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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_WATCH_H
#define CEPH_WATCH_H
#include <set>
#include "msg/Connection.h"
#include "include/Context.h"
enum WatcherState {
WATCHER_PENDING,
WATCHER_NOTIFIED,
};
class OSDService;
class PrimaryLogPG;
void intrusive_ptr_add_ref(PrimaryLogPG *pg);
void intrusive_ptr_release(PrimaryLogPG *pg);
struct ObjectContext;
class MWatchNotify;
class Watch;
typedef std::shared_ptr<Watch> WatchRef;
typedef std::weak_ptr<Watch> WWatchRef;
class Notify;
typedef std::shared_ptr<Notify> NotifyRef;
typedef std::weak_ptr<Notify> WNotifyRef;
struct CancelableContext;
/**
* Notify tracks the progress of a particular notify
*
* References are held by Watch and the timeout callback.
*/
class Notify {
friend class NotifyTimeoutCB;
friend class Watch;
WNotifyRef self;
ConnectionRef client;
uint64_t client_gid;
bool complete;
bool discarded;
bool timed_out; ///< true if the notify timed out
std::set<WatchRef> watchers;
ceph::buffer::list payload;
uint32_t timeout;
uint64_t cookie;
uint64_t notify_id;
uint64_t version;
OSDService *osd;
CancelableContext *cb;
ceph::mutex lock = ceph::make_mutex("Notify::lock");
/// (gid,cookie) -> reply_bl for everyone who acked the notify
std::multimap<std::pair<uint64_t,uint64_t>, ceph::buffer::list> notify_replies;
/// true if this notify is being discarded
bool is_discarded() {
return discarded || complete;
}
/// Sends notify completion if watchers.empty() or timeout
void maybe_complete_notify();
/// Called on Notify timeout
void do_timeout();
Notify(
ConnectionRef client,
uint64_t client_gid,
ceph::buffer::list& payload,
uint32_t timeout,
uint64_t cookie,
uint64_t notify_id,
uint64_t version,
OSDService *osd);
/// registers a timeout callback with the watch_timer
void register_cb();
/// removes the timeout callback, called on completion or cancellation
void unregister_cb();
public:
std::ostream& gen_dbg_prefix(std::ostream& out) {
return out << "Notify(" << std::make_pair(cookie, notify_id) << " "
<< " watchers=" << watchers.size()
<< ") ";
}
void set_self(NotifyRef _self) {
self = _self;
}
static NotifyRef makeNotifyRef(
ConnectionRef client,
uint64_t client_gid,
ceph::buffer::list &payload,
uint32_t timeout,
uint64_t cookie,
uint64_t notify_id,
uint64_t version,
OSDService *osd);
/// Call after creation to initialize
void init();
/// Called once per watcher prior to init()
void start_watcher(
WatchRef watcher ///< [in] watcher to complete
);
/// Called once per NotifyAck
void complete_watcher(
WatchRef watcher, ///< [in] watcher to complete
ceph::buffer::list& reply_bl ///< [in] reply buffer from the notified watcher
);
/// Called when a watcher unregisters or times out
void complete_watcher_remove(
WatchRef watcher ///< [in] watcher to complete
);
/// Called when the notify is canceled due to a new peering interval
void discard();
};
/**
* Watch is a mapping between a Connection and an ObjectContext
*
* References are held by ObjectContext and the timeout callback
*/
class HandleWatchTimeout;
class HandleDelayedWatchTimeout;
class Watch {
WWatchRef self;
friend class HandleWatchTimeout;
friend class HandleDelayedWatchTimeout;
ConnectionRef conn;
CancelableContext *cb;
OSDService *osd;
boost::intrusive_ptr<PrimaryLogPG> pg;
std::shared_ptr<ObjectContext> obc;
std::map<uint64_t, NotifyRef> in_progress_notifies;
// Could have watch_info_t here, but this file includes osd_types.h
uint32_t timeout; ///< timeout in seconds
uint64_t cookie;
entity_addr_t addr;
bool will_ping; ///< is client new enough to ping the watch
utime_t last_ping; ///< last client ping
entity_name_t entity;
bool discarded;
Watch(
PrimaryLogPG *pg, OSDService *osd,
std::shared_ptr<ObjectContext> obc, uint32_t timeout,
uint64_t cookie, entity_name_t entity,
const entity_addr_t& addr);
/// Registers the timeout callback with watch_timer
void register_cb();
/// send a Notify message when connected for notif
void send_notify(NotifyRef notif);
/// Cleans up state on discard or remove (including Connection state, obc)
void discard_state();
public:
/// Unregisters the timeout callback
void unregister_cb();
/// note receipt of a ping
void got_ping(utime_t t);
utime_t get_last_ping() const {
return last_ping;
}
/// True if currently connected
bool is_connected() const {
return conn.get() != NULL;
}
bool is_connected(Connection *con) const {
return conn.get() == con;
}
/// NOTE: must be called with pg lock held
~Watch();
uint64_t get_watcher_gid() const {
return entity.num();
}
std::ostream& gen_dbg_prefix(std::ostream& out);
static WatchRef makeWatchRef(
PrimaryLogPG *pg, OSDService *osd,
std::shared_ptr<ObjectContext> obc, uint32_t timeout, uint64_t cookie, entity_name_t entity, const entity_addr_t &addr);
void set_self(WatchRef _self) {
self = _self;
}
/// Does not grant a ref count!
boost::intrusive_ptr<PrimaryLogPG> get_pg() { return pg; }
std::shared_ptr<ObjectContext> get_obc() { return obc; }
uint64_t get_cookie() const { return cookie; }
entity_name_t get_entity() const { return entity; }
entity_addr_t get_peer_addr() const { return addr; }
uint32_t get_timeout() const { return timeout; }
/// Generates context for use if watch timeout is delayed by scrub or recovery
Context *get_delayed_cb();
/// Transitions Watch to connected, unregister_cb, resends pending Notifies
void connect(
ConnectionRef con, ///< [in] Reference to new connection
bool will_ping ///< [in] client is new and will send pings
);
/// Transitions watch to disconnected, register_cb
void disconnect();
/// Called if Watch state is discarded due to new peering interval
void discard();
/// True if removed or discarded
bool is_discarded() const;
/// Called on unwatch
void remove(bool send_disconnect);
/// Adds notif as in-progress notify
void start_notify(
NotifyRef notif ///< [in] Reference to new in-progress notify
);
/// Removes timed out notify
void cancel_notify(
NotifyRef notif ///< [in] notify which timed out
);
/// Call when notify_ack received on notify_id
void notify_ack(
uint64_t notify_id, ///< [in] id of acked notify
ceph::buffer::list& reply_bl ///< [in] notify reply buffer
);
};
/**
* Holds weak refs to Watch structures corresponding to a connection
* Lives in the Session object of an OSD connection
*/
class WatchConState {
ceph::mutex lock = ceph::make_mutex("WatchConState");
std::set<WatchRef> watches;
public:
CephContext* cct;
explicit WatchConState(CephContext* cct) : cct(cct) {}
/// Add a watch
void addWatch(
WatchRef watch ///< [in] Ref to new watch object
);
/// Remove a watch
void removeWatch(
WatchRef watch ///< [in] Ref to watch object to remove
);
/// Called on session reset, disconnects watchers
void reset(Connection *con);
};
#endif
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