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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-21 11:54:28 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-21 11:54:28 +0000
commite6918187568dbd01842d8d1d2c808ce16a894239 (patch)
tree64f88b554b444a49f656b6c656111a145cbbaa28 /src/mds/MDSRank.h
parentInitial commit. (diff)
downloadceph-e6918187568dbd01842d8d1d2c808ce16a894239.tar.xz
ceph-e6918187568dbd01842d8d1d2c808ce16a894239.zip
Adding upstream version 18.2.2.upstream/18.2.2
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/mds/MDSRank.h')
-rw-r--r--src/mds/MDSRank.h728
1 files changed, 728 insertions, 0 deletions
diff --git a/src/mds/MDSRank.h b/src/mds/MDSRank.h
new file mode 100644
index 000000000..b61fc178c
--- /dev/null
+++ b/src/mds/MDSRank.h
@@ -0,0 +1,728 @@
+// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
+// vim: ts=8 sw=2 smarttab
+/*
+ * Ceph - scalable distributed file system
+ *
+ * Copyright (C) 2015 Red Hat
+ *
+ * This is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License version 2.1, as published by the Free Software
+ * Foundation. See file COPYING.
+ *
+ */
+
+#ifndef MDS_RANK_H_
+#define MDS_RANK_H_
+
+#include <string_view>
+
+#include <boost/asio/io_context.hpp>
+
+#include "common/DecayCounter.h"
+#include "common/LogClient.h"
+#include "common/Timer.h"
+#include "common/fair_mutex.h"
+#include "common/TrackedOp.h"
+#include "common/ceph_mutex.h"
+
+#include "include/common_fwd.h"
+
+#include "messages/MClientRequest.h"
+#include "messages/MCommand.h"
+#include "messages/MMDSMap.h"
+
+#include "Beacon.h"
+#include "DamageTable.h"
+#include "MDSMap.h"
+#include "SessionMap.h"
+#include "MDCache.h"
+#include "MDLog.h"
+#include "MDSContext.h"
+#include "PurgeQueue.h"
+#include "Server.h"
+#include "MetricsHandler.h"
+#include "osdc/Journaler.h"
+
+// Full .h import instead of forward declaration for PerfCounter, for the
+// benefit of those including this header and using MDSRank::logger
+#include "common/perf_counters.h"
+
+enum {
+ l_mds_first = 2000,
+ l_mds_request,
+ l_mds_reply,
+ l_mds_reply_latency,
+ l_mds_slow_reply,
+ l_mds_forward,
+ l_mds_dir_fetch_complete,
+ l_mds_dir_fetch_keys,
+ l_mds_dir_commit,
+ l_mds_dir_split,
+ l_mds_dir_merge,
+ l_mds_inodes,
+ l_mds_inodes_top,
+ l_mds_inodes_bottom,
+ l_mds_inodes_pin_tail,
+ l_mds_inodes_pinned,
+ l_mds_inodes_expired,
+ l_mds_inodes_with_caps,
+ l_mds_caps,
+ l_mds_subtrees,
+ l_mds_traverse,
+ l_mds_traverse_hit,
+ l_mds_traverse_forward,
+ l_mds_traverse_discover,
+ l_mds_traverse_dir_fetch,
+ l_mds_traverse_remote_ino,
+ l_mds_traverse_lock,
+ l_mds_load_cent,
+ l_mds_dispatch_queue_len,
+ l_mds_exported,
+ l_mds_exported_inodes,
+ l_mds_imported,
+ l_mds_imported_inodes,
+ l_mds_openino_dir_fetch,
+ l_mds_openino_backtrace_fetch,
+ l_mds_openino_peer_discover,
+ l_mds_root_rfiles,
+ l_mds_root_rbytes,
+ l_mds_root_rsnaps,
+ l_mds_scrub_backtrace_fetch,
+ l_mds_scrub_set_tag,
+ l_mds_scrub_backtrace_repaired,
+ l_mds_scrub_inotable_repaired,
+ l_mds_scrub_dir_inodes,
+ l_mds_scrub_dir_base_inodes,
+ l_mds_scrub_dirfrag_rstats,
+ l_mds_scrub_file_inodes,
+ l_mdss_handle_inode_file_caps,
+ l_mdss_ceph_cap_op_revoke,
+ l_mdss_ceph_cap_op_grant,
+ l_mdss_ceph_cap_op_trunc,
+ l_mdss_ceph_cap_op_flushsnap_ack,
+ l_mdss_ceph_cap_op_flush_ack,
+ l_mdss_handle_client_caps,
+ l_mdss_handle_client_caps_dirty,
+ l_mdss_handle_client_cap_release,
+ l_mdss_process_request_cap_release,
+ l_mds_last,
+};
+
+// memory utilization
+enum {
+ l_mdm_first = 2500,
+ l_mdm_ino,
+ l_mdm_inoa,
+ l_mdm_inos,
+ l_mdm_dir,
+ l_mdm_dira,
+ l_mdm_dirs,
+ l_mdm_dn,
+ l_mdm_dna,
+ l_mdm_dns,
+ l_mdm_cap,
+ l_mdm_capa,
+ l_mdm_caps,
+ l_mdm_rss,
+ l_mdm_heap,
+ l_mdm_last,
+};
+
+namespace ceph {
+ struct heartbeat_handle_d;
+}
+
+class Locker;
+class MDCache;
+class MDLog;
+class MDBalancer;
+class InoTable;
+class SnapServer;
+class SnapClient;
+class MDSTableServer;
+class MDSTableClient;
+class Messenger;
+class MetricAggregator;
+class Objecter;
+class MonClient;
+class MgrClient;
+class Finisher;
+class ScrubStack;
+class C_ExecAndReply;
+
+/**
+ * The public part of this class's interface is what's exposed to all
+ * the various subsystems (server, mdcache, etc), such as pointers
+ * to the other subsystems, and message-sending calls.
+ */
+class MDSRank {
+ public:
+ friend class C_Flush_Journal;
+ friend class C_Drop_Cache;
+ friend class C_CacheDropExecAndReply;
+ friend class C_ScrubExecAndReply;
+ friend class C_ScrubControlExecAndReply;
+
+ CephContext *cct;
+
+ MDSRank(
+ mds_rank_t whoami_,
+ ceph::fair_mutex &mds_lock_,
+ LogChannelRef &clog_,
+ CommonSafeTimer<ceph::fair_mutex> &timer_,
+ Beacon &beacon_,
+ std::unique_ptr<MDSMap> & mdsmap_,
+ Messenger *msgr,
+ MonClient *monc_,
+ MgrClient *mgrc,
+ Context *respawn_hook_,
+ Context *suicide_hook_,
+ boost::asio::io_context& ioc);
+
+ mds_rank_t get_nodeid() const { return whoami; }
+ int64_t get_metadata_pool() const
+ {
+ return metadata_pool;
+ }
+
+ mono_time get_starttime() const {
+ return starttime;
+ }
+ std::chrono::duration<double> get_uptime() const {
+ mono_time now = mono_clock::now();
+ return std::chrono::duration<double>(now-starttime);
+ }
+
+ bool is_daemon_stopping() const;
+
+ MDSTableClient *get_table_client(int t);
+ MDSTableServer *get_table_server(int t);
+
+ Session *get_session(client_t client) {
+ return sessionmap.get_session(entity_name_t::CLIENT(client.v));
+ }
+ Session *get_session(const cref_t<Message> &m);
+
+ MDSMap::DaemonState get_state() const { return state; }
+ MDSMap::DaemonState get_want_state() const { return beacon.get_want_state(); }
+
+ bool is_creating() const { return state == MDSMap::STATE_CREATING; }
+ bool is_starting() const { return state == MDSMap::STATE_STARTING; }
+ bool is_standby() const { return state == MDSMap::STATE_STANDBY; }
+ bool is_replay() const { return state == MDSMap::STATE_REPLAY; }
+ bool is_standby_replay() const { return state == MDSMap::STATE_STANDBY_REPLAY; }
+ bool is_resolve() const { return state == MDSMap::STATE_RESOLVE; }
+ bool is_reconnect() const { return state == MDSMap::STATE_RECONNECT; }
+ bool is_rejoin() const { return state == MDSMap::STATE_REJOIN; }
+ bool is_clientreplay() const { return state == MDSMap::STATE_CLIENTREPLAY; }
+ bool is_active() const { return state == MDSMap::STATE_ACTIVE; }
+ bool is_stopping() const { return state == MDSMap::STATE_STOPPING; }
+ bool is_any_replay() const { return (is_replay() || is_standby_replay()); }
+ bool is_stopped() const { return mdsmap->is_stopped(whoami); }
+ bool is_cluster_degraded() const { return cluster_degraded; }
+ bool allows_multimds_snaps() const { return mdsmap->allows_multimds_snaps(); }
+
+ bool is_cache_trimmable() const {
+ return is_standby_replay() || is_clientreplay() || is_active() || is_stopping();
+ }
+
+ void handle_write_error(int err);
+ void handle_write_error_with_lock(int err);
+
+ void update_mlogger();
+
+ void queue_waiter(MDSContext *c) {
+ finished_queue.push_back(c);
+ progress_thread.signal();
+ }
+ void queue_waiter_front(MDSContext *c) {
+ finished_queue.push_front(c);
+ progress_thread.signal();
+ }
+ void queue_waiters(MDSContext::vec& ls) {
+ MDSContext::vec v;
+ v.swap(ls);
+ std::copy(v.begin(), v.end(), std::back_inserter(finished_queue));
+ progress_thread.signal();
+ }
+ void queue_waiters_front(MDSContext::vec& ls) {
+ MDSContext::vec v;
+ v.swap(ls);
+ std::copy(v.rbegin(), v.rend(), std::front_inserter(finished_queue));
+ progress_thread.signal();
+ }
+
+ // Daemon lifetime functions: these guys break the abstraction
+ // and call up into the parent MDSDaemon instance. It's kind
+ // of unavoidable: if we want any depth into our calls
+ // to be able to e.g. tear down the whole process, we have to
+ // have a reference going all the way down.
+ // >>>
+ void suicide();
+ void respawn();
+ // <<<
+
+ /**
+ * Call this periodically if inside a potentially long running piece
+ * of code while holding the mds_lock
+ */
+ void heartbeat_reset();
+ int heartbeat_reset_grace(int count=1) {
+ return count * _heartbeat_reset_grace;
+ }
+
+ /**
+ * Abort the MDS and flush any clog messages.
+ *
+ * Callers must already hold mds_lock.
+ */
+ void abort(std::string_view msg);
+
+ /**
+ * Report state DAMAGED to the mon, and then pass on to respawn(). Call
+ * this when an unrecoverable error is encountered while attempting
+ * to load an MDS rank's data structures. This is *not* for use with
+ * errors affecting normal dirfrag/inode objects -- they should be handled
+ * through cleaner scrub/repair mechanisms.
+ *
+ * Callers must already hold mds_lock.
+ */
+ void damaged();
+
+ /**
+ * Wrapper around `damaged` for users who are not
+ * already holding mds_lock.
+ *
+ * Callers must not already hold mds_lock.
+ */
+ void damaged_unlocked();
+
+ double last_cleared_laggy() const {
+ return beacon.last_cleared_laggy();
+ }
+
+ double get_dispatch_queue_max_age(utime_t now) const;
+
+ void send_message_mds(const ref_t<Message>& m, mds_rank_t mds);
+ void send_message_mds(const ref_t<Message>& m, const entity_addrvec_t &addr);
+ void forward_message_mds(MDRequestRef& mdr, mds_rank_t mds);
+ void send_message_client_counted(const ref_t<Message>& m, client_t client);
+ void send_message_client_counted(const ref_t<Message>& m, Session* session);
+ void send_message_client_counted(const ref_t<Message>& m, const ConnectionRef& connection);
+ void send_message_client(const ref_t<Message>& m, Session* session);
+ void send_message(const ref_t<Message>& m, const ConnectionRef& c);
+
+ void wait_for_bootstrapped_peer(mds_rank_t who, MDSContext *c) {
+ waiting_for_bootstrapping_peer[who].push_back(c);
+ }
+ void wait_for_active_peer(mds_rank_t who, MDSContext *c) {
+ waiting_for_active_peer[who].push_back(c);
+ }
+ void wait_for_cluster_recovered(MDSContext *c) {
+ ceph_assert(cluster_degraded);
+ waiting_for_active_peer[MDS_RANK_NONE].push_back(c);
+ }
+
+ void wait_for_any_client_connection(MDSContext *c) {
+ waiting_for_any_client_connection.push_back(c);
+ }
+ void kick_waiters_for_any_client_connection(void) {
+ finish_contexts(g_ceph_context, waiting_for_any_client_connection);
+ }
+ void wait_for_active(MDSContext *c) {
+ waiting_for_active.push_back(c);
+ }
+ void wait_for_replay(MDSContext *c) {
+ waiting_for_replay.push_back(c);
+ }
+ void wait_for_rejoin(MDSContext *c) {
+ waiting_for_rejoin.push_back(c);
+ }
+ void wait_for_reconnect(MDSContext *c) {
+ waiting_for_reconnect.push_back(c);
+ }
+ void wait_for_resolve(MDSContext *c) {
+ waiting_for_resolve.push_back(c);
+ }
+ void wait_for_mdsmap(epoch_t e, MDSContext *c) {
+ waiting_for_mdsmap[e].push_back(c);
+ }
+ void enqueue_replay(MDSContext *c) {
+ replay_queue.push_back(c);
+ }
+
+ bool queue_one_replay();
+ void maybe_clientreplay_done();
+
+ void set_osd_epoch_barrier(epoch_t e);
+ epoch_t get_osd_epoch_barrier() const {return osd_epoch_barrier;}
+ epoch_t get_osd_epoch() const;
+
+ ceph_tid_t issue_tid() { return ++last_tid; }
+
+ MDSMap *get_mds_map() { return mdsmap.get(); }
+
+ uint64_t get_num_requests() const { return logger->get(l_mds_request); }
+
+ int get_mds_slow_req_count() const { return mds_slow_req_count; }
+
+ void dump_status(Formatter *f) const;
+
+ void hit_export_target(mds_rank_t rank, double amount=-1.0);
+ bool is_export_target(mds_rank_t rank) {
+ const std::set<mds_rank_t>& map_targets = mdsmap->get_mds_info(get_nodeid()).export_targets;
+ return map_targets.count(rank);
+ }
+
+ bool evict_client(int64_t session_id, bool wait, bool blocklist,
+ std::ostream& ss, Context *on_killed=nullptr);
+ int config_client(int64_t session_id, bool remove,
+ const std::string& option, const std::string& value,
+ std::ostream& ss);
+ void schedule_inmemory_logger();
+
+ double get_inject_journal_corrupt_dentry_first() const {
+ return inject_journal_corrupt_dentry_first;
+ }
+
+ // Reference to global MDS::mds_lock, so that users of MDSRank don't
+ // carry around references to the outer MDS, and we can substitute
+ // a separate lock here in future potentially.
+ ceph::fair_mutex &mds_lock;
+
+ // Reference to global cluster log client, just to avoid initialising
+ // a separate one here.
+ LogChannelRef &clog;
+
+ // Reference to global timer utility, because MDSRank and MDSDaemon
+ // currently both use the same mds_lock, so it makes sense for them
+ // to share a timer.
+ CommonSafeTimer<ceph::fair_mutex> &timer;
+
+ std::unique_ptr<MDSMap> &mdsmap; /* MDSDaemon::mdsmap */
+
+ Objecter *objecter;
+
+ // sub systems
+ Server *server = nullptr;
+ MDCache *mdcache = nullptr;
+ Locker *locker = nullptr;
+ MDLog *mdlog = nullptr;
+ MDBalancer *balancer = nullptr;
+ ScrubStack *scrubstack = nullptr;
+ DamageTable damage_table;
+
+ InoTable *inotable = nullptr;
+
+ SnapServer *snapserver = nullptr;
+ SnapClient *snapclient = nullptr;
+
+ SessionMap sessionmap;
+
+ PerfCounters *logger = nullptr, *mlogger = nullptr;
+ OpTracker op_tracker;
+
+ // The last different state I held before current
+ MDSMap::DaemonState last_state = MDSMap::STATE_BOOT;
+ // The state assigned to me by the MDSMap
+ MDSMap::DaemonState state = MDSMap::STATE_STANDBY;
+
+ bool cluster_degraded = false;
+
+ Finisher *finisher;
+ protected:
+ typedef enum {
+ // The MDSMap is available, configure default layouts and structures
+ MDS_BOOT_INITIAL = 0,
+ // We are ready to open some inodes
+ MDS_BOOT_OPEN_ROOT,
+ // We are ready to do a replay if needed
+ MDS_BOOT_PREPARE_LOG,
+ // Replay is complete
+ MDS_BOOT_REPLAY_DONE
+ } BootStep;
+
+ class ProgressThread : public Thread {
+ public:
+ explicit ProgressThread(MDSRank *mds_) : mds(mds_) {}
+ void * entry() override;
+ void shutdown();
+ void signal() {cond.notify_all();}
+ private:
+ MDSRank *mds;
+ std::condition_variable_any cond;
+ } progress_thread;
+
+ class C_MDS_StandbyReplayRestart;
+ class C_MDS_StandbyReplayRestartFinish;
+ // Friended to access retry_dispatch
+ friend class C_MDS_RetryMessage;
+ friend class C_MDS_BootStart;
+ friend class C_MDS_InternalBootStart;
+ friend class C_MDS_MonCommand;
+
+ const mds_rank_t whoami;
+
+ ~MDSRank();
+
+ void inc_dispatch_depth() { ++dispatch_depth; }
+ void dec_dispatch_depth() { --dispatch_depth; }
+ void retry_dispatch(const cref_t<Message> &m);
+ bool is_valid_message(const cref_t<Message> &m);
+ void handle_message(const cref_t<Message> &m);
+ void _advance_queues();
+ bool _dispatch(const cref_t<Message> &m, bool new_msg);
+ bool is_stale_message(const cref_t<Message> &m) const;
+
+ /**
+ * Emit clog warnings for any ops reported as warnings by optracker
+ */
+ void check_ops_in_flight();
+
+ /**
+ * Share MDSMap with clients
+ */
+ void create_logger();
+
+ void dump_clientreplay_status(Formatter *f) const;
+ void command_scrub_start(Formatter *f,
+ std::string_view path, std::string_view tag,
+ const std::vector<std::string>& scrubop_vec, Context *on_finish);
+ void command_tag_path(Formatter *f, std::string_view path,
+ std::string_view tag);
+ // scrub control commands
+ void command_scrub_abort(Formatter *f, Context *on_finish);
+ void command_scrub_pause(Formatter *f, Context *on_finish);
+ void command_scrub_resume(Formatter *f);
+ void command_scrub_status(Formatter *f);
+
+ void command_flush_path(Formatter *f, std::string_view path);
+ void command_flush_journal(Formatter *f);
+ void command_get_subtrees(Formatter *f);
+ void command_export_dir(Formatter *f,
+ std::string_view path, mds_rank_t dest);
+ bool command_dirfrag_split(
+ cmdmap_t cmdmap,
+ std::ostream &ss);
+ bool command_dirfrag_merge(
+ cmdmap_t cmdmap,
+ std::ostream &ss);
+ bool command_dirfrag_ls(
+ cmdmap_t cmdmap,
+ std::ostream &ss,
+ Formatter *f);
+ int _command_export_dir(std::string_view path, mds_rank_t dest);
+ CDir *_command_dirfrag_get(
+ const cmdmap_t &cmdmap,
+ std::ostream &ss);
+ void command_openfiles_ls(Formatter *f);
+ void command_dump_tree(const cmdmap_t &cmdmap, std::ostream &ss, Formatter *f);
+ void command_dump_inode(Formatter *f, const cmdmap_t &cmdmap, std::ostream &ss);
+ void command_cache_drop(uint64_t timeout, Formatter *f, Context *on_finish);
+
+ // FIXME the state machine logic should be separable from the dispatch
+ // logic that calls it.
+ // >>>
+ void calc_recovery_set();
+ void request_state(MDSMap::DaemonState s);
+
+ void boot_create(); // i am new mds.
+ void boot_start(BootStep step=MDS_BOOT_INITIAL, int r=0); // starting|replay
+
+ void replay_start();
+ void creating_done();
+ void starting_done();
+ void replay_done();
+ void standby_replay_restart();
+ void _standby_replay_restart_finish(int r, uint64_t old_read_pos);
+
+ void reopen_log();
+
+ void resolve_start();
+ void resolve_done();
+ void reconnect_start();
+ void reconnect_done();
+ void rejoin_joint_start();
+ void rejoin_start();
+ void rejoin_done();
+ void recovery_done(int oldstate);
+ void clientreplay_start();
+ void clientreplay_done();
+ void active_start();
+ void stopping_start();
+ void stopping_done();
+
+ void validate_sessions();
+
+ void handle_mds_recovery(mds_rank_t who);
+ void handle_mds_failure(mds_rank_t who);
+
+ /* Update MDSMap export_targets for this rank. Called on ::tick(). */
+ void update_targets();
+
+ void _mon_command_finish(int r, std::string_view cmd, std::string_view outs);
+ void set_mdsmap_multimds_snaps_allowed();
+
+ Context *create_async_exec_context(C_ExecAndReply *ctx);
+
+ // blocklist the provided addrs and set OSD epoch barrier
+ // with the provided epoch.
+ void apply_blocklist(const std::set<entity_addr_t> &addrs, epoch_t epoch);
+
+ void reset_event_flags();
+
+ // Incarnation as seen in MDSMap at the point where a rank is
+ // assigned.
+ int incarnation = 0;
+
+ // Flag to indicate we entered shutdown: anyone seeing this to be true
+ // after taking mds_lock must drop out.
+ bool stopping = false;
+
+ // PurgeQueue is only used by StrayManager, but it is owned by MDSRank
+ // because its init/shutdown happens at the top level.
+ PurgeQueue purge_queue;
+
+ MetricsHandler metrics_handler;
+ std::unique_ptr<MetricAggregator> metric_aggregator;
+
+ std::list<cref_t<Message>> waiting_for_nolaggy;
+ MDSContext::que finished_queue;
+ // Dispatch, retry, queues
+ int dispatch_depth = 0;
+
+ ceph::heartbeat_handle_d *hb = nullptr; // Heartbeat for threads using mds_lock
+ double heartbeat_grace;
+ int _heartbeat_reset_grace;
+
+ std::map<mds_rank_t, version_t> peer_mdsmap_epoch;
+
+ ceph_tid_t last_tid = 0; // for mds-initiated requests (e.g. stray rename)
+
+ MDSContext::vec waiting_for_active, waiting_for_replay, waiting_for_rejoin,
+ waiting_for_reconnect, waiting_for_resolve;
+ MDSContext::vec waiting_for_any_client_connection;
+ MDSContext::que replay_queue;
+ bool replaying_requests_done = false;
+
+ std::map<mds_rank_t, MDSContext::vec> waiting_for_active_peer;
+ std::map<mds_rank_t, MDSContext::vec> waiting_for_bootstrapping_peer;
+ std::map<epoch_t, MDSContext::vec> waiting_for_mdsmap;
+
+ epoch_t osd_epoch_barrier = 0;
+
+ // Const reference to the beacon so that we can behave differently
+ // when it's laggy.
+ Beacon &beacon;
+
+ int mds_slow_req_count = 0;
+
+ std::map<mds_rank_t,DecayCounter> export_targets; /* targets this MDS is exporting to or wants/tries to */
+
+ Messenger *messenger;
+ MonClient *monc;
+ MgrClient *mgrc;
+
+ Context *respawn_hook;
+ Context *suicide_hook;
+
+ bool standby_replaying = false; // true if current replay pass is in standby-replay mode
+ uint64_t extraordinary_events_dump_interval = 0;
+ double inject_journal_corrupt_dentry_first = 0.0;
+private:
+ bool send_status = true;
+
+ // The metadata pool won't change in the whole life time of the fs,
+ // with this we can get rid of the mds_lock in many places too.
+ int64_t metadata_pool = -1;
+
+ // "task" string that gets displayed in ceph status
+ inline static const std::string SCRUB_STATUS_KEY = "scrub status";
+
+ bool client_eviction_dump = false;
+
+ void get_task_status(std::map<std::string, std::string> *status);
+ void schedule_update_timer_task();
+ void send_task_status();
+
+ void inmemory_logger();
+ bool is_rank0() const {
+ return whoami == (mds_rank_t)0;
+ }
+
+ mono_time starttime = mono_clock::zero();
+ boost::asio::io_context& ioc;
+};
+
+class C_MDS_RetryMessage : public MDSInternalContext {
+public:
+ C_MDS_RetryMessage(MDSRank *mds, const cref_t<Message> &m)
+ : MDSInternalContext(mds), m(m) {}
+ void finish(int r) override {
+ get_mds()->retry_dispatch(m);
+ }
+protected:
+ cref_t<Message> m;
+};
+
+class CF_MDS_RetryMessageFactory : public MDSContextFactory {
+public:
+ CF_MDS_RetryMessageFactory(MDSRank *mds, const cref_t<Message> &m)
+ : mds(mds), m(m) {}
+
+ MDSContext *build() {
+ return new C_MDS_RetryMessage(mds, m);
+ }
+private:
+ MDSRank *mds;
+ cref_t<Message> m;
+};
+
+/**
+ * The aspect of MDSRank exposed to MDSDaemon but not subsystems: i.e.
+ * the service/dispatcher stuff like init/shutdown that subsystems should
+ * never touch.
+ */
+class MDSRankDispatcher : public MDSRank, public md_config_obs_t
+{
+public:
+ MDSRankDispatcher(
+ mds_rank_t whoami_,
+ ceph::fair_mutex &mds_lock_,
+ LogChannelRef &clog_,
+ CommonSafeTimer<ceph::fair_mutex> &timer_,
+ Beacon &beacon_,
+ std::unique_ptr<MDSMap> &mdsmap_,
+ Messenger *msgr,
+ MonClient *monc_,
+ MgrClient *mgrc,
+ Context *respawn_hook_,
+ Context *suicide_hook_,
+ boost::asio::io_context& ioc);
+
+ void init();
+ void tick();
+ void shutdown();
+ void handle_asok_command(
+ std::string_view command,
+ const cmdmap_t& cmdmap,
+ Formatter *f,
+ const bufferlist &inbl,
+ std::function<void(int,const std::string&,bufferlist&)> on_finish);
+ void handle_mds_map(const cref_t<MMDSMap> &m, const MDSMap &oldmap);
+ void handle_osd_map();
+ void update_log_config();
+
+ const char** get_tracked_conf_keys() const override final;
+ void handle_conf_change(const ConfigProxy& conf, const std::set<std::string>& changed) override;
+
+ void dump_sessions(const SessionFilter &filter, Formatter *f, bool cap_dump=false) const;
+ void evict_clients(const SessionFilter &filter,
+ std::function<void(int,const std::string&,bufferlist&)> on_finish);
+
+ // Call into me from MDS::ms_dispatch
+ bool ms_dispatch(const cref_t<Message> &m);
+};
+
+#endif // MDS_RANK_H_