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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.
*
*/
/* Object Store Device (OSD) Monitor
*/
#ifndef CEPH_OSDMONITOR_H
#define CEPH_OSDMONITOR_H
#include <map>
#include <set>
using namespace std;
#include "include/types.h"
#include "msg/Messenger.h"
#include "osd/OSDMap.h"
#include "PaxosService.h"
#include "Session.h"
class Monitor;
#include "messages/MOSDBoot.h"
#include "messages/MMonCommand.h"
#include "messages/MOSDMap.h"
#include "messages/MOSDFailure.h"
#include "messages/MPoolOp.h"
/// information about a particular peer's failure reports for one osd
struct failure_reporter_t {
int num_reports; ///< reports from this reporter
utime_t failed_since; ///< when they think it failed
MOSDFailure *msg; ///< most recent failure message
failure_reporter_t() : num_reports(0), msg(NULL) {}
failure_reporter_t(utime_t s) : num_reports(1), failed_since(s), msg(NULL) {}
};
/// information about all failure reports for one osd
struct failure_info_t {
map<int, failure_reporter_t> reporters; ///< reporter -> # reports
utime_t max_failed_since; ///< most recent failed_since
int num_reports;
failure_info_t() : num_reports(0) {}
utime_t get_failed_since() {
if (max_failed_since == utime_t() && reporters.size()) {
// the old max must have canceled; recalculate.
for (map<int, failure_reporter_t>::iterator p = reporters.begin();
p != reporters.end();
++p)
if (p->second.failed_since > max_failed_since)
max_failed_since = p->second.failed_since;
}
return max_failed_since;
}
// set the message for the latest report. return any old message we had,
// if any, so we can discard it.
MOSDFailure *add_report(int who, utime_t failed_since, MOSDFailure *msg) {
map<int, failure_reporter_t>::iterator p = reporters.find(who);
if (p == reporters.end()) {
if (max_failed_since == utime_t())
max_failed_since = failed_since;
else if (max_failed_since < failed_since)
max_failed_since = failed_since;
p = reporters.insert(map<int, failure_reporter_t>::value_type(who, failure_reporter_t(failed_since))).first;
} else {
p->second.num_reports++;
}
num_reports++;
MOSDFailure *ret = p->second.msg;
p->second.msg = msg;
return ret;
}
void take_report_messages(list<MOSDFailure*>& ls) {
for (map<int, failure_reporter_t>::iterator p = reporters.begin();
p != reporters.end();
++p) {
if (p->second.msg) {
ls.push_back(p->second.msg);
p->second.msg = NULL;
}
}
}
void cancel_report(int who) {
map<int, failure_reporter_t>::iterator p = reporters.find(who);
if (p == reporters.end())
return;
num_reports -= p->second.num_reports;
reporters.erase(p);
if (reporters.empty())
max_failed_since = utime_t();
}
};
class OSDMonitor : public PaxosService {
public:
OSDMap osdmap;
private:
map<epoch_t, list<PaxosServiceMessage*> > waiting_for_map;
// [leader]
OSDMap::Incremental pending_inc;
map<int, failure_info_t> failure_info;
map<int,utime_t> down_pending_out; // osd down -> out
map<int,double> osd_weight;
void check_failures(utime_t now);
bool check_failure(utime_t now, int target_osd, failure_info_t& fi);
// map thrashing
int thrash_map;
int thrash_last_up_osd;
bool thrash();
// svc
public:
void create_initial();
private:
void update_from_paxos();
void create_pending(); // prepare a new pending
void encode_pending(bufferlist &bl);
void on_active();
void update_msgr_features();
void share_map_with_random_osd();
void update_logger();
void handle_query(PaxosServiceMessage *m);
bool preprocess_query(PaxosServiceMessage *m); // true if processed.
bool prepare_update(PaxosServiceMessage *m);
bool should_propose(double &delay);
bool can_mark_down(int o);
bool can_mark_up(int o);
bool can_mark_out(int o);
bool can_mark_in(int o);
// ...
void send_to_waiting(); // send current map to waiters.
MOSDMap *build_latest_full();
MOSDMap *build_incremental(epoch_t first, epoch_t last);
void send_full(PaxosServiceMessage *m);
void send_incremental(PaxosServiceMessage *m, epoch_t first);
void send_incremental(epoch_t first, entity_inst_t& dest, bool onetime);
void remove_redundant_pg_temp();
void remove_down_pg_temp();
int reweight_by_utilization(int oload, std::string& out_str);
bool preprocess_failure(class MOSDFailure *m);
bool prepare_failure(class MOSDFailure *m);
void process_failures();
void kick_all_failures();
bool preprocess_boot(class MOSDBoot *m);
bool prepare_boot(class MOSDBoot *m);
void _booted(MOSDBoot *m, bool logit);
bool preprocess_alive(class MOSDAlive *m);
bool prepare_alive(class MOSDAlive *m);
void _reply_map(PaxosServiceMessage *m, epoch_t e);
bool preprocess_pgtemp(class MOSDPGTemp *m);
bool prepare_pgtemp(class MOSDPGTemp *m);
int _prepare_remove_pool(uint64_t pool);
int _prepare_rename_pool(uint64_t pool, string newname);
bool preprocess_pool_op ( class MPoolOp *m);
bool preprocess_pool_op_create ( class MPoolOp *m);
bool prepare_pool_op (MPoolOp *m);
bool prepare_pool_op_create (MPoolOp *m);
bool prepare_pool_op_delete(MPoolOp *m);
bool prepare_pool_op_auid(MPoolOp *m);
int prepare_new_pool(string& name, uint64_t auid, int crush_rule,
unsigned pg_num, unsigned pgp_num);
int prepare_new_pool(MPoolOp *m);
bool prepare_set_flag(MMonCommand *m, int flag);
bool prepare_unset_flag(MMonCommand *m, int flag);
void _pool_op_reply(MPoolOp *m, int ret, epoch_t epoch, bufferlist *blp=NULL);
struct C_Booted : public Context {
OSDMonitor *cmon;
MOSDBoot *m;
bool logit;
C_Booted(OSDMonitor *cm, MOSDBoot *m_, bool l=true) :
cmon(cm), m(m_), logit(l) {}
void finish(int r) {
if (r == -ECANCELED) {
if (m)
m->put();
return;
}
if (r >= 0)
cmon->_booted(m, logit);
else
cmon->dispatch((PaxosServiceMessage*)m);
}
};
struct C_ReplyMap : public Context {
OSDMonitor *osdmon;
PaxosServiceMessage *m;
epoch_t e;
C_ReplyMap(OSDMonitor *o, PaxosServiceMessage *mm, epoch_t ee) : osdmon(o), m(mm), e(ee) {}
void finish(int r) {
if (r == -ECANCELED) {
if (m)
m->put();
return;
}
osdmon->_reply_map(m, e);
}
};
struct C_PoolOp : public Context {
OSDMonitor *osdmon;
MPoolOp *m;
int replyCode;
int epoch;
bufferlist reply_data;
C_PoolOp(OSDMonitor * osd, MPoolOp *m_, int rc, int e, bufferlist *rd=NULL) :
osdmon(osd), m(m_), replyCode(rc), epoch(e) {
if (rd)
reply_data = *rd;
}
void finish(int r) {
if (r == -ECANCELED) {
if (m)
m->put();
return;
}
osdmon->_pool_op_reply(m, replyCode, epoch, &reply_data);
}
};
bool preprocess_remove_snaps(class MRemoveSnaps *m);
bool prepare_remove_snaps(class MRemoveSnaps *m);
public:
OSDMonitor(Monitor *mn, Paxos *p);
void tick(); // check state, take actions
int parse_osd_id(const char *s, stringstream *pss);
void parse_loc_map(const vector<string>& args, int start, map<string,string> *ploc);
void get_health(list<pair<health_status_t,string> >& summary,
list<pair<health_status_t,string> > *detail) const;
bool preprocess_command(MMonCommand *m);
bool prepare_command(MMonCommand *m);
void handle_osd_timeouts(const utime_t &now,
std::map<int,utime_t> &last_osd_report);
void mark_all_down();
void send_latest(PaxosServiceMessage *m, epoch_t start=0);
void send_latest_now_nodelete(PaxosServiceMessage *m, epoch_t start=0) {
send_incremental(m, start);
}
epoch_t blacklist(const entity_addr_t& a, utime_t until);
void dump_info(Formatter *f);
void check_subs();
void check_sub(Subscription *sub);
void add_flag(int flag) {
if (!(osdmap.flags & flag)) {
if (pending_inc.new_flags < 0)
pending_inc.new_flags = osdmap.flags;
pending_inc.new_flags |= flag;
}
}
void remove_flag(int flag) {
if(osdmap.flags & flag) {
if (pending_inc.new_flags < 0)
pending_inc.new_flags = osdmap.flags;
pending_inc.new_flags &= ~flag;
}
}
};
#endif
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