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-rw-r--r--src/mds/MDSMap.cc930
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+// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
+// vim: ts=8 sw=2 smarttab
+/*
+ * Ceph - scalable distributed file system
+ *
+ * Copyright (C) 2004-2006 Sage Weil <sage@newdream.net>
+ *
+ * This is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License version 2.1, as published by the Free Software
+ * Foundation. See file COPYING.
+ *
+ */
+
+#include "common/debug.h"
+#include "mon/health_check.h"
+
+#include "MDSMap.h"
+
+#include <sstream>
+using std::stringstream;
+
+#define dout_context g_ceph_context
+#define dout_subsys ceph_subsys_
+
+// features
+CompatSet MDSMap::get_compat_set_all() {
+ CompatSet::FeatureSet feature_compat;
+ CompatSet::FeatureSet feature_ro_compat;
+ CompatSet::FeatureSet feature_incompat;
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_BASE);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_CLIENTRANGES);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_FILELAYOUT);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_DIRINODE);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_ENCODING);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_OMAPDIRFRAG);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_INLINE);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_NOANCHOR);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_FILE_LAYOUT_V2);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_SNAPREALM_V2);
+
+ return CompatSet(feature_compat, feature_ro_compat, feature_incompat);
+}
+
+CompatSet MDSMap::get_compat_set_default() {
+ CompatSet::FeatureSet feature_compat;
+ CompatSet::FeatureSet feature_ro_compat;
+ CompatSet::FeatureSet feature_incompat;
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_BASE);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_CLIENTRANGES);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_FILELAYOUT);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_DIRINODE);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_ENCODING);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_OMAPDIRFRAG);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_NOANCHOR);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_FILE_LAYOUT_V2);
+ feature_incompat.insert(MDS_FEATURE_INCOMPAT_SNAPREALM_V2);
+
+ return CompatSet(feature_compat, feature_ro_compat, feature_incompat);
+}
+
+// base (pre v0.20)
+CompatSet MDSMap::get_compat_set_base() {
+ CompatSet::FeatureSet feature_compat_base;
+ CompatSet::FeatureSet feature_incompat_base;
+ feature_incompat_base.insert(MDS_FEATURE_INCOMPAT_BASE);
+ CompatSet::FeatureSet feature_ro_compat_base;
+
+ return CompatSet(feature_compat_base, feature_ro_compat_base, feature_incompat_base);
+}
+
+void MDSMap::mds_info_t::dump(Formatter *f) const
+{
+ f->dump_unsigned("gid", global_id);
+ f->dump_string("name", name);
+ f->dump_int("rank", rank);
+ f->dump_int("incarnation", inc);
+ f->dump_stream("state") << ceph_mds_state_name(state);
+ f->dump_int("state_seq", state_seq);
+ f->dump_stream("addr") << addrs.get_legacy_str();
+ f->dump_object("addrs", addrs);
+ if (laggy_since != utime_t())
+ f->dump_stream("laggy_since") << laggy_since;
+
+ f->open_array_section("export_targets");
+ for (set<mds_rank_t>::iterator p = export_targets.begin();
+ p != export_targets.end(); ++p) {
+ f->dump_int("mds", *p);
+ }
+ f->close_section();
+ f->dump_unsigned("features", mds_features);
+ f->dump_unsigned("flags", flags);
+}
+
+void MDSMap::mds_info_t::dump(std::ostream& o) const
+{
+ o << "[mds." << name << "{" << rank << ":" << global_id << "}"
+ << " state " << ceph_mds_state_name(state)
+ << " seq " << state_seq;
+ if (laggy()) {
+ o << " laggy since " << laggy_since;
+ }
+ if (!export_targets.empty()) {
+ o << " export targets " << export_targets;
+ }
+ if (is_frozen()) {
+ o << " frozen";
+ }
+ o << " addr " << addrs << "]";
+}
+
+void MDSMap::mds_info_t::generate_test_instances(list<mds_info_t*>& ls)
+{
+ mds_info_t *sample = new mds_info_t();
+ ls.push_back(sample);
+ sample = new mds_info_t();
+ sample->global_id = 1;
+ sample->name = "test_instance";
+ sample->rank = 0;
+ ls.push_back(sample);
+}
+
+void MDSMap::dump(Formatter *f) const
+{
+ f->dump_int("epoch", epoch);
+ f->dump_unsigned("flags", flags);
+ f->dump_unsigned("ever_allowed_features", ever_allowed_features);
+ f->dump_unsigned("explicitly_allowed_features", explicitly_allowed_features);
+ f->dump_stream("created") << created;
+ f->dump_stream("modified") << modified;
+ f->dump_int("tableserver", tableserver);
+ f->dump_int("root", root);
+ f->dump_int("session_timeout", session_timeout);
+ f->dump_int("session_autoclose", session_autoclose);
+ f->dump_stream("min_compat_client") << (int)min_compat_client << " ("
+ << ceph_release_name(min_compat_client) << ")";
+ f->dump_int("max_file_size", max_file_size);
+ f->dump_int("last_failure", last_failure);
+ f->dump_int("last_failure_osd_epoch", last_failure_osd_epoch);
+ f->open_object_section("compat");
+ compat.dump(f);
+ f->close_section();
+ f->dump_int("max_mds", max_mds);
+ f->open_array_section("in");
+ for (set<mds_rank_t>::const_iterator p = in.begin(); p != in.end(); ++p)
+ f->dump_int("mds", *p);
+ f->close_section();
+ f->open_object_section("up");
+ for (map<mds_rank_t,mds_gid_t>::const_iterator p = up.begin(); p != up.end(); ++p) {
+ char s[14];
+ sprintf(s, "mds_%d", int(p->first));
+ f->dump_int(s, p->second);
+ }
+ f->close_section();
+ f->open_array_section("failed");
+ for (set<mds_rank_t>::const_iterator p = failed.begin(); p != failed.end(); ++p)
+ f->dump_int("mds", *p);
+ f->close_section();
+ f->open_array_section("damaged");
+ for (set<mds_rank_t>::const_iterator p = damaged.begin(); p != damaged.end(); ++p)
+ f->dump_int("mds", *p);
+ f->close_section();
+ f->open_array_section("stopped");
+ for (set<mds_rank_t>::const_iterator p = stopped.begin(); p != stopped.end(); ++p)
+ f->dump_int("mds", *p);
+ f->close_section();
+ f->open_object_section("info");
+ for (const auto& [gid, info] : mds_info) {
+ char s[25]; // 'gid_' + len(str(ULLONG_MAX)) + '\0'
+ sprintf(s, "gid_%llu", (long long unsigned)gid);
+ f->open_object_section(s);
+ info.dump(f);
+ f->close_section();
+ }
+ f->close_section();
+ f->open_array_section("data_pools");
+ for (const auto& p: data_pools)
+ f->dump_int("pool", p);
+ f->close_section();
+ f->dump_int("metadata_pool", metadata_pool);
+ f->dump_bool("enabled", enabled);
+ f->dump_string("fs_name", fs_name);
+ f->dump_string("balancer", balancer);
+ f->dump_int("standby_count_wanted", std::max(0, standby_count_wanted));
+}
+
+void MDSMap::generate_test_instances(list<MDSMap*>& ls)
+{
+ MDSMap *m = new MDSMap();
+ m->max_mds = 1;
+ m->data_pools.push_back(0);
+ m->metadata_pool = 1;
+ m->cas_pool = 2;
+ m->compat = get_compat_set_all();
+
+ // these aren't the defaults, just in case anybody gets confused
+ m->session_timeout = 61;
+ m->session_autoclose = 301;
+ m->max_file_size = 1<<24;
+ ls.push_back(m);
+}
+
+void MDSMap::print(ostream& out) const
+{
+ out << "fs_name\t" << fs_name << "\n";
+ out << "epoch\t" << epoch << "\n";
+ out << "flags\t" << hex << flags << dec << "\n";
+ out << "created\t" << created << "\n";
+ out << "modified\t" << modified << "\n";
+ out << "tableserver\t" << tableserver << "\n";
+ out << "root\t" << root << "\n";
+ out << "session_timeout\t" << session_timeout << "\n"
+ << "session_autoclose\t" << session_autoclose << "\n";
+ out << "max_file_size\t" << max_file_size << "\n";
+ out << "min_compat_client\t" << (int)min_compat_client << " ("
+ << ceph_release_name(min_compat_client) << ")\n";
+ out << "last_failure\t" << last_failure << "\n"
+ << "last_failure_osd_epoch\t" << last_failure_osd_epoch << "\n";
+ out << "compat\t" << compat << "\n";
+ out << "max_mds\t" << max_mds << "\n";
+ out << "in\t" << in << "\n"
+ << "up\t" << up << "\n"
+ << "failed\t" << failed << "\n"
+ << "damaged\t" << damaged << "\n"
+ << "stopped\t" << stopped << "\n";
+ out << "data_pools\t" << data_pools << "\n";
+ out << "metadata_pool\t" << metadata_pool << "\n";
+ out << "inline_data\t" << (inline_data_enabled ? "enabled" : "disabled") << "\n";
+ out << "balancer\t" << balancer << "\n";
+ out << "standby_count_wanted\t" << std::max(0, standby_count_wanted) << "\n";
+
+ multimap< pair<mds_rank_t, unsigned>, mds_gid_t > foo;
+ for (const auto &p : mds_info) {
+ foo.insert(std::make_pair(
+ std::make_pair(p.second.rank, p.second.inc-1), p.first));
+ }
+
+ for (const auto &p : foo) {
+ out << mds_info.at(p.second) << "\n";
+ }
+}
+
+void MDSMap::print_summary(Formatter *f, ostream *out) const
+{
+ map<mds_rank_t,string> by_rank;
+ map<string,int> by_state;
+
+ if (f) {
+ f->dump_unsigned("epoch", get_epoch());
+ f->dump_unsigned("up", up.size());
+ f->dump_unsigned("in", in.size());
+ f->dump_unsigned("max", max_mds);
+ } else {
+ *out << "e" << get_epoch() << ": " << up.size() << "/" << in.size() << "/" << max_mds << " up";
+ }
+
+ if (f)
+ f->open_array_section("by_rank");
+ for (const auto &p : mds_info) {
+ string s = ceph_mds_state_name(p.second.state);
+ if (p.second.laggy())
+ s += "(laggy or crashed)";
+
+ if (p.second.rank >= 0 && p.second.state != MDSMap::STATE_STANDBY_REPLAY) {
+ if (f) {
+ f->open_object_section("mds");
+ f->dump_unsigned("rank", p.second.rank);
+ f->dump_string("name", p.second.name);
+ f->dump_string("status", s);
+ f->close_section();
+ } else {
+ by_rank[p.second.rank] = p.second.name + "=" + s;
+ }
+ } else {
+ by_state[s]++;
+ }
+ }
+ if (f) {
+ f->close_section();
+ } else {
+ if (!by_rank.empty())
+ *out << " " << by_rank;
+ }
+
+ for (map<string,int>::reverse_iterator p = by_state.rbegin(); p != by_state.rend(); ++p) {
+ if (f) {
+ f->dump_unsigned(p->first.c_str(), p->second);
+ } else {
+ *out << ", " << p->second << " " << p->first;
+ }
+ }
+
+ if (!failed.empty()) {
+ if (f) {
+ f->dump_unsigned("failed", failed.size());
+ } else {
+ *out << ", " << failed.size() << " failed";
+ }
+ }
+
+ if (!damaged.empty()) {
+ if (f) {
+ f->dump_unsigned("damaged", damaged.size());
+ } else {
+ *out << ", " << damaged.size() << " damaged";
+ }
+ }
+ //if (stopped.size())
+ //out << ", " << stopped.size() << " stopped";
+}
+
+void MDSMap::get_health(list<pair<health_status_t,string> >& summary,
+ list<pair<health_status_t,string> > *detail) const
+{
+ if (!failed.empty()) {
+ std::ostringstream oss;
+ oss << "mds rank"
+ << ((failed.size() > 1) ? "s ":" ")
+ << failed
+ << ((failed.size() > 1) ? " have":" has")
+ << " failed";
+ summary.push_back(make_pair(HEALTH_ERR, oss.str()));
+ if (detail) {
+ for (set<mds_rank_t>::const_iterator p = failed.begin(); p != failed.end(); ++p) {
+ std::ostringstream oss;
+ oss << "mds." << *p << " has failed";
+ detail->push_back(make_pair(HEALTH_ERR, oss.str()));
+ }
+ }
+ }
+
+ if (!damaged.empty()) {
+ std::ostringstream oss;
+ oss << "mds rank"
+ << ((damaged.size() > 1) ? "s ":" ")
+ << damaged
+ << ((damaged.size() > 1) ? " are":" is")
+ << " damaged";
+ summary.push_back(make_pair(HEALTH_ERR, oss.str()));
+ if (detail) {
+ for (set<mds_rank_t>::const_iterator p = damaged.begin(); p != damaged.end(); ++p) {
+ std::ostringstream oss;
+ oss << "mds." << *p << " is damaged";
+ detail->push_back(make_pair(HEALTH_ERR, oss.str()));
+ }
+ }
+ }
+
+ if (is_degraded()) {
+ summary.push_back(make_pair(HEALTH_WARN, "mds cluster is degraded"));
+ if (detail) {
+ detail->push_back(make_pair(HEALTH_WARN, "mds cluster is degraded"));
+ for (mds_rank_t i = mds_rank_t(0); i< get_max_mds(); i++) {
+ if (!is_up(i))
+ continue;
+ mds_gid_t gid = up.find(i)->second;
+ const auto& info = mds_info.at(gid);
+ stringstream ss;
+ if (is_resolve(i))
+ ss << "mds." << info.name << " at " << info.addrs
+ << " rank " << i << " is resolving";
+ if (is_replay(i))
+ ss << "mds." << info.name << " at " << info.addrs
+ << " rank " << i << " is replaying journal";
+ if (is_rejoin(i))
+ ss << "mds." << info.name << " at " << info.addrs
+ << " rank " << i << " is rejoining";
+ if (is_reconnect(i))
+ ss << "mds." << info.name << " at " << info.addrs
+ << " rank " << i << " is reconnecting to clients";
+ if (ss.str().length())
+ detail->push_back(make_pair(HEALTH_WARN, ss.str()));
+ }
+ }
+ }
+
+ {
+ stringstream ss;
+ ss << fs_name << " max_mds " << max_mds;
+ summary.push_back(make_pair(HEALTH_WARN, ss.str()));
+ }
+
+ if ((mds_rank_t)up.size() < max_mds) {
+ stringstream ss;
+ ss << fs_name << " has " << up.size()
+ << " active MDS(s), but has max_mds of " << max_mds;
+ summary.push_back(make_pair(HEALTH_WARN, ss.str()));
+ }
+
+ set<string> laggy;
+ for (const auto &u : up) {
+ const auto& info = mds_info.at(u.second);
+ if (info.laggy()) {
+ laggy.insert(info.name);
+ if (detail) {
+ std::ostringstream oss;
+ oss << "mds." << info.name << " at " << info.addrs
+ << " is laggy/unresponsive";
+ detail->push_back(make_pair(HEALTH_WARN, oss.str()));
+ }
+ }
+ }
+
+ if (!laggy.empty()) {
+ std::ostringstream oss;
+ oss << "mds " << laggy
+ << ((laggy.size() > 1) ? " are":" is")
+ << " laggy";
+ summary.push_back(make_pair(HEALTH_WARN, oss.str()));
+ }
+
+ if (get_max_mds() > 1 &&
+ was_snaps_ever_allowed() && !allows_multimds_snaps()) {
+ std::ostringstream oss;
+ oss << "multi-active mds while there are snapshots possibly created by pre-mimic MDS";
+ summary.push_back(make_pair(HEALTH_WARN, oss.str()));
+ }
+}
+
+void MDSMap::get_health_checks(health_check_map_t *checks) const
+{
+ // MDS_DAMAGE
+ if (!damaged.empty()) {
+ health_check_t& check = checks->get_or_add("MDS_DAMAGE", HEALTH_ERR,
+ "%num% mds daemon%plurals% damaged");
+ for (auto p : damaged) {
+ std::ostringstream oss;
+ oss << "fs " << fs_name << " mds." << p << " is damaged";
+ check.detail.push_back(oss.str());
+ }
+ }
+
+ // FS_DEGRADED
+ if (is_degraded()) {
+ health_check_t& fscheck = checks->get_or_add(
+ "FS_DEGRADED", HEALTH_WARN,
+ "%num% filesystem%plurals% %isorare% degraded");
+ ostringstream ss;
+ ss << "fs " << fs_name << " is degraded";
+ fscheck.detail.push_back(ss.str());
+
+ list<string> detail;
+ for (mds_rank_t i = mds_rank_t(0); i< get_max_mds(); i++) {
+ if (!is_up(i))
+ continue;
+ mds_gid_t gid = up.find(i)->second;
+ const auto& info = mds_info.at(gid);
+ stringstream ss;
+ ss << "fs " << fs_name << " mds." << info.name << " at "
+ << info.addrs << " rank " << i;
+ if (is_resolve(i))
+ ss << " is resolving";
+ if (is_replay(i))
+ ss << " is replaying journal";
+ if (is_rejoin(i))
+ ss << " is rejoining";
+ if (is_reconnect(i))
+ ss << " is reconnecting to clients";
+ if (ss.str().length())
+ detail.push_back(ss.str());
+ }
+ }
+
+ // MDS_UP_LESS_THAN_MAX
+ if ((mds_rank_t)get_num_in_mds() < get_max_mds()) {
+ health_check_t& check = checks->add(
+ "MDS_UP_LESS_THAN_MAX", HEALTH_WARN,
+ "%num% filesystem%plurals% %isorare% online with fewer MDS than max_mds");
+ stringstream ss;
+ ss << "fs " << fs_name << " has " << get_num_in_mds()
+ << " MDS online, but wants " << get_max_mds();
+ check.detail.push_back(ss.str());
+ }
+
+ // MDS_ALL_DOWN
+ if ((mds_rank_t)get_num_up_mds() == 0 && get_max_mds() > 0) {
+ health_check_t &check = checks->add(
+ "MDS_ALL_DOWN", HEALTH_ERR,
+ "%num% filesystem%plurals% %isorare% offline");
+ stringstream ss;
+ ss << "fs " << fs_name << " is offline because no MDS is active for it.";
+ check.detail.push_back(ss.str());
+ }
+
+ if (get_max_mds() > 1 &&
+ was_snaps_ever_allowed() && !allows_multimds_snaps()) {
+ health_check_t &check = checks->add(
+ "MULTIMDS_WITH_OLDSNAPS", HEALTH_ERR,
+ "%num% filesystem%plurals% %isorare% multi-active mds with old snapshots");
+ stringstream ss;
+ ss << "multi-active mds while there are snapshots possibly created by pre-mimic MDS";
+ check.detail.push_back(ss.str());
+ }
+}
+
+void MDSMap::mds_info_t::encode_versioned(bufferlist& bl, uint64_t features) const
+{
+ __u8 v = 9;
+ if (!HAVE_FEATURE(features, SERVER_NAUTILUS)) {
+ v = 7;
+ }
+ ENCODE_START(v, 4, bl);
+ encode(global_id, bl);
+ encode(name, bl);
+ encode(rank, bl);
+ encode(inc, bl);
+ encode((int32_t)state, bl);
+ encode(state_seq, bl);
+ if (v < 8) {
+ encode(addrs.legacy_addr(), bl, features);
+ } else {
+ encode(addrs, bl, features);
+ }
+ encode(laggy_since, bl);
+ encode(MDS_RANK_NONE, bl); /* standby_for_rank */
+ encode(std::string(), bl); /* standby_for_name */
+ encode(export_targets, bl);
+ encode(mds_features, bl);
+ encode(FS_CLUSTER_ID_NONE, bl); /* standby_for_fscid */
+ encode(false, bl);
+ if (v >= 9) {
+ encode(flags, bl);
+ }
+ ENCODE_FINISH(bl);
+}
+
+void MDSMap::mds_info_t::encode_unversioned(bufferlist& bl) const
+{
+ __u8 struct_v = 3;
+ using ceph::encode;
+ encode(struct_v, bl);
+ encode(global_id, bl);
+ encode(name, bl);
+ encode(rank, bl);
+ encode(inc, bl);
+ encode((int32_t)state, bl);
+ encode(state_seq, bl);
+ encode(addrs.legacy_addr(), bl, 0);
+ encode(laggy_since, bl);
+ encode(MDS_RANK_NONE, bl);
+ encode(std::string(), bl);
+ encode(export_targets, bl);
+}
+
+void MDSMap::mds_info_t::decode(bufferlist::const_iterator& bl)
+{
+ DECODE_START_LEGACY_COMPAT_LEN(9, 4, 4, bl);
+ decode(global_id, bl);
+ decode(name, bl);
+ decode(rank, bl);
+ decode(inc, bl);
+ int32_t raw_state;
+ decode(raw_state, bl);
+ state = (MDSMap::DaemonState)raw_state;
+ decode(state_seq, bl);
+ decode(addrs, bl);
+ decode(laggy_since, bl);
+ {
+ mds_rank_t standby_for_rank;
+ decode(standby_for_rank, bl);
+ }
+ {
+ std::string standby_for_name;
+ decode(standby_for_name, bl);
+ }
+ if (struct_v >= 2)
+ decode(export_targets, bl);
+ if (struct_v >= 5)
+ decode(mds_features, bl);
+ if (struct_v >= 6) {
+ fs_cluster_id_t standby_for_fscid;
+ decode(standby_for_fscid, bl);
+ }
+ if (struct_v >= 7) {
+ bool standby_replay;
+ decode(standby_replay, bl);
+ }
+ if (struct_v >= 9) {
+ decode(flags, bl);
+ }
+ DECODE_FINISH(bl);
+}
+
+std::string MDSMap::mds_info_t::human_name() const
+{
+ // Like "daemon mds.myhost restarted", "Activating daemon mds.myhost"
+ std::ostringstream out;
+ out << "daemon mds." << name;
+ return out.str();
+}
+
+void MDSMap::encode(bufferlist& bl, uint64_t features) const
+{
+ std::map<mds_rank_t,int32_t> inc; // Legacy field, fake it so that
+ // old-mon peers have something sane
+ // during upgrade
+ for (const auto rank : in) {
+ inc.insert(std::make_pair(rank, epoch));
+ }
+
+ using ceph::encode;
+ if ((features & CEPH_FEATURE_PGID64) == 0) {
+ __u16 v = 2;
+ encode(v, bl);
+ encode(epoch, bl);
+ encode(flags, bl);
+ encode(last_failure, bl);
+ encode(root, bl);
+ encode(session_timeout, bl);
+ encode(session_autoclose, bl);
+ encode(max_file_size, bl);
+ encode(max_mds, bl);
+ __u32 n = mds_info.size();
+ encode(n, bl);
+ for (map<mds_gid_t, mds_info_t>::const_iterator i = mds_info.begin();
+ i != mds_info.end(); ++i) {
+ encode(i->first, bl);
+ encode(i->second, bl, features);
+ }
+ n = data_pools.size();
+ encode(n, bl);
+ for (const auto p: data_pools) {
+ n = p;
+ encode(n, bl);
+ }
+
+ int32_t m = cas_pool;
+ encode(m, bl);
+ return;
+ } else if ((features & CEPH_FEATURE_MDSENC) == 0) {
+ __u16 v = 3;
+ encode(v, bl);
+ encode(epoch, bl);
+ encode(flags, bl);
+ encode(last_failure, bl);
+ encode(root, bl);
+ encode(session_timeout, bl);
+ encode(session_autoclose, bl);
+ encode(max_file_size, bl);
+ encode(max_mds, bl);
+ __u32 n = mds_info.size();
+ encode(n, bl);
+ for (map<mds_gid_t, mds_info_t>::const_iterator i = mds_info.begin();
+ i != mds_info.end(); ++i) {
+ encode(i->first, bl);
+ encode(i->second, bl, features);
+ }
+ encode(data_pools, bl);
+ encode(cas_pool, bl);
+
+ // kclient ignores everything from here
+ __u16 ev = 5;
+ encode(ev, bl);
+ encode(compat, bl);
+ encode(metadata_pool, bl);
+ encode(created, bl);
+ encode(modified, bl);
+ encode(tableserver, bl);
+ encode(in, bl);
+ encode(inc, bl);
+ encode(up, bl);
+ encode(failed, bl);
+ encode(stopped, bl);
+ encode(last_failure_osd_epoch, bl);
+ return;
+ }
+
+ ENCODE_START(5, 4, bl);
+ encode(epoch, bl);
+ encode(flags, bl);
+ encode(last_failure, bl);
+ encode(root, bl);
+ encode(session_timeout, bl);
+ encode(session_autoclose, bl);
+ encode(max_file_size, bl);
+ encode(max_mds, bl);
+ encode(mds_info, bl, features);
+ encode(data_pools, bl);
+ encode(cas_pool, bl);
+
+ // kclient ignores everything from here
+ __u16 ev = 14;
+ encode(ev, bl);
+ encode(compat, bl);
+ encode(metadata_pool, bl);
+ encode(created, bl);
+ encode(modified, bl);
+ encode(tableserver, bl);
+ encode(in, bl);
+ encode(inc, bl);
+ encode(up, bl);
+ encode(failed, bl);
+ encode(stopped, bl);
+ encode(last_failure_osd_epoch, bl);
+ encode(ever_allowed_features, bl);
+ encode(explicitly_allowed_features, bl);
+ encode(inline_data_enabled, bl);
+ encode(enabled, bl);
+ encode(fs_name, bl);
+ encode(damaged, bl);
+ encode(balancer, bl);
+ encode(standby_count_wanted, bl);
+ encode(old_max_mds, bl);
+ encode(min_compat_client, bl);
+ ENCODE_FINISH(bl);
+}
+
+void MDSMap::sanitize(const std::function<bool(int64_t pool)>& pool_exists)
+{
+ /* Before we did stricter checking, it was possible to remove a data pool
+ * without also deleting it from the MDSMap. Check for that here after
+ * decoding the data pools.
+ */
+
+ for (auto it = data_pools.begin(); it != data_pools.end();) {
+ if (!pool_exists(*it)) {
+ dout(0) << "removed non-existant data pool " << *it << " from MDSMap" << dendl;
+ it = data_pools.erase(it);
+ } else {
+ it++;
+ }
+ }
+}
+
+void MDSMap::decode(bufferlist::const_iterator& p)
+{
+ std::map<mds_rank_t,int32_t> inc; // Legacy field, parse and drop
+
+ cached_up_features = 0;
+ DECODE_START_LEGACY_COMPAT_LEN_16(5, 4, 4, p);
+ decode(epoch, p);
+ decode(flags, p);
+ decode(last_failure, p);
+ decode(root, p);
+ decode(session_timeout, p);
+ decode(session_autoclose, p);
+ decode(max_file_size, p);
+ decode(max_mds, p);
+ decode(mds_info, p);
+ if (struct_v < 3) {
+ __u32 n;
+ decode(n, p);
+ while (n--) {
+ __u32 m;
+ decode(m, p);
+ data_pools.push_back(m);
+ }
+ __s32 s;
+ decode(s, p);
+ cas_pool = s;
+ } else {
+ decode(data_pools, p);
+ decode(cas_pool, p);
+ }
+
+ // kclient ignores everything from here
+ __u16 ev = 1;
+ if (struct_v >= 2)
+ decode(ev, p);
+ if (ev >= 3)
+ decode(compat, p);
+ else
+ compat = get_compat_set_base();
+ if (ev < 5) {
+ __u32 n;
+ decode(n, p);
+ metadata_pool = n;
+ } else {
+ decode(metadata_pool, p);
+ }
+ decode(created, p);
+ decode(modified, p);
+ decode(tableserver, p);
+ decode(in, p);
+ decode(inc, p);
+ decode(up, p);
+ decode(failed, p);
+ decode(stopped, p);
+ if (ev >= 4)
+ decode(last_failure_osd_epoch, p);
+ if (ev >= 6) {
+ if (ev < 10) {
+ // previously this was a bool about snaps, not a flag map
+ bool flag;
+ decode(flag, p);
+ ever_allowed_features = flag ? CEPH_MDSMAP_ALLOW_SNAPS : 0;
+ decode(flag, p);
+ explicitly_allowed_features = flag ? CEPH_MDSMAP_ALLOW_SNAPS : 0;
+ } else {
+ decode(ever_allowed_features, p);
+ decode(explicitly_allowed_features, p);
+ }
+ } else {
+ ever_allowed_features = 0;
+ explicitly_allowed_features = 0;
+ }
+ if (ev >= 7)
+ decode(inline_data_enabled, p);
+
+ if (ev >= 8) {
+ ceph_assert(struct_v >= 5);
+ decode(enabled, p);
+ decode(fs_name, p);
+ } else {
+ if (epoch > 1) {
+ // If an MDS has ever been started, epoch will be greater than 1,
+ // assume filesystem is enabled.
+ enabled = true;
+ } else {
+ // Upgrading from a cluster that never used an MDS, switch off
+ // filesystem until it's explicitly enabled.
+ enabled = false;
+ }
+ }
+
+ if (ev >= 9) {
+ decode(damaged, p);
+ }
+
+ if (ev >= 11) {
+ decode(balancer, p);
+ }
+
+ if (ev >= 12) {
+ decode(standby_count_wanted, p);
+ }
+
+ if (ev >= 13) {
+ decode(old_max_mds, p);
+ }
+
+ if (ev >= 14) {
+ decode(min_compat_client, p);
+ }
+
+ DECODE_FINISH(p);
+}
+
+MDSMap::availability_t MDSMap::is_cluster_available() const
+{
+ if (epoch == 0) {
+ // If I'm a client, this means I'm looking at an MDSMap instance
+ // that was never actually initialized from the mons. Client should
+ // wait.
+ return TRANSIENT_UNAVAILABLE;
+ }
+
+ // If a rank is marked damage (unavailable until operator intervenes)
+ if (damaged.size()) {
+ return STUCK_UNAVAILABLE;
+ }
+
+ // If no ranks are created (filesystem not initialized)
+ if (in.empty()) {
+ return STUCK_UNAVAILABLE;
+ }
+
+ for (const auto rank : in) {
+ if (up.count(rank) && mds_info.at(up.at(rank)).laggy()) {
+ // This might only be transient, but because we can't see
+ // standbys, we have no way of knowing whether there is a
+ // standby available to replace the laggy guy.
+ return STUCK_UNAVAILABLE;
+ }
+ }
+
+ if (get_num_mds(CEPH_MDS_STATE_ACTIVE) > 0) {
+ // Nobody looks stuck, so indicate to client they should go ahead
+ // and try mounting if anybody is active. This may include e.g.
+ // one MDS failing over and another active: the client should
+ // proceed to start talking to the active one and let the
+ // transiently-unavailable guy catch up later.
+ return AVAILABLE;
+ } else {
+ // Nothing indicating we were stuck, but nobody active (yet)
+ //return TRANSIENT_UNAVAILABLE;
+
+ // Because we don't have standbys in the MDSMap any more, we can't
+ // reliably indicate transient vs. stuck, so always say stuck so
+ // that the client doesn't block.
+ return STUCK_UNAVAILABLE;
+ }
+}
+
+bool MDSMap::state_transition_valid(DaemonState prev, DaemonState next)
+{
+ bool state_valid = true;
+ if (next != prev) {
+ if (prev == MDSMap::STATE_REPLAY) {
+ if (next != MDSMap::STATE_RESOLVE && next != MDSMap::STATE_RECONNECT) {
+ state_valid = false;
+ }
+ } else if (prev == MDSMap::STATE_REJOIN) {
+ if (next != MDSMap::STATE_ACTIVE &&
+ next != MDSMap::STATE_CLIENTREPLAY &&
+ next != MDSMap::STATE_STOPPED) {
+ state_valid = false;
+ }
+ } else if (prev >= MDSMap::STATE_RESOLVE && prev < MDSMap::STATE_ACTIVE) {
+ // Once I have entered replay, the only allowable transitions are to
+ // the next next along in the sequence.
+ if (next != prev + 1) {
+ state_valid = false;
+ }
+ }
+ }
+
+ return state_valid;
+}
+
+bool MDSMap::check_health(mds_rank_t standby_daemon_count)
+{
+ std::set<mds_rank_t> standbys;
+ get_standby_replay_mds_set(standbys);
+ std::set<mds_rank_t> actives;
+ get_active_mds_set(actives);
+ mds_rank_t standbys_avail = (mds_rank_t)standbys.size()+standby_daemon_count;
+
+ /* If there are standby daemons available/replaying and
+ * standby_count_wanted is unset (default), then we set it to 1. This will
+ * happen during health checks by the mons. Also, during initial creation
+ * of the FS we will have no actives so we don't want to change the default
+ * yet.
+ */
+ if (standby_count_wanted == -1 && actives.size() > 0 && standbys_avail > 0) {
+ set_standby_count_wanted(1);
+ return true;
+ }
+ return false;
+}