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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) 2014 John Spray <john.spray@inktank.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 "messages/MMgrDigest.h"
#include "messages/MMonMgrReport.h"
#include "messages/MPGStats.h"
#include "mgr/ClusterState.h"
#include <time.h>
#include <boost/range/adaptor/reversed.hpp>
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_mgr
#undef dout_prefix
#define dout_prefix *_dout << "mgr " << __func__ << " "
ClusterState::ClusterState(
MonClient *monc_,
Objecter *objecter_,
const MgrMap& mgrmap)
: monc(monc_),
objecter(objecter_),
mgr_map(mgrmap),
asok_hook(NULL)
{}
void ClusterState::set_objecter(Objecter *objecter_)
{
std::lock_guard l(lock);
objecter = objecter_;
}
void ClusterState::set_fsmap(FSMap const &new_fsmap)
{
std::lock_guard l(lock);
fsmap = new_fsmap;
}
void ClusterState::set_mgr_map(MgrMap const &new_mgrmap)
{
std::lock_guard l(lock);
mgr_map = new_mgrmap;
}
void ClusterState::set_service_map(ServiceMap const &new_service_map)
{
std::lock_guard l(lock);
servicemap = new_service_map;
}
void ClusterState::load_digest(MMgrDigest *m)
{
std::lock_guard l(lock);
health_json = std::move(m->health_json);
mon_status_json = std::move(m->mon_status_json);
}
void ClusterState::ingest_pgstats(ref_t<MPGStats> stats)
{
std::lock_guard l(lock);
const int from = stats->get_orig_source().num();
bool is_in = with_osdmap([from](const OSDMap& osdmap) {
return osdmap.is_in(from);
});
if (is_in) {
pending_inc.update_stat(from, std::move(stats->osd_stat));
} else {
osd_stat_t empty_stat;
empty_stat.seq = stats->osd_stat.seq;
pending_inc.update_stat(from, std::move(empty_stat));
}
for (auto p : stats->pg_stat) {
pg_t pgid = p.first;
const auto &pg_stats = p.second;
// In case we're hearing about a PG that according to last
// OSDMap update should not exist
auto r = existing_pools.find(pgid.pool());
if (r == existing_pools.end()) {
dout(15) << " got " << pgid
<< " reported at " << pg_stats.reported_epoch << ":"
<< pg_stats.reported_seq
<< " state " << pg_state_string(pg_stats.state)
<< " but pool not in " << existing_pools
<< dendl;
continue;
}
if (pgid.ps() >= r->second) {
dout(15) << " got " << pgid
<< " reported at " << pg_stats.reported_epoch << ":"
<< pg_stats.reported_seq
<< " state " << pg_state_string(pg_stats.state)
<< " but > pg_num " << r->second
<< dendl;
continue;
}
// In case we already heard about more recent stats from this PG
// from another OSD
const auto q = pg_map.pg_stat.find(pgid);
if (q != pg_map.pg_stat.end() &&
q->second.get_version_pair() > pg_stats.get_version_pair()) {
dout(15) << " had " << pgid << " from "
<< q->second.reported_epoch << ":"
<< q->second.reported_seq << dendl;
continue;
}
pending_inc.pg_stat_updates[pgid] = pg_stats;
}
for (auto p : stats->pool_stat) {
pending_inc.pool_statfs_updates[std::make_pair(p.first, from)] = p.second;
}
}
void ClusterState::update_delta_stats()
{
pending_inc.stamp = ceph_clock_now();
pending_inc.version = pg_map.version + 1; // to make apply_incremental happy
dout(10) << " v" << pending_inc.version << dendl;
dout(30) << " pg_map before:\n";
JSONFormatter jf(true);
jf.dump_object("pg_map", pg_map);
jf.flush(*_dout);
*_dout << dendl;
dout(30) << " incremental:\n";
JSONFormatter jf(true);
jf.dump_object("pending_inc", pending_inc);
jf.flush(*_dout);
*_dout << dendl;
pg_map.apply_incremental(g_ceph_context, pending_inc);
pending_inc = PGMap::Incremental();
}
void ClusterState::notify_osdmap(const OSDMap &osd_map)
{
assert(ceph_mutex_is_locked(lock));
pending_inc.stamp = ceph_clock_now();
pending_inc.version = pg_map.version + 1; // to make apply_incremental happy
dout(10) << " v" << pending_inc.version << dendl;
PGMapUpdater::check_osd_map(g_ceph_context, osd_map, pg_map, &pending_inc);
// update our list of pools that exist, so that we can filter pg_map updates
// in synchrony with this OSDMap.
existing_pools.clear();
for (auto& p : osd_map.get_pools()) {
existing_pools[p.first] = p.second.get_pg_num();
}
// brute force this for now (don't bother being clever by only
// checking osds that went up/down)
set<int> need_check_down_pg_osds;
PGMapUpdater::check_down_pgs(osd_map, pg_map, true,
need_check_down_pg_osds, &pending_inc);
dout(30) << " pg_map before:\n";
JSONFormatter jf(true);
jf.dump_object("pg_map", pg_map);
jf.flush(*_dout);
*_dout << dendl;
dout(30) << " incremental:\n";
JSONFormatter jf(true);
jf.dump_object("pending_inc", pending_inc);
jf.flush(*_dout);
*_dout << dendl;
pg_map.apply_incremental(g_ceph_context, pending_inc);
pending_inc = PGMap::Incremental();
// TODO: Complete the separation of PG state handling so
// that a cut-down set of functionality remains in PGMonitor
// while the full-blown PGMap lives only here.
}
class ClusterSocketHook : public AdminSocketHook {
ClusterState *cluster_state;
public:
explicit ClusterSocketHook(ClusterState *o) : cluster_state(o) {}
int call(std::string_view admin_command, const cmdmap_t& cmdmap,
Formatter *f,
std::ostream& errss,
bufferlist& out) override {
stringstream outss;
int r = 0;
try {
r = cluster_state->asok_command(admin_command, cmdmap, f, outss);
out.append(outss);
} catch (const TOPNSPC::common::bad_cmd_get& e) {
errss << e.what();
r = -EINVAL;
}
return r;
}
};
void ClusterState::final_init()
{
AdminSocket *admin_socket = g_ceph_context->get_admin_socket();
asok_hook = new ClusterSocketHook(this);
int r = admin_socket->register_command(
"dump_osd_network name=value,type=CephInt,req=false", asok_hook,
"Dump osd heartbeat network ping times");
ceph_assert(r == 0);
}
void ClusterState::shutdown()
{
// unregister commands
g_ceph_context->get_admin_socket()->unregister_commands(asok_hook);
delete asok_hook;
asok_hook = NULL;
}
bool ClusterState::asok_command(
std::string_view admin_command,
const cmdmap_t& cmdmap,
Formatter *f,
ostream& ss)
{
std::lock_guard l(lock);
if (admin_command == "dump_osd_network") {
int64_t value = 0;
// Default to health warning level if nothing specified
if (!(TOPNSPC::common::cmd_getval(cmdmap, "value", value))) {
// Convert milliseconds to microseconds
value = static_cast<int64_t>(g_ceph_context->_conf.get_val<double>("mon_warn_on_slow_ping_time")) * 1000;
if (value == 0) {
double ratio = g_conf().get_val<double>("mon_warn_on_slow_ping_ratio");
value = g_conf().get_val<int64_t>("osd_heartbeat_grace");
value *= 1000000 * ratio; // Seconds of grace to microseconds at ratio
}
} else {
// Convert user input to microseconds
value *= 1000;
}
if (value < 0)
value = 0;
struct mgr_ping_time_t {
uint32_t pingtime;
int from;
int to;
bool back;
std::array<uint32_t,3> times;
std::array<uint32_t,3> min;
std::array<uint32_t,3> max;
uint32_t last;
uint32_t last_update;
bool operator<(const mgr_ping_time_t& rhs) const {
if (pingtime < rhs.pingtime)
return true;
if (pingtime > rhs.pingtime)
return false;
if (from < rhs.from)
return true;
if (from > rhs.from)
return false;
if (to < rhs.to)
return true;
if (to > rhs.to)
return false;
return back;
}
};
set<mgr_ping_time_t> sorted;
utime_t now = ceph_clock_now();
for (auto i : pg_map.osd_stat) {
for (auto j : i.second.hb_pingtime) {
if (j.second.last_update == 0)
continue;
auto stale_time = g_ceph_context->_conf.get_val<int64_t>("osd_mon_heartbeat_stat_stale");
if (now.sec() - j.second.last_update > stale_time) {
dout(20) << __func__ << " time out heartbeat for osd " << i.first
<< " last_update " << j.second.last_update << dendl;
continue;
}
mgr_ping_time_t item;
item.pingtime = std::max(j.second.back_pingtime[0], j.second.back_pingtime[1]);
item.pingtime = std::max(item.pingtime, j.second.back_pingtime[2]);
if (!value || item.pingtime >= value) {
item.from = i.first;
item.to = j.first;
item.times[0] = j.second.back_pingtime[0];
item.times[1] = j.second.back_pingtime[1];
item.times[2] = j.second.back_pingtime[2];
item.min[0] = j.second.back_min[0];
item.min[1] = j.second.back_min[1];
item.min[2] = j.second.back_min[2];
item.max[0] = j.second.back_max[0];
item.max[1] = j.second.back_max[1];
item.max[2] = j.second.back_max[2];
item.last = j.second.back_last;
item.back = true;
item.last_update = j.second.last_update;
sorted.emplace(item);
}
if (j.second.front_last == 0)
continue;
item.pingtime = std::max(j.second.front_pingtime[0], j.second.front_pingtime[1]);
item.pingtime = std::max(item.pingtime, j.second.front_pingtime[2]);
if (!value || item.pingtime >= value) {
item.from = i.first;
item.to = j.first;
item.times[0] = j.second.front_pingtime[0];
item.times[1] = j.second.front_pingtime[1];
item.times[2] = j.second.front_pingtime[2];
item.min[0] = j.second.front_min[0];
item.min[1] = j.second.front_min[1];
item.min[2] = j.second.front_min[2];
item.max[0] = j.second.front_max[0];
item.max[1] = j.second.front_max[1];
item.max[2] = j.second.front_max[2];
item.last = j.second.front_last;
item.back = false;
item.last_update = j.second.last_update;
sorted.emplace(item);
}
}
}
// Network ping times (1min 5min 15min)
f->open_object_section("network_ping_times");
f->dump_int("threshold", value / 1000);
f->open_array_section("entries");
for (auto &sitem : boost::adaptors::reverse(sorted)) {
ceph_assert(!value || sitem.pingtime >= value);
f->open_object_section("entry");
const time_t lu(sitem.last_update);
char buffer[26];
string lustr(ctime_r(&lu, buffer));
lustr.pop_back(); // Remove trailing \n
auto stale = g_ceph_context->_conf.get_val<int64_t>("osd_heartbeat_stale");
f->dump_string("last update", lustr);
f->dump_bool("stale", ceph_clock_now().sec() - sitem.last_update > stale);
f->dump_int("from osd", sitem.from);
f->dump_int("to osd", sitem.to);
f->dump_string("interface", (sitem.back ? "back" : "front"));
f->open_object_section("average");
f->dump_format_unquoted("1min", "%s", fixed_u_to_string(sitem.times[0],3).c_str());
f->dump_format_unquoted("5min", "%s", fixed_u_to_string(sitem.times[1],3).c_str());
f->dump_format_unquoted("15min", "%s", fixed_u_to_string(sitem.times[2],3).c_str());
f->close_section(); // average
f->open_object_section("min");
f->dump_format_unquoted("1min", "%s", fixed_u_to_string(sitem.min[0],3).c_str());
f->dump_format_unquoted("5min", "%s", fixed_u_to_string(sitem.min[1],3).c_str());
f->dump_format_unquoted("15min", "%s", fixed_u_to_string(sitem.min[2],3).c_str());
f->close_section(); // min
f->open_object_section("max");
f->dump_format_unquoted("1min", "%s", fixed_u_to_string(sitem.max[0],3).c_str());
f->dump_format_unquoted("5min", "%s", fixed_u_to_string(sitem.max[1],3).c_str());
f->dump_format_unquoted("15min", "%s", fixed_u_to_string(sitem.max[2],3).c_str());
f->close_section(); // max
f->dump_format_unquoted("last", "%s", fixed_u_to_string(sitem.last,3).c_str());
f->close_section(); // entry
}
f->close_section(); // entries
f->close_section(); // network_ping_times
} else {
ceph_abort_msg("broken asok registration");
}
return true;
}
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