
mdsmap->get_mds_set_lower_bound(dis, MDSMap::STATE_REJOIN);
for (const auto& r : dis) {
if (r == whoami)
continue; // not me
if (!olddis.count(r) || restart.count(r)) { // newly so?
mdcache->kick_discovers(r);
mdcache->kick_open_ino_peers(r);
}
}
}
}
if (oldmap.is_degraded() && !cluster_degraded && state >= MDSMap::STATE_ACTIVE) {
dout(1) << "cluster recovered." << dendl;
auto it = waiting_for_active_peer.find(MDS_RANK_NONE);
if (it != waiting_for_active_peer.end()) {
queue_waiters(it->second);
waiting_for_active_peer.erase(it);
}
}
// did someone leave a "bootstrapping" state? We can't connect until then to
// allow messenger "myname" updates.
{
std::vector<mds_rank_t> erase;
for (auto& [rank, queue] : waiting_for_bootstrapping_peer) {
auto state = mdsmap->get_state(rank);
if (state > MDSMap::STATE_REPLAY) {
queue_waiters(queue);
erase.push_back(rank);
}
}
for (const auto& rank : erase) {
waiting_for_bootstrapping_peer.erase(rank);
}
}
// for testing...
if (unlikely(g_conf().get_val<bool>("mds_connect_bootstrapping"))) {
std::set<mds_rank_t> bootstrapping;
mdsmap->get_mds_set(bootstrapping, MDSMap::STATE_REPLAY);
mdsmap->get_mds_set(bootstrapping, MDSMap::STATE_CREATING);
mdsmap->get_mds_set(bootstrapping, MDSMap::STATE_STARTING);
for (const auto& rank : bootstrapping) {
auto m = make_message<MMDSMap>(monc->get_fsid(), *mdsmap);
send_message_mds(std::move(m), rank);
}
}
// did someone go active?
if (state >= MDSMap::STATE_CLIENTREPLAY &&
oldstate >= MDSMap::STATE_CLIENTREPLAY) {
set<mds_rank_t> oldactive, active;
oldmap.get_mds_set_lower_bound(oldactive, MDSMap::STATE_CLIENTREPLAY);
mdsmap->get_mds_set_lower_bound(active, MDSMap::STATE_CLIENTREPLAY);
for (const auto& r : active) {
if (r == whoami)
continue; // not me
if (!oldactive.count(r) || restart.count(r)) // newly so?
handle_mds_recovery(r);
}
}
if (is_clientreplay() || is_active() || is_stopping()) {
// did anyone stop?
set<mds_rank_t> oldstopped, stopped;
oldmap.get_stopped_mds_set(oldstopped);
mdsmap->get_stopped_mds_set(stopped);
for (const auto& r : stopped)
if (oldstopped.count(r) == 0) { // newly so?
mdcache->migrator->handle_mds_failure_or_stop(r);
if (mdsmap->get_tableserver() == whoami)
snapserver->handle_mds_failure_or_stop(r);
}
}
{
map<epoch_t,MDSContext::vec >::iterator p = waiting_for_mdsmap.begin();
while (p != waiting_for_mdsmap.end() && p->first <= mdsmap->get_epoch()) {
MDSContext::vec ls;
ls.swap(p->second);
waiting_for_mdsmap.erase(p++);
queue_waiters(ls);
}
}
if (is_active()) {
// Before going active, set OSD epoch barrier to latest (so that
// we don't risk handing out caps to clients with old OSD maps that
// might not include barriers from the previous incarnation of this MDS)
set_osd_epoch_barrier(objecter->with_osdmap(
std::mem_fn(&OSDMap::get_epoch)));
/* Now check if we should hint to the OSD that a read may follow */
if (mdsmap->has_standby_replay(whoami))
mdlog->set_write_iohint(0);
else
mdlog->set_write_iohint(CEPH_OSD_OP_FLAG_FADVISE_DONTNEED);
}
if (oldmap.get_max_mds() != mdsmap->get_max_mds()) {
purge_queue.update_op_limit(*mdsmap);
}
if (mdsmap->get_inline_data_enabled() && !oldmap.get_inline_data_enabled())
dout(0) << "WARNING: inline_data support has been deprecated and will be removed in a future release" << dendl;
mdcache->handle_mdsmap(*mdsmap, oldmap);
if (metric_aggregator != nullptr) {
metric_aggregator->notify_mdsmap(*mdsmap);
}
metrics_handler.notify_mdsmap(*mdsmap);
}
void MDSRank::handle_mds_recovery(mds_rank_t who)
{
dout(5) << "handle_mds_recovery mds." << who << dendl;
mdcache->handle_mds_recovery(who);
queue_waiters(waiting_for_active_peer[who]);
waiting_for_active_peer.erase(who);
}
void MDSRank::handle_mds_failure(mds_rank_t who)
{
if (who == whoami) {
dout(5) << "handle_mds_failure for myself; not doing anything" << dendl;
return;
}
dout(5) << "handle_mds_failure mds." << who << dendl;
mdcache->handle_mds_failure(who);
if (mdsmap->get_tableserver() == whoami)
snapserver->handle_mds_failure_or_stop(who);
snapclient->handle_mds_failure(who);
scrubstack->handle_mds_failure(who);
}
void MDSRankDispatcher::handle_asok_command(
std::string_view command,
const cmdmap_t& cmdmap,
Formatter *f,
const bufferlist &inbl,
std::function<void(int,const std::string&,bufferlist&)> on_finish)
{
int r = 0;
CachedStackStringStream css;
bufferlist outbl;
dout(10) << __func__ << ": " << command << dendl;
if (command == "dump_ops_in_flight") {
if (!op_tracker.dump_ops_in_flight(f)) {
*css << "op_tracker disabled; set mds_enable_op_tracker=true to enable";
}
} else if (command == "ops") {
vector<string> flags;
cmd_getval(cmdmap, "flags", flags);
std::unique_lock l(mds_lock, std::defer_lock);
auto lambda = OpTracker::default_dumper;
if (flags.size()) {
/* use std::function if we actually want to capture flags someday */
lambda = [](const TrackedOp& op, Formatter* f) {
auto* req = dynamic_cast<const MDRequestImpl*>(&op);
if (req) {
req->dump_with_mds_lock(f);
} else {
op.dump_type(f);
}
};
l.lock();
}
if (!op_tracker.dump_ops_in_flight(f, false, {""}, false, lambda)) {
*css << "op_tracker disabled; set mds_enable_op_tracker=true to enable";
}
} else if (command == "dump_blocked_ops") {
if (!op_tracker.dump_ops_in_flight(f, true)) {
*css << "op_tracker disabled; set mds_enable_op_tracker=true to enable";
}
} else if (command == "dump_blocked_ops_count") {
if (!op_tracker.dump_ops_in_flight(f, true, {""}, true)) {
*css << "op_tracker disabled; set mds_enable_op_tracker=true to enable";
}
} else if (command == "dump_historic_ops") {
if (!op_tracker.dump_historic_ops(f)) {
*css << "op_tracker disabled; set mds_enable_op_tracker=true to enable";
}
} else if (command == "dump_historic_ops_by_duration") {
if (!op_tracker.dump_historic_ops(f, true)) {
*css << "op_tracker disabled; set mds_enable_op_tracker=true to enable";
}
} else if (command == "osdmap barrier") {
int64_t target_epoch = 0;
bool got_val = cmd_getval(cmdmap, "target_epoch", target_epoch);
if (!got_val) {
*css << "no target epoch given";
r = -CEPHFS_EINVAL;
goto out;
}
{
std::lock_guard l(mds_lock);
set_osd_epoch_barrier(target_epoch);
}
boost::system::error_code ec;
dout(4) << __func__ << ": possibly waiting for OSD epoch " << target_epoch << dendl;
objecter->wait_for_map(target_epoch, ceph::async::use_blocked[ec]);
} else if (command == "session ls" ||
command == "client ls") {
std::lock_guard l(mds_lock);
bool cap_dump = false;
std::vector<std::string> filter_args;
cmd_getval(cmdmap, "cap_dump", cap_dump);
cmd_getval(cmdmap, "filters", filter_args);
SessionFilter filter;
r = filter.parse(filter_args, css.get());
if (r != 0) {
goto out;
}
dump_sessions(filter, f, cap_dump);
} else if (command == "session evict" ||
command == "client evict") {
std::lock_guard l(mds_lock);
std::vector<std::string> filter_args;
cmd_getval(cmdmap, "filters", filter_args);
SessionFilter filter;
r = filter.parse(filter_args, css.get());
if (r != 0) {
r = -CEPHFS_EINVAL;
goto out;
}
evict_clients(filter, on_finish);
return;
} else if (command == "session kill") {
std::string client_id;
if (!cmd_getval(cmdmap, "client_id", client_id)) {
*css << "Invalid client_id specified";
r = -CEPHFS_ENOENT;
goto out;
}
std::lock_guard l(mds_lock);
bool evicted = evict_client(strtol(client_id.c_str(), 0, 10), true,
g_conf()->mds_session_blocklist_on_evict, *css);
if (!evicted) {
dout(15) << css->strv() << dendl;
r = -CEPHFS_ENOENT;
}
} else if (command == "session config" ||
command == "client config") {
int64_t client_id;
std::string option;
std::string value;
cmd_getval(cmdmap, "client_id", client_id);
cmd_getval(cmdmap, "option", option);
bool got_value = cmd_getval(cmdmap, "value", value);
std::lock_guard l(mds_lock);
r = config_client(client_id, !got_value, option, value, *css);
} else if (command == "scrub start" ||
command == "scrub_start") {
if (whoami != 0) {
*css << "Not rank 0";
r = -CEPHFS_EXDEV;
goto out;
}
string path;
string tag;
vector<string> scrubop_vec;
cmd_getval(cmdmap, "scrubops", scrubop_vec);
cmd_getval(cmdmap, "path", path);
cmd_getval(cmdmap, "tag", tag);
finisher->queue(
new LambdaContext(
[this, on_finish, f, path, tag, scrubop_vec](int r) {
command_scrub_start(
f, path, tag, scrubop_vec,
new LambdaContext(
[on_finish](int r) {
bufferlist outbl;
on_finish(r, {}, outbl);
}));
}));
return;
} else if (command == "scrub abort") {
if (whoami != 0) {
*css << "Not rank 0";
r = -CEPHFS_EXDEV;
goto out;
}
finisher->queue(
new LambdaContext(
[this, on_finish, f](int r) {
command_scrub_abort(
f,
new LambdaContext(
[on_finish, f](int r) {
bufferlist outbl;
f->open_object_section("result");
f->dump_int("return_code", r);
f->close_section();
on_finish(r, {}, outbl);
}));
}));
return;
} else if (command == "scrub pause") {
if (whoami != 0) {
*css << "Not rank 0";
r = -CEPHFS_EXDEV;
goto out;
}
finisher->queue(
new LambdaContext(
[this, on_finish, f](int r) {
command_scrub_pause(
f,
new LambdaContext(
[on_finish, f](int r) {
bufferlist outbl;
f->open_object_section("result");
f->dump_int("return_code", r);
f->close_section();
on_finish(r, {}, outbl);
}));
}));
return;
} else if (command == "scrub resume") {
if (whoami != 0) {
*css << "Not rank 0";
r = -CEPHFS_EXDEV;
goto out;
}
command_scrub_resume(f);
} else if (command == "scrub status") {
command_scrub_status(f);
} else if (command == "tag path") {
if (whoami != 0) {
*css << "Not rank 0";
r = -CEPHFS_EXDEV;
goto out;
}
string path;
cmd_getval(cmdmap, "path", path);
string tag;
cmd_getval(cmdmap, "tag", tag);
command_tag_path(f, path, tag);
} else if (command == "flush_path") {
string path;
cmd_getval(cmdmap, "path", path);
command_flush_path(f, path);
} else if (command == "flush journal") {
command_flush_journal(f);
} else if (command == "get subtrees") {
command_get_subtrees(f);
} else if (command == "export dir") {
string path;
if(!cmd_getval(cmdmap, "path", path)) {
*css << "malformed path";
r = -CEPHFS_EINVAL;
goto out;
}
int64_t rank;
if(!cmd_getval(cmdmap, "rank", rank)) {
*css << "malformed rank";
r = -CEPHFS_EINVAL;
goto out;
}
command_export_dir(f, path, (mds_rank_t)rank);
} else if (command == "dump cache") {
std::lock_guard l(mds_lock);
int64_t timeout = 0;
cmd_getval(cmdmap, "timeout", timeout);
auto mds_beacon_interval = g_conf().get_val<double>("mds_beacon_interval");
if (timeout <= 0)
timeout = mds_beacon_interval / 2;
else if (timeout > mds_beacon_interval)
timeout = mds_beacon_interval;
string path;
if (!cmd_getval(cmdmap, "path", path)) {
r = mdcache->dump_cache(f, timeout);
} else {
r = mdcache->dump_cache(path, timeout);
}
} else if (command == "cache drop") {
int64_t timeout = 0;
cmd_getval(cmdmap, "timeout", timeout);
finisher->queue(
new LambdaContext(
[this, on_finish, f, timeout](int r) {
command_cache_drop(
timeout, f,
new LambdaContext(
[on_finish](int r) {
bufferlist outbl;
on_finish(r, {}, outbl);
}));
}));
return;
} else if (command == "cache status") {
std::lock_guard l(mds_lock);
mdcache->cache_status(f);
} else if (command == "dump tree") {
command_dump_tree(cmdmap, *css, f);
} else if (command == "dump loads") {
std::lock_guard l(mds_lock);
int64_t depth = -1;
bool got = cmd_getval(cmdmap, "depth", depth);
if (!got || depth < 0) {
dout(10) << "no depth limit when dirfrags dump_load" << dendl;
}
r = balancer->dump_loads(f, depth);
} else if (command == "dump snaps") {
std::lock_guard l(mds_lock);
string server;
cmd_getval(cmdmap, "server", server);
if (server == "--server") {
if (mdsmap->get_tableserver() == whoami) {
snapserver->dump(f);
} else {
r = -CEPHFS_EXDEV;
*css << "Not snapserver";
}
} else {
r = snapclient->dump_cache(f);
}
} else if (command == "force_readonly") {
std::lock_guard l(mds_lock);
mdcache->force_readonly();
} else if (command == "dirfrag split") {
command_dirfrag_split(cmdmap, *css);
} else if (command == "dirfrag merge") {
command_dirfrag_merge(cmdmap, *css);
} else if (command == "dirfrag ls") {
command_dirfrag_ls(cmdmap, *css, f);
} else if (command == "openfiles ls") {
command_openfiles_ls(f);
} else if (command == "dump inode") {
command_dump_inode(f, cmdmap, *css);
} else if (command == "dump dir") {
command_dump_dir(f, cmdmap, *css);
} else if (command == "damage ls") {
std::lock_guard l(mds_lock);
damage_table.dump(f);
} else if (command == "damage rm") {
std::lock_guard l(mds_lock);
damage_entry_id_t id = 0;
if (!cmd_getval(cmdmap, "damage_id", (int64_t&)id)) {
r = -CEPHFS_EINVAL;
goto out;
}
damage_table.erase(id);
} else {
r = -CEPHFS_ENOSYS;
}
out:
on_finish(r, css->str(), outbl);
}
/**
* This function drops the mds_lock, so don't do anything with
* MDSRank after calling it (we could have gone into shutdown): just
* send your result back to the calling client and finish.
*/
void MDSRankDispatcher::evict_clients(
const SessionFilter &filter,
std::function<void(int,const std::string&,bufferlist&)> on_finish)
{
bufferlist outbl;
if (is_any_replay()) {
on_finish(-CEPHFS_EAGAIN, "MDS is replaying log", outbl);
return;
}
std::vector<Session*> victims;
const auto& sessions = sessionmap.get_sessions();
for (const auto& p : sessions) {
if (!p.first.is_client()) {
continue;
}
Session *s = p.second;
if (filter.match(*s, std::bind(&Server::waiting_for_reconnect, server,
std::placeholders::_1))) {
victims.push_back(s);
}
}
dout(20) << __func__ << " matched " << victims.size() << " sessions" << dendl;
if (victims.empty()) {
on_finish(0, {}, outbl);
return;
}
C_GatherBuilder gather(g_ceph_context,
new LambdaContext([on_finish](int r) {
bufferlist bl;
on_finish(r, {}, bl);
}));
for (const auto s : victims) {
CachedStackStringStream css;
evict_client(s->get_client().v, false,
g_conf()->mds_session_blocklist_on_evict, *css, gather.new_sub());
}
gather.activate();
}
void MDSRankDispatcher::dump_sessions(const SessionFilter &filter, Formatter *f, bool cap_dump) const
{
// Dump sessions, decorated with recovery/replay status
f->open_array_section("sessions");
for (auto& [name, s] : sessionmap.get_sessions()) {
if (!name.is_client()) {
continue;
}
if (!filter.match(*s, std::bind(&Server::waiting_for_reconnect, server, std::placeholders::_1))) {
continue;
}
f->open_object_section("session");
s->dump(f, cap_dump);
f->close_section();
}
f->close_section(); // sessions
}
void MDSRank::command_scrub_start(Formatter *f,
std::string_view path, std::string_view tag,
const vector<string>& scrubop_vec, Context *on_finish)
{
bool force = false;
bool recursive = false;
bool repair = false;
bool scrub_mdsdir = false;
for (auto &op : scrubop_vec) {
if (op == "force")
force = true;
else if (op == "recursive")
recursive = true;
else if (op == "repair")
repair = true;
else if (op == "scrub_mdsdir" && path == "/")
scrub_mdsdir = true;
}
std::lock_guard l(mds_lock);
mdcache->enqueue_scrub(path, tag, force, recursive, repair, scrub_mdsdir,
f, on_finish);
// scrub_dentry() finishers will dump the data for us; we're done!
}
void MDSRank::command_tag_path(Formatter *f,
std::string_view path, std::string_view tag)
{
C_SaferCond scond;
{
std::lock_guard l(mds_lock);
mdcache->enqueue_scrub(path, tag, true, true, false, false, f, &scond);
}
scond.wait();
}
void MDSRank::command_scrub_abort(Formatter *f, Context *on_finish) {
std::lock_guard l(mds_lock);
scrubstack->scrub_abort(on_finish);
}
void MDSRank::command_scrub_pause(Formatter *f, Context *on_finish) {
std::lock_guard l(mds_lock);
scrubstack->scrub_pause(on_finish);
}
void MDSRank::command_scrub_resume(Formatter *f) {
std::lock_guard l(mds_lock);
int r = scrubstack->scrub_resume();
f->open_object_section("result");
f->dump_int("return_code", r);
f->close_section();
}
void MDSRank::command_scrub_status(Formatter *f) {
std::lock_guard l(mds_lock);
scrubstack->scrub_status(f);
}
void MDSRank::command_flush_path(Formatter *f, std::string_view path)
{
C_SaferCond scond;
{
std::lock_guard l(mds_lock);
mdcache->flush_dentry(path, &scond);
}
int r = scond.wait();
f->open_object_section("results");
f->dump_int("return_code", r);
f->close_section(); // results
}
// synchronous wrapper around "journal flush" asynchronous context
// execution.
void MDSRank::command_flush_journal(Formatter *f) {
ceph_assert(f != NULL);
C_SaferCond cond;
CachedStackStringStream css;
{
std::lock_guard locker(mds_lock);
C_Flush_Journal *flush_journal = new C_Flush_Journal(mdcache, mdlog, this, css.get(), &cond);
flush_journal->send();
}
int r = cond.wait();
f->open_object_section("result");
f->dump_string("message", css->strv());
f->dump_int("return_code", r);
f->close_section();
}
void MDSRank::command_get_subtrees(Formatter *f)
{
ceph_assert(f != NULL);
std::lock_guard l(mds_lock);
std::vector<CDir*> subtrees;
mdcache->get_subtrees(subtrees);
f->open_array_section("subtrees");
for (const auto& dir : subtrees) {
f->open_object_section("subtree");
{
f->dump_bool("is_auth", dir->is_auth());
f->dump_int("auth_first", dir->get_dir_auth().first);
f->dump_int("auth_second", dir->get_dir_auth().second); {
mds_rank_t export_pin = dir->inode->get_export_pin(false);
f->dump_int("export_pin", export_pin >= 0 ? export_pin : -1);
f->dump_bool("distributed_ephemeral_pin", export_pin == MDS_RANK_EPHEMERAL_DIST);
f->dump_bool("random_ephemeral_pin", export_pin == MDS_RANK_EPHEMERAL_RAND);
}
f->dump_int("export_pin_target", dir->get_export_pin(false));
f->open_object_section("dir");
dir->dump(f);
f->close_section();
}
f->close_section();
}
f->close_section();
}
void MDSRank::command_export_dir(Formatter *f,
std::string_view path,
mds_rank_t target)
{
int r = _command_export_dir(path, target);
f->open_object_section("results");
f->dump_int("return_code", r);
f->close_section(); // results
}
int MDSRank::_command_export_dir(
std::string_view path,
mds_rank_t target)
{
std::lock_guard l(mds_lock);
filepath fp(path);
if (target == whoami || !mdsmap->is_up(target) || !mdsmap->is_in(target)) {
derr << "bad MDS target " << target << dendl;
return -CEPHFS_ENOENT;
}
CInode *in = mdcache->cache_traverse(fp);
if (!in) {
derr << "bad path '" << path << "'" << dendl;
return -CEPHFS_ENOENT;
}
CDir *dir = in->get_dirfrag(frag_t());
if (!dir || !(dir->is_auth())) {
derr << "bad export_dir path dirfrag frag_t() or dir not auth" << dendl;
return -CEPHFS_EINVAL;
}
mdcache->migrator->export_dir(dir, target);
return 0;
}
void MDSRank::command_dump_tree(const cmdmap_t &cmdmap, std::ostream &ss, Formatter *f)
{
std::string root;
int64_t depth;
cmd_getval(cmdmap, "root", root);
if (root.empty()) {
root = "/";
}
if (!cmd_getval(cmdmap, "depth", depth))
depth = -1;
std::lock_guard l(mds_lock);
CInode *in = mdcache->cache_traverse(filepath(root.c_str()));
if (!in) {
ss << "root inode is not in cache";
return;
}
f->open_array_section("inodes");
mdcache->dump_tree(in, 0, depth, f);
f->close_section();
}
CDir *MDSRank::_command_dirfrag_get(
const cmdmap_t &cmdmap,
std::ostream &ss)
{
std::string path;
bool got = cmd_getval(cmdmap, "path", path);
if (!got) {
ss << "missing path argument";
return NULL;
}
std::string frag_str;
if (!cmd_getval(cmdmap, "frag", frag_str)) {
ss << "missing frag argument";
return NULL;
}
CInode *in = mdcache->cache_traverse(filepath(path.c_str()));
if (!in) {
// TODO really we should load something in if it's not in cache,
// but the infrastructure is harder, and we might still be unable
// to act on it if someone else is auth.
ss << "directory '" << path << "' inode not in cache";
return NULL;
}
frag_t fg;
if (!fg.parse(frag_str.c_str())) {
ss << "frag " << frag_str << " failed to parse";
return NULL;
}
CDir *dir = in->get_dirfrag(fg);
if (!dir) {
ss << "frag " << in->ino() << "/" << fg << " not in cache ("
"use `dirfrag ls` to see if it should exist)";
return NULL;
}
if (!dir->is_auth()) {
ss << "frag " << dir->dirfrag() << " not auth (auth = "
<< dir->authority() << ")";
return NULL;
}
return dir;
}
bool MDSRank::command_dirfrag_split(
cmdmap_t cmdmap,
std::ostream &ss)
{
std::lock_guard l(mds_lock);
int64_t by = 0;
if (!cmd_getval(cmdmap, "bits", by)) {
ss << "missing bits argument";
return false;
}
if (by <= 0) {
ss << "must split by >0 bits";
return false;
}
CDir *dir = _command_dirfrag_get(cmdmap, ss);
if (!dir) {
return false;
}
mdcache->split_dir(dir, by);
return true;
}
bool MDSRank::command_dirfrag_merge(
cmdmap_t cmdmap,
std::ostream &ss)
{
std::lock_guard l(mds_lock);
std::string path;
bool got = cmd_getval(cmdmap, "path", path);
if (!got) {
ss << "missing path argument";
return false;
}
std::string frag_str;
if (!cmd_getval(cmdmap, "frag", frag_str)) {
ss << "missing frag argument";
return false;
}
CInode *in = mdcache->cache_traverse(filepath(path.c_str()));
if (!in) {
ss << "directory '" << path << "' inode not in cache";
return false;
}
frag_t fg;
if (!fg.parse(frag_str.c_str())) {
ss << "frag " << frag_str << " failed to parse";
return false;
}
mdcache->merge_dir(in, fg);
return true;
}
bool MDSRank::command_dirfrag_ls(
cmdmap_t cmdmap,
std::ostream &ss,
Formatter *f)
{
std::lock_guard l(mds_lock);
std::string path;
bool got = cmd_getval(cmdmap, "path", path);
if (!got) {
ss << "missing path argument";
return false;
}
CInode *in = mdcache->cache_traverse(filepath(path.c_str()));
if (!in) {
ss << "directory inode not in cache";
return false;
}
f->open_array_section("frags");
frag_vec_t leaves;
// NB using get_leaves_under instead of get_dirfrags to give
// you the list of what dirfrags may exist, not which are in cache
in->dirfragtree.get_leaves_under(frag_t(), leaves);
for (const auto& leaf : leaves) {
f->open_object_section("frag");
f->dump_int("value", leaf.value());
f->dump_int("bits", leaf.bits());
CachedStackStringStream css;
*css << std::hex << leaf.value() << "/" << std::dec << leaf.bits();
f->dump_string("str", css->strv());
f->close_section();
}
f->close_section();
return true;
}
void MDSRank::command_openfiles_ls(Formatter *f)
{
std::lock_guard l(mds_lock);
mdcache->dump_openfiles(f);
}
void MDSRank::command_dump_inode(Formatter *f, const cmdmap_t &cmdmap, std::ostream &ss)
{
std::lock_guard l(mds_lock);
int64_t number;
bool got = cmd_getval(cmdmap, "number", number);
if (!got) {
ss << "missing inode number";
return;
}
bool success = mdcache->dump_inode(f, number);
if (!success) {
ss << "dump inode failed, wrong inode number or the inode is not cached";
}
}
void MDSRank::command_dump_dir(Formatter *f, const cmdmap_t &cmdmap, std::ostream &ss)
{
std::lock_guard l(mds_lock);
std::string path;
bool got = cmd_getval(cmdmap, "path", path);
if (!got) {
ss << "missing path argument";
return;
}
bool dentry_dump = false;
cmd_getval(cmdmap, "dentry_dump", dentry_dump);
CInode *in = mdcache->cache_traverse(filepath(path.c_str()));
if (!in) {
ss << "directory inode not in cache";
return;
}
f->open_array_section("dirs");
frag_vec_t leaves;
in->dirfragtree.get_leaves_under(frag_t(), leaves);
for (const auto& leaf : leaves) {
CDir *dir = in->get_dirfrag(leaf);
if (dir) {
mdcache->dump_dir(f, dir, dentry_dump);
} else {
f->open_object_section("frag");
f->dump_stream("frag") << leaf;
f->dump_string("status", "dirfrag not in cache");
f->close_section();
}
}
f->close_section();
}
void MDSRank::dump_status(Formatter *f) const
{
f->dump_string("fs_name", std::string(mdsmap->get_fs_name()));
if (state == MDSMap::STATE_REPLAY ||
state == MDSMap::STATE_STANDBY_REPLAY) {
mdlog->dump_replay_status(f);
} else if (state == MDSMap::STATE_RESOLVE) {
mdcache->dump_resolve_status(f);
} else if (state == MDSMap::STATE_RECONNECT) {
server->dump_reconnect_status(f);
} else if (state == MDSMap::STATE_REJOIN) {
mdcache->dump_rejoin_status(f);
} else if (state == MDSMap::STATE_CLIENTREPLAY) {
dump_clientreplay_status(f);
}
f->dump_float("rank_uptime", get_uptime().count());
}
void MDSRank::dump_clientreplay_status(Formatter *f) const
{
f->open_object_section("clientreplay_status");
f->dump_unsigned("clientreplay_queue", replay_queue.size());
f->dump_unsigned("active_replay", mdcache->get_num_client_requests());
f->close_section();
}
void MDSRankDispatcher::update_log_config()
{
auto parsed_options = clog->parse_client_options(g_ceph_context);
dout(10) << __func__ << " log_to_monitors " << parsed_options.log_to_monitors << dendl;
}
void MDSRank::create_logger()
{
dout(10) << "create_logger" << dendl;
{
PerfCountersBuilder mds_plb(g_ceph_context, "mds", l_mds_first, l_mds_last);
// super useful (high prio) perf stats
mds_plb.add_u64_counter(l_mds_request, "request", "Requests", "req",
PerfCountersBuilder::PRIO_CRITICAL);
mds_plb.add_time_avg(l_mds_reply_latency, "reply_latency", "Reply latency", "rlat",
PerfCountersBuilder::PRIO_CRITICAL);
mds_plb.add_u64(l_mds_inodes, "inodes", "Inodes", "inos",
PerfCountersBuilder::PRIO_CRITICAL);
mds_plb.add_u64_counter(l_mds_forward, "forward", "Forwarding request", "fwd",
PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64(l_mds_caps, "caps", "Capabilities", "caps",
PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mds_exported_inodes, "exported_inodes", "Exported inodes",
"exi", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mds_imported_inodes, "imported_inodes", "Imported inodes",
"imi", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mds_slow_reply, "slow_reply", "Slow replies", "slr",
PerfCountersBuilder::PRIO_INTERESTING);
// caps msg stats
mds_plb.add_u64_counter(l_mdss_handle_client_caps, "handle_client_caps",
"Client caps msg", "hcc", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_handle_client_caps_dirty, "handle_client_caps_dirty",
"Client dirty caps msg", "hccd", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_handle_client_cap_release, "handle_client_cap_release",
"Client cap release msg", "hccr", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_process_request_cap_release, "process_request_cap_release",
"Process request cap release", "prcr", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_ceph_cap_op_revoke, "ceph_cap_op_revoke",
"Revoke caps", "crev", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_ceph_cap_op_grant, "ceph_cap_op_grant",
"Grant caps", "cgra", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_ceph_cap_op_trunc, "ceph_cap_op_trunc",
"caps truncate notify", "ctru", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_ceph_cap_op_flushsnap_ack, "ceph_cap_op_flushsnap_ack",
"caps truncate notify", "cfsa", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_ceph_cap_op_flush_ack, "ceph_cap_op_flush_ack",
"caps truncate notify", "cfa", PerfCountersBuilder::PRIO_INTERESTING);
mds_plb.add_u64_counter(l_mdss_handle_inode_file_caps, "handle_inode_file_caps",
"Inter mds caps msg", "hifc", PerfCountersBuilder::PRIO_INTERESTING);
// useful dir/inode/subtree stats
mds_plb.set_prio_default(PerfCountersBuilder::PRIO_USEFUL);
mds_plb.add_u64(l_mds_root_rfiles, "root_rfiles", "root inode rfiles");
mds_plb.add_u64(l_mds_root_rbytes, "root_rbytes", "root inode rbytes");
mds_plb.add_u64(l_mds_root_rsnaps, "root_rsnaps", "root inode rsnaps");
mds_plb.add_u64_counter(l_mds_dir_fetch_complete,
"dir_fetch_complete", "Fetch complete dirfrag");
mds_plb.add_u64_counter(l_mds_dir_fetch_keys,
"dir_fetch_keys", "Fetch keys from dirfrag");
mds_plb.add_u64_counter(l_mds_dir_commit, "dir_commit", "Directory commit");
mds_plb.add_u64_counter(l_mds_dir_split, "dir_split", "Directory split");
mds_plb.add_u64_counter(l_mds_dir_merge, "dir_merge", "Directory merge");
mds_plb.add_u64(l_mds_inodes_pinned, "inodes_pinned", "Inodes pinned");
mds_plb.add_u64(l_mds_inodes_expired, "inodes_expired", "Inodes expired");
mds_plb.add_u64(l_mds_inodes_with_caps, "inodes_with_caps",
"Inodes with capabilities");
mds_plb.add_u64(l_mds_subtrees, "subtrees", "Subtrees");
mds_plb.add_u64(l_mds_load_cent, "load_cent", "Load per cent");
mds_plb.add_u64_counter(l_mds_openino_dir_fetch, "openino_dir_fetch",
"OpenIno incomplete directory fetchings");
// low prio stats
mds_plb.set_prio_default(PerfCountersBuilder::PRIO_DEBUGONLY);
mds_plb.add_u64_counter(l_mds_reply, "reply", "Replies");
mds_plb.add_u64(l_mds_inodes_top, "inodes_top", "Inodes on top");
mds_plb.add_u64(l_mds_inodes_bottom, "inodes_bottom", "Inodes on bottom");
mds_plb.add_u64(
l_mds_inodes_pin_tail, "inodes_pin_tail", "Inodes on pin tail");
mds_plb.add_u64_counter(l_mds_traverse, "traverse", "Traverses");
mds_plb.add_u64_counter(l_mds_traverse_hit, "traverse_hit", "Traverse hits");
mds_plb.add_u64_counter(l_mds_traverse_forward, "traverse_forward",
"Traverse forwards");
mds_plb.add_u64_counter(l_mds_traverse_discover, "traverse_discover",
"Traverse directory discovers");
mds_plb.add_u64_counter(l_mds_traverse_dir_fetch, "traverse_dir_fetch",
"Traverse incomplete directory content fetchings");
mds_plb.add_u64_counter(l_mds_traverse_remote_ino, "traverse_remote_ino",
"Traverse remote dentries");
mds_plb.add_u64_counter(l_mds_traverse_lock, "traverse_lock",
"Traverse locks");
mds_plb.add_u64(l_mds_dispatch_queue_len, "q", "Dispatch queue length");
mds_plb.add_u64_counter(l_mds_exported, "exported", "Exports");
mds_plb.add_u64_counter(l_mds_imported, "imported", "Imports");
mds_plb.add_u64_counter(l_mds_openino_backtrace_fetch, "openino_backtrace_fetch",
"OpenIno backtrace fetchings");
mds_plb.add_u64_counter(l_mds_openino_peer_discover, "openino_peer_discover",
"OpenIno peer inode discovers");
// scrub stats
mds_plb.add_u64(l_mds_scrub_backtrace_fetch, "scrub_backtrace_fetch",
"Scrub backtrace fetchings");
mds_plb.add_u64(l_mds_scrub_set_tag, "scrub_set_tag",
"Scrub set tags");
mds_plb.add_u64(l_mds_scrub_backtrace_repaired, "scrub_backtrace_repaired",
"Scrub backtraces repaired");
mds_plb.add_u64(l_mds_scrub_inotable_repaired, "scrub_inotable_repaired",
"Scrub inotable repaired");
mds_plb.add_u64(l_mds_scrub_dir_inodes, "scrub_dir_inodes",
"Scrub directory inodes");
mds_plb.add_u64(l_mds_scrub_dir_base_inodes, "scrub_dir_base_inodes",
"Scrub directory base inodes");
mds_plb.add_u64(l_mds_scrub_dirfrag_rstats, "scrub_dirfrag_rstats",
"Scrub dirfrags rstates");
mds_plb.add_u64(l_mds_scrub_file_inodes, "scrub_file_inodes",
"Scrub file inodes");
logger = mds_plb.create_perf_counters();
g_ceph_context->get_perfcounters_collection()->add(logger);
}
{
PerfCountersBuilder mdm_plb(g_ceph_context, "mds_mem", l_mdm_first, l_mdm_last);
mdm_plb.add_u64(l_mdm_ino, "ino", "Inodes", "ino",
PerfCountersBuilder::PRIO_INTERESTING);
mdm_plb.add_u64(l_mdm_dn, "dn", "Dentries", "dn",
PerfCountersBuilder::PRIO_INTERESTING);
// mds rss metric is set to PRIO_USEFUL as it can be useful to detect mds cache oversizing
mdm_plb.add_u64(l_mdm_rss, "rss", "RSS", "rss",
PerfCountersBuilder::PRIO_USEFUL);
mdm_plb.set_prio_default(PerfCountersBuilder::PRIO_USEFUL);
mdm_plb.add_u64_counter(l_mdm_inoa, "ino+", "Inodes opened");
mdm_plb.add_u64_counter(l_mdm_inos, "ino-", "Inodes closed");
mdm_plb.add_u64(l_mdm_dir, "dir", "Directories");
mdm_plb.add_u64_counter(l_mdm_dira, "dir+", "Directories opened");
mdm_plb.add_u64_counter(l_mdm_dirs, "dir-", "Directories closed");
mdm_plb.add_u64_counter(l_mdm_dna, "dn+", "Dentries opened");
mdm_plb.add_u64_counter(l_mdm_dns, "dn-", "Dentries closed");
mdm_plb.add_u64(l_mdm_cap, "cap", "Capabilities");
mdm_plb.add_u64_counter(l_mdm_capa, "cap+", "Capabilities added");
mdm_plb.add_u64_counter(l_mdm_caps, "cap-", "Capabilities removed");
mdm_plb.add_u64(l_mdm_heap, "heap", "Heap size");
mlogger = mdm_plb.create_perf_counters();
g_ceph_context->get_perfcounters_collection()->add(mlogger);
}
mdlog->create_logger();
server->create_logger();
purge_queue.create_logger();
sessionmap.register_perfcounters();
mdcache->register_perfcounters();
}
void MDSRank::check_ops_in_flight()
{
string summary;
vector<string> warnings;
int slow = 0;
if (op_tracker.check_ops_in_flight(&summary, warnings, &slow)) {
clog->warn() << summary;
for (const auto& warning : warnings) {
clog->warn() << warning;
}
}
// set mds slow request count
mds_slow_req_count = slow;
return;
}
void MDSRankDispatcher::handle_osd_map()
{
if (is_active() &&
mdsmap->get_tableserver() == whoami) {
snapserver->check_osd_map(true);
}
server->handle_osd_map();
purge_queue.update_op_limit(*mdsmap);
// it's ok if replay state is reached via standby-replay, the
// reconnect state will journal blocklisted clients (journal
// is opened for writing in `replay_done` before moving to
// up:resolve).
if (!is_any_replay()) {
std::set<entity_addr_t> newly_blocklisted;
objecter->consume_blocklist_events(&newly_blocklisted);
auto epoch = objecter->with_osdmap([](const OSDMap &o){return o.get_epoch();});
apply_blocklist(newly_blocklisted, epoch);
}
// By default the objecter only requests OSDMap updates on use,
// we would like to always receive the latest maps in order to
// apply policy based on the FULL flag.
objecter->maybe_request_map();
}
int MDSRank::config_client(int64_t session_id, bool remove,
const std::string& option, const std::string& value,
std::ostream& ss)
{
Session *session = sessionmap.get_session(entity_name_t(CEPH_ENTITY_TYPE_CLIENT, session_id));
if (!session) {
ss << "session " << session_id << " not in sessionmap!";
return -CEPHFS_ENOENT;
}
if (option == "timeout") {
if (remove) {
auto it = session->info.client_metadata.find("timeout");
if (it == session->info.client_metadata.end()) {
ss << "Nonexistent config: " << option;
return -CEPHFS_ENODATA;
}
session->info.client_metadata.erase(it);
} else {
char *end;
strtoul(value.c_str(), &end, 0);
if (*end) {
ss << "Invalid config for timeout: " << value;
return -CEPHFS_EINVAL;
}
session->info.client_metadata[option] = value;
}
//sessionmap._mark_dirty(session, true);
} else {
ss << "Invalid config option: " << option;
return -CEPHFS_EINVAL;
}
return 0;
}
bool MDSRank::evict_client(int64_t session_id,
bool wait, bool blocklist, std::ostream& err_ss,
Context *on_killed)
{
ceph_assert(ceph_mutex_is_locked_by_me(mds_lock));
// Mutually exclusive args
ceph_assert(!(wait && on_killed != nullptr));
if (is_any_replay()) {
err_ss << "MDS is replaying log";
return false;
}
Session *session = sessionmap.get_session(
entity_name_t(CEPH_ENTITY_TYPE_CLIENT, session_id));
if (!session) {
err_ss << "session " << session_id << " not in sessionmap!";
return false;
}
auto& addr = session->info.inst.addr;
{
CachedStackStringStream css;
*css << "Evicting " << (blocklist ? "(and blocklisting) " : "")
<< "client session " << session_id << " (" << addr << ")";
dout(1) << css->strv() << dendl;
clog->info() << css->strv();
}
dout(4) << "Preparing blocklist command... (wait=" << wait << ")" << dendl;
CachedStackStringStream css;
*css << "{\"prefix\":\"osd blocklist\", \"blocklistop\":\"add\",";
*css << "\"addr\":\"";
*css << addr;
*css << "\"}";
std::vector<std::string> cmd = {css->str()};
auto kill_client_session = [this, session_id, wait, on_killed](){
ceph_assert(ceph_mutex_is_locked_by_me(mds_lock));
Session *session = sessionmap.get_session(
entity_name_t(CEPH_ENTITY_TYPE_CLIENT, session_id));
if (session) {
if (on_killed || !wait) {
server->kill_session(session, on_killed);
} else {
C_SaferCond on_safe;
server->kill_session(session, &on_safe);
mds_lock.unlock();
on_safe.wait();
mds_lock.lock();
}
} else {
dout(1) << "session " << session_id << " was removed while we waited "
"for blocklist" << dendl;
// Even though it wasn't us that removed it, kick our completion
// as the session has been removed.
if (on_killed) {
on_killed->complete(0);
}
}
};
auto apply_blocklist = [this, cmd](std::function<void ()> fn){
ceph_assert(ceph_mutex_is_locked_by_me(mds_lock));
Context *on_blocklist_done = new LambdaContext([this, fn](int r) {
objecter->wait_for_latest_osdmap(
lambdafy((new C_OnFinisher(
new LambdaContext([this, fn](int r) {
std::lock_guard l(mds_lock);
auto epoch = objecter->with_osdmap([](const OSDMap &o){
return o.get_epoch();
});
set_osd_epoch_barrier(epoch);
fn();
}), finisher)
)));
});
dout(4) << "Sending mon blocklist command: " << cmd[0] << dendl;
monc->start_mon_command(cmd, {}, nullptr, nullptr, on_blocklist_done);
};
if (wait) {
if (blocklist) {
C_SaferCond inline_ctx;
apply_blocklist([&inline_ctx](){inline_ctx.complete(0);});
mds_lock.unlock();
inline_ctx.wait();
mds_lock.lock();
}
// We dropped mds_lock, so check that session still exists
session = sessionmap.get_session(entity_name_t(CEPH_ENTITY_TYPE_CLIENT,
session_id));
if (!session) {
dout(1) << "session " << session_id << " was removed while we waited "
"for blocklist" << dendl;
client_eviction_dump = true;
return true;
}
kill_client_session();
} else {
if (blocklist) {
apply_blocklist(kill_client_session);
} else {
kill_client_session();
}
}
client_eviction_dump = true;
return true;
}
MDSRankDispatcher::MDSRankDispatcher(
mds_rank_t whoami_,
ceph::fair_mutex &mds_lock_,
LogChannelRef &clog_,
CommonSafeTimer<ceph::fair_mutex> &timer_,
Beacon &beacon_,
std::unique_ptr<MDSMap> &mdsmap_,
Messenger *msgr,
MonClient *monc_,
MgrClient *mgrc,
Context *respawn_hook_,
Context *suicide_hook_,
boost::asio::io_context& ioc)
: MDSRank(whoami_, mds_lock_, clog_, timer_, beacon_, mdsmap_,
msgr, monc_, mgrc, respawn_hook_, suicide_hook_, ioc)
{
g_conf().add_observer(this);
}
void MDSRank::command_cache_drop(uint64_t timeout, Formatter *f, Context *on_finish) {
dout(20) << __func__ << dendl;
std::lock_guard locker(mds_lock);
C_Drop_Cache *request = new C_Drop_Cache(server, mdcache, mdlog, this,
timeout, f, on_finish);
request->send();
}
epoch_t MDSRank::get_osd_epoch() const
{
return objecter->with_osdmap(std::mem_fn(&OSDMap::get_epoch));
}
const char** MDSRankDispatcher::get_tracked_conf_keys() const
{
static const char* KEYS[] = {
"clog_to_graylog",
"clog_to_graylog_host",
"clog_to_graylog_port",
"clog_to_monitors",
"clog_to_syslog",
"clog_to_syslog_facility",
"clog_to_syslog_level",
"fsid",
"host",
"mds_bal_fragment_dirs",
"mds_bal_fragment_interval",
"mds_bal_fragment_size_max",
"mds_cache_memory_limit",
"mds_cache_mid",
"mds_cache_reservation",
"mds_cache_trim_decay_rate",
"mds_cap_revoke_eviction_timeout",
"mds_dump_cache_threshold_file",
"mds_dump_cache_threshold_formatter",
"mds_enable_op_tracker",
"mds_export_ephemeral_random",
"mds_export_ephemeral_random_max",
"mds_export_ephemeral_distributed",
"mds_health_cache_threshold",
"mds_inject_migrator_session_race",
"mds_log_pause",
"mds_max_export_size",
"mds_max_purge_files",
"mds_forward_all_requests_to_auth",
"mds_max_purge_ops",
"mds_max_purge_ops_per_pg",
"mds_max_snaps_per_dir",
"mds_op_complaint_time",
"mds_op_history_duration",
"mds_op_history_size",
"mds_op_log_threshold",
"mds_recall_max_decay_rate",
"mds_recall_warning_decay_rate",
"mds_request_load_average_decay_rate",
"mds_session_cache_liveness_decay_rate",
"mds_heartbeat_reset_grace",
"mds_heartbeat_grace",
"mds_session_cap_acquisition_decay_rate",
"mds_max_caps_per_client",
"mds_session_cap_acquisition_throttle",
"mds_session_max_caps_throttle_ratio",
"mds_cap_acquisition_throttle_retry_request_time",
"mds_alternate_name_max",
"mds_dir_max_entries",
"mds_symlink_recovery",
"mds_extraordinary_events_dump_interval",
"mds_inject_rename_corrupt_dentry_first",
"mds_inject_journal_corrupt_dentry_first",
"mds_session_metadata_threshold",
NULL
};
return KEYS;
}
void MDSRankDispatcher::handle_conf_change(const ConfigProxy& conf, const std::set<std::string>& changed)
{
// XXX with or without mds_lock!
if (changed.count("mds_heartbeat_reset_grace")) {
_heartbeat_reset_grace = conf.get_val<uint64_t>("mds_heartbeat_reset_grace");
}
if (changed.count("mds_heartbeat_grace")) {
heartbeat_grace = conf.get_val<double>("mds_heartbeat_grace");
}
if (changed.count("mds_op_complaint_time") || changed.count("mds_op_log_threshold")) {
op_tracker.set_complaint_and_threshold(conf->mds_op_complaint_time, conf->mds_op_log_threshold);
}
if (changed.count("mds_op_history_size") || changed.count("mds_op_history_duration")) {
op_tracker.set_history_size_and_duration(conf->mds_op_history_size, conf->mds_op_history_duration);
}
if (changed.count("mds_op_history_slow_op_size") || changed.count("mds_op_history_slow_op_threshold")) {
op_tracker.set_history_slow_op_size_and_threshold(conf->mds_op_history_slow_op_size, conf->mds_op_history_slow_op_threshold);
}
if (changed.count("mds_enable_op_tracker")) {
op_tracker.set_tracking(conf->mds_enable_op_tracker);
}
if (changed.count("mds_extraordinary_events_dump_interval")) {
reset_event_flags();
extraordinary_events_dump_interval = conf.get_val<std::chrono::seconds>
("mds_extraordinary_events_dump_interval").count();
//Enable the logging only during low level debugging
if (extraordinary_events_dump_interval) {
uint64_t log_level, gather_level;
std::string debug_mds = g_conf().get_val<std::string>("debug_mds");
auto delim = debug_mds.find("/");
std::istringstream(debug_mds.substr(0, delim)) >> log_level;
std::istringstream(debug_mds.substr(delim + 1)) >> gather_level;
if (log_level < 10 && gather_level >= 10) {
dout(0) << __func__ << " Enabling in-memory log dump..." << dendl;
std::scoped_lock lock(mds_lock);
schedule_inmemory_logger();
}
else {
dout(0) << __func__ << " Enabling in-memory log dump failed. debug_mds=" << log_level
<< "/" << gather_level << dendl;
extraordinary_events_dump_interval = 0;
}
}
else {
//The user set mds_extraordinary_events_dump_interval = 0
dout(0) << __func__ << " In-memory log dump disabled" << dendl;
}
}
if (changed.count("clog_to_monitors") ||
changed.count("clog_to_syslog") ||
changed.count("clog_to_syslog_level") ||
changed.count("clog_to_syslog_facility") ||
changed.count("clog_to_graylog") ||
changed.count("clog_to_graylog_host") ||
changed.count("clog_to_graylog_port") ||
changed.count("host") ||
changed.count("fsid")) {
update_log_config();
}
if (changed.count("mds_inject_journal_corrupt_dentry_first")) {
inject_journal_corrupt_dentry_first = g_conf().get_val<double>("mds_inject_journal_corrupt_dentry_first");
}
finisher->queue(new LambdaContext([this, changed](int) {
std::scoped_lock lock(mds_lock);
dout(10) << "flushing conf change to components: " << changed << dendl;
if (changed.count("mds_log_pause") && !g_conf()->mds_log_pause) {
mdlog->kick_submitter();
}
sessionmap.handle_conf_change(changed);
server->handle_conf_change(changed);
mdcache->handle_conf_change(changed, *mdsmap);
purge_queue.handle_conf_change(changed, *mdsmap);
}));
}
void MDSRank::get_task_status(std::map<std::string, std::string> *status) {
dout(20) << __func__ << dendl;
// scrub summary for now..
std::string_view scrub_summary = scrubstack->scrub_summary();
if (!ScrubStack::is_idle(scrub_summary)) {
send_status = true;
status->emplace(SCRUB_STATUS_KEY, std::move(scrub_summary));
}
}
void MDSRank::schedule_update_timer_task() {
dout(20) << __func__ << dendl;
timer.add_event_after(g_conf().get_val<double>("mds_task_status_update_interval"),
new LambdaContext([this](int) {
send_task_status();
}));
}
void MDSRank::send_task_status() {
std::map<std::string, std::string> status;
get_task_status(&status);
if (send_status) {
if (status.empty()) {
send_status = false;
}
dout(20) << __func__ << ": updating " << status.size() << " status keys" << dendl;
int r = mgrc->service_daemon_update_task_status(std::move(status));
if (r < 0) {
derr << ": failed to update service daemon status: " << cpp_strerror(r) << dendl;
}
}
schedule_update_timer_task();
}
void MDSRank::schedule_inmemory_logger() {
dout(20) << __func__ << dendl;
timer.add_event_after(extraordinary_events_dump_interval,
new LambdaContext([this]() {
inmemory_logger();
}));
}
void MDSRank::inmemory_logger() {
if (client_eviction_dump ||
beacon.missed_beacon_ack_dump ||
beacon.missed_internal_heartbeat_dump) {
//dump the in-memory logs if any of these events occured recently
dout(0) << __func__ << " client_eviction_dump "<< client_eviction_dump
<< ", missed_beacon_ack_dump " << beacon.missed_beacon_ack_dump
<< ", missed_internal_heartbeat_dump " << beacon.missed_internal_heartbeat_dump
<< dendl;
reset_event_flags();
g_ceph_context->_log->dump_recent();
}
//reschedule if it's enabled
if (extraordinary_events_dump_interval) {
schedule_inmemory_logger();
}
}
void MDSRank::reset_event_flags() {
client_eviction_dump = false;
beacon.missed_beacon_ack_dump = false;
beacon.missed_internal_heartbeat_dump = false;
}
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