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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) 2016 John Spray <john.spray@redhat.com>
*
* 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 "DaemonServer.h"
#include <boost/algorithm/string.hpp>
#include "mgr/Mgr.h"
#include "include/stringify.h"
#include "include/str_list.h"
#include "auth/RotatingKeyRing.h"
#include "json_spirit/json_spirit_writer.h"
#include "mgr/mgr_commands.h"
#include "mgr/DaemonHealthMetricCollector.h"
#include "mgr/OSDPerfMetricCollector.h"
#include "mgr/MDSPerfMetricCollector.h"
#include "mon/MonCommand.h"
#include "messages/MMgrOpen.h"
#include "messages/MMgrUpdate.h"
#include "messages/MMgrClose.h"
#include "messages/MMgrConfigure.h"
#include "messages/MMonMgrReport.h"
#include "messages/MCommand.h"
#include "messages/MCommandReply.h"
#include "messages/MMgrCommand.h"
#include "messages/MMgrCommandReply.h"
#include "messages/MPGStats.h"
#include "messages/MOSDScrub.h"
#include "messages/MOSDScrub2.h"
#include "messages/MOSDForceRecovery.h"
#include "common/errno.h"
#include "common/pick_address.h"
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_mgr
#undef dout_prefix
#define dout_prefix *_dout << "mgr.server " << __func__ << " "
using namespace TOPNSPC::common;
namespace {
template <typename Map>
bool map_compare(Map const &lhs, Map const &rhs) {
return lhs.size() == rhs.size()
&& std::equal(lhs.begin(), lhs.end(), rhs.begin(),
[] (auto a, auto b) { return a.first == b.first && a.second == b.second; });
}
}
DaemonServer::DaemonServer(MonClient *monc_,
Finisher &finisher_,
DaemonStateIndex &daemon_state_,
ClusterState &cluster_state_,
PyModuleRegistry &py_modules_,
LogChannelRef clog_,
LogChannelRef audit_clog_)
: Dispatcher(g_ceph_context),
client_byte_throttler(new Throttle(g_ceph_context, "mgr_client_bytes",
g_conf().get_val<Option::size_t>("mgr_client_bytes"))),
client_msg_throttler(new Throttle(g_ceph_context, "mgr_client_messages",
g_conf().get_val<uint64_t>("mgr_client_messages"))),
osd_byte_throttler(new Throttle(g_ceph_context, "mgr_osd_bytes",
g_conf().get_val<Option::size_t>("mgr_osd_bytes"))),
osd_msg_throttler(new Throttle(g_ceph_context, "mgr_osd_messsages",
g_conf().get_val<uint64_t>("mgr_osd_messages"))),
mds_byte_throttler(new Throttle(g_ceph_context, "mgr_mds_bytes",
g_conf().get_val<Option::size_t>("mgr_mds_bytes"))),
mds_msg_throttler(new Throttle(g_ceph_context, "mgr_mds_messsages",
g_conf().get_val<uint64_t>("mgr_mds_messages"))),
mon_byte_throttler(new Throttle(g_ceph_context, "mgr_mon_bytes",
g_conf().get_val<Option::size_t>("mgr_mon_bytes"))),
mon_msg_throttler(new Throttle(g_ceph_context, "mgr_mon_messsages",
g_conf().get_val<uint64_t>("mgr_mon_messages"))),
msgr(nullptr),
monc(monc_),
finisher(finisher_),
daemon_state(daemon_state_),
cluster_state(cluster_state_),
py_modules(py_modules_),
clog(clog_),
audit_clog(audit_clog_),
pgmap_ready(false),
timer(g_ceph_context, lock),
shutting_down(false),
tick_event(nullptr),
osd_perf_metric_collector_listener(this),
osd_perf_metric_collector(osd_perf_metric_collector_listener),
mds_perf_metric_collector_listener(this),
mds_perf_metric_collector(mds_perf_metric_collector_listener)
{
g_conf().add_observer(this);
}
DaemonServer::~DaemonServer() {
delete msgr;
g_conf().remove_observer(this);
}
int DaemonServer::init(uint64_t gid, entity_addrvec_t client_addrs)
{
// Initialize Messenger
std::string public_msgr_type = g_conf()->ms_public_type.empty() ?
g_conf().get_val<std::string>("ms_type") : g_conf()->ms_public_type;
msgr = Messenger::create(g_ceph_context, public_msgr_type,
entity_name_t::MGR(gid),
"mgr",
Messenger::get_pid_nonce());
msgr->set_default_policy(Messenger::Policy::stateless_server(0));
msgr->set_auth_client(monc);
// throttle clients
msgr->set_policy_throttlers(entity_name_t::TYPE_CLIENT,
client_byte_throttler.get(),
client_msg_throttler.get());
// servers
msgr->set_policy_throttlers(entity_name_t::TYPE_OSD,
osd_byte_throttler.get(),
osd_msg_throttler.get());
msgr->set_policy_throttlers(entity_name_t::TYPE_MDS,
mds_byte_throttler.get(),
mds_msg_throttler.get());
msgr->set_policy_throttlers(entity_name_t::TYPE_MON,
mon_byte_throttler.get(),
mon_msg_throttler.get());
entity_addrvec_t addrs;
int r = pick_addresses(cct, CEPH_PICK_ADDRESS_PUBLIC, &addrs);
if (r < 0) {
return r;
}
dout(20) << __func__ << " will bind to " << addrs << dendl;
r = msgr->bindv(addrs);
if (r < 0) {
derr << "unable to bind mgr to " << addrs << dendl;
return r;
}
msgr->set_myname(entity_name_t::MGR(gid));
msgr->set_addr_unknowns(client_addrs);
msgr->start();
msgr->add_dispatcher_tail(this);
msgr->set_auth_server(monc);
monc->set_handle_authentication_dispatcher(this);
started_at = ceph_clock_now();
std::lock_guard l(lock);
timer.init();
schedule_tick_locked(
g_conf().get_val<std::chrono::seconds>("mgr_tick_period").count());
return 0;
}
entity_addrvec_t DaemonServer::get_myaddrs() const
{
return msgr->get_myaddrs();
}
int DaemonServer::ms_handle_authentication(Connection *con)
{
auto s = ceph::make_ref<MgrSession>(cct);
con->set_priv(s);
s->inst.addr = con->get_peer_addr();
s->entity_name = con->peer_name;
dout(10) << __func__ << " new session " << s << " con " << con
<< " entity " << con->peer_name
<< " addr " << con->get_peer_addrs()
<< dendl;
AuthCapsInfo &caps_info = con->get_peer_caps_info();
if (caps_info.allow_all) {
dout(10) << " session " << s << " " << s->entity_name
<< " allow_all" << dendl;
s->caps.set_allow_all();
} else if (caps_info.caps.length() > 0) {
auto p = caps_info.caps.cbegin();
string str;
try {
decode(str, p);
}
catch (buffer::error& e) {
dout(10) << " session " << s << " " << s->entity_name
<< " failed to decode caps" << dendl;
return -EACCES;
}
if (!s->caps.parse(str)) {
dout(10) << " session " << s << " " << s->entity_name
<< " failed to parse caps '" << str << "'" << dendl;
return -EACCES;
}
dout(10) << " session " << s << " " << s->entity_name
<< " has caps " << s->caps << " '" << str << "'" << dendl;
}
if (con->get_peer_type() == CEPH_ENTITY_TYPE_OSD) {
std::lock_guard l(lock);
s->osd_id = atoi(s->entity_name.get_id().c_str());
dout(10) << "registering osd." << s->osd_id << " session "
<< s << " con " << con << dendl;
osd_cons[s->osd_id].insert(con);
}
return 1;
}
bool DaemonServer::ms_handle_reset(Connection *con)
{
if (con->get_peer_type() == CEPH_ENTITY_TYPE_OSD) {
auto priv = con->get_priv();
auto session = static_cast<MgrSession*>(priv.get());
if (!session) {
return false;
}
std::lock_guard l(lock);
dout(10) << "unregistering osd." << session->osd_id
<< " session " << session << " con " << con << dendl;
osd_cons[session->osd_id].erase(con);
auto iter = daemon_connections.find(con);
if (iter != daemon_connections.end()) {
daemon_connections.erase(iter);
}
}
return false;
}
bool DaemonServer::ms_handle_refused(Connection *con)
{
// do nothing for now
return false;
}
bool DaemonServer::ms_dispatch2(const ref_t<Message>& m)
{
// Note that we do *not* take ::lock here, in order to avoid
// serializing all message handling. It's up to each handler
// to take whatever locks it needs.
switch (m->get_type()) {
case MSG_PGSTATS:
cluster_state.ingest_pgstats(ref_cast<MPGStats>(m));
maybe_ready(m->get_source().num());
return true;
case MSG_MGR_REPORT:
return handle_report(ref_cast<MMgrReport>(m));
case MSG_MGR_OPEN:
return handle_open(ref_cast<MMgrOpen>(m));
case MSG_MGR_UPDATE:
return handle_update(ref_cast<MMgrUpdate>(m));
case MSG_MGR_CLOSE:
return handle_close(ref_cast<MMgrClose>(m));
case MSG_COMMAND:
return handle_command(ref_cast<MCommand>(m));
case MSG_MGR_COMMAND:
return handle_command(ref_cast<MMgrCommand>(m));
default:
dout(1) << "Unhandled message type " << m->get_type() << dendl;
return false;
};
}
void DaemonServer::dump_pg_ready(ceph::Formatter *f)
{
f->dump_bool("pg_ready", pgmap_ready.load());
}
void DaemonServer::maybe_ready(int32_t osd_id)
{
if (pgmap_ready.load()) {
// Fast path: we don't need to take lock because pgmap_ready
// is already set
} else {
std::lock_guard l(lock);
if (reported_osds.find(osd_id) == reported_osds.end()) {
dout(4) << "initial report from osd " << osd_id << dendl;
reported_osds.insert(osd_id);
std::set<int32_t> up_osds;
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
osdmap.get_up_osds(up_osds);
});
std::set<int32_t> unreported_osds;
std::set_difference(up_osds.begin(), up_osds.end(),
reported_osds.begin(), reported_osds.end(),
std::inserter(unreported_osds, unreported_osds.begin()));
if (unreported_osds.size() == 0) {
dout(4) << "all osds have reported, sending PG state to mon" << dendl;
pgmap_ready = true;
reported_osds.clear();
// Avoid waiting for next tick
send_report();
} else {
dout(4) << "still waiting for " << unreported_osds.size() << " osds"
" to report in before PGMap is ready" << dendl;
}
}
}
}
void DaemonServer::tick()
{
dout(10) << dendl;
send_report();
adjust_pgs();
schedule_tick_locked(
g_conf().get_val<std::chrono::seconds>("mgr_tick_period").count());
}
// Currently modules do not set health checks in response to events delivered to
// all modules (e.g. notify) so we do not risk a thundering hurd situation here.
// if this pattern emerges in the future, this scheduler could be modified to
// fire after all modules have had a chance to set their health checks.
void DaemonServer::schedule_tick_locked(double delay_sec)
{
ceph_assert(ceph_mutex_is_locked_by_me(lock));
if (tick_event) {
timer.cancel_event(tick_event);
tick_event = nullptr;
}
// on shutdown start rejecting explicit requests to send reports that may
// originate from python land which may still be running.
if (shutting_down)
return;
tick_event = timer.add_event_after(delay_sec,
new LambdaContext([this](int r) {
tick();
}));
}
void DaemonServer::schedule_tick(double delay_sec)
{
std::lock_guard l(lock);
schedule_tick_locked(delay_sec);
}
void DaemonServer::handle_osd_perf_metric_query_updated()
{
dout(10) << dendl;
// Send a fresh MMgrConfigure to all clients, so that they can follow
// the new policy for transmitting stats
finisher.queue(new LambdaContext([this](int r) {
std::lock_guard l(lock);
for (auto &c : daemon_connections) {
if (c->peer_is_osd()) {
_send_configure(c);
}
}
}));
}
void DaemonServer::handle_mds_perf_metric_query_updated()
{
dout(10) << dendl;
// Send a fresh MMgrConfigure to all clients, so that they can follow
// the new policy for transmitting stats
finisher.queue(new LambdaContext([this](int r) {
std::lock_guard l(lock);
for (auto &c : daemon_connections) {
if (c->peer_is_mds()) {
_send_configure(c);
}
}
}));
}
void DaemonServer::shutdown()
{
dout(10) << "begin" << dendl;
msgr->shutdown();
msgr->wait();
cluster_state.shutdown();
dout(10) << "done" << dendl;
std::lock_guard l(lock);
shutting_down = true;
timer.shutdown();
}
static DaemonKey key_from_service(
const std::string& service_name,
int peer_type,
const std::string& daemon_name)
{
if (!service_name.empty()) {
return DaemonKey{service_name, daemon_name};
} else {
return DaemonKey{ceph_entity_type_name(peer_type), daemon_name};
}
}
void DaemonServer::fetch_missing_metadata(const DaemonKey& key,
const entity_addr_t& addr)
{
if (!daemon_state.is_updating(key) &&
(key.type == "osd" || key.type == "mds" || key.type == "mon")) {
std::ostringstream oss;
auto c = new MetadataUpdate(daemon_state, key);
if (key.type == "osd") {
oss << "{\"prefix\": \"osd metadata\", \"id\": "
<< key.name<< "}";
} else if (key.type == "mds") {
c->set_default("addr", stringify(addr));
oss << "{\"prefix\": \"mds metadata\", \"who\": \""
<< key.name << "\"}";
} else if (key.type == "mon") {
oss << "{\"prefix\": \"mon metadata\", \"id\": \""
<< key.name << "\"}";
} else {
ceph_abort();
}
monc->start_mon_command({oss.str()}, {}, &c->outbl, &c->outs, c);
}
}
bool DaemonServer::handle_open(const ref_t<MMgrOpen>& m)
{
std::unique_lock l(lock);
DaemonKey key = key_from_service(m->service_name,
m->get_connection()->get_peer_type(),
m->daemon_name);
auto con = m->get_connection();
dout(10) << "from " << key << " " << con->get_peer_addr() << dendl;
_send_configure(con);
DaemonStatePtr daemon;
if (daemon_state.exists(key)) {
dout(20) << "updating existing DaemonState for " << key << dendl;
daemon = daemon_state.get(key);
}
if (!daemon) {
if (m->service_daemon) {
dout(4) << "constructing new DaemonState for " << key << dendl;
daemon = std::make_shared<DaemonState>(daemon_state.types);
daemon->key = key;
daemon->service_daemon = true;
daemon_state.insert(daemon);
} else {
/* A normal Ceph daemon has connected but we are or should be waiting on
* metadata for it. Close the session so that it tries to reconnect.
*/
dout(2) << "ignoring open from " << key << " " << con->get_peer_addr()
<< "; not ready for session (expect reconnect)" << dendl;
con->mark_down();
l.unlock();
fetch_missing_metadata(key, m->get_source_addr());
return true;
}
}
if (daemon) {
if (m->service_daemon) {
// update the metadata through the daemon state index to
// ensure it's kept up-to-date
daemon_state.update_metadata(daemon, m->daemon_metadata);
}
std::lock_guard l(daemon->lock);
daemon->perf_counters.clear();
daemon->service_daemon = m->service_daemon;
if (m->service_daemon) {
daemon->service_status = m->daemon_status;
utime_t now = ceph_clock_now();
auto [d, added] = pending_service_map.get_daemon(m->service_name,
m->daemon_name);
if (added || d->gid != (uint64_t)m->get_source().num()) {
dout(10) << "registering " << key << " in pending_service_map" << dendl;
d->gid = m->get_source().num();
d->addr = m->get_source_addr();
d->start_epoch = pending_service_map.epoch;
d->start_stamp = now;
d->metadata = m->daemon_metadata;
pending_service_map_dirty = pending_service_map.epoch;
}
}
auto p = m->config_bl.cbegin();
if (p != m->config_bl.end()) {
decode(daemon->config, p);
decode(daemon->ignored_mon_config, p);
dout(20) << " got config " << daemon->config
<< " ignored " << daemon->ignored_mon_config << dendl;
}
daemon->config_defaults_bl = m->config_defaults_bl;
daemon->config_defaults.clear();
dout(20) << " got config_defaults_bl " << daemon->config_defaults_bl.length()
<< " bytes" << dendl;
}
if (con->get_peer_type() != entity_name_t::TYPE_CLIENT &&
m->service_name.empty())
{
// Store in set of the daemon/service connections, i.e. those
// connections that require an update in the event of stats
// configuration changes.
daemon_connections.insert(con);
}
return true;
}
bool DaemonServer::handle_update(const ref_t<MMgrUpdate>& m)
{
DaemonKey key;
if (!m->service_name.empty()) {
key.type = m->service_name;
} else {
key.type = ceph_entity_type_name(m->get_connection()->get_peer_type());
}
key.name = m->daemon_name;
dout(10) << "from " << m->get_connection() << " " << key << dendl;
if (m->get_connection()->get_peer_type() == entity_name_t::TYPE_CLIENT &&
m->service_name.empty()) {
// Clients should not be sending us update request
dout(10) << "rejecting update request from non-daemon client " << m->daemon_name
<< dendl;
clog->warn() << "rejecting report from non-daemon client " << m->daemon_name
<< " at " << m->get_connection()->get_peer_addrs();
m->get_connection()->mark_down();
return true;
}
{
std::unique_lock locker(lock);
DaemonStatePtr daemon;
// Look up the DaemonState
if (daemon_state.exists(key)) {
dout(20) << "updating existing DaemonState for " << key << dendl;
daemon = daemon_state.get(key);
if (m->need_metadata_update &&
!m->daemon_metadata.empty()) {
daemon_state.update_metadata(daemon, m->daemon_metadata);
}
}
}
return true;
}
bool DaemonServer::handle_close(const ref_t<MMgrClose>& m)
{
std::lock_guard l(lock);
DaemonKey key = key_from_service(m->service_name,
m->get_connection()->get_peer_type(),
m->daemon_name);
dout(4) << "from " << m->get_connection() << " " << key << dendl;
if (daemon_state.exists(key)) {
DaemonStatePtr daemon = daemon_state.get(key);
daemon_state.rm(key);
{
std::lock_guard l(daemon->lock);
if (daemon->service_daemon) {
pending_service_map.rm_daemon(m->service_name, m->daemon_name);
pending_service_map_dirty = pending_service_map.epoch;
}
}
}
// send same message back as a reply
m->get_connection()->send_message2(m);
return true;
}
void DaemonServer::update_task_status(
DaemonKey key,
const std::map<std::string,std::string>& task_status)
{
dout(10) << "got task status from " << key << dendl;
[[maybe_unused]] auto [daemon, added] =
pending_service_map.get_daemon(key.type, key.name);
if (daemon->task_status != task_status) {
daemon->task_status = task_status;
pending_service_map_dirty = pending_service_map.epoch;
}
}
bool DaemonServer::handle_report(const ref_t<MMgrReport>& m)
{
DaemonKey key;
if (!m->service_name.empty()) {
key.type = m->service_name;
} else {
key.type = ceph_entity_type_name(m->get_connection()->get_peer_type());
}
key.name = m->daemon_name;
dout(10) << "from " << m->get_connection() << " " << key << dendl;
if (m->get_connection()->get_peer_type() == entity_name_t::TYPE_CLIENT &&
m->service_name.empty()) {
// Clients should not be sending us stats unless they are declaring
// themselves to be a daemon for some service.
dout(10) << "rejecting report from non-daemon client " << m->daemon_name
<< dendl;
clog->warn() << "rejecting report from non-daemon client " << m->daemon_name
<< " at " << m->get_connection()->get_peer_addrs();
m->get_connection()->mark_down();
return true;
}
{
std::unique_lock locker(lock);
DaemonStatePtr daemon;
// Look up the DaemonState
if (daemon_state.exists(key)) {
dout(20) << "updating existing DaemonState for " << key << dendl;
daemon = daemon_state.get(key);
} else {
locker.unlock();
// we don't know the hostname at this stage, reject MMgrReport here.
dout(5) << "rejecting report from " << key << ", since we do not have its metadata now."
<< dendl;
// issue metadata request in background
fetch_missing_metadata(key, m->get_source_addr());
locker.lock();
// kill session
auto priv = m->get_connection()->get_priv();
auto session = static_cast<MgrSession*>(priv.get());
if (!session) {
return false;
}
m->get_connection()->mark_down();
dout(10) << "unregistering osd." << session->osd_id
<< " session " << session << " con " << m->get_connection() << dendl;
if (osd_cons.find(session->osd_id) != osd_cons.end()) {
osd_cons[session->osd_id].erase(m->get_connection());
}
auto iter = daemon_connections.find(m->get_connection());
if (iter != daemon_connections.end()) {
daemon_connections.erase(iter);
}
return false;
}
// Update the DaemonState
ceph_assert(daemon != nullptr);
{
std::lock_guard l(daemon->lock);
auto &daemon_counters = daemon->perf_counters;
daemon_counters.update(*m.get());
auto p = m->config_bl.cbegin();
if (p != m->config_bl.end()) {
decode(daemon->config, p);
decode(daemon->ignored_mon_config, p);
dout(20) << " got config " << daemon->config
<< " ignored " << daemon->ignored_mon_config << dendl;
}
utime_t now = ceph_clock_now();
if (daemon->service_daemon) {
if (m->daemon_status) {
daemon->service_status_stamp = now;
daemon->service_status = *m->daemon_status;
}
daemon->last_service_beacon = now;
} else if (m->daemon_status) {
derr << "got status from non-daemon " << key << dendl;
}
// update task status
if (m->task_status) {
update_task_status(key, *m->task_status);
daemon->last_service_beacon = now;
}
if (m->get_connection()->peer_is_osd() || m->get_connection()->peer_is_mon()) {
// only OSD and MON send health_checks to me now
daemon->daemon_health_metrics = std::move(m->daemon_health_metrics);
dout(10) << "daemon_health_metrics " << daemon->daemon_health_metrics
<< dendl;
}
}
}
// if there are any schema updates, notify the python modules
/* no users currently
if (!m->declare_types.empty() || !m->undeclare_types.empty()) {
py_modules.notify_all("perf_schema_update", ceph::to_string(key));
}
*/
if (m->get_connection()->peer_is_osd()) {
osd_perf_metric_collector.process_reports(m->osd_perf_metric_reports);
}
if (m->metric_report_message) {
const MetricReportMessage &message = *m->metric_report_message;
boost::apply_visitor(HandlePayloadVisitor(this), message.payload);
}
return true;
}
void DaemonServer::_generate_command_map(
cmdmap_t& cmdmap,
map<string,string> ¶m_str_map)
{
for (auto p = cmdmap.begin();
p != cmdmap.end(); ++p) {
if (p->first == "prefix")
continue;
if (p->first == "caps") {
vector<string> cv;
if (cmd_getval(cmdmap, "caps", cv) &&
cv.size() % 2 == 0) {
for (unsigned i = 0; i < cv.size(); i += 2) {
string k = string("caps_") + cv[i];
param_str_map[k] = cv[i + 1];
}
continue;
}
}
param_str_map[p->first] = cmd_vartype_stringify(p->second);
}
}
const MonCommand *DaemonServer::_get_mgrcommand(
const string &cmd_prefix,
const std::vector<MonCommand> &cmds)
{
const MonCommand *this_cmd = nullptr;
for (const auto &cmd : cmds) {
if (cmd.cmdstring.compare(0, cmd_prefix.size(), cmd_prefix) == 0) {
this_cmd = &cmd;
break;
}
}
return this_cmd;
}
bool DaemonServer::_allowed_command(
MgrSession *s,
const string &service,
const string &module,
const string &prefix,
const cmdmap_t& cmdmap,
const map<string,string>& param_str_map,
const MonCommand *this_cmd) {
if (s->entity_name.is_mon()) {
// mon is all-powerful. even when it is forwarding commands on behalf of
// old clients; we expect the mon is validating commands before proxying!
return true;
}
bool cmd_r = this_cmd->requires_perm('r');
bool cmd_w = this_cmd->requires_perm('w');
bool cmd_x = this_cmd->requires_perm('x');
bool capable = s->caps.is_capable(
g_ceph_context,
s->entity_name,
service, module, prefix, param_str_map,
cmd_r, cmd_w, cmd_x,
s->get_peer_addr());
dout(10) << " " << s->entity_name << " "
<< (capable ? "" : "not ") << "capable" << dendl;
return capable;
}
/**
* The working data for processing an MCommand. This lives in
* a class to enable passing it into other threads for processing
* outside of the thread/locks that called handle_command.
*/
class CommandContext {
public:
ceph::ref_t<MCommand> m_tell;
ceph::ref_t<MMgrCommand> m_mgr;
const std::vector<std::string>& cmd; ///< ref into m_tell or m_mgr
const bufferlist& data; ///< ref into m_tell or m_mgr
bufferlist odata;
cmdmap_t cmdmap;
explicit CommandContext(ceph::ref_t<MCommand> m)
: m_tell{std::move(m)},
cmd(m_tell->cmd),
data(m_tell->get_data()) {
}
explicit CommandContext(ceph::ref_t<MMgrCommand> m)
: m_mgr{std::move(m)},
cmd(m_mgr->cmd),
data(m_mgr->get_data()) {
}
void reply(int r, const std::stringstream &ss) {
reply(r, ss.str());
}
void reply(int r, const std::string &rs) {
// Let the connection drop as soon as we've sent our response
ConnectionRef con = m_tell ? m_tell->get_connection()
: m_mgr->get_connection();
if (con) {
con->mark_disposable();
}
if (r == 0) {
dout(20) << "success" << dendl;
} else {
derr << __func__ << " " << cpp_strerror(r) << " " << rs << dendl;
}
if (con) {
if (m_tell) {
MCommandReply *reply = new MCommandReply(r, rs);
reply->set_tid(m_tell->get_tid());
reply->set_data(odata);
con->send_message(reply);
} else {
MMgrCommandReply *reply = new MMgrCommandReply(r, rs);
reply->set_tid(m_mgr->get_tid());
reply->set_data(odata);
con->send_message(reply);
}
}
}
};
/**
* A context for receiving a bufferlist/error string from a background
* function and then calling back to a CommandContext when it's done
*/
class ReplyOnFinish : public Context {
std::shared_ptr<CommandContext> cmdctx;
public:
bufferlist from_mon;
string outs;
explicit ReplyOnFinish(const std::shared_ptr<CommandContext> &cmdctx_)
: cmdctx(cmdctx_)
{}
void finish(int r) override {
cmdctx->odata.claim_append(from_mon);
cmdctx->reply(r, outs);
}
};
bool DaemonServer::handle_command(const ref_t<MCommand>& m)
{
std::lock_guard l(lock);
auto cmdctx = std::make_shared<CommandContext>(m);
try {
return _handle_command(cmdctx);
} catch (const bad_cmd_get& e) {
cmdctx->reply(-EINVAL, e.what());
return true;
}
}
bool DaemonServer::handle_command(const ref_t<MMgrCommand>& m)
{
std::lock_guard l(lock);
auto cmdctx = std::make_shared<CommandContext>(m);
try {
return _handle_command(cmdctx);
} catch (const bad_cmd_get& e) {
cmdctx->reply(-EINVAL, e.what());
return true;
}
}
void DaemonServer::log_access_denied(
std::shared_ptr<CommandContext>& cmdctx,
MgrSession* session, std::stringstream& ss) {
dout(1) << " access denied" << dendl;
audit_clog->info() << "from='" << session->inst << "' "
<< "entity='" << session->entity_name << "' "
<< "cmd=" << cmdctx->cmd << ": access denied";
ss << "access denied: does your client key have mgr caps? "
"See http://docs.ceph.com/en/latest/mgr/administrator/"
"#client-authentication";
}
void DaemonServer::_check_offlines_pgs(
const set<int>& osds,
const OSDMap& osdmap,
const PGMap& pgmap,
offline_pg_report *report)
{
// reset output
*report = offline_pg_report();
report->osds = osds;
for (const auto& q : pgmap.pg_stat) {
set<int32_t> pg_acting; // net acting sets (with no missing if degraded)
bool found = false;
if (q.second.state == 0) {
report->unknown.insert(q.first);
continue;
}
if (q.second.state & PG_STATE_DEGRADED) {
for (auto& anm : q.second.avail_no_missing) {
if (osds.count(anm.osd)) {
found = true;
continue;
}
if (anm.osd != CRUSH_ITEM_NONE) {
pg_acting.insert(anm.osd);
}
}
} else {
for (auto& a : q.second.acting) {
if (osds.count(a)) {
found = true;
continue;
}
if (a != CRUSH_ITEM_NONE) {
pg_acting.insert(a);
}
}
}
if (!found) {
continue;
}
const pg_pool_t *pi = osdmap.get_pg_pool(q.first.pool());
bool dangerous = false;
if (!pi) {
report->bad_no_pool.insert(q.first); // pool is creating or deleting
dangerous = true;
}
if (!(q.second.state & PG_STATE_ACTIVE)) {
report->bad_already_inactive.insert(q.first);
dangerous = true;
}
if (pg_acting.size() < pi->min_size) {
report->bad_become_inactive.insert(q.first);
dangerous = true;
}
if (dangerous) {
report->not_ok.insert(q.first);
} else {
report->ok.insert(q.first);
if (q.second.state & PG_STATE_DEGRADED) {
report->ok_become_more_degraded.insert(q.first);
} else {
report->ok_become_degraded.insert(q.first);
}
}
}
dout(20) << osds << " -> " << report->ok.size() << " ok, "
<< report->not_ok.size() << " not ok, "
<< report->unknown.size() << " unknown"
<< dendl;
}
void DaemonServer::_maximize_ok_to_stop_set(
const set<int>& orig_osds,
unsigned max,
const OSDMap& osdmap,
const PGMap& pgmap,
offline_pg_report *out_report)
{
dout(20) << "orig_osds " << orig_osds << " max " << max << dendl;
_check_offlines_pgs(orig_osds, osdmap, pgmap, out_report);
if (!out_report->ok_to_stop()) {
return;
}
if (orig_osds.size() >= max) {
// already at max
return;
}
// semi-arbitrarily start with the first osd in the set
offline_pg_report report;
set<int> osds = orig_osds;
int parent = *osds.begin();
set<int> children;
while (true) {
// identify the next parent
int r = osdmap.crush->get_immediate_parent_id(parent, &parent);
if (r < 0) {
return; // just go with what we have so far!
}
// get candidate additions that are beneath this point in the tree
children.clear();
r = osdmap.crush->get_all_children(parent, &children);
if (r < 0) {
return; // just go with what we have so far!
}
dout(20) << " parent " << parent << " children " << children << dendl;
// try adding in more osds
int failed = 0; // how many children we failed to add to our set
for (auto o : children) {
if (o >= 0 && osdmap.is_up(o) && osds.count(o) == 0) {
osds.insert(o);
_check_offlines_pgs(osds, osdmap, pgmap, &report);
if (!report.ok_to_stop()) {
osds.erase(o);
++failed;
continue;
}
*out_report = report;
if (osds.size() == max) {
dout(20) << " hit max" << dendl;
return; // yay, we hit the max
}
}
}
if (failed) {
// we hit some failures; go with what we have
dout(20) << " hit some peer failures" << dendl;
return;
}
}
}
bool DaemonServer::_handle_command(
std::shared_ptr<CommandContext>& cmdctx)
{
MessageRef m;
bool admin_socket_cmd = false;
if (cmdctx->m_tell) {
m = cmdctx->m_tell;
// a blank fsid in MCommand signals a legacy client sending a "mon-mgr" CLI
// command.
admin_socket_cmd = (cmdctx->m_tell->fsid != uuid_d());
} else {
m = cmdctx->m_mgr;
}
auto priv = m->get_connection()->get_priv();
auto session = static_cast<MgrSession*>(priv.get());
if (!session) {
return true;
}
if (session->inst.name == entity_name_t()) {
session->inst.name = m->get_source();
}
map<string,string> param_str_map;
std::stringstream ss;
int r = 0;
if (!cmdmap_from_json(cmdctx->cmd, &(cmdctx->cmdmap), ss)) {
cmdctx->reply(-EINVAL, ss);
return true;
}
string prefix;
cmd_getval(cmdctx->cmdmap, "prefix", prefix);
dout(10) << "decoded-size=" << cmdctx->cmdmap.size() << " prefix=" << prefix << dendl;
boost::scoped_ptr<Formatter> f;
{
std::string format;
if (boost::algorithm::ends_with(prefix, "_json")) {
format = "json";
} else {
cmd_getval(cmdctx->cmdmap, "format", format, string("plain"));
}
f.reset(Formatter::create(format));
}
// this is just for mgr commands - admin socket commands will fall
// through and use the admin socket version of
// get_command_descriptions
if (prefix == "get_command_descriptions" && !admin_socket_cmd) {
dout(10) << "reading commands from python modules" << dendl;
const auto py_commands = py_modules.get_commands();
int cmdnum = 0;
JSONFormatter f;
f.open_object_section("command_descriptions");
auto dump_cmd = [&cmdnum, &f, m](const MonCommand &mc){
ostringstream secname;
secname << "cmd" << setfill('0') << std::setw(3) << cmdnum;
dump_cmddesc_to_json(&f, m->get_connection()->get_features(),
secname.str(), mc.cmdstring, mc.helpstring,
mc.module, mc.req_perms, 0);
cmdnum++;
};
for (const auto &pyc : py_commands) {
dump_cmd(pyc);
}
for (const auto &mgr_cmd : mgr_commands) {
dump_cmd(mgr_cmd);
}
f.close_section(); // command_descriptions
f.flush(cmdctx->odata);
cmdctx->reply(0, ss);
return true;
}
// lookup command
const MonCommand *mgr_cmd = _get_mgrcommand(prefix, mgr_commands);
_generate_command_map(cmdctx->cmdmap, param_str_map);
bool is_allowed = false;
ModuleCommand py_command;
if (admin_socket_cmd) {
// admin socket commands require all capabilities
is_allowed = session->caps.is_allow_all();
} else if (!mgr_cmd) {
// Resolve the command to the name of the module that will
// handle it (if the command exists)
auto py_commands = py_modules.get_py_commands();
for (const auto &pyc : py_commands) {
auto pyc_prefix = cmddesc_get_prefix(pyc.cmdstring);
if (pyc_prefix == prefix) {
py_command = pyc;
break;
}
}
MonCommand pyc = {"", "", "py", py_command.perm};
is_allowed = _allowed_command(session, "py", py_command.module_name,
prefix, cmdctx->cmdmap, param_str_map,
&pyc);
} else {
// validate user's permissions for requested command
is_allowed = _allowed_command(session, mgr_cmd->module, "",
prefix, cmdctx->cmdmap, param_str_map, mgr_cmd);
}
if (!is_allowed) {
log_access_denied(cmdctx, session, ss);
cmdctx->reply(-EACCES, ss);
return true;
}
audit_clog->debug()
<< "from='" << session->inst << "' "
<< "entity='" << session->entity_name << "' "
<< "cmd=" << cmdctx->cmd << ": dispatch";
if (admin_socket_cmd) {
cct->get_admin_socket()->queue_tell_command(cmdctx->m_tell);
return true;
}
// ----------------
// service map commands
if (prefix == "service dump") {
if (!f)
f.reset(Formatter::create("json-pretty"));
cluster_state.with_servicemap([&](const ServiceMap &service_map) {
f->dump_object("service_map", service_map);
});
f->flush(cmdctx->odata);
cmdctx->reply(0, ss);
return true;
}
if (prefix == "service status") {
if (!f)
f.reset(Formatter::create("json-pretty"));
// only include state from services that are in the persisted service map
f->open_object_section("service_status");
for (auto& [type, service] : pending_service_map.services) {
if (ServiceMap::is_normal_ceph_entity(type)) {
continue;
}
f->open_object_section(type.c_str());
for (auto& q : service.daemons) {
f->open_object_section(q.first.c_str());
DaemonKey key{type, q.first};
ceph_assert(daemon_state.exists(key));
auto daemon = daemon_state.get(key);
std::lock_guard l(daemon->lock);
f->dump_stream("status_stamp") << daemon->service_status_stamp;
f->dump_stream("last_beacon") << daemon->last_service_beacon;
f->open_object_section("status");
for (auto& r : daemon->service_status) {
f->dump_string(r.first.c_str(), r.second);
}
f->close_section();
f->close_section();
}
f->close_section();
}
f->close_section();
f->flush(cmdctx->odata);
cmdctx->reply(0, ss);
return true;
}
if (prefix == "config set") {
std::string key;
std::string val;
cmd_getval(cmdctx->cmdmap, "key", key);
cmd_getval(cmdctx->cmdmap, "value", val);
r = cct->_conf.set_val(key, val, &ss);
if (r == 0) {
cct->_conf.apply_changes(nullptr);
}
cmdctx->reply(0, ss);
return true;
}
// -----------
// PG commands
if (prefix == "pg scrub" ||
prefix == "pg repair" ||
prefix == "pg deep-scrub") {
string scrubop = prefix.substr(3, string::npos);
pg_t pgid;
spg_t spgid;
string pgidstr;
cmd_getval(cmdctx->cmdmap, "pgid", pgidstr);
if (!pgid.parse(pgidstr.c_str())) {
ss << "invalid pgid '" << pgidstr << "'";
cmdctx->reply(-EINVAL, ss);
return true;
}
bool pg_exists = false;
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
pg_exists = osdmap.pg_exists(pgid);
});
if (!pg_exists) {
ss << "pg " << pgid << " does not exist";
cmdctx->reply(-ENOENT, ss);
return true;
}
int acting_primary = -1;
epoch_t epoch;
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
epoch = osdmap.get_epoch();
osdmap.get_primary_shard(pgid, &acting_primary, &spgid);
});
if (acting_primary == -1) {
ss << "pg " << pgid << " has no primary osd";
cmdctx->reply(-EAGAIN, ss);
return true;
}
auto p = osd_cons.find(acting_primary);
if (p == osd_cons.end()) {
ss << "pg " << pgid << " primary osd." << acting_primary
<< " is not currently connected";
cmdctx->reply(-EAGAIN, ss);
return true;
}
for (auto& con : p->second) {
if (HAVE_FEATURE(con->get_features(), SERVER_MIMIC)) {
vector<spg_t> pgs = { spgid };
con->send_message(new MOSDScrub2(monc->get_fsid(),
epoch,
pgs,
scrubop == "repair",
scrubop == "deep-scrub"));
} else {
vector<pg_t> pgs = { pgid };
con->send_message(new MOSDScrub(monc->get_fsid(),
pgs,
scrubop == "repair",
scrubop == "deep-scrub"));
}
}
ss << "instructing pg " << spgid << " on osd." << acting_primary
<< " to " << scrubop;
cmdctx->reply(0, ss);
return true;
} else if (prefix == "osd scrub" ||
prefix == "osd deep-scrub" ||
prefix == "osd repair") {
string whostr;
cmd_getval(cmdctx->cmdmap, "who", whostr);
vector<string> pvec;
get_str_vec(prefix, pvec);
set<int> osds;
if (whostr == "*" || whostr == "all" || whostr == "any") {
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
for (int i = 0; i < osdmap.get_max_osd(); i++)
if (osdmap.is_up(i)) {
osds.insert(i);
}
});
} else {
long osd = parse_osd_id(whostr.c_str(), &ss);
if (osd < 0) {
ss << "invalid osd '" << whostr << "'";
cmdctx->reply(-EINVAL, ss);
return true;
}
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
if (osdmap.is_up(osd)) {
osds.insert(osd);
}
});
if (osds.empty()) {
ss << "osd." << osd << " is not up";
cmdctx->reply(-EAGAIN, ss);
return true;
}
}
set<int> sent_osds, failed_osds;
for (auto osd : osds) {
vector<spg_t> spgs;
epoch_t epoch;
cluster_state.with_osdmap_and_pgmap([&](const OSDMap& osdmap, const PGMap& pgmap) {
epoch = osdmap.get_epoch();
auto p = pgmap.pg_by_osd.find(osd);
if (p != pgmap.pg_by_osd.end()) {
for (auto pgid : p->second) {
int primary;
spg_t spg;
osdmap.get_primary_shard(pgid, &primary, &spg);
if (primary == osd) {
spgs.push_back(spg);
}
}
}
});
auto p = osd_cons.find(osd);
if (p == osd_cons.end()) {
failed_osds.insert(osd);
} else {
sent_osds.insert(osd);
for (auto& con : p->second) {
if (HAVE_FEATURE(con->get_features(), SERVER_MIMIC)) {
con->send_message(new MOSDScrub2(monc->get_fsid(),
epoch,
spgs,
pvec.back() == "repair",
pvec.back() == "deep-scrub"));
} else {
con->send_message(new MOSDScrub(monc->get_fsid(),
pvec.back() == "repair",
pvec.back() == "deep-scrub"));
}
}
}
}
if (failed_osds.size() == osds.size()) {
ss << "failed to instruct osd(s) " << osds << " to " << pvec.back()
<< " (not connected)";
r = -EAGAIN;
} else {
ss << "instructed osd(s) " << sent_osds << " to " << pvec.back();
if (!failed_osds.empty()) {
ss << "; osd(s) " << failed_osds << " were not connected";
}
r = 0;
}
cmdctx->reply(0, ss);
return true;
} else if (prefix == "osd pool scrub" ||
prefix == "osd pool deep-scrub" ||
prefix == "osd pool repair") {
vector<string> pool_names;
cmd_getval(cmdctx->cmdmap, "who", pool_names);
if (pool_names.empty()) {
ss << "must specify one or more pool names";
cmdctx->reply(-EINVAL, ss);
return true;
}
epoch_t epoch;
map<int32_t, vector<pg_t>> pgs_by_primary; // legacy
map<int32_t, vector<spg_t>> spgs_by_primary;
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
epoch = osdmap.get_epoch();
for (auto& pool_name : pool_names) {
auto pool_id = osdmap.lookup_pg_pool_name(pool_name);
if (pool_id < 0) {
ss << "unrecognized pool '" << pool_name << "'";
r = -ENOENT;
return;
}
auto pool_pg_num = osdmap.get_pg_num(pool_id);
for (int i = 0; i < pool_pg_num; i++) {
pg_t pg(i, pool_id);
int primary;
spg_t spg;
auto got = osdmap.get_primary_shard(pg, &primary, &spg);
if (!got)
continue;
pgs_by_primary[primary].push_back(pg);
spgs_by_primary[primary].push_back(spg);
}
}
});
if (r < 0) {
cmdctx->reply(r, ss);
return true;
}
for (auto& it : spgs_by_primary) {
auto primary = it.first;
auto p = osd_cons.find(primary);
if (p == osd_cons.end()) {
ss << "osd." << primary << " is not currently connected";
cmdctx->reply(-EAGAIN, ss);
return true;
}
for (auto& con : p->second) {
if (HAVE_FEATURE(con->get_features(), SERVER_MIMIC)) {
con->send_message(new MOSDScrub2(monc->get_fsid(),
epoch,
it.second,
prefix == "osd pool repair",
prefix == "osd pool deep-scrub"));
} else {
// legacy
auto q = pgs_by_primary.find(primary);
ceph_assert(q != pgs_by_primary.end());
con->send_message(new MOSDScrub(monc->get_fsid(),
q->second,
prefix == "osd pool repair",
prefix == "osd pool deep-scrub"));
}
}
}
cmdctx->reply(0, "");
return true;
} else if (prefix == "osd reweight-by-pg" ||
prefix == "osd reweight-by-utilization" ||
prefix == "osd test-reweight-by-pg" ||
prefix == "osd test-reweight-by-utilization") {
bool by_pg =
prefix == "osd reweight-by-pg" || prefix == "osd test-reweight-by-pg";
bool dry_run =
prefix == "osd test-reweight-by-pg" ||
prefix == "osd test-reweight-by-utilization";
int64_t oload;
cmd_getval(cmdctx->cmdmap, "oload", oload, int64_t(120));
set<int64_t> pools;
vector<string> poolnames;
cmd_getval(cmdctx->cmdmap, "pools", poolnames);
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
for (const auto& poolname : poolnames) {
int64_t pool = osdmap.lookup_pg_pool_name(poolname);
if (pool < 0) {
ss << "pool '" << poolname << "' does not exist";
r = -ENOENT;
}
pools.insert(pool);
}
});
if (r) {
cmdctx->reply(r, ss);
return true;
}
double max_change = g_conf().get_val<double>("mon_reweight_max_change");
cmd_getval(cmdctx->cmdmap, "max_change", max_change);
if (max_change <= 0.0) {
ss << "max_change " << max_change << " must be positive";
cmdctx->reply(-EINVAL, ss);
return true;
}
int64_t max_osds = g_conf().get_val<int64_t>("mon_reweight_max_osds");
cmd_getval(cmdctx->cmdmap, "max_osds", max_osds);
if (max_osds <= 0) {
ss << "max_osds " << max_osds << " must be positive";
cmdctx->reply(-EINVAL, ss);
return true;
}
bool no_increasing = false;
cmd_getval(cmdctx->cmdmap, "no_increasing", no_increasing);
string out_str;
mempool::osdmap::map<int32_t, uint32_t> new_weights;
r = cluster_state.with_osdmap_and_pgmap([&](const OSDMap &osdmap, const PGMap& pgmap) {
return reweight::by_utilization(osdmap, pgmap,
oload,
max_change,
max_osds,
by_pg,
pools.empty() ? NULL : &pools,
no_increasing,
&new_weights,
&ss, &out_str, f.get());
});
if (r >= 0) {
dout(10) << "reweight::by_utilization: finished with " << out_str << dendl;
}
if (f) {
f->flush(cmdctx->odata);
} else {
cmdctx->odata.append(out_str);
}
if (r < 0) {
ss << "FAILED reweight-by-pg";
cmdctx->reply(r, ss);
return true;
} else if (r == 0 || dry_run) {
ss << "no change";
cmdctx->reply(r, ss);
return true;
} else {
json_spirit::Object json_object;
for (const auto& osd_weight : new_weights) {
json_spirit::Config::add(json_object,
std::to_string(osd_weight.first),
std::to_string(osd_weight.second));
}
string s = json_spirit::write(json_object);
std::replace(begin(s), end(s), '\"', '\'');
const string cmd =
"{"
"\"prefix\": \"osd reweightn\", "
"\"weights\": \"" + s + "\""
"}";
auto on_finish = new ReplyOnFinish(cmdctx);
monc->start_mon_command({cmd}, {},
&on_finish->from_mon, &on_finish->outs, on_finish);
return true;
}
} else if (prefix == "osd df") {
string method, filter;
cmd_getval(cmdctx->cmdmap, "output_method", method);
cmd_getval(cmdctx->cmdmap, "filter", filter);
stringstream rs;
r = cluster_state.with_osdmap_and_pgmap([&](const OSDMap& osdmap, const PGMap& pgmap) {
// sanity check filter(s)
if (!filter.empty() &&
osdmap.lookup_pg_pool_name(filter) < 0 &&
!osdmap.crush->class_exists(filter) &&
!osdmap.crush->name_exists(filter)) {
rs << "'" << filter << "' not a pool, crush node or device class name";
return -EINVAL;
}
print_osd_utilization(osdmap, pgmap, ss,
f.get(), method == "tree", filter);
cmdctx->odata.append(ss);
return 0;
});
cmdctx->reply(r, rs);
return true;
} else if (prefix == "osd pool stats") {
string pool_name;
cmd_getval(cmdctx->cmdmap, "pool_name", pool_name);
int64_t poolid = -ENOENT;
bool one_pool = false;
r = cluster_state.with_osdmap_and_pgmap([&](const OSDMap& osdmap, const PGMap& pg_map) {
if (!pool_name.empty()) {
poolid = osdmap.lookup_pg_pool_name(pool_name);
if (poolid < 0) {
ceph_assert(poolid == -ENOENT);
ss << "unrecognized pool '" << pool_name << "'";
return -ENOENT;
}
one_pool = true;
}
stringstream rs;
if (f)
f->open_array_section("pool_stats");
else {
if (osdmap.get_pools().empty()) {
ss << "there are no pools!";
goto stats_out;
}
}
for (auto &p : osdmap.get_pools()) {
if (!one_pool) {
poolid = p.first;
}
pg_map.dump_pool_stats_and_io_rate(poolid, osdmap, f.get(), &rs);
if (one_pool) {
break;
}
}
stats_out:
if (f) {
f->close_section();
f->flush(cmdctx->odata);
} else {
cmdctx->odata.append(rs.str());
}
return 0;
});
if (r != -EOPNOTSUPP) {
cmdctx->reply(r, ss);
return true;
}
} else if (prefix == "osd safe-to-destroy" ||
prefix == "osd destroy" ||
prefix == "osd purge") {
set<int> osds;
int r = 0;
if (prefix == "osd safe-to-destroy") {
vector<string> ids;
cmd_getval(cmdctx->cmdmap, "ids", ids);
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
r = osdmap.parse_osd_id_list(ids, &osds, &ss);
});
if (!r && osds.empty()) {
ss << "must specify one or more OSDs";
r = -EINVAL;
}
} else {
int64_t id;
if (!cmd_getval(cmdctx->cmdmap, "id", id)) {
r = -EINVAL;
ss << "must specify OSD id";
} else {
osds.insert(id);
}
}
if (r < 0) {
cmdctx->reply(r, ss);
return true;
}
set<int> active_osds, missing_stats, stored_pgs, safe_to_destroy;
int affected_pgs = 0;
cluster_state.with_osdmap_and_pgmap([&](const OSDMap& osdmap, const PGMap& pg_map) {
if (pg_map.num_pg_unknown > 0) {
ss << pg_map.num_pg_unknown << " pgs have unknown state; cannot draw"
<< " any conclusions";
r = -EAGAIN;
return;
}
int num_active_clean = 0;
for (auto& p : pg_map.num_pg_by_state) {
unsigned want = PG_STATE_ACTIVE|PG_STATE_CLEAN;
if ((p.first & want) == want) {
num_active_clean += p.second;
}
}
for (auto osd : osds) {
if (!osdmap.exists(osd)) {
safe_to_destroy.insert(osd);
continue; // clearly safe to destroy
}
auto q = pg_map.num_pg_by_osd.find(osd);
if (q != pg_map.num_pg_by_osd.end()) {
if (q->second.acting > 0 || q->second.up_not_acting > 0) {
active_osds.insert(osd);
// XXX: For overlapping PGs, this counts them again
affected_pgs += q->second.acting + q->second.up_not_acting;
continue;
}
}
if (num_active_clean < pg_map.num_pg) {
// all pgs aren't active+clean; we need to be careful.
auto p = pg_map.osd_stat.find(osd);
if (p == pg_map.osd_stat.end() || !osdmap.is_up(osd)) {
missing_stats.insert(osd);
continue;
} else if (p->second.num_pgs > 0) {
stored_pgs.insert(osd);
continue;
}
}
safe_to_destroy.insert(osd);
}
});
if (r && prefix == "osd safe-to-destroy") {
cmdctx->reply(r, ss); // regardless of formatter
return true;
}
if (!r && (!active_osds.empty() ||
!missing_stats.empty() || !stored_pgs.empty())) {
if (!safe_to_destroy.empty()) {
ss << "OSD(s) " << safe_to_destroy
<< " are safe to destroy without reducing data durability. ";
}
if (!active_osds.empty()) {
ss << "OSD(s) " << active_osds << " have " << affected_pgs
<< " pgs currently mapped to them. ";
}
if (!missing_stats.empty()) {
ss << "OSD(s) " << missing_stats << " have no reported stats, and not all"
<< " PGs are active+clean; we cannot draw any conclusions. ";
}
if (!stored_pgs.empty()) {
ss << "OSD(s) " << stored_pgs << " last reported they still store some PG"
<< " data, and not all PGs are active+clean; we cannot be sure they"
<< " aren't still needed.";
}
if (!active_osds.empty() || !stored_pgs.empty()) {
r = -EBUSY;
} else {
r = -EAGAIN;
}
}
if (prefix == "osd safe-to-destroy") {
if (!r) {
ss << "OSD(s) " << osds << " are safe to destroy without reducing data"
<< " durability.";
}
if (f) {
f->open_object_section("osd_status");
f->open_array_section("safe_to_destroy");
for (auto i : safe_to_destroy)
f->dump_int("osd", i);
f->close_section();
f->open_array_section("active");
for (auto i : active_osds)
f->dump_int("osd", i);
f->close_section();
f->open_array_section("missing_stats");
for (auto i : missing_stats)
f->dump_int("osd", i);
f->close_section();
f->open_array_section("stored_pgs");
for (auto i : stored_pgs)
f->dump_int("osd", i);
f->close_section();
f->close_section(); // osd_status
f->flush(cmdctx->odata);
r = 0;
std::stringstream().swap(ss);
}
cmdctx->reply(r, ss);
return true;
}
if (r) {
bool force = false;
cmd_getval(cmdctx->cmdmap, "force", force);
if (!force) {
// Backward compat
cmd_getval(cmdctx->cmdmap, "yes_i_really_mean_it", force);
}
if (!force) {
ss << "\nYou can proceed by passing --force, but be warned that"
" this will likely mean real, permanent data loss.";
} else {
r = 0;
}
}
if (r) {
cmdctx->reply(r, ss);
return true;
}
const string cmd =
"{"
"\"prefix\": \"" + prefix + "-actual\", "
"\"id\": " + stringify(osds) + ", "
"\"yes_i_really_mean_it\": true"
"}";
auto on_finish = new ReplyOnFinish(cmdctx);
monc->start_mon_command({cmd}, {}, nullptr, &on_finish->outs, on_finish);
return true;
} else if (prefix == "osd ok-to-stop") {
vector<string> ids;
cmd_getval(cmdctx->cmdmap, "ids", ids);
set<int> osds;
int64_t max = 1;
cmd_getval(cmdctx->cmdmap, "max", max);
int r;
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
r = osdmap.parse_osd_id_list(ids, &osds, &ss);
});
if (!r && osds.empty()) {
ss << "must specify one or more OSDs";
r = -EINVAL;
}
if (max < (int)osds.size()) {
max = osds.size();
}
if (r < 0) {
cmdctx->reply(r, ss);
return true;
}
offline_pg_report out_report;
cluster_state.with_osdmap_and_pgmap([&](const OSDMap& osdmap, const PGMap& pg_map) {
_maximize_ok_to_stop_set(
osds, max, osdmap, pg_map,
&out_report);
});
if (!f) {
f.reset(Formatter::create("json"));
}
f->dump_object("ok_to_stop", out_report);
f->flush(cmdctx->odata);
cmdctx->odata.append("\n");
if (!out_report.unknown.empty()) {
ss << out_report.unknown.size() << " pgs have unknown state; "
<< "cannot draw any conclusions";
cmdctx->reply(-EAGAIN, ss);
}
if (!out_report.ok_to_stop()) {
ss << "unsafe to stop osd(s) at this time (" << out_report.not_ok.size() << " PGs are or would become offline)";
cmdctx->reply(-EBUSY, ss);
} else {
cmdctx->reply(0, ss);
}
return true;
} else if (prefix == "pg force-recovery" ||
prefix == "pg force-backfill" ||
prefix == "pg cancel-force-recovery" ||
prefix == "pg cancel-force-backfill" ||
prefix == "osd pool force-recovery" ||
prefix == "osd pool force-backfill" ||
prefix == "osd pool cancel-force-recovery" ||
prefix == "osd pool cancel-force-backfill") {
vector<string> vs;
get_str_vec(prefix, vs);
auto& granularity = vs.front();
auto& forceop = vs.back();
vector<pg_t> pgs;
// figure out actual op just once
int actual_op = 0;
if (forceop == "force-recovery") {
actual_op = OFR_RECOVERY;
} else if (forceop == "force-backfill") {
actual_op = OFR_BACKFILL;
} else if (forceop == "cancel-force-backfill") {
actual_op = OFR_BACKFILL | OFR_CANCEL;
} else if (forceop == "cancel-force-recovery") {
actual_op = OFR_RECOVERY | OFR_CANCEL;
}
set<pg_t> candidates; // deduped
if (granularity == "pg") {
// covnert pg names to pgs, discard any invalid ones while at it
vector<string> pgids;
cmd_getval(cmdctx->cmdmap, "pgid", pgids);
for (auto& i : pgids) {
pg_t pgid;
if (!pgid.parse(i.c_str())) {
ss << "invlaid pgid '" << i << "'; ";
r = -EINVAL;
continue;
}
candidates.insert(pgid);
}
} else {
// per pool
vector<string> pool_names;
cmd_getval(cmdctx->cmdmap, "who", pool_names);
if (pool_names.empty()) {
ss << "must specify one or more pool names";
cmdctx->reply(-EINVAL, ss);
return true;
}
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
for (auto& pool_name : pool_names) {
auto pool_id = osdmap.lookup_pg_pool_name(pool_name);
if (pool_id < 0) {
ss << "unrecognized pool '" << pool_name << "'";
r = -ENOENT;
return;
}
auto pool_pg_num = osdmap.get_pg_num(pool_id);
for (int i = 0; i < pool_pg_num; i++)
candidates.insert({(unsigned int)i, (uint64_t)pool_id});
}
});
if (r < 0) {
cmdctx->reply(r, ss);
return true;
}
}
cluster_state.with_pgmap([&](const PGMap& pg_map) {
for (auto& i : candidates) {
auto it = pg_map.pg_stat.find(i);
if (it == pg_map.pg_stat.end()) {
ss << "pg " << i << " does not exist; ";
r = -ENOENT;
continue;
}
auto state = it->second.state;
// discard pgs for which user requests are pointless
switch (actual_op) {
case OFR_RECOVERY:
if ((state & (PG_STATE_DEGRADED |
PG_STATE_RECOVERY_WAIT |
PG_STATE_RECOVERING)) == 0) {
// don't return error, user script may be racing with cluster.
// not fatal.
ss << "pg " << i << " doesn't require recovery; ";
continue;
} else if (state & PG_STATE_FORCED_RECOVERY) {
ss << "pg " << i << " recovery already forced; ";
// return error, as it may be a bug in user script
r = -EINVAL;
continue;
}
break;
case OFR_BACKFILL:
if ((state & (PG_STATE_DEGRADED |
PG_STATE_BACKFILL_WAIT |
PG_STATE_BACKFILLING)) == 0) {
ss << "pg " << i << " doesn't require backfilling; ";
continue;
} else if (state & PG_STATE_FORCED_BACKFILL) {
ss << "pg " << i << " backfill already forced; ";
r = -EINVAL;
continue;
}
break;
case OFR_BACKFILL | OFR_CANCEL:
if ((state & PG_STATE_FORCED_BACKFILL) == 0) {
ss << "pg " << i << " backfill not forced; ";
continue;
}
break;
case OFR_RECOVERY | OFR_CANCEL:
if ((state & PG_STATE_FORCED_RECOVERY) == 0) {
ss << "pg " << i << " recovery not forced; ";
continue;
}
break;
default:
ceph_abort_msg("actual_op value is not supported");
}
pgs.push_back(i);
} // for
});
// respond with error only when no pgs are correct
// yes, in case of mixed errors, only the last one will be emitted,
// but the message presented will be fine
if (pgs.size() != 0) {
// clear error to not confuse users/scripts
r = 0;
}
// optimize the command -> messages conversion, use only one
// message per distinct OSD
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
// group pgs to process by osd
map<int, vector<spg_t>> osdpgs;
for (auto& pgid : pgs) {
int primary;
spg_t spg;
if (osdmap.get_primary_shard(pgid, &primary, &spg)) {
osdpgs[primary].push_back(spg);
}
}
for (auto& i : osdpgs) {
if (osdmap.is_up(i.first)) {
auto p = osd_cons.find(i.first);
if (p == osd_cons.end()) {
ss << "osd." << i.first << " is not currently connected";
r = -EAGAIN;
continue;
}
for (auto& con : p->second) {
con->send_message(
new MOSDForceRecovery(monc->get_fsid(), i.second, actual_op));
}
ss << "instructing pg(s) " << i.second << " on osd." << i.first
<< " to " << forceop << "; ";
}
}
});
ss << std::endl;
cmdctx->reply(r, ss);
return true;
} else if (prefix == "config show" ||
prefix == "config show-with-defaults") {
string who;
cmd_getval(cmdctx->cmdmap, "who", who);
auto [key, valid] = DaemonKey::parse(who);
if (!valid) {
ss << "invalid daemon name: use <type>.<id>";
cmdctx->reply(-EINVAL, ss);
return true;
}
DaemonStatePtr daemon = daemon_state.get(key);
if (!daemon) {
ss << "no config state for daemon " << who;
cmdctx->reply(-ENOENT, ss);
return true;
}
std::lock_guard l(daemon->lock);
int r = 0;
string name;
if (cmd_getval(cmdctx->cmdmap, "key", name)) {
// handle special options
if (name == "fsid") {
cmdctx->odata.append(stringify(monc->get_fsid()) + "\n");
cmdctx->reply(r, ss);
return true;
}
auto p = daemon->config.find(name);
if (p != daemon->config.end() &&
!p->second.empty()) {
cmdctx->odata.append(p->second.rbegin()->second + "\n");
} else {
auto& defaults = daemon->_get_config_defaults();
auto q = defaults.find(name);
if (q != defaults.end()) {
cmdctx->odata.append(q->second + "\n");
} else {
r = -ENOENT;
}
}
} else if (daemon->config_defaults_bl.length() > 0) {
TextTable tbl;
if (f) {
f->open_array_section("config");
} else {
tbl.define_column("NAME", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("VALUE", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("SOURCE", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("OVERRIDES", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("IGNORES", TextTable::LEFT, TextTable::LEFT);
}
if (prefix == "config show") {
// show
for (auto& i : daemon->config) {
dout(20) << " " << i.first << " -> " << i.second << dendl;
if (i.second.empty()) {
continue;
}
if (f) {
f->open_object_section("value");
f->dump_string("name", i.first);
f->dump_string("value", i.second.rbegin()->second);
f->dump_string("source", ceph_conf_level_name(
i.second.rbegin()->first));
if (i.second.size() > 1) {
f->open_array_section("overrides");
auto j = i.second.rend();
for (--j; j != i.second.rbegin(); --j) {
f->open_object_section("value");
f->dump_string("source", ceph_conf_level_name(j->first));
f->dump_string("value", j->second);
f->close_section();
}
f->close_section();
}
if (daemon->ignored_mon_config.count(i.first)) {
f->dump_string("ignores", "mon");
}
f->close_section();
} else {
tbl << i.first;
tbl << i.second.rbegin()->second;
tbl << ceph_conf_level_name(i.second.rbegin()->first);
if (i.second.size() > 1) {
list<string> ov;
auto j = i.second.rend();
for (--j; j != i.second.rbegin(); --j) {
if (j->second == i.second.rbegin()->second) {
ov.push_front(string("(") + ceph_conf_level_name(j->first) +
string("[") + j->second + string("]") +
string(")"));
} else {
ov.push_front(ceph_conf_level_name(j->first) +
string("[") + j->second + string("]"));
}
}
tbl << ov;
} else {
tbl << "";
}
tbl << (daemon->ignored_mon_config.count(i.first) ? "mon" : "");
tbl << TextTable::endrow;
}
}
} else {
// show-with-defaults
auto& defaults = daemon->_get_config_defaults();
for (auto& i : defaults) {
if (f) {
f->open_object_section("value");
f->dump_string("name", i.first);
} else {
tbl << i.first;
}
auto j = daemon->config.find(i.first);
if (j != daemon->config.end() && !j->second.empty()) {
// have config
if (f) {
f->dump_string("value", j->second.rbegin()->second);
f->dump_string("source", ceph_conf_level_name(
j->second.rbegin()->first));
if (j->second.size() > 1) {
f->open_array_section("overrides");
auto k = j->second.rend();
for (--k; k != j->second.rbegin(); --k) {
f->open_object_section("value");
f->dump_string("source", ceph_conf_level_name(k->first));
f->dump_string("value", k->second);
f->close_section();
}
f->close_section();
}
if (daemon->ignored_mon_config.count(i.first)) {
f->dump_string("ignores", "mon");
}
f->close_section();
} else {
tbl << j->second.rbegin()->second;
tbl << ceph_conf_level_name(j->second.rbegin()->first);
if (j->second.size() > 1) {
list<string> ov;
auto k = j->second.rend();
for (--k; k != j->second.rbegin(); --k) {
if (k->second == j->second.rbegin()->second) {
ov.push_front(string("(") + ceph_conf_level_name(k->first) +
string("[") + k->second + string("]") +
string(")"));
} else {
ov.push_front(ceph_conf_level_name(k->first) +
string("[") + k->second + string("]"));
}
}
tbl << ov;
} else {
tbl << "";
}
tbl << (daemon->ignored_mon_config.count(i.first) ? "mon" : "");
tbl << TextTable::endrow;
}
} else {
// only have default
if (f) {
f->dump_string("value", i.second);
f->dump_string("source", ceph_conf_level_name(CONF_DEFAULT));
f->close_section();
} else {
tbl << i.second;
tbl << ceph_conf_level_name(CONF_DEFAULT);
tbl << "";
tbl << "";
tbl << TextTable::endrow;
}
}
}
}
if (f) {
f->close_section();
f->flush(cmdctx->odata);
} else {
cmdctx->odata.append(stringify(tbl));
}
}
cmdctx->reply(r, ss);
return true;
} else if (prefix == "device ls") {
set<string> devids;
TextTable tbl;
if (f) {
f->open_array_section("devices");
daemon_state.with_devices([&f](const DeviceState& dev) {
f->dump_object("device", dev);
});
f->close_section();
f->flush(cmdctx->odata);
} else {
tbl.define_column("DEVICE", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("HOST:DEV", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("DAEMONS", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("WEAR", TextTable::RIGHT, TextTable::RIGHT);
tbl.define_column("LIFE EXPECTANCY", TextTable::LEFT, TextTable::LEFT);
auto now = ceph_clock_now();
daemon_state.with_devices([&tbl, now](const DeviceState& dev) {
string h;
for (auto& i : dev.attachments) {
if (h.size()) {
h += " ";
}
h += std::get<0>(i) + ":" + std::get<1>(i);
}
string d;
for (auto& i : dev.daemons) {
if (d.size()) {
d += " ";
}
d += to_string(i);
}
char wear_level_str[16] = {0};
if (dev.wear_level >= 0) {
snprintf(wear_level_str, sizeof(wear_level_str)-1, "%d%%",
(int)(100.1 * dev.wear_level));
}
tbl << dev.devid
<< h
<< d
<< wear_level_str
<< dev.get_life_expectancy_str(now)
<< TextTable::endrow;
});
cmdctx->odata.append(stringify(tbl));
}
cmdctx->reply(0, ss);
return true;
} else if (prefix == "device ls-by-daemon") {
string who;
cmd_getval(cmdctx->cmdmap, "who", who);
if (auto [k, valid] = DaemonKey::parse(who); !valid) {
ss << who << " is not a valid daemon name";
r = -EINVAL;
} else {
auto dm = daemon_state.get(k);
if (dm) {
if (f) {
f->open_array_section("devices");
for (auto& i : dm->devices) {
daemon_state.with_device(i.first, [&f] (const DeviceState& dev) {
f->dump_object("device", dev);
});
}
f->close_section();
f->flush(cmdctx->odata);
} else {
TextTable tbl;
tbl.define_column("DEVICE", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("HOST:DEV", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("EXPECTED FAILURE", TextTable::LEFT,
TextTable::LEFT);
auto now = ceph_clock_now();
for (auto& i : dm->devices) {
daemon_state.with_device(
i.first, [&tbl, now] (const DeviceState& dev) {
string h;
for (auto& i : dev.attachments) {
if (h.size()) {
h += " ";
}
h += std::get<0>(i) + ":" + std::get<1>(i);
}
tbl << dev.devid
<< h
<< dev.get_life_expectancy_str(now)
<< TextTable::endrow;
});
}
cmdctx->odata.append(stringify(tbl));
}
} else {
r = -ENOENT;
ss << "daemon " << who << " not found";
}
cmdctx->reply(r, ss);
}
} else if (prefix == "device ls-by-host") {
string host;
cmd_getval(cmdctx->cmdmap, "host", host);
set<string> devids;
daemon_state.list_devids_by_server(host, &devids);
if (f) {
f->open_array_section("devices");
for (auto& devid : devids) {
daemon_state.with_device(
devid, [&f] (const DeviceState& dev) {
f->dump_object("device", dev);
});
}
f->close_section();
f->flush(cmdctx->odata);
} else {
TextTable tbl;
tbl.define_column("DEVICE", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("DEV", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("DAEMONS", TextTable::LEFT, TextTable::LEFT);
tbl.define_column("EXPECTED FAILURE", TextTable::LEFT, TextTable::LEFT);
auto now = ceph_clock_now();
for (auto& devid : devids) {
daemon_state.with_device(
devid, [&tbl, &host, now] (const DeviceState& dev) {
string n;
for (auto& j : dev.attachments) {
if (std::get<0>(j) == host) {
if (n.size()) {
n += " ";
}
n += std::get<1>(j);
}
}
string d;
for (auto& i : dev.daemons) {
if (d.size()) {
d += " ";
}
d += to_string(i);
}
tbl << dev.devid
<< n
<< d
<< dev.get_life_expectancy_str(now)
<< TextTable::endrow;
});
}
cmdctx->odata.append(stringify(tbl));
}
cmdctx->reply(0, ss);
return true;
} else if (prefix == "device info") {
string devid;
cmd_getval(cmdctx->cmdmap, "devid", devid);
int r = 0;
ostringstream rs;
if (!daemon_state.with_device(devid,
[&f, &rs] (const DeviceState& dev) {
if (f) {
f->dump_object("device", dev);
} else {
dev.print(rs);
}
})) {
ss << "device " << devid << " not found";
r = -ENOENT;
} else {
if (f) {
f->flush(cmdctx->odata);
} else {
cmdctx->odata.append(rs.str());
}
}
cmdctx->reply(r, ss);
return true;
} else if (prefix == "device set-life-expectancy") {
string devid;
cmd_getval(cmdctx->cmdmap, "devid", devid);
string from_str, to_str;
cmd_getval(cmdctx->cmdmap, "from", from_str);
cmd_getval(cmdctx->cmdmap, "to", to_str);
utime_t from, to;
if (!from.parse(from_str)) {
ss << "unable to parse datetime '" << from_str << "'";
r = -EINVAL;
cmdctx->reply(r, ss);
} else if (to_str.size() && !to.parse(to_str)) {
ss << "unable to parse datetime '" << to_str << "'";
r = -EINVAL;
cmdctx->reply(r, ss);
} else {
map<string,string> meta;
daemon_state.with_device_create(
devid,
[from, to, &meta] (DeviceState& dev) {
dev.set_life_expectancy(from, to, ceph_clock_now());
meta = dev.metadata;
});
json_spirit::Object json_object;
for (auto& i : meta) {
json_spirit::Config::add(json_object, i.first, i.second);
}
bufferlist json;
json.append(json_spirit::write(json_object));
const string cmd =
"{"
"\"prefix\": \"config-key set\", "
"\"key\": \"device/" + devid + "\""
"}";
auto on_finish = new ReplyOnFinish(cmdctx);
monc->start_mon_command({cmd}, json, nullptr, nullptr, on_finish);
}
return true;
} else if (prefix == "device rm-life-expectancy") {
string devid;
cmd_getval(cmdctx->cmdmap, "devid", devid);
map<string,string> meta;
if (daemon_state.with_device_write(devid, [&meta] (DeviceState& dev) {
dev.rm_life_expectancy();
meta = dev.metadata;
})) {
string cmd;
bufferlist json;
if (meta.empty()) {
cmd =
"{"
"\"prefix\": \"config-key rm\", "
"\"key\": \"device/" + devid + "\""
"}";
} else {
json_spirit::Object json_object;
for (auto& i : meta) {
json_spirit::Config::add(json_object, i.first, i.second);
}
json.append(json_spirit::write(json_object));
cmd =
"{"
"\"prefix\": \"config-key set\", "
"\"key\": \"device/" + devid + "\""
"}";
}
auto on_finish = new ReplyOnFinish(cmdctx);
monc->start_mon_command({cmd}, json, nullptr, nullptr, on_finish);
} else {
cmdctx->reply(0, ss);
}
return true;
} else {
if (!pgmap_ready) {
ss << "Warning: due to ceph-mgr restart, some PG states may not be up to date\n";
}
if (f) {
f->open_object_section("pg_info");
f->dump_bool("pg_ready", pgmap_ready);
}
// fall back to feeding command to PGMap
r = cluster_state.with_osdmap_and_pgmap([&](const OSDMap& osdmap, const PGMap& pg_map) {
return process_pg_map_command(prefix, cmdctx->cmdmap, pg_map, osdmap,
f.get(), &ss, &cmdctx->odata);
});
if (f) {
f->close_section();
}
if (r != -EOPNOTSUPP) {
if (f) {
f->flush(cmdctx->odata);
}
cmdctx->reply(r, ss);
return true;
}
}
// Was the command unfound?
if (py_command.cmdstring.empty()) {
ss << "No handler found for '" << prefix << "'";
dout(4) << "No handler found for '" << prefix << "'" << dendl;
cmdctx->reply(-EINVAL, ss);
return true;
}
dout(10) << "passing through command '" << prefix << "' size " << cmdctx->cmdmap.size() << dendl;
finisher.queue(new LambdaContext([this, cmdctx, session, py_command, prefix]
(int r_) mutable {
std::stringstream ss;
dout(10) << "dispatching command '" << prefix << "' size " << cmdctx->cmdmap.size() << dendl;
// Validate that the module is enabled
auto& py_handler_name = py_command.module_name;
PyModuleRef module = py_modules.get_module(py_handler_name);
ceph_assert(module);
if (!module->is_enabled()) {
ss << "Module '" << py_handler_name << "' is not enabled (required by "
"command '" << prefix << "'): use `ceph mgr module enable "
<< py_handler_name << "` to enable it";
dout(4) << ss.str() << dendl;
cmdctx->reply(-EOPNOTSUPP, ss);
return;
}
// Hack: allow the self-test method to run on unhealthy modules.
// Fix this in future by creating a special path for self test rather
// than having the hook be a normal module command.
std::string self_test_prefix = py_handler_name + " " + "self-test";
// Validate that the module is healthy
bool accept_command;
if (module->is_loaded()) {
if (module->get_can_run() && !module->is_failed()) {
// Healthy module
accept_command = true;
} else if (self_test_prefix == prefix) {
// Unhealthy, but allow because it's a self test command
accept_command = true;
} else {
accept_command = false;
ss << "Module '" << py_handler_name << "' has experienced an error and "
"cannot handle commands: " << module->get_error_string();
}
} else {
// Module not loaded
accept_command = false;
ss << "Module '" << py_handler_name << "' failed to load and "
"cannot handle commands: " << module->get_error_string();
}
if (!accept_command) {
dout(4) << ss.str() << dendl;
cmdctx->reply(-EIO, ss);
return;
}
std::stringstream ds;
bufferlist inbl = cmdctx->data;
int r = py_modules.handle_command(py_command, *session, cmdctx->cmdmap,
inbl, &ds, &ss);
if (r == -EACCES) {
log_access_denied(cmdctx, session, ss);
}
cmdctx->odata.append(ds);
cmdctx->reply(r, ss);
dout(10) << " command returned " << r << dendl;
}));
return true;
}
void DaemonServer::_prune_pending_service_map()
{
utime_t cutoff = ceph_clock_now();
cutoff -= g_conf().get_val<double>("mgr_service_beacon_grace");
auto p = pending_service_map.services.begin();
while (p != pending_service_map.services.end()) {
auto q = p->second.daemons.begin();
while (q != p->second.daemons.end()) {
DaemonKey key{p->first, q->first};
if (!daemon_state.exists(key)) {
if (ServiceMap::is_normal_ceph_entity(p->first)) {
dout(10) << "daemon " << key << " in service map but not in daemon state "
<< "index -- force pruning" << dendl;
q = p->second.daemons.erase(q);
pending_service_map_dirty = pending_service_map.epoch;
} else {
derr << "missing key " << key << dendl;
++q;
}
continue;
}
auto daemon = daemon_state.get(key);
std::lock_guard l(daemon->lock);
if (daemon->last_service_beacon == utime_t()) {
// we must have just restarted; assume they are alive now.
daemon->last_service_beacon = ceph_clock_now();
++q;
continue;
}
if (daemon->last_service_beacon < cutoff) {
dout(10) << "pruning stale " << p->first << "." << q->first
<< " last_beacon " << daemon->last_service_beacon << dendl;
q = p->second.daemons.erase(q);
pending_service_map_dirty = pending_service_map.epoch;
} else {
++q;
}
}
if (p->second.daemons.empty()) {
p = pending_service_map.services.erase(p);
pending_service_map_dirty = pending_service_map.epoch;
} else {
++p;
}
}
}
void DaemonServer::send_report()
{
if (!pgmap_ready) {
if (ceph_clock_now() - started_at > g_conf().get_val<int64_t>("mgr_stats_period") * 4.0) {
pgmap_ready = true;
reported_osds.clear();
dout(1) << "Giving up on OSDs that haven't reported yet, sending "
<< "potentially incomplete PG state to mon" << dendl;
} else {
dout(1) << "Not sending PG status to monitor yet, waiting for OSDs"
<< dendl;
return;
}
}
auto m = ceph::make_message<MMonMgrReport>();
m->gid = monc->get_global_id();
py_modules.get_health_checks(&m->health_checks);
py_modules.get_progress_events(&m->progress_events);
cluster_state.with_mutable_pgmap([&](PGMap& pg_map) {
cluster_state.update_delta_stats();
if (pending_service_map.epoch) {
_prune_pending_service_map();
if (pending_service_map_dirty >= pending_service_map.epoch) {
pending_service_map.modified = ceph_clock_now();
encode(pending_service_map, m->service_map_bl, CEPH_FEATURES_ALL);
dout(10) << "sending service_map e" << pending_service_map.epoch
<< dendl;
pending_service_map.epoch++;
}
}
cluster_state.with_osdmap([&](const OSDMap& osdmap) {
// FIXME: no easy way to get mon features here. this will do for
// now, though, as long as we don't make a backward-incompat change.
pg_map.encode_digest(osdmap, m->get_data(), CEPH_FEATURES_ALL);
dout(10) << pg_map << dendl;
pg_map.get_health_checks(g_ceph_context, osdmap,
&m->health_checks);
dout(10) << m->health_checks.checks.size() << " health checks"
<< dendl;
dout(20) << "health checks:\n";
JSONFormatter jf(true);
jf.dump_object("health_checks", m->health_checks);
jf.flush(*_dout);
*_dout << dendl;
if (osdmap.require_osd_release >= ceph_release_t::luminous) {
clog->debug() << "pgmap v" << pg_map.version << ": " << pg_map;
}
});
});
map<daemon_metric, unique_ptr<DaemonHealthMetricCollector>> accumulated;
for (auto service : {"osd", "mon"} ) {
auto daemons = daemon_state.get_by_service(service);
for (const auto& [key,state] : daemons) {
std::lock_guard l{state->lock};
for (const auto& metric : state->daemon_health_metrics) {
auto acc = accumulated.find(metric.get_type());
if (acc == accumulated.end()) {
auto collector = DaemonHealthMetricCollector::create(metric.get_type());
if (!collector) {
derr << __func__ << " " << key
<< " sent me an unknown health metric: "
<< std::hex << static_cast<uint8_t>(metric.get_type())
<< std::dec << dendl;
continue;
}
dout(20) << " + " << state->key << " "
<< metric << dendl;
tie(acc, std::ignore) = accumulated.emplace(metric.get_type(),
std::move(collector));
}
acc->second->update(key, metric);
}
}
}
for (const auto& acc : accumulated) {
acc.second->summarize(m->health_checks);
}
// TODO? We currently do not notify the PyModules
// TODO: respect needs_send, so we send the report only if we are asked to do
// so, or the state is updated.
monc->send_mon_message(std::move(m));
}
void DaemonServer::adjust_pgs()
{
dout(20) << dendl;
unsigned max = std::max<int64_t>(1, g_conf()->mon_osd_max_creating_pgs);
double max_misplaced = g_conf().get_val<double>("target_max_misplaced_ratio");
bool aggro = g_conf().get_val<bool>("mgr_debug_aggressive_pg_num_changes");
map<string,unsigned> pg_num_to_set;
map<string,unsigned> pgp_num_to_set;
set<pg_t> upmaps_to_clear;
cluster_state.with_osdmap_and_pgmap([&](const OSDMap& osdmap, const PGMap& pg_map) {
unsigned creating_or_unknown = 0;
for (auto& i : pg_map.num_pg_by_state) {
if ((i.first & (PG_STATE_CREATING)) ||
i.first == 0) {
creating_or_unknown += i.second;
}
}
unsigned left = max;
if (creating_or_unknown >= max) {
return;
}
left -= creating_or_unknown;
dout(10) << "creating_or_unknown " << creating_or_unknown
<< " max_creating " << max
<< " left " << left
<< dendl;
// FIXME: These checks are fundamentally racy given that adjust_pgs()
// can run more frequently than we get updated pg stats from OSDs. We
// may make multiple adjustments with stale informaiton.
double misplaced_ratio, degraded_ratio;
double inactive_pgs_ratio, unknown_pgs_ratio;
pg_map.get_recovery_stats(&misplaced_ratio, °raded_ratio,
&inactive_pgs_ratio, &unknown_pgs_ratio);
dout(20) << "misplaced_ratio " << misplaced_ratio
<< " degraded_ratio " << degraded_ratio
<< " inactive_pgs_ratio " << inactive_pgs_ratio
<< " unknown_pgs_ratio " << unknown_pgs_ratio
<< "; target_max_misplaced_ratio " << max_misplaced
<< dendl;
for (auto& i : osdmap.get_pools()) {
const pg_pool_t& p = i.second;
// adjust pg_num?
if (p.get_pg_num_target() != p.get_pg_num()) {
dout(20) << "pool " << i.first
<< " pg_num " << p.get_pg_num()
<< " target " << p.get_pg_num_target()
<< dendl;
if (p.has_flag(pg_pool_t::FLAG_CREATING)) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< " - still creating initial pgs"
<< dendl;
} else if (p.get_pg_num_target() < p.get_pg_num()) {
// pg_num decrease (merge)
pg_t merge_source(p.get_pg_num() - 1, i.first);
pg_t merge_target = merge_source.get_parent();
bool ok = true;
if (p.get_pg_num() != p.get_pg_num_pending()) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< " - decrease and pg_num_pending != pg_num, waiting"
<< dendl;
ok = false;
} else if (p.get_pg_num() == p.get_pgp_num()) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< " - decrease blocked by pgp_num "
<< p.get_pgp_num()
<< dendl;
ok = false;
}
vector<int32_t> source_acting;
for (auto &merge_participant : {merge_source, merge_target}) {
bool is_merge_source = merge_participant == merge_source;
if (osdmap.have_pg_upmaps(merge_participant)) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< (is_merge_source ? " - merge source " : " - merge target ")
<< merge_participant
<< " has upmap" << dendl;
upmaps_to_clear.insert(merge_participant);
ok = false;
}
auto q = pg_map.pg_stat.find(merge_participant);
if (q == pg_map.pg_stat.end()) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< " - no state for " << merge_participant
<< (is_merge_source ? " (merge source)" : " (merge target)")
<< dendl;
ok = false;
} else if ((q->second.state & (PG_STATE_ACTIVE | PG_STATE_CLEAN)) !=
(PG_STATE_ACTIVE | PG_STATE_CLEAN)) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< (is_merge_source ? " - merge source " : " - merge target ")
<< merge_participant
<< " not clean (" << pg_state_string(q->second.state)
<< ")" << dendl;
ok = false;
}
if (is_merge_source) {
source_acting = q->second.acting;
} else if (ok && q->second.acting != source_acting) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< (is_merge_source ? " - merge source " : " - merge target ")
<< merge_participant
<< " acting does not match (source " << source_acting
<< " != target " << q->second.acting
<< ")" << dendl;
ok = false;
}
}
if (ok) {
unsigned target = p.get_pg_num() - 1;
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< " -> " << target
<< " (merging " << merge_source
<< " and " << merge_target
<< ")" << dendl;
pg_num_to_set[osdmap.get_pool_name(i.first)] = target;
continue;
}
} else if (p.get_pg_num_target() > p.get_pg_num()) {
// pg_num increase (split)
bool active = true;
auto q = pg_map.num_pg_by_pool_state.find(i.first);
if (q != pg_map.num_pg_by_pool_state.end()) {
for (auto& j : q->second) {
if ((j.first & (PG_STATE_ACTIVE|PG_STATE_PEERED)) == 0) {
dout(20) << "pool " << i.first << " has " << j.second
<< " pgs in " << pg_state_string(j.first)
<< dendl;
active = false;
break;
}
}
} else {
active = false;
}
unsigned pg_gap = p.get_pg_num() - p.get_pgp_num();
unsigned max_jump = cct->_conf->mgr_max_pg_num_change;
if (!active) {
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< " - not all pgs active"
<< dendl;
} else if (pg_gap >= max_jump) {
dout(10) << "pool " << i.first
<< " pg_num " << p.get_pg_num()
<< " - pgp_num " << p.get_pgp_num()
<< " gap >= max_pg_num_change " << max_jump
<< " - must scale pgp_num first"
<< dendl;
} else {
unsigned add = std::min(
std::min(left, max_jump - pg_gap),
p.get_pg_num_target() - p.get_pg_num());
unsigned target = p.get_pg_num() + add;
left -= add;
dout(10) << "pool " << i.first
<< " pg_num_target " << p.get_pg_num_target()
<< " pg_num " << p.get_pg_num()
<< " -> " << target << dendl;
pg_num_to_set[osdmap.get_pool_name(i.first)] = target;
}
}
}
// adjust pgp_num?
unsigned target = std::min(p.get_pg_num_pending(),
p.get_pgp_num_target());
if (target != p.get_pgp_num()) {
dout(20) << "pool " << i.first
<< " pgp_num_target " << p.get_pgp_num_target()
<< " pgp_num " << p.get_pgp_num()
<< " -> " << target << dendl;
if (target > p.get_pgp_num() &&
p.get_pgp_num() == p.get_pg_num()) {
dout(10) << "pool " << i.first
<< " pgp_num_target " << p.get_pgp_num_target()
<< " pgp_num " << p.get_pgp_num()
<< " - increase blocked by pg_num " << p.get_pg_num()
<< dendl;
} else if (!aggro && (inactive_pgs_ratio > 0 ||
degraded_ratio > 0 ||
unknown_pgs_ratio > 0)) {
dout(10) << "pool " << i.first
<< " pgp_num_target " << p.get_pgp_num_target()
<< " pgp_num " << p.get_pgp_num()
<< " - inactive|degraded|unknown pgs, deferring pgp_num"
<< " update" << dendl;
} else if (!aggro && (misplaced_ratio > max_misplaced)) {
dout(10) << "pool " << i.first
<< " pgp_num_target " << p.get_pgp_num_target()
<< " pgp_num " << p.get_pgp_num()
<< " - misplaced_ratio " << misplaced_ratio
<< " > max " << max_misplaced
<< ", deferring pgp_num update" << dendl;
} else {
// NOTE: this calculation assumes objects are
// basically uniformly distributed across all PGs
// (regardless of pool), which is probably not
// perfectly correct, but it's a start. make no
// single adjustment that's more than half of the
// max_misplaced, to somewhat limit the magnitude of
// our potential error here.
int next;
static constexpr unsigned MAX_NUM_OBJECTS_PER_PG_FOR_LEAP = 1;
pool_stat_t s = pg_map.get_pg_pool_sum_stat(i.first);
if (aggro ||
// pool is (virtually) empty; just jump to final pgp_num?
(p.get_pgp_num_target() > p.get_pgp_num() &&
s.stats.sum.num_objects <= (MAX_NUM_OBJECTS_PER_PG_FOR_LEAP *
p.get_pgp_num_target()))) {
next = target;
} else {
double room =
std::min<double>(max_misplaced - misplaced_ratio,
max_misplaced / 2.0);
unsigned estmax = std::max<unsigned>(
(double)p.get_pg_num() * room, 1u);
unsigned next_min = 0;
if (p.get_pgp_num() > estmax) {
next_min = p.get_pgp_num() - estmax;
}
next = std::clamp(target,
next_min,
p.get_pgp_num() + estmax);
dout(20) << " room " << room << " estmax " << estmax
<< " delta " << (target-p.get_pgp_num())
<< " next " << next << dendl;
if (p.get_pgp_num_target() == p.get_pg_num_target() &&
p.get_pgp_num_target() < p.get_pg_num()) {
// since pgp_num is tracking pg_num, ceph is handling
// pgp_num. so, be responsible: don't let pgp_num get
// too far out ahead of merges (if we are merging).
// this avoids moving lots of unmerged pgs onto a
// small number of OSDs where we might blow out the
// per-osd pg max.
unsigned max_outpace_merges =
std::max<unsigned>(8, p.get_pg_num() * max_misplaced);
if (next + max_outpace_merges < p.get_pg_num()) {
next = p.get_pg_num() - max_outpace_merges;
dout(10) << " using next " << next
<< " to avoid outpacing merges (max_outpace_merges "
<< max_outpace_merges << ")" << dendl;
}
}
}
if (next != p.get_pgp_num()) {
dout(10) << "pool " << i.first
<< " pgp_num_target " << p.get_pgp_num_target()
<< " pgp_num " << p.get_pgp_num()
<< " -> " << next << dendl;
pgp_num_to_set[osdmap.get_pool_name(i.first)] = next;
}
}
}
if (left == 0) {
return;
}
}
});
for (auto i : pg_num_to_set) {
const string cmd =
"{"
"\"prefix\": \"osd pool set\", "
"\"pool\": \"" + i.first + "\", "
"\"var\": \"pg_num_actual\", "
"\"val\": \"" + stringify(i.second) + "\""
"}";
monc->start_mon_command({cmd}, {}, nullptr, nullptr, nullptr);
}
for (auto i : pgp_num_to_set) {
const string cmd =
"{"
"\"prefix\": \"osd pool set\", "
"\"pool\": \"" + i.first + "\", "
"\"var\": \"pgp_num_actual\", "
"\"val\": \"" + stringify(i.second) + "\""
"}";
monc->start_mon_command({cmd}, {}, nullptr, nullptr, nullptr);
}
for (auto pg : upmaps_to_clear) {
const string cmd =
"{"
"\"prefix\": \"osd rm-pg-upmap\", "
"\"pgid\": \"" + stringify(pg) + "\""
"}";
monc->start_mon_command({cmd}, {}, nullptr, nullptr, nullptr);
const string cmd2 =
"{"
"\"prefix\": \"osd rm-pg-upmap-items\", "
"\"pgid\": \"" + stringify(pg) + "\"" +
"}";
monc->start_mon_command({cmd2}, {}, nullptr, nullptr, nullptr);
}
}
void DaemonServer::got_service_map()
{
std::lock_guard l(lock);
cluster_state.with_servicemap([&](const ServiceMap& service_map) {
if (pending_service_map.epoch == 0) {
// we just started up
dout(10) << "got initial map e" << service_map.epoch << dendl;
ceph_assert(pending_service_map_dirty == 0);
pending_service_map = service_map;
pending_service_map.epoch = service_map.epoch + 1;
} else if (pending_service_map.epoch <= service_map.epoch) {
// we just started up but got one more not our own map
dout(10) << "got newer initial map e" << service_map.epoch << dendl;
ceph_assert(pending_service_map_dirty == 0);
pending_service_map = service_map;
pending_service_map.epoch = service_map.epoch + 1;
} else {
// we already active and therefore must have persisted it,
// which means ours is the same or newer.
dout(10) << "got updated map e" << service_map.epoch << dendl;
}
});
// cull missing daemons, populate new ones
std::set<std::string> types;
for (auto& [type, service] : pending_service_map.services) {
if (ServiceMap::is_normal_ceph_entity(type)) {
continue;
}
types.insert(type);
std::set<std::string> names;
for (auto& q : service.daemons) {
names.insert(q.first);
DaemonKey key{type, q.first};
if (!daemon_state.exists(key)) {
auto daemon = std::make_shared<DaemonState>(daemon_state.types);
daemon->key = key;
daemon->set_metadata(q.second.metadata);
daemon->service_daemon = true;
daemon_state.insert(daemon);
dout(10) << "added missing " << key << dendl;
}
}
daemon_state.cull(type, names);
}
daemon_state.cull_services(types);
}
void DaemonServer::got_mgr_map()
{
std::lock_guard l(lock);
set<std::string> have;
cluster_state.with_mgrmap([&](const MgrMap& mgrmap) {
auto md_update = [&] (DaemonKey key) {
std::ostringstream oss;
auto c = new MetadataUpdate(daemon_state, key);
// FIXME remove post-nautilus: include 'id' for luminous mons
oss << "{\"prefix\": \"mgr metadata\", \"who\": \""
<< key.name << "\", \"id\": \"" << key.name << "\"}";
monc->start_mon_command({oss.str()}, {}, &c->outbl, &c->outs, c);
};
if (mgrmap.active_name.size()) {
DaemonKey key{"mgr", mgrmap.active_name};
have.insert(mgrmap.active_name);
if (!daemon_state.exists(key) && !daemon_state.is_updating(key)) {
md_update(key);
dout(10) << "triggered addition of " << key << " via metadata update" << dendl;
}
}
for (auto& i : mgrmap.standbys) {
DaemonKey key{"mgr", i.second.name};
have.insert(i.second.name);
if (!daemon_state.exists(key) && !daemon_state.is_updating(key)) {
md_update(key);
dout(10) << "triggered addition of " << key << " via metadata update" << dendl;
}
}
});
daemon_state.cull("mgr", have);
}
const char** DaemonServer::get_tracked_conf_keys() const
{
static const char *KEYS[] = {
"mgr_stats_threshold",
"mgr_stats_period",
nullptr
};
return KEYS;
}
void DaemonServer::handle_conf_change(const ConfigProxy& conf,
const std::set <std::string> &changed)
{
if (changed.count("mgr_stats_threshold") || changed.count("mgr_stats_period")) {
dout(4) << "Updating stats threshold/period on "
<< daemon_connections.size() << " clients" << dendl;
// Send a fresh MMgrConfigure to all clients, so that they can follow
// the new policy for transmitting stats
finisher.queue(new LambdaContext([this](int r) {
std::lock_guard l(lock);
for (auto &c : daemon_connections) {
_send_configure(c);
}
}));
}
}
void DaemonServer::_send_configure(ConnectionRef c)
{
ceph_assert(ceph_mutex_is_locked_by_me(lock));
auto configure = make_message<MMgrConfigure>();
configure->stats_period = g_conf().get_val<int64_t>("mgr_stats_period");
configure->stats_threshold = g_conf().get_val<int64_t>("mgr_stats_threshold");
if (c->peer_is_osd()) {
configure->osd_perf_metric_queries =
osd_perf_metric_collector.get_queries();
} else if (c->peer_is_mds()) {
configure->metric_config_message =
MetricConfigMessage(MDSConfigPayload(mds_perf_metric_collector.get_queries()));
}
c->send_message2(configure);
}
MetricQueryID DaemonServer::add_osd_perf_query(
const OSDPerfMetricQuery &query,
const std::optional<OSDPerfMetricLimit> &limit)
{
return osd_perf_metric_collector.add_query(query, limit);
}
int DaemonServer::remove_osd_perf_query(MetricQueryID query_id)
{
return osd_perf_metric_collector.remove_query(query_id);
}
int DaemonServer::get_osd_perf_counters(OSDPerfCollector *collector)
{
return osd_perf_metric_collector.get_counters(collector);
}
MetricQueryID DaemonServer::add_mds_perf_query(
const MDSPerfMetricQuery &query,
const std::optional<MDSPerfMetricLimit> &limit)
{
return mds_perf_metric_collector.add_query(query, limit);
}
int DaemonServer::remove_mds_perf_query(MetricQueryID query_id)
{
return mds_perf_metric_collector.remove_query(query_id);
}
void DaemonServer::reregister_mds_perf_queries()
{
mds_perf_metric_collector.reregister_queries();
}
int DaemonServer::get_mds_perf_counters(MDSPerfCollector *collector)
{
return mds_perf_metric_collector.get_counters(collector);
}
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