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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.
*
*/
#ifndef CEPH_MDS_SESSIONMAP_H
#define CEPH_MDS_SESSIONMAP_H
#include <set>
#include "include/unordered_map.h"
#include "include/Context.h"
#include "include/xlist.h"
#include "include/elist.h"
#include "include/interval_set.h"
#include "mdstypes.h"
#include "mds/MDSAuthCaps.h"
#include "common/perf_counters.h"
#include "common/DecayCounter.h"
#include "CInode.h"
#include "Capability.h"
#include "MDSContext.h"
#include "msg/Message.h"
struct MDRequestImpl;
enum {
l_mdssm_first = 5500,
l_mdssm_session_count,
l_mdssm_session_add,
l_mdssm_session_remove,
l_mdssm_session_open,
l_mdssm_session_stale,
l_mdssm_total_load,
l_mdssm_avg_load,
l_mdssm_avg_session_uptime,
l_mdssm_last,
};
class CInode;
/*
* session
*/
class Session : public RefCountedObject {
// -- state etc --
public:
/*
<deleted> <-- closed <------------+
^ | |
| v |
killing <-- opening <----+ |
^ | | |
| v | |
stale <--> open --> closing ---+
+ additional dimension of 'importing' (with counter)
*/
using clock = ceph::coarse_mono_clock;
using time = ceph::coarse_mono_time;
enum {
STATE_CLOSED = 0,
STATE_OPENING = 1, // journaling open
STATE_OPEN = 2,
STATE_CLOSING = 3, // journaling close
STATE_STALE = 4,
STATE_KILLING = 5
};
Session() = delete;
Session(ConnectionRef con) :
item_session_list(this),
requests(member_offset(MDRequestImpl, item_session_request)),
recall_caps(g_conf().get_val<double>("mds_recall_warning_decay_rate")),
release_caps(g_conf().get_val<double>("mds_recall_warning_decay_rate")),
recall_caps_throttle(g_conf().get_val<double>("mds_recall_max_decay_rate")),
recall_caps_throttle2o(0.5),
session_cache_liveness(g_conf().get_val<double>("mds_session_cache_liveness_decay_rate")),
cap_acquisition(g_conf().get_val<double>("mds_session_cap_acquisition_decay_rate")),
birth_time(clock::now())
{
set_connection(std::move(con));
}
~Session() override {
ceph_assert(!item_session_list.is_on_list());
preopen_out_queue.clear();
}
static std::string_view get_state_name(int s) {
switch (s) {
case STATE_CLOSED: return "closed";
case STATE_OPENING: return "opening";
case STATE_OPEN: return "open";
case STATE_CLOSING: return "closing";
case STATE_STALE: return "stale";
case STATE_KILLING: return "killing";
default: return "???";
}
}
void dump(ceph::Formatter *f, bool cap_dump=false) const;
void push_pv(version_t pv)
{
ceph_assert(projected.empty() || projected.back() != pv);
projected.push_back(pv);
}
void pop_pv(version_t v)
{
ceph_assert(!projected.empty());
ceph_assert(projected.front() == v);
projected.pop_front();
}
int get_state() const { return state; }
void set_state(int new_state)
{
if (state != new_state) {
state = new_state;
state_seq++;
}
}
void set_reconnecting(bool s) { reconnecting = s; }
void decode(ceph::buffer::list::const_iterator &p);
template<typename T>
void set_client_metadata(T&& meta)
{
info.client_metadata = std::forward<T>(meta);
_update_human_name();
}
const std::string& get_human_name() const {return human_name;}
size_t get_request_count() const;
void notify_cap_release(size_t n_caps);
uint64_t notify_recall_sent(size_t new_limit);
auto get_recall_caps_throttle() const {
return recall_caps_throttle.get();
}
auto get_recall_caps_throttle2o() const {
return recall_caps_throttle2o.get();
}
auto get_recall_caps() const {
return recall_caps.get();
}
auto get_release_caps() const {
return release_caps.get();
}
auto get_session_cache_liveness() const {
return session_cache_liveness.get();
}
auto get_cap_acquisition() const {
return cap_acquisition.get();
}
inodeno_t take_ino(inodeno_t ino = 0) {
if (ino) {
if (!info.prealloc_inos.contains(ino))
return 0;
if (delegated_inos.contains(ino)) {
delegated_inos.erase(ino);
} else if (free_prealloc_inos.contains(ino)) {
free_prealloc_inos.erase(ino);
} else {
ceph_assert(0);
}
} else if (!free_prealloc_inos.empty()) {
ino = free_prealloc_inos.range_start();
free_prealloc_inos.erase(ino);
}
return ino;
}
void delegate_inos(int want, interval_set<inodeno_t>& inos) {
want -= (int)delegated_inos.size();
if (want <= 0)
return;
for (auto it = free_prealloc_inos.begin(); it != free_prealloc_inos.end(); ) {
if (want < (int)it.get_len()) {
inos.insert(it.get_start(), (inodeno_t)want);
delegated_inos.insert(it.get_start(), (inodeno_t)want);
free_prealloc_inos.erase(it.get_start(), (inodeno_t)want);
break;
}
want -= (int)it.get_len();
inos.insert(it.get_start(), it.get_len());
delegated_inos.insert(it.get_start(), it.get_len());
free_prealloc_inos.erase(it++);
if (want <= 0)
break;
}
}
// sans any delegated ones
int get_num_prealloc_inos() const {
return free_prealloc_inos.size();
}
int get_num_projected_prealloc_inos() const {
return get_num_prealloc_inos() + pending_prealloc_inos.size();
}
client_t get_client() const {
return info.get_client();
}
std::string_view get_state_name() const { return get_state_name(state); }
uint64_t get_state_seq() const { return state_seq; }
bool is_closed() const { return state == STATE_CLOSED; }
bool is_opening() const { return state == STATE_OPENING; }
bool is_open() const { return state == STATE_OPEN; }
bool is_closing() const { return state == STATE_CLOSING; }
bool is_stale() const { return state == STATE_STALE; }
bool is_killing() const { return state == STATE_KILLING; }
void inc_importing() {
++importing_count;
}
void dec_importing() {
ceph_assert(importing_count > 0);
--importing_count;
}
bool is_importing() const { return importing_count > 0; }
void set_load_avg_decay_rate(double rate) {
ceph_assert(is_open() || is_stale());
load_avg = DecayCounter(rate);
}
uint64_t get_load_avg() const {
return (uint64_t)load_avg.get();
}
void hit_session() {
load_avg.adjust();
}
double get_session_uptime() const {
std::chrono::duration<double> uptime = clock::now() - birth_time;
return uptime.count();
}
time get_birth_time() const {
return birth_time;
}
void inc_cap_gen() { ++cap_gen; }
uint32_t get_cap_gen() const { return cap_gen; }
version_t inc_push_seq() { return ++cap_push_seq; }
version_t get_push_seq() const { return cap_push_seq; }
version_t wait_for_flush(MDSContext* c) {
waitfor_flush[get_push_seq()].push_back(c);
return get_push_seq();
}
void finish_flush(version_t seq, MDSContext::vec& ls) {
while (!waitfor_flush.empty()) {
auto it = waitfor_flush.begin();
if (it->first > seq)
break;
auto& v = it->second;
ls.insert(ls.end(), v.begin(), v.end());
waitfor_flush.erase(it);
}
}
void touch_readdir_cap(uint32_t count) {
cap_acquisition.hit(count);
}
void touch_cap(Capability *cap) {
session_cache_liveness.hit(1.0);
caps.push_front(&cap->item_session_caps);
}
void touch_cap_bottom(Capability *cap) {
session_cache_liveness.hit(1.0);
caps.push_back(&cap->item_session_caps);
}
void touch_lease(ClientLease *r) {
session_cache_liveness.hit(1.0);
leases.push_back(&r->item_session_lease);
}
bool is_any_flush_waiter() {
return !waitfor_flush.empty();
}
void add_completed_request(ceph_tid_t t, inodeno_t created) {
info.completed_requests[t] = created;
completed_requests_dirty = true;
}
bool trim_completed_requests(ceph_tid_t mintid) {
// trim
bool erased_any = false;
while (!info.completed_requests.empty() &&
(mintid == 0 || info.completed_requests.begin()->first < mintid)) {
info.completed_requests.erase(info.completed_requests.begin());
erased_any = true;
}
if (erased_any) {
completed_requests_dirty = true;
}
return erased_any;
}
bool have_completed_request(ceph_tid_t tid, inodeno_t *pcreated) const {
auto p = info.completed_requests.find(tid);
if (p == info.completed_requests.end())
return false;
if (pcreated)
*pcreated = p->second;
return true;
}
void add_completed_flush(ceph_tid_t tid) {
info.completed_flushes.insert(tid);
}
bool trim_completed_flushes(ceph_tid_t mintid) {
bool erased_any = false;
while (!info.completed_flushes.empty() &&
(mintid == 0 || *info.completed_flushes.begin() < mintid)) {
info.completed_flushes.erase(info.completed_flushes.begin());
erased_any = true;
}
if (erased_any) {
completed_requests_dirty = true;
}
return erased_any;
}
bool have_completed_flush(ceph_tid_t tid) const {
return info.completed_flushes.count(tid);
}
uint64_t get_num_caps() const {
return caps.size();
}
unsigned get_num_completed_flushes() const { return info.completed_flushes.size(); }
unsigned get_num_trim_flushes_warnings() const {
return num_trim_flushes_warnings;
}
void inc_num_trim_flushes_warnings() { ++num_trim_flushes_warnings; }
void reset_num_trim_flushes_warnings() { num_trim_flushes_warnings = 0; }
unsigned get_num_completed_requests() const { return info.completed_requests.size(); }
unsigned get_num_trim_requests_warnings() const {
return num_trim_requests_warnings;
}
void inc_num_trim_requests_warnings() { ++num_trim_requests_warnings; }
void reset_num_trim_requests_warnings() { num_trim_requests_warnings = 0; }
bool has_dirty_completed_requests() const
{
return completed_requests_dirty;
}
void clear_dirty_completed_requests()
{
completed_requests_dirty = false;
}
int check_access(CInode *in, unsigned mask, int caller_uid, int caller_gid,
const std::vector<uint64_t> *gid_list, int new_uid, int new_gid);
bool fs_name_capable(std::string_view fs_name, unsigned mask) const {
return auth_caps.fs_name_capable(fs_name, mask);
}
void set_connection(ConnectionRef con) {
connection = std::move(con);
auto& c = connection;
if (c) {
info.auth_name = c->get_peer_entity_name();
info.inst.addr = c->get_peer_socket_addr();
info.inst.name = entity_name_t(c->get_peer_type(), c->get_peer_global_id());
}
}
const ConnectionRef& get_connection() const {
return connection;
}
void clear() {
pending_prealloc_inos.clear();
free_prealloc_inos.clear();
delegated_inos.clear();
info.clear_meta();
cap_push_seq = 0;
last_cap_renew = clock::zero();
}
Session *reclaiming_from = nullptr;
session_info_t info; ///< durable bits
MDSAuthCaps auth_caps;
xlist<Session*>::item item_session_list;
std::list<ceph::ref_t<Message>> preopen_out_queue; ///< messages for client, queued before they connect
/* This is mutable to allow get_request_count to be const. elist does not
* support const iterators yet.
*/
mutable elist<MDRequestImpl*> requests;
interval_set<inodeno_t> pending_prealloc_inos; // journaling prealloc, will be added to prealloc_inos
interval_set<inodeno_t> free_prealloc_inos; //
interval_set<inodeno_t> delegated_inos; // hand these out to client
xlist<Capability*> caps; // inodes with caps; front=most recently used
xlist<ClientLease*> leases; // metadata leases to clients
time last_cap_renew = clock::zero();
time last_seen = clock::zero();
// -- leases --
uint32_t lease_seq = 0;
protected:
ConnectionRef connection;
private:
friend class SessionMap;
// Human (friendly) name is soft state generated from client metadata
void _update_human_name();
int state = STATE_CLOSED;
bool reconnecting = false;
uint64_t state_seq = 0;
int importing_count = 0;
std::string human_name;
// Versions in this session was projected: used to verify
// that appropriate mark_dirty calls follow.
std::deque<version_t> projected;
// request load average for this session
DecayCounter load_avg;
// Ephemeral state for tracking progress of capability recalls
// caps being recalled recently by this session; used for Beacon warnings
DecayCounter recall_caps; // caps that have been released
DecayCounter release_caps;
// throttle on caps recalled
DecayCounter recall_caps_throttle;
// second order throttle that prevents recalling too quickly
DecayCounter recall_caps_throttle2o;
// New limit in SESSION_RECALL
uint32_t recall_limit = 0;
// session caps liveness
DecayCounter session_cache_liveness;
// cap acquisition via readdir
DecayCounter cap_acquisition;
// session start time -- used to track average session time
// note that this is initialized in the constructor rather
// than at the time of adding a session to the sessionmap
// as journal replay of sessionmap will not call add_session().
time birth_time;
// -- caps --
uint32_t cap_gen = 0;
version_t cap_push_seq = 0; // cap push seq #
std::map<version_t, MDSContext::vec > waitfor_flush; // flush session messages
// Has completed_requests been modified since the last time we
// wrote this session out?
bool completed_requests_dirty = false;
unsigned num_trim_flushes_warnings = 0;
unsigned num_trim_requests_warnings = 0;
};
class SessionFilter
{
public:
SessionFilter() : reconnecting(false, false) {}
bool match(
const Session &session,
std::function<bool(client_t)> is_reconnecting) const;
int parse(const std::vector<std::string> &args, std::ostream *ss);
void set_reconnecting(bool v)
{
reconnecting.first = true;
reconnecting.second = v;
}
std::map<std::string, std::string> metadata;
std::string auth_name;
std::string state;
int64_t id = 0;
protected:
// First is whether to filter, second is filter value
std::pair<bool, bool> reconnecting;
};
/*
* session map
*/
class MDSRank;
/**
* Encapsulate the serialized state associated with SessionMap. Allows
* encode/decode outside of live MDS instance.
*/
class SessionMapStore {
public:
using clock = Session::clock;
using time = Session::time;
SessionMapStore(): total_load_avg(decay_rate) {}
virtual ~SessionMapStore() {};
version_t get_version() const {return version;}
virtual void encode_header(ceph::buffer::list *header_bl);
virtual void decode_header(ceph::buffer::list &header_bl);
virtual void decode_values(std::map<std::string, ceph::buffer::list> &session_vals);
virtual void decode_legacy(ceph::buffer::list::const_iterator& blp);
void dump(ceph::Formatter *f) const;
void set_rank(mds_rank_t r)
{
rank = r;
}
Session* get_or_add_session(const entity_inst_t& i) {
Session *s;
auto session_map_entry = session_map.find(i.name);
if (session_map_entry != session_map.end()) {
s = session_map_entry->second;
} else {
s = session_map[i.name] = new Session(ConnectionRef());
s->info.inst = i;
s->last_cap_renew = Session::clock::now();
if (logger) {
logger->set(l_mdssm_session_count, session_map.size());
logger->inc(l_mdssm_session_add);
}
}
return s;
}
static void generate_test_instances(std::list<SessionMapStore*>& ls);
void reset_state()
{
session_map.clear();
}
mds_rank_t rank = MDS_RANK_NONE;
protected:
version_t version = 0;
ceph::unordered_map<entity_name_t, Session*> session_map;
PerfCounters *logger =nullptr;
// total request load avg
double decay_rate = g_conf().get_val<double>("mds_request_load_average_decay_rate");
DecayCounter total_load_avg;
};
class SessionMap : public SessionMapStore {
public:
SessionMap() = delete;
explicit SessionMap(MDSRank *m) : mds(m) {}
~SessionMap() override
{
for (auto p : by_state)
delete p.second;
if (logger) {
g_ceph_context->get_perfcounters_collection()->remove(logger);
}
delete logger;
}
uint64_t set_state(Session *session, int state);
void update_average_session_age();
void register_perfcounters();
void set_version(const version_t v)
{
version = projected = v;
}
void set_projected(const version_t v)
{
projected = v;
}
version_t get_projected() const
{
return projected;
}
version_t get_committed() const
{
return committed;
}
version_t get_committing() const
{
return committing;
}
// sessions
void decode_legacy(ceph::buffer::list::const_iterator& blp) override;
bool empty() const { return session_map.empty(); }
const auto& get_sessions() const {
return session_map;
}
bool is_any_state(int state) const {
auto it = by_state.find(state);
if (it == by_state.end() || it->second->empty())
return false;
return true;
}
bool have_unclosed_sessions() const {
return
is_any_state(Session::STATE_OPENING) ||
is_any_state(Session::STATE_OPEN) ||
is_any_state(Session::STATE_CLOSING) ||
is_any_state(Session::STATE_STALE) ||
is_any_state(Session::STATE_KILLING);
}
bool have_session(entity_name_t w) const {
return session_map.count(w);
}
Session* get_session(entity_name_t w) {
auto session_map_entry = session_map.find(w);
return (session_map_entry != session_map.end() ?
session_map_entry-> second : nullptr);
}
const Session* get_session(entity_name_t w) const {
ceph::unordered_map<entity_name_t, Session*>::const_iterator p = session_map.find(w);
if (p == session_map.end()) {
return NULL;
} else {
return p->second;
}
}
void add_session(Session *s);
void remove_session(Session *s);
void touch_session(Session *session);
Session *get_oldest_session(int state) {
auto by_state_entry = by_state.find(state);
if (by_state_entry == by_state.end() || by_state_entry->second->empty())
return 0;
return by_state_entry->second->front();
}
void dump();
template<typename F>
void get_client_sessions(F&& f) const {
for (const auto& p : session_map) {
auto& session = p.second;
if (session->info.inst.name.is_client())
f(session);
}
}
template<typename C>
void get_client_session_set(C& c) const {
auto f = [&c](auto& s) {
c.insert(s);
};
get_client_sessions(f);
}
// helpers
entity_inst_t& get_inst(entity_name_t w) {
ceph_assert(session_map.count(w));
return session_map[w]->info.inst;
}
version_t get_push_seq(client_t client) {
return get_session(entity_name_t::CLIENT(client.v))->get_push_seq();
}
bool have_completed_request(metareqid_t rid) {
Session *session = get_session(rid.name);
return session && session->have_completed_request(rid.tid, NULL);
}
void trim_completed_requests(entity_name_t c, ceph_tid_t tid) {
Session *session = get_session(c);
ceph_assert(session);
session->trim_completed_requests(tid);
}
void wipe();
void wipe_ino_prealloc();
object_t get_object_name() const;
void load(MDSContext *onload);
void _load_finish(
int operation_r,
int header_r,
int values_r,
bool first,
ceph::buffer::list &header_bl,
std::map<std::string, ceph::buffer::list> &session_vals,
bool more_session_vals);
void load_legacy();
void _load_legacy_finish(int r, ceph::buffer::list &bl);
void save(MDSContext *onsave, version_t needv=0);
void _save_finish(version_t v);
/**
* Advance the version, and mark this session
* as dirty within the new version.
*
* Dirty means journalled but needing writeback
* to the backing store. Must have called
* mark_projected previously for this session.
*/
void mark_dirty(Session *session, bool may_save=true);
/**
* Advance the projected version, and mark this
* session as projected within the new version
*
* Projected means the session is updated in memory
* but we're waiting for the journal write of the update
* to finish. Must subsequently call mark_dirty
* for sessions in the same global order as calls
* to mark_projected.
*/
version_t mark_projected(Session *session);
/**
* During replay, advance versions to account
* for a session modification, and mark the
* session dirty.
*/
void replay_dirty_session(Session *session);
/**
* During replay, if a session no longer present
* would have consumed a version, advance `version`
* and `projected` to account for that.
*/
void replay_advance_version();
/**
* During replay, open sessions, advance versions and
* mark these sessions as dirty.
*/
void replay_open_sessions(version_t event_cmapv,
std::map<client_t,entity_inst_t>& client_map,
std::map<client_t,client_metadata_t>& client_metadata_map);
/**
* For these session IDs, if a session exists with this ID, and it has
* dirty completed_requests, then persist it immediately
* (ahead of usual project/dirty versioned writes
* of the map).
*/
void save_if_dirty(const std::set<entity_name_t> &tgt_sessions,
MDSGatherBuilder *gather_bld);
void hit_session(Session *session);
void handle_conf_change(const std::set <std::string> &changed);
MDSRank *mds;
std::map<int,xlist<Session*>*> by_state;
std::map<version_t, MDSContext::vec> commit_waiters;
// -- loading, saving --
inodeno_t ino;
MDSContext::vec waiting_for_load;
protected:
void _mark_dirty(Session *session, bool may_save);
version_t projected = 0, committing = 0, committed = 0;
std::set<entity_name_t> dirty_sessions;
std::set<entity_name_t> null_sessions;
bool loaded_legacy = false;
private:
uint64_t get_session_count_in_state(int state) {
return !is_any_state(state) ? 0 : by_state[state]->size();
}
void update_average_birth_time(const Session &s, bool added=true) {
uint32_t sessions = session_map.size();
time birth_time = s.get_birth_time();
if (sessions == 1) {
avg_birth_time = added ? birth_time : clock::zero();
return;
}
if (added) {
avg_birth_time = clock::time_point(
((avg_birth_time - clock::zero()) / sessions) * (sessions - 1) +
(birth_time - clock::zero()) / sessions);
} else {
avg_birth_time = clock::time_point(
((avg_birth_time - clock::zero()) / (sessions - 1)) * sessions -
(birth_time - clock::zero()) / (sessions - 1));
}
}
time avg_birth_time = clock::zero();
};
std::ostream& operator<<(std::ostream &out, const Session &s);
#endif
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